CN110064971A - Machine tool system and Surface Roughness Detecting Method - Google Patents

Abstract

Project of the present invention is to provide the machine tool system for the shape that can suitably measure workpiece, the suitably machine tool system of the surface roughness of operation workpiece is provided and using machine tool system Surface Roughness Detecting Method and have the dirty degree that sensor can be set in can body and coolant liquid can be evaluated coolant liquid dirty evaluating apparatus machine tool system.Machine tool system has: work-supporting means (20), and workpiece (W) bearing can be rotated；As the grinding wheel (40) of tool, workpiece W is processed；Test section (120) carries out the sensing detection of workpiece (W) in a non-contact manner；And operational part (220), it is based on the surface roughness progress operation of the testing result of test section (120) and extraction or workpiece (W) to the shape information of workpiece (W).

Description

Machine tool system and Surface Roughness Detecting Method

The application be the applying date be on 04 25th, 2017, application No. is 201780025440.4, entitled " lathes The divisional application of the application of system and Surface Roughness Detecting Method ".

Technical field

The present invention relates to machine tool system and use the Surface Roughness Detecting Method of machine tool system.

Background technique

Patent document 1 records the dimension measurement dress being measured to the outer diameter of the workpiece supported by work-supporting means It sets.Dimension measurement device makes the workpiece rotation supported by work-supporting means by one side, makes the table of contact and workpiece on one side Thus face contact measures the outer diameter of workpiece in equipment.

The open surface roughness measurement device of patent document 2, by making the contact pilotage by cantilever support to connect with product When the state of touching is mobile, displacement caused by contact pilotage is detected, to measure the surface shape of product.

Patent document 3 record and keep plus-pressure constant and carry out level perssure feed attrition process and make amount of movement at Relevant technology is processed for constant quantitative feed grinding.In addition, patent document 4 records: being moved with the constant incision direction that presses to It is dynamic, terminate attrition process when reaching defined approach.

Patent document 5 discloses the correlativity for the surface roughness for preparing the waveform and sensor that indicate AE wave in advance Data, and the data are based on, the technology of the surface roughness of product is inferred according to the waveform of the AE wave detected.

Patent document 6 discloses following technology, i.e., surveys in grinding to the size of the grinding object surface of workpiece W It is fixed, the speed of grinding and feeding is reduced in the case where the size of the grinding object surface reaches specified value, thus makes to be ground object surface Surface roughness become desired state.

In addition, the coolant liquid of lathe is recovered to tank after being supplied in machining area, it is supplied in machining area again.It is processing The coolant liquid that region is recycled with tank is generally arranged in circulating path and filters due to fouling turbid comprising chip, dust angstrom etc. Device realizes the purification of coolant liquid.But coolant liquid can not be fully cleaned up by filter, it is therefore desirable to regularly replace dirt Coolant liquid.

In this regard, patent document 7 discloses: passing through the light sensing in the pipeline setting recycled from machining area to tank Device, pressure sensor manage the dirty degree of coolant liquid, the technology judged the replacement period of coolant liquid.

Patent document 8 records: air-flow feed path is formed being equipped with non-contact sensor head, by from the air-flow Feed path sprays clean air, to prevent from adhering to the measuring device of dust, mist of oil in non-contact sensor.

Patent document 1: Japanese Unexamined Patent Publication 2014-144518 bulletin

Patent document 2: Japanese Unexamined Patent Publication 2006-300823 bulletin

Patent document 3: Japanese Unexamined Patent Publication 11-291156 bulletin

Patent document 4: Japanese Unexamined Patent Publication 2000-198063 bulletin

Patent document 5: Japanese Unexamined Patent Publication 2012-196740 bulletin

Patent document 6: Japanese Unexamined Patent Publication 2004-42199 bulletin

Patent document 7: Japanese Unexamined Patent Publication 2001-219338 bulletin

Patent document 8: Japanese Unexamined Patent Publication 2010-44042 bulletin

Dimension measurement device documented by patent document 1 needs to make to contact in the case where the outer diameter to workpiece is measured Part is contacted with workpiece.In this case, probably the contact with contact with workpiece has been thus generation abrades on the surface of workpiece.

Surface roughness measurement device documented by patent document 2 makes axial traversing of the contact pilotage along crank-pin, thus surveys Determine the surface roughness of the cylindrical portion of crank-pin, therefore be directed to the position not parallel relative to traversing direction, the portion can not be measured The surface roughness of position.

For the existing attrition process documented by the patent document 3 and patent document 4, so that the process finishing moment The surface state of workpiece become the mode of desired state to set the pressure of permanent constant DP control or quantitative feeding control The amount of feeding.In this case, the surface state of the workpiece at process finishing moment does not become desired state, inspection after processing Cha Zhong is probably determined as unqualified.

Technology documented by patent document 5 only infers the technology of the surface roughness of product after all, is not based on The result of actual measurement calculates the surface roughness of product.

In the technology described in patent document 6, the surface of grinding object surface is speculated according to the size of grinding object surface Roughness adjusts the speed of grinding and feeding using the surface roughness of the supposition as standard.In this case, probably will not office It is limited to situation of the surface roughness of actual grinding object surface as speculating, there are also can not at the time of grinding terminates The case where making the surface roughness for being ground object surface become desired state.

About patent document 7, other than optical sensor, pressure sensor are set to from machining area to the circulation line of tank More it is not easy.

In the technology described in patent document 8, it when measuring the shape of checking matter by measuring device, needs to utilize Checking matter after the process finishing that processing equipment carries out is carried on the workbench of measuring device.In particular, larger in checking matter In the case where type, the movement from processing equipment to measuring device needs the time, therefore technical efficiency documented by patent document 8 is not It is high.

Summary of the invention

It is an object of that present invention to provide the machine tool systems for the shape that can suitably measure workpiece.In addition, the object of the invention It is to provide the suitably machine tool system of the surface roughness of operation workpiece and is detected using the surface roughness of machine tool system Method.In addition, it is an object of that present invention to provide sensor can be arranged in can body and have the dirt that can evaluate coolant liquid The machine tool system of the dirty evaluating apparatus of the coolant liquid of degree.

First machine tool system has: work-supporting means, is that can rotate by work mounting s；Tool, to above-mentioned work Part is processed；Test section by shining towards the above-mentioned workpiece supported by above-mentioned work-supporting means, and receives to come from The reflected light on the surface of above-mentioned workpiece, to carry out the sensing detection of above-mentioned workpiece in a non-contact manner；And operational part, Testing result based on above-mentioned test section and the surface roughness of extraction or above-mentioned workpiece to the shape information of above-mentioned workpiece Operation is carried out, above-mentioned test section carries out sensing detection in the state of making above-mentioned workpiece rotation, and above-mentioned operational part has determination unit, The determination unit will be removed from the light interception data that above-mentioned test section is received or be extracted out on obtained from specific frequency content State the shape information of workpiece with and the relevant baseline threshold of shape information of above-mentioned workpiece compared with, carry out the shape with above-mentioned workpiece Relevant judgement.

According to machine tool system, test section carries out the sensing detection of workpiece in a non-contact manner.Moreover, operational part is based on inspection The testing result in survey portion and the shape information for extracting workpiece out.Machine tool system does not contact with workpiece and is able to carry out workpiece as a result, The extraction of shape information.

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It is preferred that: light income of the above-mentioned operational part based on above-mentioned test section and extract the distance away from above-mentioned workpiece out, in above-mentioned inspection The received light income of institute, survey portion is in said reference threshold value situation below, and above-mentioned determination unit is determined as that above-mentioned outer diameter reaches and wishes The size of prestige.According to the machine tool system, sensor shines towards the workpiece supported by work-supporting means, and receives by work The reflected light of the surface reflection of part.Moreover, determining in the case where the light income that test section is received becomes baseline threshold situation below Portion is determined as that outer diameter reaches desired size.Whether the outer diameter that machine tool system can not contact with workpiece and carry out workpiece W reaches To the judgement of desired size.

It is preferred that: above-mentioned operational part extracts rotating and excursion ingredient caused by above-mentioned workpiece out.The machine tool system can not be with work Part contacts and carries out the judgement whether workpiece generates rotating and excursion.

It is preferred that: above-mentioned workpiece is formed with cylindrical shape, and above-mentioned operational part is based on from the rotatable phase relative to above-mentioned workpiece Above-mentioned light income information eliminate above-mentioned workpiece rotating and excursion ingredient light interception data, abstraction away from above-mentioned workpiece away from From.Whether the outer diameter that the machine tool system can correctly carry out workpiece W reaches the judgement of desired size.

It is preferred that: above-mentioned workpiece is formed with cylindrical shape, and above-mentioned operational part is based on from the rotatable phase relative to above-mentioned workpiece Above-mentioned light income information eliminate above-mentioned workpiece rotating and excursion ingredient light interception data, as above-mentioned shape information Extract circularity ingredient out.The machine tool system can not contact with workpiece and carry out information relevant with the circularity of workpiece.

It is preferred that: above-mentioned operational part, which is extracted out, trembles ingredient caused by above-mentioned workpiece.The machine tool system can not connect with workpiece It touches and carries out the judgement whether workpiece generates trembling.

It is preferred that: above-mentioned workpiece is cam, above-mentioned operational part based on from the rotatable phase relative to above-mentioned workpiece it is above-mentioned by The information of light quantity eliminates the light interception data of the rotating and excursion ingredient of above-mentioned workpiece, extracts cam out as above-mentioned shape information The ingredient of profile.The machine tool system can not contact with workpiece W and extract information relevant with cam contour out.

Second machine tool system has: work-supporting means, is that can rotate by work mounting s；Tool, to above-mentioned work Part is processed；The main body of strip, with rodlike formation；Driving portion assigns the driving for being pivoted aforementioned body Power；Test section is fixed on the lateral surface of the front end side of aforementioned body, and supported by direction by above-mentioned work-supporting means Above-mentioned workpiece shines, and receives the reflected light on the surface from above-mentioned workpiece, to carry out above-mentioned work in a non-contact manner The sensing detection of part；Operational part, the surface roughness of the testing result based on above-mentioned test section and the above-mentioned workpiece of operation；And Control device, carries out control relevant to above-mentioned test section and above-mentioned driving portion, and above-mentioned control device makes above-mentioned detection In the state that portion has approached above-mentioned workpiece, rotate above-mentioned test section around the axis of aforementioned body, thus to the court in above-mentioned workpiece It is detected to the surface roughness at different more than two positions.

The machine tool system can by make test section around main body axis rotate, come detect in workpiece towards different two The surface roughness above position, therefore can be carried out efficiently the detection of the surface roughness of workpiece.

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It is preferred that: above-mentioned tool is the grinding wheel for being ground above-mentioned workpiece, and above-mentioned test section is above-mentioned to being crossed by above-mentioned wheel grinding The surface roughness of workpiece is detected, and above-mentioned machine tool system determines to examine based on the surface roughness detected by above-mentioned test section The condition of the grinding carried out after survey.

The machine tool system determines the condition of grinding based on the surface roughness for the workpiece crossed by wheel grinding, with the decision Condition carry out subsequent grinding, therefore can be carried out efficiently grinding, and reliably make the surface roughness of workpiece As desired state.

It is preferred that: in the case where the surface roughness detected is greater than defined threshold, above-mentioned machine tool system is determined by above-mentioned The surface roughness of test section detection becomes condition of the above-mentioned threshold value condition below as the grinding carried out after detection, and at this It is ground under conditions of determining.The machine tool system can obtain desired surface roughness at the end of grinding.

It is preferred that: above-mentioned machine tool system has: main body, with rodlike formation, and is fixed with above-mentioned test section in front end side；With First air releasing portion releases from supply source towards the detection zone being formed between above-mentioned test section and above-mentioned workpiece and supplies Air.

According to the machine tool system, test section is fixed on the front end side of the main body of rodlike formation, therefore machine tool system can The state that is supported by work-supporting means of workpiece is kept to carry out the detection of the surface roughness of sensor-based workpiece.That is, Machine tool system does not need in order to carry out the detection of surface roughness and by the workpiece supported by work-supporting means to other positions The operation of carrying etc can be realized the raising of operating efficiency when carrying out sensor-based sensing detection.

In addition, machine tool system has: towards detection zone deflationary first air releasing portion, therefore can prevent attached Disperse in the foreign matter of workpiece towards test section.In addition, machine tool system, which is able to suppress the water mist comprising chip etc., enters detection zone Domain, therefore when the surface roughness to workpiece detects, it is able to maintain that its detection accuracy.

Second machine tool system is the machine tool system having in the dirty evaluating apparatus for the can body setting for stockpiling coolant liquid, on It states dirty evaluating apparatus to have: the reflection component that can be impregnated in the liquid of above-mentioned coolant liquid；Test section is set to above-mentioned tank Main body, and the sensing detection of above-mentioned reflection component is carried out in a non-contact manner；And operational part, it is based on above-mentioned test section Testing result carry out operation, above-mentioned test section has: light-emitting component, towards above-mentioned reflection component shine；And light receiving element, Receive the reflected light from above-mentioned reflection component, above-mentioned operational part be determined based on the light income of above-mentioned light receiving element it is above-mentioned cold But the dirty evaluation section of liquid.

According to the second machine tool system, light-emitting component is towards the reflecting part that impregnates in the liquid for the coolant liquid for being accumulated in can body Part shines, and light receiving element receives the reflected light.The dirty degree of coolant liquid is evaluated based on the light income of light receiving element, therefore is based on The evaluation will appreciate that the replacement period appropriate of coolant liquid.In addition, test section is set to can body, therefore it can be improved lathe The design freedom of system.

Surface Roughness Detecting Method of the invention is to be detected by test section using machine tool system by tool processes mistake Workpiece surface roughness Surface Roughness Detecting Method, which has: work-supporting means, by workpiece branch It holds as that can rotate；Tool processes above-mentioned workpiece；Test section carries out above-mentioned workpiece in a non-contact manner Sensing detection；Operational part, the testing result based on above-mentioned test section come the extraction of the shape information of the above-mentioned workpiece of operation or The surface roughness of above-mentioned workpiece；The main body of strip, with rodlike formation；And driving portion, it assigns for making aforementioned body The driving force being pivoted, above-mentioned test section is fixed on the lateral surface of the front end side of aforementioned body, in a non-contact manner to upper The surface roughness for stating workpiece is detected, and above-mentioned machine tool system is right by rotating above-mentioned test section around the axis of aforementioned body The surface roughness towards different more than two positions in above-mentioned workpiece is detected.

According to the Surface Roughness Detecting Method, machine tool system is by rotating test section around the axis of main body, to detect The surface roughness towards different more than two positions in workpiece, therefore can be carried out efficiently the rough surface of workpiece The detection of degree.

Detailed description of the invention

Fig. 1 is the top view of the grinding machine of first embodiment of the invention.

Fig. 2 is the figure for indicating to detect the situation of the shape information of the workpiece in grinding using sensor.

Fig. 3 is the cross-sectional view of test section.

Fig. 4 is the block diagram of control device.

Fig. 5 is to indicate the workpiece shown in the case where carrying out FFT parsing to the light interception data obtained from sensor Shape information and frequency range relationship figure.

Fig. 6 A is to indicate to carry out sensor-based sensing detection relative to the workpiece for producing rotating and excursion, and to obtaining The light interception data obtained has carried out the figure of the result of FFT parsing.

Fig. 6 B be indicate to carry out sensor-based sensing detection relative to the workpiece for producing trembling, and to acquisition by Light quantity data have carried out the figure of the result of FFT parsing.

Fig. 7 A is the flow chart for the size discrimination processing for indicating to be executed by size discrimination portion.

Fig. 7 B is light income, the figure with the relationship at a distance from from sensor to workpiece for indicating sensor and being received.

Fig. 8 is the flow chart for indicating the rotating and excursion determination processing executed by rotating and excursion determination unit.

Fig. 9 is the flow chart for indicating the trembling determination processing executed by trembling determination unit.

Figure 10 is the flow chart for indicating the circularity determination processing executed by circularity determination unit.

Figure 11 is the top view of the grinding machine of second embodiment.

Figure 12 is the block diagram of control device.

Figure 13 is the flow chart of the cam contour determination processing executed by cam contour determination unit.

Figure 14 is the top view of the grinding machine of third embodiment.

Figure 15 is the figure for indicating to detect the situation of the surface roughness of the workpiece in grinding using sensor.

Figure 16 A is the figure for indicating to be carried out the situation of the grinding of workpiece by grinding wheel.

Figure 16 B is the grinding for indicating to be carried out workpiece by grinding wheel on one side, the position terminated on one side relative to grinding Carry out the figure of the situation of the detection of sensor-based surface roughness.

Figure 17 is the figure for indicating to carry out the situation of the detection of the surface roughness of workpiece while making sensor rotation.

Figure 18 is the perspective view of the machining center of the 4th embodiment.

Figure 19 is the figure for indicating to detect the situation of the surface roughness of workpiece using sensor.

Figure 20 is the top view of the grinding machine of the 5th embodiment.

Figure 21 is the block diagram of control device.

Figure 22 is the top view of the grinding machine of sixth embodiment.

Figure 23 is the block diagram of control device.

Figure 24 A is the figure for indicating to be carried out the situation of the grinding of workpiece by grinding wheel.

Figure 24 B is the grinding for indicating to be carried out workpiece by grinding wheel on one side, is carried out on one side to the position of grinding process finishing The figure of the situation of the detection of sensor-based surface roughness.

Figure 24 C is to indicate to implement sensor-based rough surface to having carried out the workpiece after the grinding based on grinding wheel The figure of the situation of the detection of degree.

Figure 25 is the top view of the grinding machine of the 7th embodiment of the invention.

Figure 26 is the block diagram of control device.

Figure 27 is the figure for indicating the feed speed of grinding wheel stand when carrying out the grinding based on crush grinding.

Figure 28 is the figure for indicating to keep the feed speed of rough machined grinding wheel stand slower than pre-determined feed speed.

Figure 29 A is the figure for indicating to keep the feed speed of semi-finished grinding wheel stand slower than pre-determined feed speed.

Figure 29 B is indicated to make from roughing to the figure that the opportunity of semifinishing switching process is more late than pre-determined opportunity.

Figure 30 is the figure for indicating a part of the feed speed of grinding wheel stand of the 8th embodiment, and shows and carry out based on cross When roughing when the grinding of dynamic grinding and the feed speed of grinding wheel stand when semifinishing.

Figure 31 is that the traversing feed speed of grinding wheel stand when indicating to make roughing is slower than pre-determined traversing feed speed Figure.

Figure 32 A is the figure bigger than pre-determined approach of approach when indicating to make roughing.

Figure 32 B is the figure smaller than pre-determined approach of approach when indicating to make roughing.

Figure 33 is the top view of the lathe of the 9th embodiment of the invention.

Figure 34 is the side view that the coolant supply apparatus of section view is carried out to can body.

Figure 35 is the cross-sectional view across transparency window and reflection component test section arranged opposite.

Figure 36 is the side view that the coolant supply apparatus of section view is carried out to the can body of the tenth embodiment, and is shown Make the reflection component taken out from the liquid of coolant liquid and sensor state arranged opposite.

Figure 37 is the figure for indicating the 11st embodiment, and shows by sensor the table for detecting the workpiece in grinding The situation of surface roughness.

Specific embodiment

1. first embodiment > of <

(structure of 1-1. grinding machine 1)

Hereinafter, to machine tool system of the invention and using the Surface Roughness Detecting Method of machine tool system referring to attached drawing Each embodiment is illustrated.Firstly, referring to Fig.1, being said to the structure of the machine tool system of first embodiment of the invention It is bright.As shown in Figure 1, machine tool system while rotating cylindric workpiece W by carrying out a workbench cross of grinding The grinding machine 1 of dynamic formula is constituted.In addition, the present invention also can be applied to the machine tool system other than grinding machine 1.

Grinding machine 1 as machine tool system has: lathe bed 2, workbench 10, work-supporting means 20, grinding wheel stand 30, as work Grinding wheel 40, reshaper 50, coolant supply apparatus 60, dimension measurement device 70, air feeder 80, the sensor 100 of tool And control device 200.

Lathe bed 2 is the position of the base station as grinding machine 1.It is provided in lathe bed 2 relevant to grinding condition etc. for inputting The operation panel 3 of various parameters, operation panel 3 are operated by operator.Workbench 10 is configured on lathe bed 2 along Z-direction It is mobile.Workbench 10, which passes through, makes to have the driving of screw thread feed arrangement 12 of Z axis motor 11 to move back and forth along Z-direction.

Work-supporting means 20 has spindle box 21 and tailstock 22.Spindle box 21 is fixed on workbench 10.Spindle box 21 have: the main shaft 23 and imparting that rotate around the axis parallel with Z-direction make the spindle motor of the driving force of 23 rotation of main shaft 24.One end bearing of workpiece W is that can rotate by main shaft 23 by spindle box 21, is revolved by spindle motor 24 to workpiece W Turn driving.Position opposed with spindle box 21 on workbench 10 is arranged in tailstock 22, supports to the other end of workpiece W.

Grinding wheel stand 30 is configured to move along the x axis on lathe bed 2.Grinding wheel stand 30 is by making with X-axis motor 31 Feed screw mechanism 32 driving and move back and forth along the x axis.Grinding wheel 40 relative to grinding wheel stand 30 be supported to can around with Z The parallel axis rotation of axis direction.Grinding wheel 40 is rotated and being endowed driving force from the grinding wheel motor 41 for being fixed on grinding wheel stand 30, The outer peripheral surface of workpiece W is ground.Alternatively, for grinding machine 1, by utilizing chuck etc. in spindle box 21 only by workpiece One end bearing of W moves back and forth grinding wheel 40 along Z-direction from 22 side of tailstock (right side shown in FIG. 1) for that can rotate, from And the inner peripheral surface of workpiece W is ground.Reshaper 50 is supported to revolve around the axis parallel with Z axis relative to spindle box 21 Turn.Reshaper 50 is rotated due to the driving force that is endowed from the reshaper motor 51 for being set to spindle box 21, carries out grinding wheel 40 Shaping (shape formable and finishing).

Coolant supply apparatus 60 is arranged on lathe bed 2.Coolant supply apparatus 60 is via being set to the cold of grinding wheel stand 30 But nozzle for liquid (not shown) supplies coolant liquid to grinding position.Dimension measurement device 70 is arranged are as follows: across workbench 10 with 40 opposite side of grinding wheel can be contacted with workpiece W.Dimension measurement device 70 to the outer diameter by the workpiece W after grinding of grinding wheel 40 into Row measurement.

Air feeder 80 is set to across workbench 10 and grinding wheel 40 opposite side.Air feeder 80 has It is standby: the air supply unit 81,82 configured towards the machining area of workpiece W (referring to Fig. 2).Air feeder 80 is by from air 81,82 couples of workpiece W of supply unit spray air, so that the attachments such as the coolant liquid of outer peripheral surface for being attached to workpiece W be removed.This Outside, in the present embodiment, be illustrated for spraying air to workpiece W, but can also replace air and spray it is not right The inert gas etc. of influence is given in the processing of workpiece W.

Sensor 100 is configured at across workbench 10 and grinding wheel 40 opposite side.Sensor 100 is carried out relative to workpiece The sensing detection of W is sent after the optical signal for indicating the surface state of workpiece W is converted to electric signal to control device 200.

In addition, the sensing detection based on sensor 100 in the state that workpiece W is supported by spindle box 21 and tailstock 22 into Row.It therefore, will be by spindle box 21 and tail with the needs when carrying out the sensing detection based on sensor 100 for grinding machine 1 The case where workpiece W of 22 bearing of seat is carried to other positions is compared, and can be improved when carrying out the sensing detection relative to workpiece W Operating efficiency.

(structure of 1-2. sensor 100)

Next, being illustrated referring to Fig. 2 and Fig. 3 to the structure of sensor 100.As shown in Fig. 2, sensor 100 has It is standby: main body 110, test section 120, main body cover 140, the first air releasing portion 150, air flow circuit 160, the second air releasing portion 170 and wind cutting plate 180.

As shown in figure 3, main body 110 is formed as the rodlike of strip, in an outside of the front end side (on the right side of Fig. 2) of main body 110 Test section 120 is fixed on face.Test section 120 carries out the sensing detection of the workpiece W as measuring object, will indicate the sensing The electric signal of the result of detection is sent to aftermentioned operational part 220 (referring to Fig. 4).

As shown in figure 3, test section 120 has: substrate 121, light-emitting component 122, the first light receiving element 123 and second by Optical element 124, cover 125 and three lens 125a~125c.

Substrate 121 is made of semiconductor material (N-type, p-type, ambipolar etc.), and is mounted on a lateral surface of main body 110 On (surface in Fig. 3 downward).Light-emitting component 122 is mounted to the light emitting diode of substrate 121, and towards main body 110 The normal direction (Fig. 3 below) of a lateral surface shine.First light receiving element 123 and the second light receiving element 124 are mounted to The photodiode of substrate 121, and be configured near light-emitting component 122.Light-emitting component 122, the first light receiving element 123 with And second light receiving element 124 along the longitudinal direction (Fig. 3 left and right directions) of main body 110 to be linearly set side by side, light-emitting component 122 are configured between the first light receiving element 123 and the second light receiving element 124.In addition, light-emitting component of the configuration on substrate 121 122, the first light receiving element 123 and the second light receiving element 124 are separated by demarcation plate 126.Therefore, test section 120 can be efficient Ground come luminous and to the first light receiving element 123 and the second light receiving element 124 the light of self-emission device 122.

In addition, in the present embodiment, example will be enumerated as using the case where light emitting diode as light-emitting component 122 It is illustrated, but light emitting diode can also be replaced, and electroluminescent part, laser diode etc. are used as light-emitting component 122.Separately Outside, in the present embodiment, photodiode will be used as the first light receiving element 123 and the second light receiving element 124 Situation is enumerated as example and is illustrated, but can also replace photodiode, and CCD, cmos element etc. are used as the first light Element 123 and the second light receiving element 124.

Cover 125 covers substrate 121, light-emitting component 122, the first light receiving element 123 and the second light receiving element 124.? Cover 125 and in position one opposed with light-emitting component 122, the first light receiving element 123 and the second light receiving element 124 respectively One maintains lens 125a~125c.Three lens 125a~125c can be non-spherical lens, can also in order to be easy detection The focal position of lens, the depth of focus are adjusted to change lens shape.

The light irradiated from light-emitting component 122 is incident on opposed with light-emitting component 122 in three lens 125a~125c Position configuration lens 125a.Lens 125a makes the light warpage irradiated from light-emitting component 122, and by the light Xiang Teding of the warpage Position P guidance.

The position opposed with the first light receiving element 123 and the second light receiving element 124 in three lens 125a~125c Two lens 125b, 125c for setting configuration make light warpage from specific position P incidence, and by the light of the warpage to the first light Element 123 or the guidance of the second light receiving element 124.

In addition, test section 120 is by matching light-emitting component 122, the first light receiving element 123 and the second light receiving element 124 It is placed in a substrate 121, so as to make light-emitting component 122, the first light receiving element 123 and the configuration of the second light receiving element 124 In position closer to each other.For test section 120, and make light-emitting component 122, the first light receiving element 123 and The case where two light receiving elements 124 are respectively formed in different substrate is compared, and can be realized the miniaturization of test section 120.

Fig. 2 is returned, the explanation of the structure of sensor 100 is continued.Main body cover 140 covers the front end side of main body 110, prevents it His component etc. attacks test section 120 directly.The inside and outside company with main body cover 140 is formed through in the upper surface of main body cover 140 Logical inflow entrance 141.In addition, being linked with the air supply unit connecting with air feeder 80 in the upper surface of main body cover 140 81, the air released from air supply unit 81 is supplied from inflow entrance 141 to the inside of main body cover 140.

On the other hand, detection mouth is formed through in the lower surface of main body cover 140 and in the position opposed with test section 120 142.Test section 120 is opposed with the workpiece W as measuring object via detection mouth 142.The light issued from test section 120 is logical Detection mouth 142 is crossed to workpiece W incidence, the light of reflection is incident to test section 120 by detection mouth 142.In this way, in test section Between 120 and workpiece W, it is formed with for passing through from test section 120 towards workpiece W and from workpiece W towards the light of test section 120 Detection zone A.

First air releasing portion 150 is formed at the nozzle-like around the lower surface and detection mouth 142 of main body cover 140 Position.The inside and outside multiple outfluxes 151 being connected to main body cover 140 are formed through in the first air releasing portion 150. The air supplied from air supply unit 81 to the inside of main body cover 140 is released from multiple outfluxes 151 towards workpiece W.

In this way, the first air releasing portion 150 is formed in around detection mouth 142, put from 120 side of test section towards workpiece W Air out.Sensor 100 can prevent the foreign matter to disperse to be attached to test section 120 as a result, and can prevent comprising chip etc. Water mist enter detection zone A.

Also, multiple outfluxes 151 formation are as follows: with from the private side of main body cover 140 towards outer side and from test section 120 observations are expanded radial to outer peripheral side.The air released as a result, from the first air releasing portion 150 is relative to workpiece W direction It is sprayed from the direction that detection zone A leaves.As a result, sensor 100 can prevent from the first air releasing portion 150 spray air and Bring scattering foreign matter and be attached to test section 120.In addition, sensor 100 passes through the sky released from the first air releasing portion 150 Gas, being able to suppress includes the case where water mist of chip etc. enters detection zone A.Sensor 100 is able to maintain that workpiece W's as a result, Detection accuracy.

Air flow circuit 160 will flow into the inside of main body cover 140 from air feeder 80 via air supply unit 81 Air is guided to the first air releasing portion 150.Air flow circuit 160 is formed in the outer peripheral surface of main body 110 and the inner circumferential of main body cover 140 Between face, and it is connected to the first air releasing portion 150.For sensor 100, for example, with will be used for from air supply It is compared to the situation for the inside that the pipe etc. of 81 to the first air releasing portion 150 of portion guidance air is configured at main body cover 140, Neng Goujian Change the construction of sensor 100, and can be realized the miniaturization of sensor 100.

In addition, main body cover 140 compared to inflow entrance 141 and master is fixed in the position separate from the first air releasing portion 150 The outer peripheral surface of body 110 is sealed between the outer peripheral surface of main body 110 and the inner peripheral surface of main body cover 140 by O-ring 143.It passes as a result, Sensor 100 can prevent the air for flowing into air flow circuit 160 from leaking out from the position other than the first air releasing portion 150, therefore energy It is enough consumingly to spray air from the first air releasing portion 150 towards workpiece W.

Second air releasing portion 170 is the nozzle being integrally formed with the air supply unit 82 of air feeder 80.Second Air releasing portion 170 is configured between grinding wheel 40 and sensor 100, from workpiece W from grinding position that grinding wheel 40 is ground to Air is released towards the position of detection zone A.Sensor 100 can be by the sky released from the second air releasing portion 170 as a result, Gas blows away the foreign matters such as the coolant liquid for being attached to workpiece W.Therefore, sensor 100 can prevent workpiece W in the shape for being attached with foreign matter Enter detection zone A under state.In addition, sensor 100 can prevent the water mist comprising chip etc. from entering detection zone A.It passes as a result, Sensor 100 can ensure detection accuracy.

Wind cutting plate 180 is the component to the plate being separated between sensor 100 and the second air releasing portion 170, and It is fixed on main body cover 140.The end 180a of wind cutting plate 180 towards workpiece W are located at than the first air releasing portion 150 closer to workpiece The position of W.Second air releasing portion 170 from compared with wind cutting plate 180 is towards the end 180a of workpiece W far from workpiece W position Release air.

In this case, sensor 100 can prevent the air released from the second air releasing portion 170 towards detection zone A It sprays, therefore the air by being sprayed from the second air releasing portion 170, is able to suppress the foreign matter to disperse and is attached to test section 120. In addition, the air released from the second air releasing portion 170 is faced on one side while guidance of wind cutting plate 180 for sensor 100 To workpiece W, therefore air can be consumingly sprayed to workpiece W.Sensor 100 can be easy that the different of workpiece W will be attached to as a result, Object removes.

(1-3. control device 200)

Next, being illustrated referring to Fig. 4 to control device 200.As shown in figure 4, control device 200 has sensor Control unit 210 and operational part 220.

Sensor controller 210 carries out control relevant to sensor 100.Carrying out the sensing inspection based on sensor 100 When survey, sensor controller 210 makes sensor 100 close to workpiece W until the interval of test section 120 and workpiece W become regulation ruler It behind very little position, shines towards workpiece W, receives the reflected light on the surface from workpiece W.

Light income of the operational part 220 based on sensor 100, carries out the operation of the shape information for extracting workpiece W out.Operation Portion 220 has size discrimination portion 221, rotating and excursion determination unit 222, trembling determination unit 223 and circularity determination unit 224.

Whether the light income that size discrimination portion 221 is received based on sensor 100 reaches desired to the outer diameter of workpiece W Size determined.It is stored in size discrimination portion 221: shining and towards the workpiece W for becoming desired outer diameter from workpiece W The relevant baseline threshold of light income institute when by light.Whether the light income that size discrimination portion 221 receives test section 120 is base Determined below quasi- threshold value, in the case where the light income that test section 120 is received is benchmark threshold value situation below, is judged as work The outer diameter of part W reaches desired size.

Herein, in the case where workpiece W generates rotating and excursion, the influence of the rotating and excursion is reflected in the inspection of sensor 100 Survey result.Therefore, rotating and excursion is generated when whether the outer diameter for correctly carrying out workpiece W reaches the judgement of desired size In the case of, it needs to remove the ingredient of the rotating and excursion from testing result.Therefore, size discrimination portion 221 is carried out from by sensor 100 data obtained remove the processing of rotating and excursion ingredients, and based on should treated data, carry out workpiece W outer diameter whether Reach the judgement of desired size.

Rotating and excursion determination unit 222 used to the data obtained the frequency analysis of FFT, and base by sensor 100 In its analysis as a result, to whether there is or not rotating and excursions to determine.As shown in Fig. 5 and Fig. 6 A, if to the workpiece W with rotating and excursion The sensing detection based on sensor 100 is carried out, used to obtained light interception data the frequency analysis of FFT, then exists Frequency range from f1 to f2 generates the constant above biggish amplitude.

It is conceived to this point, in the slave f1 based on the light interception data obtained by sensor 100, after having carried out FFT parsing In the case that amplitude to the frequency range of f2 is pre-determined baseline threshold or more, rotating and excursion determination unit 222 is determined as workpiece W With rotating and excursion.In addition to this, the amplitude of frequency range of the rotating and excursion determination unit 222 based on the slave f1 to f2 after FFT parsing, comes Calculate the size of the rotating and excursion of workpiece W.

Trembling determination unit 223 used to the light interception data obtained the frequency analysis of FFT by sensor 100, and Based on its analysis as a result, to whether there is or not tremblings to determine.Herein, as shown in Fig. 5 and Fig. 6 B, if to the workpiece W with trembling Carry out the sensing detection based on sensor 100, the frequency analysis using FFT carried out to light interception data obtained, then from The frequency range of f3 to f4 generates the biggish amplitude more than constant.

It is conceived to this point, trembling determination unit 223 is carried out to based on the light interception data obtained by sensor 100 In the case that the amplitude of the frequency range of slave f3 to f4 after FFT parsing is pre-determined baseline threshold or more, it is determined as that workpiece W has There is trembling.In addition to this, trembling determination unit 223 FFT parsing after slave f3 to f4 frequency range, by amplitude become baseline threshold with On rate-adaptive pacemaker.In this case, operator can trace the producing cause of trembling using the frequency of output as clue.

Circularity determination unit 224 uses the part that rotating and excursion ingredient is removed from the light interception data obtained by sensor 100 (part of the frequency range of the slave f2 to f5 after extraction FFT parsing), to calculate the circularity of workpiece W.It is deposited in advance in circularity determination unit 224 Contain baseline threshold relevant to light income obtained in the case where meeting desired circularity.Circularity determination unit 224 will It is compared according to the calculated circularity of light interception data after rotating and excursion ingredient is eliminated with baseline threshold, is to workpiece W It is no that there is desired circularity to be determined.

(processing of 1-4. size discrimination)

Next, being illustrated referring to Fig. 7 A and Fig. 7 B to the size discrimination processing executed by size discrimination portion 221. As shown in Figure 7 A, in size discrimination processing, size discrimination portion 221 obtains light interception data (S1) from sensor 100, passes through height Rotating and excursion ingredient is removed (S2) from light interception data by bandpass filter.Thereafter, size discrimination processing is inclined based on rotation is eliminated The light interception data changed into point, whether the light income received sensor 100 is that benchmark threshold value Th or less is determined (S3).

Herein, as shown in Figure 7 B, receive the reflected light from workpiece W in the case where sensor 100 shines towards workpiece W Light income, become smaller as sensor 100 is expanded at a distance from workpiece W.Therefore, grinding machine 1 is parallel with grinding on one side In the case where carrying out the sensing detection based on sensor 100 on one side, it will be passed in the state of making test section 120 approach workpiece W Sensor 100 is fixed on lathe bed 2.Moreover, size discrimination portion 221 becomes baseline threshold Th in the light income that sensor 100 is received In situation below, it is judged as that the outer diameter of workpiece W reaches desired size L.

In the processing of S3, size discrimination processing is in the case where the light income for being determined as workpiece W is greater than baseline threshold Th (S3: no), returns to the processing of S1.On the other hand, size discrimination processing the light income for being determined as workpiece W be benchmark threshold value Th with In the case where lower (S3: yes), the outer diameter of notice workpiece W reaches desired size L (S4), terminates present treatment.In this way, grinding machine 1 Light income based on sensor 100 and extract the distance away from workpiece W out, and can the distance based on the extraction and obtain workpiece W's The shape informations such as outer diameter.

(1-5. rotating and excursion determination processing)

Next, being illustrated referring to Fig. 8 to the rotating and excursion determination processing executed by rotating and excursion determination unit 222.Such as Shown in Fig. 8, in rotating and excursion determination processing, rotating and excursion determination unit 222 obtains light interception data (S11) from sensor 100. Moreover, rotating and excursion determination unit 222 by bandpass filter by as the low-frequency component of rotating and excursion ingredient (it is shown in fig. 5 from The frequency content of f1 to f2) from light interception data extraction (S12), and carry out FFT parsing (S13).

In the processing of S14, rotating and excursion determination unit 222 is based on the FFT parsing carried out in the processing of S13 as a result, right Whether the peak value of the amplitude of the rotating and excursion ingredient of extraction is that benchmark threshold value or more is determined, whether generates rotation in workpiece W Turn deflection to be judged.As a result, in the processing of S14, rotating and excursion determination processing is being determined as that workpiece W do not generate rotation Turn (S14: no) in the case where deflecting, keeping intact terminates present treatment.

On the other hand, in the processing of S14, rotating and excursion determination processing is being judged to generating rotating and excursion in workpiece W In the case of (S14: yes), the value (size of rotating and excursion) of rotating and excursion is exported into (S15), terminates present treatment.In this way, grinding machine 1 It can not be contacted with workpiece W and carry out the judgement whether workpiece W generates rotating and excursion.

(1-6. trembles determination processing)

Next, being illustrated referring to Fig. 9 to the trembling determination processing executed by trembling determination unit 223.As shown in figure 9, In trembling determination processing, trembling determination unit 223 obtains light interception data (S21) from sensor 100.Moreover, trembling determination unit 223 by bandpass filter by as the radio-frequency component (frequency content shown in fig. 5 from f3 to f4) of trembling ingredient from light Data extraction (S22) is measured, is carried out FFT parsing (S23).

In the processing of S24, trembling determination unit 223 is based on the FFT parsing carried out by the processing of S23 as a result, to extraction The peak value of amplitude of trembling ingredient whether be that benchmark threshold value or more is determined, judge whether workpiece W generates trembling. As a result, trembling determination processing is judged as that workpiece W does not generate the feelings of trembling in trembling determination unit 223 in the processing of S24 Under condition (S24: no), keeping intact terminates present treatment.On the other hand, in the processing of S24, trembling determination processing determines in trembling Portion 223 is determined as that workpiece W is generated in the case where trembling (S24: yes), and the value that amplitude becomes the frequency of baseline threshold or more is exported (S25), terminate present treatment.In this way, grinding machine 1 can not contact with workpiece W and carry out the judgement whether workpiece W generates trembling.

(1-7. circularity determination processing)

Next, referring to Fig.1 0, the circularity determination processing executed by circularity determination unit 224 is illustrated.Such as Figure 10 institute Show, in circularity determination processing, circularity determination unit 224 obtains light interception data (S31) from sensor 100, passes through high-pass filtering Device will remove (S32) from light interception data as the low-frequency component of rotating and excursion ingredient.Thereafter, circularity determination unit 224 is based on removing The light interception data of rotating and excursion ingredient has been gone, the circularity of workpiece W is calculated.

Next, amplitude of the circularity determination unit 224 based on the light interception data for eliminating rotating and excursion ingredient, calculates circularity (S33).Then, whether the circularity of calculated workpiece W is compared by circularity determination unit 224 with baseline threshold, have to workpiece W There is desired circularity to be determined (S34).As a result, circularity determination processing is in circularity determination unit in the processing of S34 224 are determined as that workpiece W has in the case where desired circularity (S34: yes), and keeping intact terminates present treatment.On the other hand, circle Degree determination processing is in the case where circularity determination unit 224 is determined as that workpiece W does not have desired circularity in the processing of S34 The calculated value of circularity is exported (S35), terminates present treatment by (S34: no).

In this way, grinding machine 1 can not contact with workpiece W and obtain information relevant with the circularity of workpiece W.In addition, circularity is sentenced Determine portion 224 and remove from the information of the light income of the rotatable phase to workpiece W the rotating and excursion ingredient as workpiece W After the processing of low-frequency component, the circularity ingredient as radio-frequency component is extracted out, therefore grinding machine 1 can be extracted out accurately and workpiece W The relevant information of circularity.

As described above, grinding machine 1 can not contact and obtain the shape of workpiece W with the workpiece W after grinding Information (outer diameter, deflection, trembling, circularity of workpiece W etc.) carries out the measuring shape of workpiece W.In addition, grinding machine 1 is being determined as workpiece It, can be relatively early by tracing the producing cause of rotating and excursion, trembling etc. in the case that W generates rotating and excursion, trembling etc. It is corresponding that ground carries out amendment of grinding condition etc..Grinding machine 1 is able to suppress underproof generation quantity as a result,.

In addition, grinding machine 1 is when extracting circularity ingredient out based on the light interception data that obtains from sensor 100, according to the data, Specific low-frequency component is calculated into the circularity of workpiece W after light interception data removing as rotating and excursion ingredient.It grinds as a result, Bed 1 can accurately extract information relevant to the circularity of workpiece W out.As a result, grinding machine 1 can be improved and be sentenced based on circularity Determine the precision of the judgement in portion 224.

Also, the state that grinding machine 1 can be supported in workpiece W by work-supporting means 20 obtains the shape information of workpiece W.By This, grinding machine 1 can be realized workpiece W compared with the case where obtaining the shape information of workpiece after making workpiece W be moved to other positions Processing required for the time shortening.

Moreover, test section 120 can detect in a non-contact manner the shape information of workpiece W, therefore can be avoided adjoint The sensing detection based on sensor 100 and the case where injure workpiece W.Also, the case where being irradiated from a light-emitting component 122 Under, test section 120 can confirm at two light receiving elements (the first light receiving element 123 and the second light receiving element 124) specific Position P on the variation of reflected light reflected.Test section 120 can accurately obtain the shape of workpiece W as a result,.

In addition, in the present embodiment, the case where being made of to machine tool system a grinding machine 1, is illustrated, but not office It is limited to this.For example, it is also possible to which machine tool system has: multiple grinding machines；And analysis unit, the outside of multiple grinding machines and connection are set On the network for there are multiple grinding machines, the operational part 220 for being set to control device 200 in the respective embodiments described above setting is being parsed Portion.And in this case, also may be constructed are as follows: machine tool system according to the parsing based on analysis unit as a result, be judged as should In the case that change carries out the condition of the grinding of workpiece W, while changing the condition for the grinding that multiple grinding machines 1 are carried out.In addition, Analysis unit can also stockpile (specific workpiece W, specific grinding machine, specific environment (gas for example under specific processing conditions Epidemic disaster) etc.) extraction workpiece W shape information.In this case, analysis unit parses the data stockpiled, operational part 220 parsing results (trend, abnormal generation etc.) based on analysis unit, to determine and the light income of the reflected light from workpiece W Relevant baseline threshold.Machine tool system can accurately extract the shape information of workpiece W out as a result,.

2. second embodiment > of <

Next, 1~Figure 13 referring to Fig.1, is illustrated second embodiment.In the first embodiment, to workpiece W It is illustrated for the case where cylindrical shape, but in this second embodiment, workpiece W is cam.In addition, to above-mentioned first The identical component of embodiment marks identical appended drawing reference, and the description thereof will be omitted.

(brief configuration of 2-1. grinding machine 301)

Firstly, referring to Fig.1 1, the brief configuration of the grinding machine 301 of second embodiment is illustrated.As shown in figure 11, make For the grinding machine 301 of machine tool system, other than the configuration of air feeder 80 and sensor 100 and control device 400, With the identical structure of grinding machine 1 (referring to Fig.1) with first embodiment.

Air feeder 80 and sensor 100 are configured at grinding wheel stand 30, mobile with 40 one of grinding wheel.In this case, Grinding machine 301 can consistently maintain to examine when the cam face relative to workpiece W carries out the sensing detection based on sensor 100 Interval of the survey portion 120 (referring to Fig. 2) with the cam face of workpiece W.

(2-2. control device 400)

Next, 2 pairs of control devices 400 are illustrated referring to Fig.1.As shown in figure 12, control device 400 has sensor Control unit 210 and operational part 420, operational part 420 have cam contour determination unit 421 and deflection determination unit 422.

Cam contour determination unit 421 is based on the sensor 100 in the state of moving sensor 100 along cam surface and is connect Whether the light income received there is desired cam contour to determine the cam face of workpiece W.Cam contour determination unit 421 are stored with: in the case where sensor 100 shines relative to the workpiece W that cam face becomes desired cam contour, with The relevant baseline threshold of the light income that sensor 100 is received.Cam contour determination unit 421 to sensor 100 received by Whether light quantity is that benchmark threshold value or less is determined, in the situation that the light income that sensor 100 is received is benchmark threshold value or less Under, it is judged as that the cam face of workpiece W has desired cam contour.

(2-3. cam contour determination processing)

Next, referring to Fig.1 3, the cam contour determination processing executed by cam contour determination unit 421 is illustrated. As shown in figure 13, in cam contour determination processing, cam contour determination unit 421 obtains light interception data from sensor 100 (S41), (S42) will be removed from light interception data as the low-frequency component of rotating and excursion ingredient by high-pass filter.

Next, cam contour determination unit 421 is based on the light interception data for eliminating rotating and excursion ingredient, to calculate workpiece The departure of the cam contour of W and pre-stored desired cam contour, so that whether the cam face to workpiece W has Desired cam contour is determined (S43).As a result, cam contour determination processing in cam contour determination unit 421 It is determined as that workpiece W has in the case where desired cam contour (S43: yes), keeps intact and end processing.On the other hand, convex Wheel profile determination processing is in the case where cam contour determination unit 421 is determined as that workpiece W does not have desired cam contour The departure of the cam contour of calculated workpiece W and desired cam contour is exported (S44), terminates this by (S43: no) Processing.

In this way, grinding machine 301 can not contact and carry out the CAM table of workpiece W with workpiece in the case where workpiece W is cam Whether face has the judgement of desired cam contour.Grinding machine 301 can prevent the lane when carrying out the measurement of cam contour as a result, Hurt workpiece.

In addition, in above-mentioned first embodiment and second embodiment, it will be inclined by the outer diameter of workpiece W, rotation Turn, be enumerated as example using situation of the invention when trembling, circularity and cam contour are extracted out and be illustrated.However, not office It is limited to this, by other shapes information (tooth surface shape etc. after the convex surface processing of gear) extraction, also can be used The present invention.

Also, in above-mentioned first embodiment and second embodiment, the extraction of light interception data is used into high pass Filter or bandpass filter are illustrated to be enumerated as example the case where progress, but not limited to this.For example, light income Low-pass filter can be used also to carry out in the extraction of data, low-pass filter, high-pass filter and band logical can also be filtered Wave device combines to carry out.

3. third embodiment > of <

Next, being illustrated to third embodiment.In the third embodiment, operational part 630 is to the court in workpiece W Operation is carried out to the surface roughness at different more than two positions.In addition, to component identical with above-mentioned each embodiment Identical appended drawing reference is marked, and the description thereof will be omitted.

(structure of 3-1. grinding machine 501)

Firstly, referring to Fig.1 4, to the structure of the grinding machine 501 of an example of machine tool system as a third embodiment into Row explanation.As shown in figure 14, machine tool system is worked by one that carries out grinding while rotating cylindric workpiece W The grinding machine 501 of platform traversing type is constituted.Grinding machine 501 as machine tool system has: lathe bed 2, workbench 10, work-supporting means 20, grinding wheel stand 30, grinding wheel 40, reshaper 50, coolant supply apparatus 60, dimension measurement device 70, air feeder 80, biography Sensor 600 and control device 700.

Control device 700 carries out: various motors (Z axis motor 11, spindle motor 24, X-axis motor 31, grinding wheel motor 41) Drive control, the control of the cooling liquid measure supplied from coolant supply apparatus 60, with the workpiece W based on dimension measurement device 70 The management of diameter size control relevant with the sensing detection based on sensor 600 etc..

(structure of 3-2. sensor 600)

Next, referring to Fig.1 5, the structure of sensor 600 is illustrated.As shown in figure 15, sensor 600 has: main Body 110, test section 120, operational part 630, main body cover 140, the first air releasing portion 150, air flow circuit 160, the second air are put Portion 170, wind cutting plate 180 and driving portion 690 out.It, can also be in addition, operational part 630 can be configured at the inside of sensor 600 It is configured at the outside of sensor 600, and is connect by cable etc. with main body 110.

Operational part 630 is based on the first light receiving element 123 and the second light receiving element when from 122 irradiation light of light-emitting component Light quantity detected by 124 carries out the operation of the surface roughness of specific position P.That is, from 122 irradiation light of light-emitting component In the case where, if light quantity detected by the first light receiving element 123 and the second light receiving element 124 is more, operational part 630 is shown The small such operation result of surface roughness.On the other hand, if the first light receiving element 123 and the second light receiving element 124 are examined The light quantity measured is few, then operational part 630 shows surface roughness operation result such greatly.

In addition, there is diffusivity to the incident light of specific position P incidence and from the reflected light of specific position reflection, enter Firing angle and angle of reflection have angled diffusion.The incidence angle of the strongest peak position of intensity in the distribution of incident light, with In the case that the angle of reflection of the strongest peak position of intensity in the distribution of reflected light is equal or the diffusion profile of incident light with In the case that the diffusion profile of reflected light is in similarity relation, operational part 630 is judged as that incidence angle is equal with angle of reflection.

Test section 120 can detect in a non-contact manner the surface roughness of workpiece W, therefore can be avoided along with table The detection of surface roughness and injure the workpiece W after grinding.Also, in the case where being irradiated from a light-emitting component 122, inspection Survey portion 120 can confirm at two light receiving elements (the first light receiving element 123 and the second light receiving element 124) in specific position The variation of the reflected light reflected on P.Test section 120 can accurately measure the surface roughness of workpiece W as a result,.

Base end side (on the left of Fig. 2) connection of driving portion 690 and main body 110, and assign for being pivoted main body 110 Driving force.The main body 110 that driven part 690 drives is pivoted, and thus test section 120 is rotated around the axis of main body 110.

(3-3. Surface Roughness Detecting Method)

Next, 6A, Figure 16 B and Figure 17 referring to Fig.1, to use the Surface Roughness Detecting Method of sensor 600 into Row explanation.Herein, crankshaft workpiece W will be made, and detect the surface for the crankshaft journal that grinding terminates using sensor 600 The case where roughness, is enumerated as example and is illustrated, and is able to use sensor 600 also to detect the surface of the workpiece W other than crankshaft Roughness.In addition, only illustrating the main body 110 and test section 120 in sensor 600 in Figure 16 A, Figure 16 B and Figure 17.

As shown in Figure 16 A, grinding machine 1 is initially carried out relative to a crankshaft journal Wa in multiple crankshaft journals based on grinding wheel 40 grinding.At this point, sensor 600 positioned away from from workpiece W it is standby.Grinding machine 501 can prevent from being ground as a result, The coolant liquid etc. dispersed in processing is attached to sensor 600.If the grinding of a crankshaft journal Wa terminates, workbench 10 (referring to Fig.1 4) are moved along Z-direction.

As shown in fig 16b, grinding wheel 40 is to the crankshaft journal adjacent with a crankshaft journal Wa of grinding is just finished Wb carries out grinding.At the same time, sensor 600 is close to a crankshaft journal Wa for just finishing grinding, to one The surface roughness of crankshaft journal Wa is detected.

As shown in figure 17, sensor 600 makes just to have finished first the side's in a crankshaft journal Wa of grinding End face Wa1 (towards the face in left side in Figure 17) detects the surface roughness of the end face Wa1 of a side towards test section 120. Then, sensor 600 by make test section 120 towards a crankshaft journal Wa barrel surface Wa3 in a manner of make main body 110 around axis revolve Turn.At this point, sensor 600 is by making the coupling part Wa2 of the end face Wa1 and barrel surface Wa3 of a side of a crankshaft journal Wa Towards test section 120, it is able to detect the surface roughness of the coupling part Wa2 of the end face Wa1 and barrel surface Wa3 of a side.

Grinding machine 501 makes a crankshaft journal after making barrel surface Wa3 of the test section 120 towards a crankshaft journal Wa In the state of Wa rotation, make sensor 600 along the axial traversing of a crankshaft journal Wa on one side, on one side to barrel surface Wa3's Surface roughness is detected.Grinding machine 501 is able to detect the surface roughness of barrel surface Wa3 entirety as a result,.Grinding machine 501 is being examined After the surface roughness for measuring barrel surface Wa3 so that test section 120 towards another party end face Wa5 (towards right side in Figure 17 Face) mode be pivoted main body 110, the end face Wa5's of end face Wa5 and barrel surface Wa3 and another party to another party The surface roughness of coupling part Wa4 is detected.

In this way, sensor 600 is provided with test section 120 in the front end side of the main body 110 with the strip of rodlike formation, therefore It can be realized the miniaturization of sensor 100.Grinding machine 501 can be relative to the sensor device sensing detection for being located at large size as a result, The workpiece W in difficult narrow region, keeps test section 120 close.Grinding machine 501 can be using sensor 100 come check bit as a result, In the surface roughness of the workpiece W in such narrow region.

In addition, grinding machine 501 by make sensor 600 minimize, so as to keep workpiece W by work-supporting means 20 The state of (referring to Fig.1 4) bearing and carry out the detection of the surface roughness of the workpiece W based on sensor 600.That is, grinding machine 501 is not It needs to carry the workpiece W supported by work-supporting means 20 in this way to other positions to carry out the detection of surface roughness Operation, therefore can be realized the raising of operating efficiency when carrying out the sensing detection based on sensor 600.

In addition to this, sensor 600 is by rotating test section 120 around the axis of main body 110, so as to detect workpiece W In the surface roughness towards different more than two positions.Therefore, grinding machine 501 can be carried out efficiently the surface of workpiece W The detection of roughness.

In this way, grinding machine 501 can carry out the grinding of the workpiece W based on grinding wheel 40 on one side, on one side relative to finishing The workpiece W of grinding concurrently carries out the detection of the surface roughness based on sensor 600.As a result, grinding machine 501 be based on The case where detection of the surface roughness of the workpiece W based on sensor 600 is carried out after the grinding of the workpiece W of grinding wheel 40 It compares, the surface roughness of the workpiece W from starting relative to the grinding of workpiece W after grinding can be shortened Detection terminates the required time.

In addition, grinding machine 501 can be by the air released from the second air releasing portion 170 by cooling accompanying when being ground The attachments such as liquid are blown away.Also, grinding machine 501 can prevent coolant liquid etc. by the air released from the first air releasing portion 150 Water mist etc. comprising foreign matter, chip enter detection zone A.Grinding machine 501 carries out the workpiece W based on grinding wheel 40 on one side as a result, Grinding, on one side concurrently carry out the workpiece W based on sensor 600 surface roughness detection in the case where, also can Enough maintain the detection accuracy of sensor 600.

In addition, in the present embodiment, carrying out the grinding of the workpiece W based on grinding wheel 40 on one side to grinding machine 501, on one side The case where concurrently carrying out the detection of the surface roughness of the workpiece W based on sensor 600 is illustrated, but is not limited to This.That is, grinding machine 501 can also carry out after the grinding whole of the workpiece W based on grinding wheel 40 based on sensor 600 Workpiece W surface roughness detection.In this case, grinding machine 501 does not need that the foreign matter for being attached to workpiece W is removed one on one side The detection of side progress surface roughness.That is, grinding machine 501 is not needed the first air releasing portion 150, the second air releasing portion 170 It is set to sensor 600, therefore can be realized the miniaturization of sensor 600.In addition, grinding machine 501 can keep workpiece W static The detection of the surface roughness of workpiece W is carried out under state, therefore can be improved the detection accuracy of sensor 600.

In addition, in the present embodiment, machine tool system is made of a grinding machine 501, but not limited to this.For example, lathe System can also have multiple grinding machines；And analysis unit, the outside of multiple grinding machines is set and by above-mentioned multiple grinding machines connection On network, the operational part 630 that sensor 600 is set in present embodiment is set to analysis unit.In this case, analysis unit energy The parsing of the height based on the testing result sent from sensor 600 is enough carried out, and surface roughness is exported.Lathe as a result, System can improve its detection accuracy when detecting the surface roughness of workpiece W.

The 4th embodiment > of < 4.

Next, 8 and Figure 19 referring to Fig.1, is illustrated the 4th embodiment.In the third embodiment, to The grinding machine 501 of an example as machine tool system is illustrated using situation of the invention.In contrast, implementing second In mode, the machining center 801 in an example as machine tool system is illustrated using situation of the invention.

(brief configuration of 4-1. machining center 801)

As shown in figure 18, machine tool system has orthogonal three linear axis (X-axis, Y-axis and Z axis) and two rotations Axis (A axis and C axis) is made of as drive shaft 5 axis machining centers 801.In addition, in the present embodiment, by machining center 801 be to be enumerated as example in the case where workpiece W-shaped gear machining equipment at gear by machining to be illustrated, but also can Enough machining center application present invention other than gear machining equipment.

Machining center 801 as machine tool system has lathe bed 810, column 820, saddle 830, live spindle 840, work Platform 850, tilting table 860, turntable 870 and control device 900 as work-supporting means.

The generally rectangular shaped formation of lathe bed 810 configures on floor.In the upper surface of the lathe bed 810, column 820 is arranged For that can be moved along the x axis relative to lathe bed 810.In the side parallel with the X-axis of column 820, saddle 830 is arranged to It is enough to be moved along the y axis relative to column 820.

Live spindle 840 is configured to rotate relative to saddle 830, and supports machining tool 841.Machining tool 841 be the tool of workpieces processing W.Machining tool 841 is kept and is fixed on the front end of live spindle 840 by tool holder 842, And it is rotated along with the rotation of live spindle 840.In addition, machining tool 841 is along with column 820 and saddle 830 It is mobile, along the x axis and Y direction is mobile relative to lathe bed 810.

In addition, workbench 850 is configured to move relative to lathe bed 810 along Z-direction in the upper surface of lathe bed 810, The upper surface of workbench 850 is provided with the tilting table supporting part 861 of bearing tilting table 860.Moreover, in tilting table supporting part 861, tilting table 860 is configured to rotate (swing) around the A axis of horizontal direction.In tilting table 860, turntable 870 is arranged to It is enough around with A axis C axis relative rotation at right angle.Turntable 870 is by workpiece W bearing for the work-supporting means that can be rotated, work Part W is clamped on turntable 870.

Control device 900 by column 820, saddle 830, live spindle 840, workbench 850, tilting table 860 and The movement of turntable 870 is controlled, make workpiece W and machining tool 841 X-direction, Y direction, Z-direction, around A axis with And it is relatively moved around C axis, the machining of Lai Jinhang workpiece W.

In this way, machining center 801 is by rotating machining tool 841 and workpiece W with high-speed synchronous, and along workpiece W's Rotation axis direction feeds machining tool 841 and carries out machining to it, and tooth is thus made.

(4-2: Surface Roughness Detecting Method)

As shown in figure 19, the case where detecting the surface roughness for the tooth of gear for being formed in workpiece W by sensor 600 Under, machining center 801 makes test section 120 towards a position in a manner of surface roughness to be detected.Moreover, machining center 801 The position of surface roughness to be detected and the interval of test section 120 are maintained on one side, make sensor 600 along the shape position of tooth on one side It moves.Machining center 801 can efficiently detect the surface roughness of the flank of tooth of gear as a result,.

In this way, sensor 600 is provided with test section 120 in the front end side of the main body 110 with the strip of rodlike formation, therefore Test section 120 can be made close to the position in the narrow region for being located at large-scale sensor device sensing detection difficulty.As a result, plus Work center 801 can be detected the surface roughness at the position positioned at such narrow region by sensor 600.

In addition to this, sensor 600 is by rotating test section 120 around the axis of main body 110, so as to detect workpiece W In the surface roughness towards different more than two positions.Machining center 801 can be carried out efficiently workpiece W's as a result, The detection of surface roughness.

The 5th embodiment > of <

Next, being illustrated to the 5th embodiment.In the 5th embodiment, grinding is detected by sensor 100 The surface roughness of workpiece W when processing.In addition, marking identical attached drawing mark to component identical with above-mentioned each embodiment Note, and the description thereof will be omitted.

(brief configuration of 5-1. lathe 1001)

Firstly, being illustrated referring to Figure 20 to the brief configuration of machine tool system.As shown in figure 19, machine tool system is by one side Cylindric workpiece W rotation is set to carry out the composition of a machine tool 1001 of grinding and attrition process on one side.As lathe system The lathe 1001 of system has: lathe bed 2, workbench 10, work-supporting means 20, grinding wheel stand 30, turntable 1035, grinding tool 1041 and milling tool 1042, reshaper 50, coolant supply apparatus 60, dimension measurement device 70, air feeder 80, Sensor 100 and control device 1100.

Turntable 1035 is set to the upper surface of grinding wheel stand 30.Turntable 1035 by rotating mechanism 1036 bearing for relative to Grinding wheel stand 30 can be rotated around Y-axis.Grinding tool 1041 and milling tool 1042 are set to the rotation relative to turntable 1035 Shaft and become axisymmetric position, and be supported to rotate around axis orthogonal to Y-axis relative to turntable 1035.

Grinding tool 1041 is the grinding wheel that uses when carrying out grinding to workpiece W, by from being fixed on turntable 1035 grinding tool motor 1043 is endowed driving force and rotates.Milling tool 1042 is in the work to grinding process finishing Part W carries out the grinding wheel used when attrition process, uses the abrasive grain more tiny than grinding tool 1041.Milling tool 1042 passes through from admittedly Milling tool motor 1044 due to turntable 1035 is endowed driving force and rotates.

In addition, the shaping that reshaper 50 carries out grinding tool 1041 and milling tool 1042 (shape formable and is repaired It is whole).Sensor 100 is carrying out the sensing detection relative to workpiece W, and will indicate that the optical signal of the surface roughness of workpiece W turns After being changed to electric signal, sent to control device 1100.

In addition, the sensing detection based on sensor 100 carries out in the state that workpiece W is supported by work-supporting means 20. Therefore, lathe 1001 and the work for needing to be supported by work-supporting means 20 when carrying out the sensing detection based on sensor 100 The case where part W is carried to other positions is compared, and can be improved operating efficiency when carrying out the sensing detection relative to workpiece W.

Control device 1100 carries out: (Z axis motor 11, spindle motor 24, X-axis motor 31, grinding tool use horse to various motors Up to 1043 and milling tool motor 1044) drive control, from coolant supply apparatus 60 supply cooling liquid measure control System, to the management of the diameter size of the workpiece W based on dimension measurement device 70 and the relevant control of the sensing detection based on sensor 100 System etc..

(5-2. control device 1100)

Next, being illustrated referring to Figure 21 to control device 1100.As shown in figure 21, control device 1100 mainly has It is standby: spindle control part 1110, reshaper control unit 1120, grinding control unit 1131 and grinding control portion 1132, workbench control Portion 1140, grinding wheel stand control unit 1150, turntable control unit 1160 and the processing conditions determination section as operational part processed 1170。

Spindle control part 1110 (is joined by the drive control of progress spindle motor 24 (referring to Figure 20) to control workpiece W According to Figure 20) rotation.Reshaper control unit 1120 passes through the drive control for carrying out reshaper motor 51 (referring to Figure 20), to control The rotation of reshaper 50 (referring to Figure 20).Control unit 1131 is ground by carrying out grinding tool motor 1043 (referring to Figure 20) Drive control, to control the rotation of grinding tool 1041 (referring to Figure 20).Grinding control portion 1132 is by carrying out milling tool use The drive control of motor 1044 (referring to Figure 20), to control the rotation of milling tool 1042.

Workbench control unit 1140 passes through the drive control for carrying out Z axis motor 11 (referring to Figure 20), to control in Z-direction Workbench 10 (referring to Figure 20) position and feed speed.Grinding wheel stand control unit 1150 is by carrying out the 31 (reference of X-axis motor Drive control Figure 20), to control position and the feed speed of the grinding wheel stand 30 in X-direction.Turntable control unit 1160 By controlling rotating mechanism 1036, to control the rotation of turntable 1035.

Processing conditions determination section 1170 is based on detection relevant to the surface roughness of workpiece W obtained from sensor 100 As a result, the condition to determine the grinding implemented thereafter or attrition process.Workbench control unit 1140 and grinding wheel stand control Portion 1150 processed controls the position of workbench 10 and grinding wheel stand 30 according to grinding condition set by processing conditions determination section 1170 It sets and feed speed.In this way, grinding tool 1041 or milling tool 1042 are relatively moved relative to workpiece W on one side, When implementing grinding until the outer diameter of workpiece W becomes desired size to workpiece W on one side, processing conditions determination section 1170 testing results based on sensor 100 are wished to provide can be improved efficiency and can be obtained after grinding Grinding condition as the surface roughness of prestige.

(process of 5-3. grinding)

Next, being illustrated to the process for the grinding for using grinding tool 1041 to carry out.It herein, will be to cylindrical shape Workpiece W the case where carrying out the grinding being ground based on traversing be enumerated as example and be illustrated.When carrying out grinding, sand Wheel seat control unit 1150 controls whirler in a manner of making the outer peripheral surface of grinding tool 1041 be configured at the position opposed with workpiece W Structure 1036 rotates turntable 1035.

Grinding successively executes this four processes of roughing, semifinishing, finishing and sparking out.Lathe 1001 in sparking out, rotates grinding tool 1041 in the state of stopping the feeding of grinding wheel stand 30 along the x axis.This Outside, the number of the workbench 10 in prespecified each process being ground along the traversing speed of Z-direction and traversing, primary cross The amount of movement (approach) along the x axis of grinding wheel stand 30 after dynamic grinding.

Approach when roughing is greater than approach when semifinishing, and approach when semifinishing is greater than finishing When approach.Lathe 1001 in the state of stopping the feeding of grinding wheel stand 30 along the x axis, makes to grind in sparking out Cut the rotation of tool 1041.Dimension measurement device 70 is next up to since workbench 10 terminates along the traversing feeding of Z-direction During secondary traversing feeding, the outer diameter of workpiece W is measured.

There are the state of the casting skin on the surface of coating workpieces W is uneven, therefore even if with pre-determined feed speed into The case where row grinding, the surface state of workpiece W does not become desired state.Therefore, lathe 1001 is carrying out workpiece W's During grinding, the surface roughness (for example, maximum height Rz) at the position being ground is detected by sensor 100. In the case where the surface roughness detected by sensor 100 is greater than pre-determined defined threshold, processing conditions determination section 1170 determine that surface roughness becomes threshold value grinding condition below.Moreover, workbench control unit 1140 and grinding wheel stand control Portion 1150 carries out the control for being ground under conditions of being determined by processing conditions determination section 1170.Lathe 1001 as a result, Can make the surface state of workpiece W at the end of grinding becomes desired state.

(process of 5-4. attrition process)

Lathe 1001 carries out grinding using milling tool 1042 and adds after using the grinding of grinding tool 1041 Work.It being accompanied by this, turntable control unit 1160 carries out drive control to rotating mechanism 1036, and so that turntable 1035 is rotated 180 degree, Keep the outer peripheral surface of milling tool 1042 opposed with workpiece W.

It in attrition process, feeds grinding wheel stand 30 along the x axis, and is ground while rotating workpiece W Processing.At the same time, sensor 100 detects the surface roughness at the position after the attrition process of workpiece W, processing conditions Determination section 1170 makes in the case where the surface roughness for being judged as workpiece W is less than defined threshold based on milling tool 1042 Attrition process terminates.

In addition, in lathe 1001, by the detection of the surface roughness at the position after grinding of grinding tool 1041 of workpiece W, And a sensor 100 is used by the detection of the surface roughness at the position after 1042 attrition process of milling tool of workpiece W Come carry out.Lathe 1001 can be realized sharedization of sensor 100 as a result,.

In addition, in the present embodiment, having a sensor 100 to lathe 1001, carried out by a sensor 100 The detection of the surface roughness of workpiece W when the detection and attrition process of the surface roughness of workpiece W when grinding Situation is illustrated.However, not limited to this, the detection institute of the surface roughness of workpiece W when can also be by grinding Sensor used in the sensor that uses, the detection with the surface roughness of workpiece W when attrition process, which separates, independently to be set It sets.

In this case, used sensor when by as attrition process, and when use is than grinding, is used The high test section of sensor accuracy, so that the surface roughness of the workpiece W at the end of lathe 1001 can make attrition process more may be used By ground close to desired state.Used sensor when on the other hand, by as grinding, and use adds than grinding The low test section of sensor accuracy used in working hour, so that lathe 1001 is able to suppress used sensor when grinding Component costs.

In addition, in the present embodiment, applying the present invention to that the grinding based on grinding tool 1041 can be implemented And the attrition process based on milling tool 1042 lathe 1001 the case where be enumerated as example and be illustrated.However, not office It is limited to this, the present invention can also implement attrition process in the grinding machine that can only implement grinding and only respectively certainly Grinding machine in apply.

In addition, in the present embodiment, machine tool system is made of a machine tool 1001, but not limited to this.For example, can also Have with machine tool system: multiple lathes；And analysis unit, the outside of multiple lathes is set and is connected with above-mentioned multiple lathes On network, the processing conditions determination section 1170 as operational part that control device 1100 is set in present embodiment is set to Analysis unit.In this case, analysis unit stockpiles: for example under specific processing conditions (specific workpiece W, specific lathe, Specific environment (gas epidemic disaster) etc.) value of the surface roughness of workpiece W that is ground.Moreover, analysis unit is to stockpiling Data are parsed, and processing conditions determination section 1170 is determined based on the parsing result (trend, abnormal generation etc.) of analysis unit Optimal processing conditions.Machine tool system can reliably make the surface roughness of workpiece W become desired state as a result,.

< sixth embodiment >

Next, being illustrated to sixth embodiment.In sixth embodiment, the sensing relative to workpiece W is carried out Detection, calculation part 1320 as operational part is by processing as defined in carrying out to the detected value that detects, thus operation workpiece W Surface roughness.In addition, marking identical appended drawing reference to component identical with above-mentioned each embodiment, and omits its and say It is bright.In addition, grinding machine 1201 shown in Figure 22 remove sensor 100 shape and control device 1300 except, have and first The identical structure of grinding machine 1 (referring to Fig.1) of embodiment.

(outline of 6-1. control device 1300)

Next, being illustrated referring to Figure 23 to control device 1300.As shown in figure 23, control device 1300 mainly has Standby grinding control unit 1310 and the calculation part 1320 as operational part.In addition, control device 1300 can also be configured at The inside of sensor 100 can also be configured at the outside of sensor 100, and be connect by cable etc. with main body 110.

(6-2: grinding control unit 1310)

Grinding control unit 1310 carries out control relevant to the grinding carried out relative to workpiece W.Grinding Control unit 1310 carries out the driving control of for example various motors (Z axis motor 11, spindle motor 24, X-axis motor 31, grinding wheel motor 41) System, the control of the cooling liquid measure supplied from coolant supply apparatus 60, workpiece W based on dimension measurement device 70 diameter size Management etc..In addition, grinding control unit 1310 also implement it is related to the handling device (not shown) of carrying etc. for carrying out workpiece W Control.

(6-3: calculation part 1320)

The surface roughness at 1320 pairs of positions for having carried out the sensing detection based on sensor 100 of calculation part calculates. Calculation part 1320 has the first processing execution unit 1321, second processing enforcement division 1322 and selector 1323.

The detected value of first processing execution unit 1321 and second processing enforcement division 1322 based on sensor 100, to calculate The surface roughness at the position of sensing detection is carried out.Selector 1323 is thick on the surface for calculating the position for having carried out sensing detection When rugosity, selection executes the processing based on the first processing execution unit 1321 or executes based on second processing enforcement division 1322 Processing.

It herein, in the case that the workpiece W in grinding has carried out sensing detection and is not in grinding to work In the case that part W has carried out sensing detection, the waveform of control device 1300 from the received electric signal of sensor 100 is different.This is Cause are as follows: in the case that the workpiece W in grinding has carried out sensing detection, the influence reflection of grinding resistance when grinding In the waveform of the electric signal sent from sensor 100.

Therefore, in grinding machine 1201, the curent change based on grinding wheel motor 41 is provided with to 40 institute of grinding wheel in grinding wheel stand 30 The grinding resistance test section 1242 that the grinding resistance of generation is detected.Moreover, in the first processing, the first processing execution unit 1321 detected values based on grinding resistance test section 1242 eliminate grinding to calculate the detected value relative to sensor 100 The value of the amount of the influence of resistance.That is, first processing in, detected value of first processing execution unit 1321 based on sensor 100 and The detected value of grinding resistance test section 1242, to calculate the surface roughness of workpiece W.On the other hand, in second processing, second The influence of grinding resistance when processing execution unit 1322 is without the concern for grinding.Therefore, in second processing, second processing Enforcement division 1322 calculates the surface roughness of workpiece W without reference to the detected value of grinding resistance test section 1242.

Moreover, the selection of selector 1323 passes through in the case where just carrying out the workpiece W of sensing detection in grinding First is handled to execute the calculating of the surface roughness of workpiece W.On the other hand, just carry out sensing detection workpiece W be not In the case where in grinding, selector 1323 selects the calculating that the surface roughness of workpiece W is executed by second processing.

In this way, grinding machine 1201 detects the surface shape of workpiece W by sensor 100, and calculated based on the detected value The surface roughness of workpiece W.Grinding machine 1201 can be improved based on the surface roughness of the workpiece W of calculation part 1320 as a result, Calculate the precision of result.

In addition to this, calculation part 1320 is passed in gauging surface roughness relative to the workpiece W in grinding In the case where in the case where sense detection and carrying out sensing detection relative to the workpiece W not in grinding, to sensor 100 Detected value carries out different processing.Moreover, when grinding machine 1201 calculates surface roughness in the first processing, based in grinding Sensor 100 detected value and grinding resistance test section 1242 detected value, relative to sensor 100 detected value and remove The amount of the influence of grinding resistance.No matter grinding machine 1201 carries out the workpiece W of sensing detection whether in grinding as a result, in base In when the calculating the surface roughness of workpiece W of calculating of calculation part 1320, the precision of its calculated result can be improved.

(movement of 6-4. grinding wheel 40 and sensor 100)

Next, enumerating concrete example referring to Figure 24 A~Figure 24 C and being said to the movement of grinding wheel 40 and sensor 100 It is bright.As shown in fig. 24 a, in the initial stage for carrying out the grinding based on grinding wheel 40, sensor 100 is leaving from workpiece W Position is standby.Grinding machine 1201 can prevent coolant liquid dispersed in grinding etc. to be attached to sensor 100 as a result,.

As shown in fig. 24b, workpiece W is along with the traversing of workbench 10 and along Z-direction (right Figure 24 B) traversing.Moreover, Sensor 100, close to workpiece W, carries out being ground by grinding wheel 40 to workpiece W while movement (above Figure 24 B) along the x axis Position sensing detection.In this way, grinding machine 1201 can carry out the grinding of the workpiece W based on grinding wheel 40 on one side, The sensing detection of the workpiece W based on sensor 100 is concurrently carried out on one side.Moreover, in this case, grinding machine 1201 is relative to side The workpiece W for rotating side traversing carries out sensing detection, therefore can calculate the surface roughness of the outer peripheral surface entirety of workpiece W.

On the other hand, as shown in Figure 24 C, grinding machine 1201 is carried out relative to the workpiece W not in grinding based on biography In the case where the sensing detection of sensor 100, after based on the grinding of grinding wheel 40, make sensor 100 close to workpiece W. In this case, grinding machine 1201 can carry out pair in the state that water mist etc. by coolant liquid etc. comprising foreign matter, chip etc. removes The sensing detection of workpiece W, therefore can be improved the precision of the calculated result of surface roughness.

As described above, sensor 100 is provided with inspection in the front end side of the main body 110 with the strip of rodlike formation Survey portion 120, therefore can be realized the miniaturization of sensor 100.Grinding machine 1201 is able to maintain workpiece W by spindle box 21 as a result, The state held and the detection for carrying out the surface roughness of the workpiece W based on sensor 100.That is, grinding machine 1201 does not need for table The detection of surface roughness and the operation for carrying the workpiece W supported by work-supporting means 20 etc to other positions, therefore energy Enough raisings for realizing operating efficiency when carrying out the sensing detection based on sensor 100.

Also, grinding machine 1201 can carry out the grinding of the workpiece W based on grinding wheel 40 on one side, add on one side relative to grinding The workpiece W that work terminates concurrently carries out the detection of the surface roughness based on sensor 100.As a result, grinding machine 1201 be based on The case where detection of the surface roughness of the workpiece W based on sensor 100 is carried out after the grinding of the workpiece W of grinding wheel 40 It compares, the detection of the surface roughness of the workpiece W from starting the grinding to workpiece W after grinding can be shortened The required time until end.

In addition, sensor 100 is capable of the surface of workpiece W of the sensing detection in the grinding based on grinding wheel 40, calculate Portion 1320 carries out the first processing by the detected value to sensor 100, to calculate the surface roughness of workpiece W.Grinding machine as a result, 1201, in the case where carrying out sensing detection relative to workpiece W just in the cutting process, also can be improved surface roughness The precision of calculated result.As a result, grinding machine 1201 can be realized raising and the table of operating efficiency when carrying out sensing detection What the precision of the calculated result of surface roughness improved takes into account.

In addition, in the present embodiment, to the grinding of the workpiece W based on grinding wheel 40 and the work based on sensor 100 The case where detection of the surface roughness of part W carries out parallel is illustrated, but not limited to this.Namely based on sensor 100 The detection of the surface roughness of workpiece W can also carry out after the grinding whole of the workpiece W based on grinding wheel 40.

In this case, grinding machine 1201 does not need to carry out surface roughness while removing the foreign matter for being attached to workpiece W Detection.That is, grinding machine 1201 does not need the first air releasing portion 150, the second air releasing portion 170 being set to sensor 100, Therefore it can be realized the miniaturization of sensor 100.In addition, grinding machine 1201 can carry out workpiece W in the state of keeping workpiece W static Surface roughness detection, therefore can be improved the detection accuracy of sensor 100.

In addition, in the present embodiment, the case where being made of to machine tool system a grinding machine 1201, is illustrated, but not It is confined to this.For example, it is also possible to which machine tool system has: multiple grinding machines；And analysis unit, the outside of multiple grinding machines and company are set It is connected on the network of above-mentioned multiple grinding machines, the calculating as operational part of control device 1300 will be set in the present embodiment Portion 1320 is set to analysis unit.In this case, analysis unit is able to carry out based on the sensor from the sensing detection for having carried out workpiece W The parsing of the height of 100 testing results sent, and surface roughness is exported.Table of the machine tool system in detection workpiece W as a result, When surface roughness, its detection accuracy can be improved.

The 7th embodiment > of < 7.

Next, being illustrated to the 7th embodiment.In the 7th embodiment, grinding condition is based on by sensor The surface roughness of the workpiece W detected is illustrated the case where decision.

(brief configuration of 7-1. grinding machine 1401)

As shown in figure 25, machine tool system is by carrying out one of grinding while rotating the crankshaft as workpiece W Worktable traverse formula grinding machine 1401 is constituted.In addition, present embodiment will apply situation of the invention in worktable traverse formula grinding machine It is enumerated as example to be illustrated, but can also be in the grinding wheel stand traversing type grinding machine application present invention.

(7-2. control device 1500)

Next, being illustrated referring to Figure 26 to control device 1500.As shown in figure 26, control device 1500 has: main Axis control unit 1510, grinding wheel control unit 1520, workbench control unit 1530, grinding wheel stand control unit 1540 and as operational part Grinding condition determination section 1550.

Spindle control part 1510 passes through the drive control for carrying out spindle motor 24 (referring to Figure 25), to control workpiece W (reference Rotation Figure 25).Grinding wheel control unit 1520 passes through the drive control for carrying out grinding wheel motor 41 (referring to Figure 25), to control grinding wheel 40 The rotation of (referring to Figure 25).Workbench control unit 1530 passes through the drive control for carrying out Z axis motor 11 (referring to Figure 25), to control The position of workbench 10 (referring to Figure 25) in Z-direction and feed speed.Grinding wheel stand control unit 1540 is by carrying out X-axis horse Up to the drive control of 31 (referring to Figure 25), to control position and the feeding speed of the grinding wheel stand 30 in X-direction (referring to Figure 25) Degree.

Grinding condition determination section 1550 is based on detection relevant to the surface roughness of workpiece W obtained from sensor 100 As a result, determining the condition for the grinding implemented thereafter.Grinding wheel stand control unit 1540 is according to being determined by grinding condition determination section 1550 Grinding condition, to control position and the feed speed of grinding wheel stand 30.

(process of 7-3. grinding)

Next, the process to grinding is illustrated.Herein, by the crankshaft axis relative to the crankshaft as workpiece W Neck carries out the case where grinding based on crush grinding and is enumerated as example and is illustrated.

As shown in figure 27, grinding successively executes roughing, semifinishing, finishing and sparking out this four Process rotates grinding wheel 40 in the state of stopping the feeding of grinding wheel stand 30 in sparking out.Pre-determined roughing, The feed speed of the grinding wheel stand 30 of semifinishing, finishing.When the feed speed of grinding wheel stand 30 when roughing is than semifinishing Grinding wheel stand 30 feed speed it is fast, grinding wheel stand 30 when the feed speed of the grinding wheel stand 30 when semifinishing is than finishing Feed speed is fast.

If measurement result of the grinding condition determination section 1550 based on dimension measurement device 70 is judged as that the outer diameter of workpiece W arrives Up to pre-determined dimension D 1, then the feed speed of grinding wheel stand 30 is changed, is shifted from roughing to semifinishing.Equally, it is ground If conditional decision portion 1550 is judged as that the outer diameter of workpiece W reaches pre-determined dimension D 2 (D2 < D1), grinding wheel stand 30 is changed Feed speed, from semifinishing to finishing shift.Moreover, if grinding condition determination section 1550 is judged as the outer diameter of workpiece W Pre-determined dimension D 3 (D3 < D2) is reached, then stops the feeding of grinding wheel stand 30, is shifted from finishing to sparking out.This Outside, dimension D 3 is equivalent to the desired outer diameter of the workpiece W after grinding.

Herein, in advance the feed speed of the grinding wheel stand of each process 30 is set as obtaining at the end of being presumed to grinding In the range of obtaining desired surface roughness, speed as fast as possible.Grinding machine 1401 can be realized needed for grinding as a result, The shortening for the time wanted, therefore can be carried out efficiently grinding.However, due to the table of the workpiece W after covering machining The state of the casting skin in face is uneven, therefore even if carrying out grinding with pre-determined feed speed, also has grinding The surface roughness of workpiece W afterwards does not become the case where desired state.

Therefore, during carrying out the grinding of the workpiece W based on grinding wheel 40,100 pairs of portions being ground of sensor The surface roughness (such as maximum height Rz etc.) of position is detected.Grinding condition determination section 1550 will examined by sensor 100 For the surface roughness measured compared with pre-determined defined threshold, the value for the surface roughness for being judged to detecting is greater than regulation In the case where threshold value, decision makes surface roughness become the such grinding condition of threshold value or less.1540 basis of grinding wheel stand control unit Drive control is carried out to X-axis motor 31 by condition that grinding condition determination section 1550 determines, carries out the feeding speed of grinding wheel stand 30 The change of degree.

(7-4: the amendment of grinding condition)

Hereinafter, enumerating example shown in Figure 28~Figure 29 B to grinding conditional decision portion 1550 according to detection when grinding To workpiece W surface roughness and the amendment of grinding condition that carries out, be illustrated.

In addition, carrying out drive control to spindle motor 24 by spindle control part 1510, and workpiece W is made to rotate one on one side While carrying out the sensing detection based on sensor 100.Sensor 100 can be in the workpiece in the position of workpiece W being ground as a result, The defined axial position of W detects the surface roughness of the range of one week amount.Grinding machine 1401 is able to suppress as a result: being ground A part of remaining at the time of process finishing at the position of workpiece W being ground does not become the portion of desired surface roughness The generation of the undesirable condition of/class.

In the example shown in Figure 28, before the outer diameter of the workpiece W in roughing of grinding condition determination section 1550 reaches D1, into Sensing detection of the row based on sensor 100.In addition, carrying out the opportunity of sensing detection based on from starting grinding when passing through Between, the position (from workpiece W to the distance of grinding wheel stand 30) of grinding wheel stand 30 etc. determines.Sensor 100 was ground to workpiece W's The surface roughness at position is detected, and grinding condition determination section 1550 is to the surface roughness detected by sensor 100 Whether value, which is greater than pre-determined defined threshold, is determined.

Moreover, in the case where being determined as that the value of surface roughness is greater than pre-determined defined threshold, grinding wheel stand control Portion 1540 carries out drive control to X-axis motor 31, reduces the feed speed of grinding wheel stand 30.In this way, grinding machine 1401 slightly add In the case that the surface roughness of workpiece W does not reach the surface roughness presupposed during work, by correcting grinding wheel stand 30 feed speed, the raising of the surface roughness of Lai Shixian workpiece W.Grinding machine 1401 passes through to the workpiece W's in grinding Surface roughness monitored, and carries out the amendment of grinding condition as needed, so as at the time of grinding terminates, Reliably making the surface roughness of workpiece W becomes desired state.

In addition, example progress will be enumerated as the case where carrying out the sensing detection based on sensor 100 in roughing herein Explanation, but the sensing detection based on sensor 100 can be carried out in semifinishing and when finish certainly, and based on table The testing result of surface roughness come determine followed by grinding condition, grinding is carried out under conditions of this determines. Alternatively, it is also possible to carry out the sensing detection repeatedly based on sensor 100 in a process.

In the example shown in Figure 29 A, grinding condition determination section 1550 carries out base at the time of the outer diameter of workpiece W reaches D1 In the sensing detection of sensor 100.Sensor 100 detects the surface roughness at the position of workpiece W being ground, grinding Conditional decision portion 1550 determines whether the detected value detected by sensor 100 is greater than pre-determined defined threshold.

Moreover, being judged as that the value of the surface roughness detected is greater than pre-determined rule in grinding condition determination section 1550 In the case where determining threshold value, grinding wheel stand control unit 1540 carries out drive control to X-axis motor 31, makes semi-finished grinding wheel stand 30 Feed speed is slower than pre-determined semi-finished feed speed.In this way, grinding machine 1401 is when the outer diameter of workpiece W reaches D1 It carves, in the case where being judged as that the surface roughness of workpiece W is not up to the surface roughness presupposed, to semi-finished grinding wheel The feed speed of seat 30 is modified.Grinding machine 1401 can reliably make workpiece W's at the time of grinding terminates as a result, Surface roughness becomes desired state.

In addition, herein, the surface roughness of workpiece W at the time of reaching D1 based on the outer diameter of workpiece W to be adjusted to half essence The case where feed speed of grinding wheel stand 30 when processing, is enumerated as example and is illustrated, but certainly also can be based on workpiece W's The surface roughness of workpiece W at the time of outer diameter reaches D2 adjusts the feed speed of the grinding wheel stand 30 when finishing.

On the other hand, example as shown in fig. 29b is such, and grinding machine 1401 can also be when the outer diameter of workpiece W reaches D1 The value for carving the surface roughness for carrying out the sensing detection based on sensor 100, and being judged to detecting is greater than the feelings of defined threshold Under condition, continue roughing.In this case, the case where feed speed of grinding machine 1401 and the semi-finished grinding wheel stand 30 of reduction phase Than can be realized the shortening of time required for grinding entirety.In this case, the workpiece W that grinding machine 1401 detects behind Surface roughness become in defined threshold situation below, from roughing to semifinishing switching process.

In addition, in the example shown in Figure 29 B, grinding wheel stand control unit 1540 so that until semifinishing terminates when Between make the feed speed of semi-finished grinding wheel stand 30 than pre-determined feeding speed with the mode of pre-determined time consistency Degree is slow.However, not limited to this, grinding wheel stand control unit 1540 can also be carried out after the roughing for continuing to implement based on biography The sensing detection of sensor 100, and determine based on the surface roughness detected the feed speed of semi-finished grinding wheel stand 30.

In addition, in the case where the outer diameter of workpiece W reaches and continues rough machined situation after D1, continue it is rough machined into Can be identical as the feed speed when roughing just implemented to speed, when also can be set as the roughing than just having implemented Feed speed is slow and feed speed that feed speed when than pre-determined semifinishing is fast.

In this way, grinding condition determination section 1550 is when the outer diameter of workpiece W reaches D1 to the table at the position of workpiece W being ground Surface roughness is detected, and the opportunity from roughing to semifinishing switching process is determined based on its testing result.As a result, Grinding machine 1401 can be avoided the grinding in the state that surface remaining of workpiece W has casting skin and switch from roughing to semifinishing Process.As a result, grinding machine 1401 can reliably make at the end of grinding workpiece W surface roughness become wish The surface roughness of prestige.

As described above, grinding is being carried out by crush grinding until the outer diameter of workpiece W becomes regulation ruler During until very little, sensor 100 detects the surface roughness at the position of workpiece W being ground.1401 base of grinding machine In the value of the surface roughness of the workpiece W detected by sensor 100 come determine followed by grinding condition, and according to this The grinding condition of decision carries out grinding.Grinding machine 1401 can reliably make work at the time of grinding terminates as a result, The surface roughness of part W becomes desired state.

In addition, grinding machine 1401, which passes through, is set as fast as possible for the feed speed of each process of the grinding predetermined Speed, can be realized the shortening of time required for grinding entirety.On the other hand, grinding condition determination section 1550 is being ground It cuts in processing and the surface roughness at the position of workpiece W being ground is detected, be judged as the surface roughness detected In the case that value is greater than defined threshold, the feed speed of grinding wheel stand 30 is reduced, to obtain surface roughness as defined threshold Grinding condition below.Grinding machine 1401 is added by the setting of the such grinding condition of progress so as to efficiently carry out grinding Work, and the surface roughness of workpiece W is reliably made to become desired state.

In addition, in the present embodiment, to grinding conditional decision portion 1550 according to the workpiece W based on dimension measurement device 70 The measurement result of outer diameter determine that the case where carrying out the opportunity of the sensing detection based on sensor 100 is illustrated, but not It is confined to this.That is, grinding condition determination section 1550 can also the position (workpiece W is at a distance from grinding wheel 40) based on grinding wheel stand 30, To determine to carry out the opportunity of the sensing detection based on sensor 100.

Also, in the present embodiment, on one side rotate workpiece W in grinding machine 1401, on one side to the surface roughness of workpiece W The case where being detected is illustrated, but can also carry out in the state of stopping the rotation of workpiece W based on sensor 100 Workpiece W sensing detection.

In addition, in the present embodiment, machine tool system is made of a grinding machine 1401, but not limited to this.For example, can also Have with machine tool system: multiple grinding machines；And analysis unit, the outside of multiple grinding machines is set and is connected with above-mentioned multiple grinding machines On network, the grinding condition determination section 1550 as operational part that control device 1500 is set in present embodiment is set to Analysis unit.In this case, analysis unit stockpiles: (the surface roughness of specific workpiece W for example under specific processing conditions Value, specific grinding machine 1401 and specific environment (gas epidemic disaster) etc.) surface roughness of workpiece W that is ground Value.Moreover, analysis unit parses the data stockpiled, grinding condition determination section 1550 is according to the parsing knot based on analysis unit Fruit (trend, abnormal generation etc.) determines optimal grinding condition.Grinding machine 1401 can reliably make the table of workpiece W as a result, Surface roughness becomes desired state.

The 8th embodiment > of < 8.

Next, being illustrated referring to Figure 30~Figure 32 B to the 8th embodiment.In the 7th embodiment, to making The case where carrying out crush grinding for the crankshaft of workpiece W is illustrated.In contrast, in the 8th embodiment, in cylinder The case where workpiece W progress traversing grinding of shape, is illustrated.In addition, marking phase to the above-mentioned identical component of each embodiment Same appended drawing reference, the description thereof will be omitted.

(8-1: the process of grinding)

As shown in figure 30, the processing based on traversing grinding successively executes roughing, semifinishing, finishing and no-spark It is ground this four processes.The switching of process be based primarily upon position (distance away from workpiece W) in the X-direction of grinding wheel stand 30 and The outer diameter for the workpiece W being ground carries out.In addition, predetermining the traversing along Z-direction of the workbench 10 in each process Amount of movement (the incision along the x axis of grinding wheel stand 30 after speed and the number of traversing grinding, traversing grinding Amount).

Approach when roughing is greater than approach when semifinishing, when approach when semifinishing is greater than finishing Approach.In addition, grinding machine 1601 is in the state of stopping the feeding along the x axis of grinding wheel stand 30 in sparking out Rotate grinding wheel 40.In addition, dimension measurement device 70 is the traversing feeding end along Z-direction from workbench 10 up to opening During until beginning next traversing feeding, the outer diameter of workpiece W is measured.

If grinding condition determination section 1750 is according to the X-axis of measurement result and grinding wheel stand 30 based on dimension measurement device 70 Position on direction is judged as that the outer diameter of workpiece W reaches pre-determined dimension D 1, if the feed speed of change grinding wheel stand 30, From roughing to semifinishing switching process.Equally, if being judged as, the outer diameter of workpiece W reaches pre-determined dimension D 2, grinds The feed speed that conditional decision portion 1750 changes grinding wheel stand 30 is cut, the switching of process is carried out from semifinishing to finishing.Moreover, If grinding condition determination section 1750 is judged as that the outer diameter of workpiece W reaches pre-determined dimension D 3, stop grinding wheel stand 30 into It gives, the switching of process is carried out from finishing to sparking out.

(8-2: the amendment of grinding condition)

Next, enumerating example shown in Figure 30~Figure 32 B, examined when to grinding conditional decision portion 1750 according to grinding The surface roughness of the workpiece W measured and the amendment of grinding condition carried out are illustrated.

In addition, carrying out drive control to spindle motor 24 by spindle control part 1510, and pass through workbench control on one side Portion 1530 processed drives Z axis motor 11 to carry out the sensing detection based on sensor 100 on one side.That is, rotating workpiece W, and Make workpiece W in the state of the opposite traversing feeding of Z-direction relative to sensor 100, sensor 100 is thick to the surface of workpiece W Rugosity is detected.In this case, grinding machine 1601 can be detected the whole surface roughness of workpiece W by sensor 100.Cause This, a part of remaining surface roughness of the grinding machine 1601 at the position of workpiece W being ground becomes defined threshold part below In the case where, the position can be reliably detected, is determined so that the entire surface of workpiece W becomes the such mill of defined threshold or less The condition cut.As a result, grinding machine 1601 can reliably make the surface of workpiece W entirety at the time of grinding terminates Roughness becomes desired state.

In addition, the detection of the surface roughness of the workpiece W based on sensor 100 is after the traversing of stipulated number grinding And it is carried out before starting next traversing grinding.In this case, grinding machine 1601 is carried out with while carrying out traversing grinding based on biography The case where sensing detection of sensor 100, is compared, and can be improved the detection accuracy of surface roughness.

In the example shown in Figure 30, grinding machine 1601 preset stipulated number traversing be ground terminate at the time of and Before the outer diameter of workpiece W reaches D1, the sensing detection based on sensor 100 is carried out.Moreover, grinding condition determination section 1750 is to work The surface roughness at the position of part W being ground is detected, and it is pre-determined to determine whether the value of the surface roughness is greater than Defined threshold.

As a result, being determined as the case where value of surface roughness is greater than defined threshold in grinding condition determination section 1750 Under, workbench control unit 1530 carries out drive control to Z axis motor 11, the feed speed of workbench 10 is reduced, so that surface is thick Rugosity becomes threshold value or less.Grinding machine 1601 can reduce relative moving speed of the workpiece W relative to grinding wheel 40, therefore energy as a result, Enough realize the raising of the surface roughness of workpiece W.In this way, grinding machine 1601 passes through the rough surface to the workpiece W in grinding Degree is monitored, and carries out the amendment of grinding condition as needed, to can reliably make at the time of grinding terminates The surface roughness of workpiece W becomes desired state.

In addition, in this case, grinding machine 1601, which can also replace, carries out Z axis motor 11 by workbench control unit 1530 Drive control, or simultaneously with the drive control of Z axis motor 11, spindle motor 24 is driven by spindle control part 1510 Control, to reduce relative moving speed of the workpiece W relative to grinding wheel 40.

In the example shown in Figure 32 A and Figure 32 B, grinding machine 1601 is ground knot in the traversing of preset stipulated number At the time of beam and before the outer diameter of workpiece W reaches D1, the sensing detection based on sensor 100 is carried out.Moreover, grinding condition determination section 1750 determine the number that remaining traversing when roughing is ground according to the surface roughness at the position of workpiece W being ground.

That is, as shown in fig. 32 a, grinding condition determination section 1750 is thick on the surface at the position being ground for being determined as workpiece W In the case that rugosity is less than pre-determined defined threshold (better than imaginary surface roughness), time of remaining traversing grinding is reduced Number.At the same time, grinding wheel stand control unit 1540 increases the amount of movement (approach) of traversing grinding wheel stand 30 after grinding, so that It obtains the outer diameter of workpiece W at the time of roughing terminates and reaches D1.Grinding machine 1601 can reduce rough machined traversing grinding time as a result, Number, therefore can be realized the shortening of time required for roughing.

On the other hand, as shown in fig. 32b, grinding condition determination section 1750 is at the position being ground for being determined as workpiece W In the case that surface roughness is greater than defined threshold (surface roughness is bad compared to hypothesis), increase time of remaining traversing grinding Number.At the same time, grinding wheel stand control unit 1540 reduces the amount of movement of traversing grinding wheel stand 30 after grinding, so that in roughing The outer diameter of workpiece W reaches D1 at the time of end.Grinding machine 1601 can be realized the raising of surface roughness as a result, therefore can be Reliably making the surface roughness of workpiece W at the time of grinding terminates becomes desired state.

As described above, the outer diameter for carrying out grinding up to workpiece W is being ground by traversing as regulation ruler During until very little, sensor 100 detects the surface roughness at the position of workpiece W being ground.1601 base of grinding machine In the value of the surface roughness of the workpiece W detected by sensor 100 come determine followed by grinding condition, and according to this The grinding condition of decision carries out grinding.Grinding machine 1601 can reliably make work at the time of grinding terminates as a result, The surface roughness of part W becomes desired state.

In addition, by after the traversing grinding for having carried out stipulated number in roughing, being based on mill in Figure 32 A and Figure 32 B The case where number of the surface roughness at the position cut to determine remaining traversing grinding, is enumerated as example and is illustrated, but It is not limited to this.That is, certainly the traversing of stipulated number can have been carried out in semifinishing, finishing and sparking out After grinding, the testing result of the surface roughness based on workpiece W determines the number of remaining traversing grinding.

In addition, illustrating in the present embodiment, after the traversing of stipulated number grinding and start next traversing mill Before cutting, the case where detection of the surface roughness of the workpiece W based on sensor 100 is carried out to grinding machine 1601, but not limited to this. That is, grinding machine 1601 can also carry out the grinding of the traversing based on grinding wheel 40 on one side, carry out the workpiece W's based on sensor 100 on one side The detection of surface roughness.In this case, grinding machine 1601 can be ground with traversing concurrently carries out the sensing based on sensor 100 Detection, therefore can be realized the shortening of time required for grinding entirety.

The 9th embodiment > of < 9.

Next, being illustrated to the 9th embodiment.Lathe 1801 in the 9th embodiment, as machine tool system The replacement period of coolant liquid is determined using sensor 1920.In addition, being marked to component identical with above-mentioned each embodiment Identical appended drawing reference, the description thereof will be omitted.Firstly, evaluating referring to Figure 33 the dirt for the coolant liquid C for using the 9th embodiment The outline of the lathe 1801 of device 1900 is illustrated.

(brief configuration of 9-1. lathe 1801)

As shown in figure 33, lathe 1801 while rotating cylindric workpiece W by carrying out a work of grinding Make platform traversing type grinding machine composition.Lathe 1801 has: lathe bed 2, workbench 10, work-supporting means 20, grinding wheel stand 30, grinding wheel 40, dimension measurement device 70 and coolant supply apparatus 1860.Coolant supply apparatus 1860, which is set to, to be left from lathe bed 2 Position supplies coolant liquid C from coolant nozzle (not shown) towards grinding position.

(structure of 9-2. coolant supply apparatus 1860)

As shown in figure 34, coolant supply apparatus 1860 has can body 1890 and dirty evaluating apparatus 1900.Can body 1890 be the container for stockpiling coolant liquid C.The coolant liquid C of can body 1890 is accumulated in after being supplied in grinding position, is returned It receives and returns to can body 1890.

The transparency window for stockpiling region to form the coolant liquid C of can body 1890 is provided in the lateral surface of can body 1890 1891.The liquid level for being accumulated in the coolant liquid C of can body 1890 is located at, Neng Goujing more against the top than the position configured with transparency window 1891 The dirty degree of coolant liquid C is confirmed from the outside of can body 1890 by transparency window 1891.

Dirty evaluating apparatus 1900 is the device in the replacement period of the coolant liquid C for determining to be accumulated in can body 1890. Dirty evaluating apparatus 1900 has: reflection component 1910, sensor 1920 and evaluation section 1930.

Reflection component 1910 configures on the position opposed with transparency window 1891 in the inside of can body 1890, and transparent The space that can be flowed into for being accumulated in the coolant liquid C of can body 1890 is formed between window 1891 and reflection component 1910.

As shown in figure 35, sensor 1920 has maintaining part 1921 and test section 120.Maintaining part 1921 is fixed on can body 1890 lateral surface, and keep test section 120.Test section 120 is configured at right with reflection component 1910 across transparency window 1891 The position set.

Whether the light quantity that evaluation section 1930 for example receives the first light receiving element 123 and the second light receiving element 124 is small Determined in pre-determined light quantity.Moreover, the light received in the first light receiving element 123 and the second light receiving element 124 In the case that amount is less than pre-determined light quantity, evaluation section 1930 is judged as the replacement period of coolant liquid C.In this case, dirty The reporting devices such as lamp, buzzer can also be arranged in sensor 1920 in evaluating apparatus 1900, and are judged as cold in evaluation section 1930 But in the case where the replacement period of liquid C, by reporting device, which is reported to operator.

In this way, dirty evaluating apparatus 1900 carries out sensing detection by dirty degree of the sensor 1920 to coolant liquid C, comments Valence.Operator can be according to the suitable replacement period for grasping coolant liquid based on the evaluation of dirty evaluating apparatus 1900.In addition, Sensor 1920 is set to can body 1890, therefore can be improved the design freedom of lathe 1801.

In addition, in the present embodiment, the lathe 1801 as machine tool system is made of a grinding machine, but is not limited to This.For example, it is also possible to which machine tool system has: multiple lathes (grinding machine)；And analysis unit, the outside of multiple lathes and company are set It is connected on the network of above-mentioned multiple lathes, the conduct for being set to dirty evaluating apparatus 100 in the present embodiment can also be transported The evaluation section 130 in calculation portion is set to analysis unit.In this case, analysis unit stockpiles: for example specific processing conditions is (specific Workpiece W, specific lathe 1, specific environment (temperature, temperature) etc.), the dirty degree of coolant liquid C of specific machining state etc. The relevant data of institute.Moreover, analysis unit parses the data stockpiled, evaluation section 130 (is become based on the parsing result of analysis unit Gesture, abnormal generation etc.) prediction in replacement period of Lai Jinhang coolant liquid C, the decision of processing conditions appropriate.Lathe as a result, System can be in the replacement of period appropriate progress coolant liquid C.

The tenth embodiment > of < 10.

Next, being illustrated referring to Figure 35 to the tenth embodiment.In the 9th embodiment, to light-emitting component 122 It shines towards the reflection component 1910 for the state being impregnated in the liquid of coolant liquid C, and the first light receiving element 123 and the second light The receiving of element 124 is illustrated from the case where reflected light of reflection component 1910 and coolant liquid C.In contrast, In ten embodiments, the reflection component 2110 that light-emitting component 122 takes out into the liquid from coolant liquid C shines, the first light receiving element 123 and second light receiving element 124 receive from reflection component 2110 and reflection component 2110 attachment floating material S it is anti- Penetrate light.In addition, except the dirty evaluating apparatus 2100 of the removing coolant supply apparatus 2060 of lathe 2001 of the tenth embodiment, With structure identical with the lathe 1801 of the 9th embodiment.In addition, to component mark identical with above-mentioned each embodiment Identical appended drawing reference is infused, the description thereof will be omitted.

(structure of 10-1. dirt evaluating apparatus 2100)

As shown in figure 36, dirty evaluating apparatus 2100 has: reflection component 2110, sensor 2120 and evaluation section 1930.Reflection component 2110 by relative to can body 1890 and can in the liquid of coolant liquid C with outside liquid between it is mobile in a manner of Setting, and the floating material S be formed as in the state of taking out to outside liquid in liquid can be attached to the reflection component 2110.

Sensor 2120 has maintaining part 2121 and test section 120.Maintaining part 2121 is fixed on the outside of can body 1890 Face, and keep test section 120.Test section 120 be configured at than the coolant liquid C of can body 1890 to stockpile region against the top.Sensing Device 2120 shines towards the reflection component 2110 taken out in the liquid from coolant liquid C, receives from reflection component 2110 and anti- Penetrate the reflected light of the floating material S of the attachment of component 2110.

Evaluation section 1930 comes from reflection component based on what the first light receiving element 123 and the second light receiving element 124 were received The light quantity of 2110 reflected light and the reflected light from floating material S evaluates the dirty degree of coolant liquid C.The situation Under, dirty evaluating apparatus 2100 is carried out relative to the reflection component 2110 taken out outside the liquid to coolant liquid C based on sensor 2120 Sensing detection, the dirty degree of coolant liquid C is evaluated.Therefore, even if coolant liquid is coloured, dirty evaluating apparatus 2100 The dirty degree of coolant liquid C can correctly be evaluated.

The 11st embodiment > of < 11.

Next, being illustrated to the 11st embodiment.It is solid to test section 120 in above-mentioned first embodiment It is illustrated due to the case where outer peripheral surface of main body 110, but in the 11st embodiment, test section 120 is fixed on main body 110 front end face.In addition, marking identical appended drawing reference to component identical with above-mentioned each embodiment, the description thereof will be omitted.

As shown in figure 37, in sensor 2200, test section 120 is fixed in the front end face of main body 110.Sensor 2200 It is located at the Working position opposite side with grinding wheel 40 and workpiece W relative to workpiece W, the main body 110 of test section 120 will be fixed with Front end face with towards workpiece W state configure.In this case, sensor 2200 configures test section 120 in the top of workpiece W Situation is compared, and can be will test region A and is set to from Working position and positions away from.Therefore, sensor 2200 can be easy to prevent Only foreign matter is to the dispersing of test section 120, entrance of the water mist to detection zone.

In addition, configuring test section 120 along with the front end face in main body 110, detection mouth 2242 is formed in main body cover 2240 Front end face (face on the right side of towards Figure 37), the first air releasing portion 150 is formed with around the detection mouth 2242.

Also, the second air releasing portion 2270 is configured at the upper surface of main body cover 2240 and than air supply unit 81 close to work The position of part W.Wind cutting plate 2280 is configured between the second air releasing portion 2270 and the first air releasing portion 150, the second air Releasing portion 2270 makes air position away from direction with workpiece W from compared to the end face 2280a towards the workpiece of wind cutting plate 2280 Workpiece W radiation.

Thereby, it is possible to prevent from spraying from the air that the second air releasing portion 2270 releases towards detection zone A, therefore sense Device 2200 is able to suppress the foreign matter to disperse by the air sprayed from the second air releasing portion 2270 and is attached to test section 120.Separately Outside, the air released from the second air releasing portion 2270 on one side by the guidance of wind cutting plate 2280 while towards workpiece W, therefore sensor 2200 can consumingly spray air relative to workpiece W.Sensor 2200 can be easy that the foreign matter of workpiece W will be attached to as a result, It removes.

Other > of < 12.

More than, the present invention is described based on the respective embodiments described above, but the present invention be not limited to completely it is above-mentioned each Mode can be readily apparent that and be able to carry out various modifications improvement without departing from the spirit and scope of the invention.

For example, being fixed on the feelings of main body cover 140 to main body 110 in above-mentioned first embodiment~the 8th embodiment Condition is illustrated, but also may be constructed are as follows: main body 110 can relatively move along the x axis relative to main body cover 140.The feelings Under condition, sensor 100,600 can make test section 120 to not from detection in the state of the detection without surface roughness The position that mouth 142 exposes is mobile, therefore is reliably prevented from and adheres to foreign matter in test section 120.

13. effect > of <

As described above, as the lathe of machine tool system of the invention 1001,1801,2001, grinding machine 1,301, 501,1201,1401,1601 and machining center 801 have: by workpiece W bearing for the work-supporting means 20 that can rotate or Turntable 870 of the person as work-supporting means；Grinding wheel 40, machining tool 841 or the grinding of tool as workpieces processing W Tool 1042；The test section 120 of the sensing detection of workpiece W is carried out in a non-contact manner；And the detection based on test section 120 As a result carry out the operational part 220,420,630 of the extraction of the shape information of operation workpiece W or the surface roughness of workpiece W or make For the processing conditions determination section 1170 of operational part, calculation part 1320, grinding condition determination section 1550,1750 and evaluation section 1930。

According to as the machine tool system lathe 1001,1801,2001, grinding machine 1,301,501,1201,1401,1601 with And machining center 801, test section 120 carry out the sensing detection of workpiece W in a non-contact manner.Moreover, operational part 220,420, 630 or the processing conditions determination section 1170 as operational part, calculation part 1320, grinding condition determination section 1550,1750 and Testing result of the evaluation section 1930 based on test section 120 is thick come the surface of the extraction of the shape information of operation workpiece W or workpiece W Rugosity.Machine tool system can not contact with workpiece W and carry out the extraction of the shape information of workpiece W or the surface of workpiece W as a result, The operation of roughness.

As in above-mentioned first embodiment and second embodiment illustrate as, as machine tool system grinding machine 1, 301 have: work-supporting means 20, and workpiece W bearing can be rotated；Grinding wheel 40, as to by work-supporting means The tool that the workpiece W of 20 bearings is processed；Sensor 100, direction are shone by the workpiece W that work-supporting means 20 supports, And receive the reflected light on the surface from workpiece W；And operational part 220,420, the biography based on the state for rotating workpiece W The light income of sensor 100 extracts the shape information of workpiece W out.

According to the grinding machine 1,301 as the machine tool system, sensor 100 is towards the workpiece supported by work-supporting means 20 W shines, and receives by the reflected light of the surface reflection of workpiece W.Moreover, 220,420 light based on sensor 100 of operational part It measures to obtain the shape information of workpiece W.The shape information of workpiece W is obtained thereby, it is possible to not contact workpiece W, and carries out workpiece The measuring shape of W.

In the grinding machine 1,301 as above-mentioned machine tool system, 220,420 light income based on sensor 100 of operational part And extract out the distance away from workpiece W, the distance based on the extraction and extract shape information out.Grinding machine 1,301 as the machine tool system Can not contact workpiece W and obtain the shape information of workpiece W.

In the above-mentioned grinding machine 1 as machine tool system, operational part 220,420 by rotating and excursion caused by workpiece W at Divide extraction.Grinding machine 1 as the machine tool system can not contact with workpiece W and carry out whether workpiece W generates sentencing for rotating and excursion It is fixed.

In the grinding machine 1 as above-mentioned machine tool system, workpiece W is formed with cylindrical shape, and operational part 220 is from light income phase The rotating and excursion ingredient of workpiece is removed by the information of the rotatable phase of workpiece W, and extracts circularity ingredient out as shape information. Grinding machine 1 as the machine tool system can not contact with workpiece W and carry out information relevant with the circularity of workpiece W.

In the above-mentioned grinding machine 1 as machine tool system, operational part 220 is removed from the information of light income as rotating and excursion Low-frequency component is removed, extracts radio-frequency component out as circularity ingredient.Grinding machine 1 as the machine tool system with the measurement function can be high Extract to precision information relevant to the circularity of workpiece W out.

In the above-mentioned grinding machine 1 as machine tool system, the extraction of operational part 220 trembles ingredient caused by the workpiece W.Make The judgement whether workpiece W generate trembling can not be contiguously carried out with workpiece W for the grinding machine 1 of the machine tool system.

In the above-mentioned grinding machine 301 as machine tool system, workpiece W is cam, and operational part 420 is based on rotating workpiece W And the light income of the sensor 100 for the state for moving sensor 100 along cam surface, extracts the ingredient of cam contour out.Tool Information relevant with cam contour can not contiguously be carried out to workpiece W by having the machine tool system of the measurement function.

In the above-mentioned grinding machine 1 as machine tool system, sensor 100 has: substrate 121；Light-emitting component 122, peace It shines on substrate 121, and towards workpiece W；And as the first light receiving element 123 and the second light receiving element 124 by Optical element is installed near light-emitting component on substrate 121, and receives the reflected light from workpiece W.As the lathe system The grinding machine 1 of system can detect in a non-contact manner the shape information of workpiece W, therefore can be avoided the inspection along with shape information It surveys and injures the workpiece W after grinding.

As illustrated by above-mentioned third embodiment and the 4th embodiment, Surface Roughness Detecting Method is The Surface Roughness Detecting Method of the surface roughness for the workpiece W being ground by grinding wheel 40 is detected with sensor 600.Sensor 600 have: the main body 110 of strip, with rodlike formation；With test section 120, be located at main body 110 front end side side It is fixed, and the surface roughness of workpiece W can be detected in a non-contact manner.Surface Roughness Detecting Method is by making test section 120 around main body 110 axis rotate, so as to detect the surface roughness towards different more than two positions in workpiece W.

The Surface Roughness Detecting Method is by rotating test section 120 around the axis of main body 110, to detect in workpiece W The surface roughness towards different more than two positions, therefore can be carried out efficiently the inspection of the surface roughness of workpiece W It surveys.

Also, for above-mentioned Surface Roughness Detecting Method, the rough surface of the workpiece W based on sensor 600 The detection of degree and the grinding of the workpiece W based on grinding wheel 40 concurrently carry out.The Surface Roughness Detecting Method be based on After the grinding of the workpiece W of grinding wheel 40, the feelings of the detection of the surface roughness of the workpiece W based on sensor 600 are carried out Condition is compared, and the surface roughness of the workpiece W from starting relative to the grinding of workpiece W after grinding can be shortened Detection terminate until the required time.

In above-mentioned Surface Roughness Detecting Method, workpiece W is crankshaft, and test section 120 is able to detect the crankshaft of crankshaft The surface roughness of axle journal Wa.The Surface Roughness Detecting Method can be in the surface roughness of the crankshaft journal Wa of detection crankshaft In the case where efficiently carry out the detection of surface roughness.

In addition to this, above-mentioned Surface Roughness Detecting Method by make test section 120 around main body 110 axis rotate, from And the interconnecting piece of end face Wa1, Wa5 to crankshaft journal Wa, barrel surface Wa3 and end face Wa1, Wa5 and barrel surface Wa3 connection The surface roughness at at least two position divided in Wa2, Wa4 is detected.

The Surface Roughness Detecting Method can the crankshaft journal Wa to crankshaft end face Wa1, Wa5, barrel surface Wa3 with And the rough surface of end face Wa1, Wa5 and at least two position in coupling part Wa2, Wa4 of barrel surface Wa3 connection In the case that degree is detected, the detection of surface roughness is efficiently carried out.

In addition, the mill as illustrated by above-mentioned third embodiment and the 4th embodiment, as machine tool system Bed 501 and machining center 801 have: as the spindle box 21 or turntable 870 of work-supporting means 20, by workpiece W branch It holds as that can rotate；Grinding wheel 40 or machining tool 841, the tool as workpieces processing W；Sensor 600 detects work The surface roughness of part W；And control device 700,900, it carries out and the grinding wheel 40 or machining tool 841 as tool And the relevant control of sensor 600.Sensor 600 has: the main body 110 of strip, with rodlike formation；Test section 120, The lateral surface of its front end side for being fixed on main body 110, and the surface roughness of workpiece W can be detected in a non-contact manner；With And driving portion 690, assign the driving force for being pivoted main body 110.

Grinding machine 501 and machining center 801 as the machine tool system can be by making test section 120 around main body 110 Axis rotation, to detect the surface roughness towards different more than two positions in workpiece W.Machine tool system can as a result, Efficiently carry out the detection of the surface roughness of workpiece W.

In above-mentioned grinding machine 501 and machining center 801 as machine tool system, sensor 600 has: substrate 121； Light-emitting component is mounted on substrate 121, and is shone towards workpiece W；As the first light receiving element 123 and the second light member The light receiving element of part 124 is installed near light-emitting component on substrate 121, and can receive the reflection from workpiece W Light；And operational part 630, based on the light income of light receiving element come operation surface roughness.Grinding machine as the machine tool system 501 and machining center 801 can detect in a non-contact manner the surface roughness of workpiece W, therefore can be avoided along with The detection of surface roughness and injure the workpiece W after grinding.

As in the 5th embodiment illustrate as, the lathe 1001 as machine tool system be to workpiece W after grinding into The machine tool system of row attrition process, and have: milling tool 1042 carries out attrition process to workpiece W；Sensor 100, inspection Survey the surface roughness of workpiece W；And control device 1100, based on the surface roughness detected by sensor 100 come into Attrition process of the row based on milling tool 1042.

According to the lathe 1001 as the machine tool system, the surface roughness of workpiece W is detected by sensor 100, and is based on The surface roughness of the workpiece W detected carries out attrition process, therefore machine tool system reliably can be such that attrition process terminates When workpiece W surface roughness become desired state.

In the above-mentioned lathe 1001 as machine tool system, control device 1100 is less than in the surface roughness detected In the case where defined threshold, terminate attrition process.Lathe 1001 as the machine tool system can reliably make attrition process knot The surface roughness of workpiece W when beam becomes desired state.

Also, have as the lathe of above-mentioned machine tool system 1001: workpiece W bearing is by work-supporting means 20 It can rotate；With grinding tool 1041, the workpiece W supported by work-supporting means 20 is ground.As the lathe system The lathe 1001 of system can be implemented in the workpiece W terminated relative to the grinding based on grinding tool 1041 based on grinding work When the attrition process of tool 1042, operation that the workpiece W for not needing to be supported by work-supporting means 20 is carried to other places. Machine tool system can be realized since terminating grinding the shortening of the required time until attrition process until as a result,.

In the above-mentioned lathe 1001 as machine tool system, control device 1100 using sensor 100 carry out by It the detection of the surface roughness at the position that the grinding tool 1041 of workpiece W was ground and is ground by the milling tool 1042 of workpiece W Grind the detection of the surface roughness at finished position.

For the above-mentioned lathe 1001 as machine tool system, by being detected using a sensor 100 by grinding The surface at the position cutting the surface roughness at the position that tool 1041 was ground and being crossed by 1042 attrition process of milling tool is thick Rugosity can be realized sharedization of sensor 100.

In addition, the above-mentioned lathe 1001 as machine tool system has multiple sensors, multiple sensors have: grinding adds Working hour sensor detects the surface roughness at the position being ground by the grinding tool 1041 of workpiece W；And grinding Sensor when processing detects the surface roughness at the position crossed by 1042 attrition process of milling tool of workpiece.

The rough surface of workpiece W when lathe 1001 as the machine tool system can be provided separately for grinding The rough surface of workpiece W when spending the sensor detected that is, grinding with sensor and for attrition process Spend the sensor detected that is, attrition process sensor.As a result, machine tool system can reliably make after grinding with And the surface roughness of the workpiece W after attrition process becomes desired state.

In the above-mentioned lathe 1001 as machine tool system, sensor 100 has: substrate 121；Light-emitting component, peace It shines on substrate 121, and towards workpiece W；And as the first light receiving element 123 and the second light receiving element 124 by Optical element is installed near light-emitting component on substrate 121, and can receive the reflected light from workpiece W.As the machine The lathe 1001 of bed system can be can be avoided thick along with surface with the surface roughness of non-contacting state-detection workpiece W The detection of rugosity and injure the workpiece W after grinding.

As illustrated by above-mentioned sixth embodiment, the grinding machine 1201 as machine tool system has: work mounting s Device 20 can rotate workpiece W bearing；Grinding wheel 40 is ground workpiece W；Sensor 100, can be to just The surface of workpiece W in the grinding based on grinding wheel 40 carries out sensing detection；And calculation part 1320, by grinding The detected value of sensor 100 in processing carries out the first processing, to detect the surface roughness of workpiece W.

According to the grinding machine 1201 as the machine tool system, sensor 100 can be to the grinding based on grinding wheel 40 In the surface of workpiece W carry out sensing detection, calculation part 1320 carries out the first processing by detected value to sensor 100, from And the surface roughness of workpiece W can be calculated.In this case, machine tool system relative to workpiece W just in the cutting process into It has gone in the case where sensing detection, also can be improved the precision of the calculated result of surface roughness, therefore can be realized and passed What the precision of the calculated result of the raising and surface roughness of operating efficiency when sense detection improved takes into account.

Grinding machine 1201 as above-mentioned machine tool system has: to caused by the grinding medium plain emery wheel 40 in workpiece W The grinding resistance test section 1242 that grinding resistance is detected.Inspection of the calculation part 1320 based on the sensor 100 in grinding The detected value of measured value and grinding resistance test section 1242 passes through the shadow for carrying out removing the detected value of sensor 100 grinding resistance First processing of loud amount, calculates the surface roughness of the above-mentioned workpiece in the grinding based on grinding wheel 40.

According to the grinding machine 1201 as the machine tool system, calculation part 1320 is by carrying out the first processing, to sensor 100 Detected value removes the amount of the influence of grinding resistance.Even if as a result, machine tool system relative to workpiece W just in the cutting process into In the case where row sensing detection, the precision of the calculated result of surface roughness also can be improved.

In the above-mentioned grinding machine 1201 as machine tool system, in grinding by sensor 100 to the surface of workpiece W In the case where having carried out sensing detection, calculation part 1320 carries out the first processing by the detected value to sensor 100, calculates workpiece The surface roughness of W.On the other hand, it is passed to the surface for not being workpiece W in grinding based on grinding wheel 40 In the case where sense detection, calculation part 1320 passes through at carry out the detected values to sensor 100 different from the first processing second Reason, to calculate the surface roughness of workpiece.

Grinding machine 1201 as the machine tool system in gauging surface roughness, to the workpiece W just in grinding into Gone sensing detection the case where and in the case where to not being that workpiece W in grinding has carried out sensing detection, carry out different Processing.Machine tool system is in the case where having carried out sensing detection to the workpiece W just in grinding and to not being as a result, Workpiece W just in grinding has carried out any one in the case where sensing detection, rough surface can be improved The precision of the calculated result of degree.

In the above-mentioned grinding machine 1201 as machine tool system, sensor 100 has: substrate 121；Light-emitting component, peace It shines on substrate 121, and towards workpiece W；And as the first light receiving element 123 and the second light receiving element 124 by Optical element is installed near light-emitting component on substrate 121, and can receive the reflected light from workpiece W.As the machine The grinding machine 1201 of bed system can detect in a non-contact manner the surface roughness of workpiece W, therefore can be avoided along with table The detection of surface roughness and injure the workpiece W after grinding.

As illustrated by the 7th embodiment and the 8th embodiment, as machine tool system grinding machine 1401, 1601 have: grinding wheel 40, the tool as grinding workpiece W；Sensor 100, to the table for the workpiece W being ground by grinding wheel 40 Surface roughness is detected；And control device 1500,1700, based on the surface roughness detected by sensor 100 come It determines the condition of the grinding carried out after detection, and is ground with the condition of the decision.

As the machine tool system 1401,1601 surface roughness based on the workpiece W being ground by grinding wheel 40 of grinding machine come It determines the condition of grinding, and subsequent grinding is carried out with the condition determined, therefore can be carried out efficiently grinding, and And obtain desired surface roughness.

In the above-mentioned grinding machine 1401,1601 as machine tool system, it is greater than regulation threshold in the surface roughness detected In the case where value, control device 1500,1700 determines that surface roughness becomes threshold value condition below, carries out as after detection Grinding condition, be ground with the condition that this determines.Grinding machine 1401,1601 as the machine tool system can be ground Desired surface roughness is obtained when process finishing.

In the above-mentioned grinding machine 1401,1601 as machine tool system, control device 1500,1700 successively executes multiple mills Cut process, and based on the surface roughness detected by sensor 100, come determine to carry out multiple grinding process switching opportunity. Grinding machine 1401,1601 as the machine tool system carries out grinding process based on the surface roughness at the position of workpiece W being ground Switching, therefore desired surface roughness can be obtained at the end of grinding.

In addition, the above-mentioned grinding machine 1401 as machine tool system is ground workpiece W by crush grinding.As the machine The grinding machine 1401 of bed system can efficiently carry out grinding, and desired by acquisition in the case where carrying out crush grinding Surface roughness.

The above-mentioned grinding machine 1601 as machine tool system is ground workpiece W by traversing grinding.As the lathe system The grinding machine 1601 of system can efficiently carry out grinding in the case where carrying out traversing grinding, and obtain desired surface Roughness.

In the above-mentioned grinding machine 1601 as machine tool system, control device 1700 is based on the table detected by sensor 100 Surface roughness determines remaining traversing number as the condition that the traversing after detection is ground, carries out the remaining traversing determined The traversing of number is ground.Grinding machine 1601 as the machine tool system is come based on the surface roughness at the position of workpiece W being ground It determines optimal remaining traversing number, carries out the traversing grinding of the remaining traversing number determined, therefore be able to carry out efficiently Grinding, and obtain desired surface roughness.

In the above-mentioned grinding machine 1601 as machine tool system, cross of the sensor 100 in the stipulated number based on grinding wheel 40 After dynamic grinding and before starting the traversing grinding of next time, surface roughness is detected.Grinding machine 1601 as the machine tool system Compared with the case where carrying out the sensing detection based on sensor 100 while carrying out traversing grinding, rough surface can be improved The detection accuracy of degree.

In the above-mentioned grinding machine 1601 as machine tool system, sensor 100 carries out the mill of the traversing based on grinding wheel 40 on one side It cuts, detects surface roughness on one side.Grinding machine 1601 as the machine tool system can be ground with traversing concurrently to carry out based on biography The sensing detection of sensor 100, therefore can be realized the shortening of time required for grinding entirety.

In the above-mentioned grinding machine 1601 as machine tool system, in the state that workpiece W is rotating and workpiece W relative to Sensor 100 and in the state of opposite traversing feeding, sensor 100 detects the position of workpiece W being ground.As this The grinding machine 1601 of machine tool system can carry out the sensing detection based on sensor 100 relative to the entire surface of workpiece W.As a result, In the case where a part of remaining surface roughness on the surface of workpiece W position below for defined threshold, machine tool system can Reliably detect the position.The entire surface of workpiece W is set to become desired surface as a result, machine tool system can be set The such condition being ground of roughness.

In the above-mentioned grinding machine 1401,1601 as machine tool system, the position that was ground of the sensor 100 to workpiece W In the surface roughness of range of one week amount of defined axial position of workpiece W detected.As the machine tool system Grinding machine 1401,1601 can be easy to prevent remaining from not becoming desired surface roughness at the time of grinding terminates Position etc unfavorable condition generation.

In the above-mentioned grinding machine 1401,1601 as machine tool system, sensor 100 has: substrate 121；Light-emitting component 122, it is mounted on substrate 121, and shine towards workpiece W；And as the first light receiving element 123 and the second light receiving element 124 light receiving element is mounted near light-emitting component on substrate 121, and can receive the reflected light from workpiece W. Grinding machine 1401,1601 as the machine tool system can be with the surface roughness of non-contacting state-detection workpiece W, therefore can It avoids the detection along with surface roughness and injures the workpiece W after grinding.

As illustrated by the 9th embodiment and the tenth embodiment, as machine tool system lathe 1801, 2001 have: in the dirty evaluating apparatus 1900,2100 that the can body 1890 for stockpiling coolant liquid C is arranged.Dirty evaluating apparatus 1900,2100 have: reflection component 1910,2110 can be impregnated in the liquid of coolant liquid C；Sensor 1920,2120, sets It is placed in can body 1890, and has towards the luminous light-emitting component 122 of reflection component 1910,2110 and receives to carry out self-reflection The first light receiving element 123 and the second light receiving element 124 as light receiving element of the reflected light of component 1910,2110；And Evaluation section 1930 evaluates the dirty degree of coolant liquid C based on the light income of light receiving element.

According to the dirty evaluating apparatus 1900,2100 of the coolant liquid C of the lathe 1801,2001 as the machine tool system, hair Optical element 122 shines towards the reflection component 1910,2110 impregnated in the liquid in the coolant liquid C for being accumulated in can body 1890, Reflected light by as light receiving element the first light receiving element 123 and the second light receiving element 124 receive.The dirty degree of coolant liquid C It is evaluated based on the light income of light receiving element, therefore will appreciate that the replacement period appropriate of coolant liquid C based on the evaluation.Separately Outside, sensor 1920,2120 is set to can body 1890, therefore can be improved the design freedom of machine tool system.

In the dirty evaluating apparatus 1900 of the coolant liquid C of the above-mentioned lathe 1801 as machine tool system, light-emitting component 122 shine towards reflection component 1910 in the liquid of coolant liquid C is present in, as light receiving element the first light receiving element 123 with And second light receiving element 124 receive the reflected light from reflection component 1910 and the reflected light from coolant liquid C.

The dirty evaluating apparatus 1900 of the coolant liquid C of lathe 1801 as the machine tool system, which can be evaluated correctly, to be stockpiled In the dirty degree of the coolant liquid C of can body 1890, therefore can be in the replacement of period appropriate progress coolant liquid C.

In the dirty evaluating apparatus 1900 of the coolant liquid C of above-mentioned lathe 1801, can body 1890 has: forming cooling The transparency window 1891 for stockpiling region of liquid C, reflection component 1910 are set to the inside of can body 1890 and right with transparency window 1891 The position set.Sensor 1920 is set to the lateral surface of the transparency window 1891 of can body 1890, and light-emitting component 122 is via transparency window 1891 and shine towards reflection component 1910, passed through as the first light receiving element 123 of light receiving element and the second light receiving element 124 Reflected light is received by transparency window 1891.

The dirty evaluating apparatus 1900 of the coolant liquid C of lathe 1801 as the machine tool system can be improved machine tool system Design freedom, and correctly evaluation is accumulated in the dirty degree of the coolant liquid C of can body 1890.

In the dirty evaluating apparatus 2100 of the coolant liquid C of the above-mentioned lathe 2001 as machine tool system, reflection component 2110 be configured in the liquid of coolant liquid C with outside the liquid of coolant liquid C between move, and the liquid of coolant liquid C can be adhered to In floating material S.Light-emitting component 122 shines towards the reflection component 2110 outside the liquid for being moved to coolant liquid C, as light receiving element The first light receiving element 123 and the second light receiving element 124 receive: the reflection component outside the liquid for being moved to coolant liquid C 2110 reflected light and reflected light from the floating material S for being attached to reflection component 2110.

The dirty evaluating apparatus 2100 of the coolant liquid C of lathe 2001 as the machine tool system is by being moved to coolant liquid C Liquid outside reflection component 2110, to evaluate the dirty degree of coolant liquid C.Even if 2100 coolant liquid C of dirty evaluating apparatus as a result, To be coloured, the dirty degree of coolant liquid C also can be correctly evaluated.

As described above, as the lathe of machine tool system 1001, grinding machine 1,301,501,1201,1401,1601 and add Work center 801 has: work-supporting means 20 or turntable 870, and workpiece W bearing can be rotated；Grinding wheel 40 adds Work tool 841, the tool as workpieces processing W；And sensor 100,600, the surface roughness of workpiece W is carried out Detection, sensor 100,600 have: main body 110, with rodlike formation；Test section 120 is fixed on the front end of main body 110 Side, and the surface roughness of workpiece W can be detected in a non-contact manner；And the first air releasing portion 150, towards being formed Detection zone A between test section 120 and workpiece W releases the air supplied from the air feeder 80 as supply source.

According to lathe 1001, grinding machine 1,301,501,1201,1401,1601 and the machining center as the machine tool system 801, sensor 100,600 is fixed with test section 120 in the front end side of the main body 110 with rodlike formation, therefore can be realized biography The miniaturization of sensor 100,600.As a result, machine tool system be able to maintain workpiece W by the state that work-supporting means 20 supports come into The detection of the surface roughness of workpiece W of the row based on sensor 100,600.That is, not needing to carry out the inspection of surface roughness It surveys and the operation by the workpiece W supported by work-supporting means 20 to other positions carrying etc, therefore can be realized carry out base The raising of operating efficiency when the sensing detection of sensor 100,600.

In addition, sensor 100,600 has: towards detection zone A deflationary first air releasing portion 150, therefore It can prevent the foreign matter for being attached to workpiece W from dispersing towards test section 120.In addition, sensor 100,600 is able to suppress comprising chip Deng water mist enter detection zone A.Machine tool system can maintain its detection in the detection of the surface roughness of workpiece W as a result, Precision.

Above-mentioned as in the lathe 1001 of machine tool system, grinding machine 1,301,501,1201,1401,1601 and processing In the heart 801, the first air releasing portion 150 releases air towards from the direction that detection zone A leaves.Machine as the machine tool system Bed 1001, grinding machine 1,301,501,1201,1401,1601 and machining center 801 from the first air releasing portion 150 by releasing Air can prevent the foreign matter to disperse and the water mist comprising chip etc. from dispersing to detection zone A.Machine tool system can as a result, Maintain the detection accuracy of the surface roughness of the workpiece W based on sensor 100,600.

Above-mentioned as in the lathe 1001 of machine tool system, grinding machine 1,301,501,1201,1401,1601 and processing In the heart 801, sensor 100,600 has: main body cover 140,2240, covers at least part of main body 110；And detection mouth 142,2242, it is formed in main body cover 140,2240, and be configured at the position opposed with test section 120, the first air releasing portion 150 are formed in around detection mouth 142,2242.As the lathe 1001 of the machine tool system, grinding machine 1,301,501,1201, 1401,1601 and machining center 801 foreign matter to disperse can be prevented to be attached to test section 120, and can prevent comprising cutting The water mist of bits etc. enters detection zone A.

Above-mentioned as in the lathe 1001 of machine tool system, grinding machine 1,301,501,1201,1401,1601 and processing In the heart 801, sensor 100,600 has air flow circuit 160, the air flow circuit 160 by main body 110 outer peripheral surface and main body cover 140,2240 inner peripheral surface is formed, and the air for supplying from the air feeder 80 as supply source flows into, the first air Releasing portion 150 is connected to air flow circuit 160.As the lathe 1001 of the machine tool system, grinding machine 1,301,501,1201,1401, 1601 and machining center 801 can simplify the construction of sensor 100,600, therefore can be realized the small of sensor 100,600 Type.

The above-mentioned lathe 1001, grinding machine 1,301,501,1201,1401,1601 and machining center as machine tool system 801 have the second air releasing portion 170,2270, and the second air releasing portion 170,2270 is to from by the grinding wheel 40 as tool Or the Working position that machining tool 841 is processed releases air towards the position of detection zone A.According to as the machine tool system Lathe 1001, grinding machine 1,301,501,1201,1401,1601 and machining center 801, can by from the second air release The air that portion 170,2270 releases blows away the foreign matter that workpiece W is attached in processing.Machine tool system can prevent workpiece as a result, W enters detection zone A in the state of adhering to foreign matter.

The above-mentioned lathe 1001, grinding machine 1,301,501,1201,1401,1601 and machining center as machine tool system 801 have: will test the wind cutting plate 180,2280 separated between region A and the second air releasing portion 170,2270, the second air Releasing portion 170,2270 supplies empty from the end towards workpiece W compared to wind cutting plate 180,2280 away from workpiece W separate position Gas.

Lathe 1001, grinding machine 1,301,501,1201,1401,1601 and machining center 801 as the machine tool system It can prevent from spraying from the air that the second air releasing portion 170,2270 releases towards detection zone A.Machine tool system passes through as a result, The air sprayed from the second air releasing portion 170,2270 is able to suppress the foreign matter to disperse and is attached to test section 120.In addition, lathe System towardss work due to the air released from the second air releasing portion 170,2270 while being guided by wind cutting plate 180,2280 Part W, therefore air can be consumingly sprayed relative to workpiece W.Machine tool system can be removed easily and be attached to workpiece W as a result, Foreign matter.

The explanation of appended drawing reference

1,301,501,1201,1401,1601... grinding machine (example of machine tool system)；20... work mounting s fill It sets；40... grinding wheel (example of tool)；100,600,1920,2120,2200... sensor；110... main body； 120... test section；122... light-emitting component；123... the first light receiving element (light receiving element)；124... the second light receiving element (light receiving element)；150... the first air releasing portion；220,420,630... operational part；801... machining center (machine tool system An example)；841... machining tool (example of tool)；870... a turntable (example of work-supporting means Son)；1001,1801,2001... lathe (example of machine tool system)；1042... a milling tool (example of tool Son)；1170... processing conditions determination section (example of operational part)；1320... calculation part (example of operational part)； 1401,1601... grinding machine；1550,1750... grinding condition determination section (example of operational part)；1890... can body； 1900,2100... dirt evaluating apparatus；1910,2110... reflection component；1930... an evaluation section (example of operational part Son)；C... coolant liquid；W... workpiece.

Claims (11)

1. a kind of machine tool system, comprising:

Work mounting s are that can rotate by work-supporting means；

Tool processes the workpiece；

The main body of strip, with rodlike formation；

Driving portion assigns the driving force for being pivoted the main body；

Test section is fixed on the lateral surface of the front end side of the main body, and by towards by the work-supporting means branch The workpiece held shines, and receives the reflected light on the surface from the workpiece, to execute institute in a non-contact manner State the sensing detection of workpiece；

Operational part, the surface roughness of workpiece described in the testing result based on the test section and operation；And

Control device carries out control relevant to the test section and the driving portion,

Wherein, the control device is in the state of making the test section approach the workpiece, by make the test section around The axis of the main body rotates, and thus examines to the surface roughness towards different more than two positions in the workpiece It surveys.

2. machine tool system according to claim 1,

Wherein, the control device maintains the interval of the test section Yu the workpiece on one side, make on one side the test section along The shape of the workpiece is displaced.

3. machine tool system according to claim 1,

Wherein, the machine tool system has the first air discharge unit, the first air releasing portion towards the test section with The detection zone formed between the workpiece releases the air supplied from supply source.

4. machine tool system according to claim 1,

Wherein, the control device is executed by the test section to the table while through workpiece described in the tool processes The detection of surface roughness.

5. machine tool system according to claim 1,

Wherein, the workpiece is crankshaft, and

Wherein, the control device detect end face, barrel surface and the end face in the crankshaft journal of the crankshaft with it is described The surface roughness at more than two positions in the coupling part between barrel surface.

6. machine tool system according to claim 1, further includes:

At least with multiple lathes of the test section；With

The resolution unit being arranged on the network for being connected with the multiple lathe,

Wherein, the operational part is set to the analysis unit, and based on the data sent from the multiple lathe, described in progress The change of the processing conditions of lathe or the decision of the baseline threshold.

7. a kind of method for being used to detect surface roughness using machine tool system,

The machine tool system includes:

The main body of strip, with rodlike formation,

Test section is fixed on the lateral surface of the front end side of the main body, and can detect in a non-contact manner by the work Has the surface roughness of the finished workpiece；

Driving portion assigns the driving force for rotating the main body around the axis parallel with the longitudinal direction of the main body,

The described method includes:

In the state that the test section has approached the workpiece, by rotating the test section around the axis of the main body, by This detects the surface roughness towards different more than two positions in the workpiece.

8. the method according to claim 7 for detecting surface roughness, further includes:

The interval of the test section Yu the workpiece is maintained on one side, makes the test section along the shape position of the workpiece on one side It moves.

9. the method according to claim 7 for detecting surface roughness,

The machine tool system is also equipped with the first air releasing portion, which releases the air supplied from supply source,

The method also includes:

First air releasing portion is set to release air towards the detection zone formed between the test section and the workpiece.

10. the method according to claim 7 for detecting surface roughness, further includes:

While through workpiece described in the tool processes, the detection to the surface roughness is executed by the test section.

11. the method according to claim 7 for detecting surface roughness, further includes:

To in the crankshaft journal of the crankshaft as the workpiece end face, barrel surface and the end face and the barrel surface it Between coupling part in the surface roughness at more than two positions detected.