CN108692666A - A kind of inner diameter of cylinder sleeve detection device - Google Patents
A kind of inner diameter of cylinder sleeve detection device Download PDFInfo
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- CN108692666A CN108692666A CN201810262428.1A CN201810262428A CN108692666A CN 108692666 A CN108692666 A CN 108692666A CN 201810262428 A CN201810262428 A CN 201810262428A CN 108692666 A CN108692666 A CN 108692666A
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- cylinder
- detection probe
- inner diameter
- motion mechanism
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B11/00—Measuring arrangements characterised by the use of optical techniques
- G01B11/08—Measuring arrangements characterised by the use of optical techniques for measuring diameters
- G01B11/12—Measuring arrangements characterised by the use of optical techniques for measuring diameters internal diameters
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- A Measuring Device Byusing Mechanical Method (AREA)
Abstract
The present invention provides a kind of inner diameter of cylinder sleeve detection device, including transfer part, targeting part and measurement part, and transfer part drives detection probe or cylinder jacket movement, detection probe to be equipped with targeting part and measurement part;Transfer part includes horicontal motion mechanism, vertical and straight movement mechanism and rotary motion mechanism;Targeting part includes at least two gib blocks;The measurement portion point includes top-pushing mechanism and measurement sensor.Inside diameter detection device provided by the invention solves the problems, such as that previous mechanical transfer is flexible inadequate by the flexible design of transfer mechanism;By secondary positioning, error when having evaded transfer when measuring, and probe is made to have the problem of adaptive casing wall tilts, substantially reduce measurement error;The gib block that can be stretched substantially increases the range of detection, solves the problems, such as that high-accuracy measuring apparatus range is small.
Description
Technical field
The present invention relates to a kind of inside diameter detection devices, and in particular to a kind of inner diameter of cylinder sleeve detection device.
Background technology
Inner diameter of cylinder sleeve detects the important link as detection project in production link, is always the emphasis and difficulty of detection
Point.Detection method is broadly divided into contact type measurement and non-contact measurement two major classes at present.Common contact measurement method is deposited
Measuring speed it is slow, be easy to scratch interior surface of cylinder liner the shortcomings of.Current non-cpntact measurement(Laser sensor etc.), due to
Cylinder jacket outer surface and inner surface are non-polished surface, and bottom surface is there are reasons such as out-of-flatnesses, when measurement can not Accurate Calibration, survey
Accuracy of measurement, accuracy have large effect, while cannot achieve all automatic measurement, on-line measurement, cannot be satisfied factory's life
The practical on-line checking demand of producing line.
It is embodied in:Have inclination since the outer surface of cylinder jacket is hair side, bottom surface, when measuring routine detection device without
Method ensures that the measuring center of sensor and the center of cylinder jacket are consistent, and there are bias;It needs to measure additionally, due to when measuring
The diameter of at least three section different location of cylinder jacket, it is necessary to make cylinder jacket and sensor have relative motion that could realize, it is eccentric
And the presence of cylinder jacket beat, measurement error can be introduced.
Invention content
The technical problem to be solved by the present invention is to:Solve the problems, such as that mechanical transfer is flexible inadequate, solving mechanical detection can not
The problem of adaptive casing wall tilts, provides a kind of high-precision inner diameter of cylinder sleeve detection device.
To solve above-mentioned purpose, the present invention uses following technical scheme:A kind of inner diameter of cylinder sleeve detection device, it includes moving
It carries part, targeting part and measures part;Transfer part drives detection probe or cylinder jacket movement, and detection probe, which is equipped with, to be oriented to
Part and measurement part;
The transfer part is driven by actuating unit, detection probe or cylinder jacket is driven to do horizontal, vertical and revolution
Horicontal motion mechanism, vertical and straight movement mechanism and the rotary motion mechanism of movement;
The targeting part includes at least two gib blocks, and the axial direction of gib block is identical as the axial direction of cylinder jacket, and when work
Gib block is adjacent to cylinder liner internal wall;
The measurement portion is divided:During gib block and cylinder liner internal wall are adjacent to, top that cylinder jacket posture is adjusted
Pushing mechanism, and after gib block and cylinder liner internal wall are adjacent to, the measurement sensor that inner diameter of cylinder sleeve is measured;
The transfer partial power mechanism, top-pushing mechanism and measurement sensor is controlled by control system when measuring;Work
When, transfer part stretches into detection probe in cylinder jacket, and control system control top-pushing mechanism is adjusted cylinder posture, until
Every gib block is adjacent to cylinder liner internal wall;After gib block and cylinder liner internal wall are adjacent to, control system control measures sensing
Device works, and inner diameter of cylinder sleeve is measured by least one measurement sensor in detection probe.
The horicontal motion mechanism, vertical and straight movement mechanism, rotary motion mechanism three position relationship be following three kinds it
One:
a), described horicontal motion mechanism fix on the table, vertical and straight movement mechanism slips are arranged on horicontal motion mechanism,
Rotary motion mechanism slips are arranged in vertical and straight movement mechanism, and detection probe is fixed on the lower section of rotary motion mechanism;
b), described horicontal motion mechanism be fixed on work top, rotary motion mechanism slips are arranged in horicontal motion mechanism
On, cylinder jacket is set on rotary motion mechanism;Vertical and straight movement mechanism is fixed on the table, and detection probe is slidably arranged in perpendicular
On straight motion;
c), the rotary motion mechanism fix on the table, cylinder jacket is set on rotary motion mechanism;The horizontal fortune
Motivation structure is fixed on the table, and vertical and straight movement mechanism slips are arranged on horicontal motion mechanism, and detection probe is slidably arranged in
In vertical and straight movement mechanism.
Detection probe includes connector and fixed plate, and targeting part includes three or four fixed guide items, fixed guide
Item is concyclic and is fixed in fixed plate.
Detection probe includes connector and fixed plate, and targeting part includes two fixed guide items, two fixed guide items
It is arranged in fixed plate, when two gib blocks are close to cylinder liner internal wall, the arc determined between two fixed guide items is gas
The minor arc of cylinder sleeve internal diameter.
Detection probe includes connector and fixed plate, and targeting part includes two fixed guide items, an activity-oriented item;
Wherein, fixed guide item is fixed in fixed plate, and activity-oriented item is driven by gib block driving device and the radial direction in fixed plate
Sliding;When activity-oriented item is all close to cylinder liner internal wall with fixed guide item, three is concyclic.
The top-pushing mechanism includes at least three pushing tow cylinders individually controlled, and all pushing tow cylinders are along cylinder jacket
Axially vertical distribution, and all pushing tow cylinders are fixed on the workbench on the outside of cylinder jacket.
The top-pushing mechanism includes at least three pushing tow cylinders individually controlled, and all pushing tow cylinders are along cylinder jacket
Axially vertical distribution, and all pushing tow cylinders are fixed on the detection probe support arm of transfer part, which visits with detection
Head moves synchronously.
The pushing tow cylinder that the top-pushing mechanism is individually controlled by one is constituted, and consolidating in detection probe is arranged in pushing tow cylinder
On fixed board;And pushing tow cylinder is oppositely arranged with gib block.
The measurement sensor includes two, and two measurement sensors are in arranged crosswise or reversed arrangement.
The measurement sensor is one, and a caliberating device, the ejector pin contact of caliberating device are also needed to when measuring
Behind cylinder inner wall one end, measurement sensor starts to measure internal diameter, and caliberating device is connect with control system.
The beneficial effects of the present invention are:The present invention uses above-mentioned technical proposal, can accurately measure the internal diameter of cylinder jacket.It is first
The flexible design for first passing through transfer mechanism solves the problems, such as that previous mechanical transfer is flexible inadequate;Secondly, by secondary positioning, no
But error when having evaded transfer when measuring, and probe is made to have the problem of adaptive casing wall tilts, substantially reduce survey
Measure error;Finally, the gib block that can be stretched substantially increases the range of detection, and it is small to solve high-accuracy measuring apparatus range
Problem.
Description of the drawings
Fig. 1 is the transfer part-structure figure that horizontal movement, vertical and straight movement and rotary motion all concentrate on detection probe.
Fig. 2 is horizontal movement and rotary motion at workpiece, and detection probe only does the transfer part-structure figure of vertical and straight movement.
Fig. 3 is that rotating mechanism is placed at workpiece, the horizontal transfer part-structure completed by detection probe with vertical and straight movement
Figure.
Fig. 4 is three fixed guide schematic diagrams.
Fig. 5 is three fixed guides, the location diagram of gib block and cylinder wall.
Fig. 6 is the structure chart of the detection probe of four fixed guides.
Fig. 7 is the stereogram of the detection probe of two fixed guides.
Fig. 8 is the side view of the detection probe of two fixed guides.
Fig. 9 is the schematic diagram of activity-oriented.
Figure 10 is the structural schematic diagram of activity-oriented.
Figure 11 is structural schematic diagram when top-pushing mechanism is external.
Figure 12 is the external schematic diagram of top-pushing mechanism.
Structural schematic diagram when Figure 13 is built in top-pushing mechanism.
Figure 14 is double measurement sensors in intersection layout drawing.
Figure 15 is that double measurement sensors are in reversed arrangement figure.
Figure 16 is the schematic diagram of single measurement sensor.
Figure 17 is the vertical view of single measurement sensor.
Specific implementation mode
A kind of inner diameter of cylinder sleeve detection device, it includes transfer part, targeting part and measurement part;Transfer part drives
Detection probe 1 or cylinder jacket 2 move, and detection probe 1 is equipped with targeting part and measures part;
Transfer part is driven by actuating unit, detection probe or cylinder jacket is driven to do horizontal, vertical and rotary motion
Horicontal motion mechanism 3, vertical and straight movement mechanism 4 and rotary motion mechanism 5;
Targeting part includes at least two gib blocks 6, and the axial direction of gib block is identical as the axial direction of cylinder jacket 2, and is oriented to when work
Item 6 is adjacent to 2 inner wall of cylinder jacket;
Measurement portion is divided:During gib block and cylinder liner internal wall are adjacent to, pusher that cylinder jacket posture is adjusted
Structure 7, and after gib block and 2 inner wall of cylinder jacket are adjacent to, the measurement sensor 9 that 2 internal diameter of cylinder jacket is measured.
The transfer partial power mechanism, top-pushing mechanism and measurement sensor 9 is controlled by control system when measuring;
When work, transfer part stretches into detection probe in cylinder jacket 2, and control system control top-pushing mechanism 7 adjusts cylinder posture
It is whole, until every gib block 6 is adjacent to 2 inner wall of cylinder jacket;After gib block 6 and 2 inner wall of cylinder jacket are adjacent to, control system control
Measurement sensor work processed, inner diameter of cylinder sleeve is measured by least one measurement sensor in detection probe.
The difference that transfer part is moved according to detection probe, in other words according to horicontal motion mechanism, vertical and straight movement mechanism, return
The position relationship of rotation movement structure three can be divided into three kinds of schemes.It should be noted that horicontal motion mechanism, vertical and straight movement machine
Structure and rotary motion mechanism are the prior art, such as, horicontal motion mechanism and vertical and straight movement mechanism are all made of sliding block sliding rail
Motion, rotary motion mechanism are set a table using motor-controlled revolution, these can be bought by commercial product.
a), as shown in Figure 1, horicontal motion mechanism 3 fix on the table, vertical and straight movement mechanism 4 is slidably arranged in level
On motion, rotary motion mechanism slips are arranged in vertical and straight movement mechanism, and detection probe 1 is fixed on rotary motion mechanism 5
Lower section.Program horizontal movement, vertical and straight movement and rotary motion all concentrate on gauge head, the advantage of doing so is that workpiece can not
Dynamic, it is to avoid the unexpected feelings such as toppling over, deviate in workpiece moving process that entire testing agency, which removes active detecting workpiece, benefit,
Condition, harm are that all motions are excessively concentrated entire testing stand stress-bearing capability is caused to be deteriorated.It is small suitable for precision height, external force
Detect occasion.
b), as shown in Fig. 2, horicontal motion mechanism 3 is fixed on work top, rotary motion mechanism 5 is slidably arranged in water
On flat motion, cylinder jacket is set on rotary motion mechanism 5;Vertical and straight movement mechanism 4 is fixed on the table, detection probe
1 is slidably arranged in vertical and straight movement mechanism 4.With rotary motion at workpiece, detection probe 1 is only done vertically for program horizontal movement
Movement.This ensure that the positional precision of vertical and straight movement and detection device, while the mechanical structure of probe movement being made to become letter again
It is single, stable.The disadvantage is that needing to take clamping or stretching measure to workpiece, prevents workpiece from toppling during the motion, is eccentric
The problems such as.And the height of horizontal movement, rotary motion and retained part mechanism is superimposed, and causes entire detection device mistake
Height, structural strength reduce.
c), as shown in figure 3, rotary motion mechanism 5 fix on the table, cylinder jacket is set on rotary motion mechanism 5;
The horicontal motion mechanism 3 is fixed on the table, and vertical and straight movement mechanism 4 is slidably arranged on horicontal motion mechanism 3, detection
Probe 1 is slidably arranged in vertical and straight movement mechanism 4.Rotary motion mechanism has been placed on workpiece portion by the program, it is horizontal with it is perpendicular
Straight movement is completed by detection probe.
Detection probe includes connector 10 and fixed plate 11, and gib block 6 and measurement sensor 9 is arranged below fixed plate.
It measures part and mainly solves the problems, such as that cylinder wall tilts, casing wall inclination leads to sensor detection plane and internal diameter to be measured
Section is not parallel, and measurement object is caused to become an ellipse, can not accurate analytical error source.Testing principle can also be divided into
Under it is several:
1., fixed guide
Targeting part includes two, three or four fixed guide items, and fixed guide item is concyclic and is fixed in fixed plate.It needs
Illustrate, gib block is the cylinder of cylinder.
Both three fixed guide items are simple in structure, and principle is as shown in Figure 4, Figure 5, and 6 length of gib block is longer angle is smaller,
The maximum angle of error permission can be obtained by being computed.Gib block length can be determined by calculation.This scheme advantage is structure
Simply, driving force, this structural requirement internal diameter to be measured of gib block need not separately be added to justify as far as possible with the envelope of several gib blocks
Close, what this just made sensor has been equipped with enough spaces.The disadvantage is that wanting internal diameter variation to be measured little, not so on testing principle
It will fail;Simultaneously as internal diameter is close with envelope circle size, in order to which gauge head can smoothly be put into endoporus, this scheme is to entirely detecting
The operating position precision of device is put forward higher requirements.The silk grade little suitable for inner diameter deviation to be measured, micron order detection.
The structure charts of four fixed guide items is as shown in fig. 6, four fixed guide items are distributed in fixed plate four direction, and two
Two are oppositely arranged.
The structure of two gib blocks is as shown in Figure 7, Figure 8, and targeting part includes two fixed guide items 6, and two fixations are led
It is arranged in fixed plate 11 to item, when two gib blocks are close to cylinder liner internal wall, determining arc between two fixed guide items
The as minor arc of inner diameter of cylinder sleeve.
2., activity-oriented
As shown in Figure 10, targeting part includes two fixed guide items, an activity-oriented item;Wherein, fixed guide item is fixed
In fixed plate, activity-oriented item is driven by gib block driving device 13 and is radially slided in fixed plate;When activity-oriented item
It is concyclic between three when being all close to cylinder liner internal wall with fixed guide item.Movable conducting bar can along Fig. 9 arrow direction,
Actively adapt to casing wall size.Because movement needs plus driving device and guider(Guide rail), entire side head separation structure compares
It is compact.Benefit is that measurement range is larger, the disadvantage is that increasing active actions, the detection time needed can be lengthened accordingly.Suitable for inspection
Survey inner diameter measurement when deviation is larger, beat is of less demanding.It should be noted that gib block driving device 13 can be by controlling
The small cylinder or electromagnetic clutch of system control.
The top-pushing mechanism that part is measured in the present invention also includes many set-up modes, such as built in cylinder jacket, outside cylinder jacket
It sets, and external includes to be arranged on the table, or be fixed on detection probe support arm.
When top-pushing mechanism is external, as shown in Figure 11, Figure 12, including at least three pushing tow cylinders 8 that individually control, it is all
Pushing tow cylinder 8 is along 2 axially vertical distribution of cylinder jacket, and all pushing tow cylinders 8 are fixed on the workbench on the outside of cylinder jacket.Top
The push rod of push cylinder should be substantially aligned with gib block center, so no matter the contact point of gib block and inner wall be upper extreme point or under
Endpoint can all form the torque of a revolution.After on the outside of pushing tow casing wall, casing wall meeting automatic attaching gib block is to play guiding
Effect.Entire pushing meanss size can be made unrestricted in this way, can provide larger power as far as possible makes conducting bar and casing wall
Fitting.
External mode is in addition to this it is possible to be:Top-pushing mechanism 7 includes at least three pushing tow cylinders 8 individually controlled,
All pushing tow cylinders 8 are along 2 axially vertical distribution of cylinder jacket, and all pushing tow cylinders 8 are fixed on the detection spy of transfer part
On head bracket arm.Here support arm refers to extending outward to detection probe connector 10, stretches out a support arm, should
Support arm extends downward into the corresponding position of detection probe, and can carry out vertical and straight movement with the synchronous of detection probe.Work as inspection in this way
When probing head enters cylinder jacket progress internal diameter measurement, the pushing tow cylinder 8 on support arm directly carries out pushing action, due to the two phase
Position is fixed, so measuring accurate.
It when built in top-pushing mechanism, as shown in figure 13, is made of a pushing tow cylinder individually controlled 8, pushing tow cylinder 8 is arranged
In the fixed plate of detection probe;And pushing tow cylinder 8 is oppositely arranged with gib block 6.
Measurement process is happened at after guiding correction posture action, to make schematic diagram express clearly, in this part figure not
Targeting part is embodied again.Before measuring, the concept of " calibration " is first defined." calibration " is the metrical instrument using standard to institute
Use the accuracy of instrument(Precision)It is detected and whether complies with standard, be generally mostly used for the higher instrument of precision.Calibration
Main function:1, instrument or input-output relation of measuring system are determined, instrument or measuring system scale division value are assigned;2, really
Determine the static characteristic index of instrument or measuring system;3, systematic error is eliminated, the accuracy of instrument or system is improved.4, in science
In measurement, calibration is an important step that can not be ignored.
Measurement sensor can be two, or one.
When measurement sensor is dual sensor, two measurement sensors are in arranged crosswise or reversed arrangement.
Reversed arrangement is ideal, principle such as Figure 15, and when calibration, dotted line is known ring gauge length, and both sides arrow is to measure
Value, counter can release the length of intermediate rectangular part, and to be demarcated with this, interior electrical path length can be surveyed indirectly when measuring workpiece.And
Sensor light is vertically beaten on casing wall, is the optimum measurement state of sensor.But be generally limited to internal diameter to be measured size and
The size of sensor is difficult to realize this arrangement.It is smaller suitable for sensor, the larger measurement occasion of installation space.
Dual sensor arranged crosswise is the arrangement selected in sensor installation space deficiency.Its principle such as Figure 14,
When calibration, dotted line is known ring gauge length, and upper and lower two arrows are measured value, and the level that counter can release L-shaped part is vertical long
Degree can survey interior electrical path length indirectly when measuring workpiece to be demarcated with this by geometrical relationship.Arranged crosswise has save space, knot
The compact feature of structure, facilitates adjusting.The occasion smaller suitable for installation space.
When space is further compressed, for example in activity-oriented scheme, a driving to be added in script narrow space
At this moment the device of conducting bar can only just use single-sensor.When measurement sensor is one, also needing to one in measurement demarcates dress
Set 12, behind ejector pin contact cylinder inner wall one end of caliberating device, measurement sensor starts to measure internal diameter.As shown in Figure 16 and Figure 17
Single-sensor schematic diagram, sensor installation in orbit can be along arrow side-to-side movement, by the promotion in vertical view in side view
Device pushes, and when ejector pin contact casing wall, another side senser starts to measure.When calibration, dotted line is known ring gauge length, right side
For measured value, the length of the narrow rectangle part in left side counter can be released, to be demarcated with this, internal diameter can be surveyed indirectly when measuring workpiece
Length.Due to guiding mechanism with casing wall formed rock-steady structure, still other contact can make the result of this accurate measurement have compared with
Big error.So pushing meanss at this time is needed to reduce speed as far as possible under the premise of can push sensor and mandril and push away
Power, to reduce the influence to the balance system of targeting part.
The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art, this hair
It is bright to be not restricted to the described embodiments, under the premise of not departing from general idea of the present invention, several variations can also be made and changed
Into these should also be considered as protection scope of the present invention.
Claims (10)
1. a kind of inner diameter of cylinder sleeve detection device, it is characterised in that:It includes transfer part, targeting part and measurement part;It moves
Carrying part drives detection probe or cylinder jacket movement, detection probe to be equipped with targeting part and measure part;
The transfer part is driven by actuating unit, detection probe or cylinder jacket is driven to do horizontal, vertical and revolution
Horicontal motion mechanism, vertical and straight movement mechanism and the rotary motion mechanism of movement;
The targeting part includes at least two gib blocks, and the axial direction of gib block is identical as the axial direction of cylinder jacket, and when work
Gib block is adjacent to cylinder liner internal wall;
The measurement portion is divided:During gib block and cylinder liner internal wall are adjacent to, top that cylinder jacket posture is adjusted
Pushing mechanism, and after gib block and cylinder liner internal wall are adjacent to, the measurement sensor that inner diameter of cylinder sleeve is measured;
The transfer partial power mechanism, top-pushing mechanism and measurement sensor is controlled by control system when measuring;Work
When, transfer part stretches into detection probe in cylinder jacket, and control system control top-pushing mechanism is adjusted cylinder posture, until
Every gib block is adjacent to cylinder liner internal wall;After gib block and cylinder liner internal wall are adjacent to, control system control measures sensing
Device works, and inner diameter of cylinder sleeve is measured by least one measurement sensor in detection probe.
2. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:It is the horicontal motion mechanism, vertical
Motion, rotary motion mechanism three position relationship be one of following three kinds:
a), described horicontal motion mechanism fix on the table, vertical and straight movement mechanism slips are arranged on horicontal motion mechanism,
Rotary motion mechanism slips are arranged in vertical and straight movement mechanism, and detection probe is fixed on the lower section of rotary motion mechanism;
b), described horicontal motion mechanism be fixed on work top, rotary motion mechanism slips are arranged in horicontal motion mechanism
On, cylinder jacket is set on rotary motion mechanism;Vertical and straight movement mechanism is fixed on the table, and detection probe is slidably arranged in perpendicular
On straight motion;
c), the rotary motion mechanism fix on the table, cylinder jacket is set on rotary motion mechanism;The horizontal fortune
Motivation structure is fixed on the table, and vertical and straight movement mechanism slips are arranged on horicontal motion mechanism, and detection probe is slidably arranged in
In vertical and straight movement mechanism.
3. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:Detection probe includes connector and consolidates
Fixed board, targeting part include three or four fixed guide items, and fixed guide item is concyclic and is fixed in fixed plate.
4. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:Detection probe includes connector and consolidates
Fixed board, targeting part include two fixed guide items, and two fixed guide items are arranged in fixed plate, when two gib blocks are close to
When cylinder liner internal wall, the arc determined between two fixed guide items is the minor arc of inner diameter of cylinder sleeve.
5. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:Detection probe includes connector and consolidates
Fixed board, targeting part include two fixed guide items, an activity-oriented item;Wherein, fixed guide item is fixed in fixed plate,
Activity-oriented item is driven by gib block driving device and is radially slided in fixed plate;When activity-oriented item and fixed guide item all
When being close to cylinder liner internal wall, three is concyclic.
6. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:The top-pushing mechanism includes at least
Three pushing tow cylinders individually controlled, all pushing tow cylinders are along cylinder sleeve shaft to vertical distribution, and all pushing tow cylinders are solid
It is scheduled on the workbench on the outside of cylinder jacket.
7. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:The top-pushing mechanism includes at least
Three pushing tow cylinders individually controlled, all pushing tow cylinders are along cylinder sleeve shaft to vertical distribution, and all pushing tow cylinders are solid
It is scheduled on the detection probe support arm of transfer part, which moves synchronously with detection probe.
8. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:The top-pushing mechanism is by a list
The pushing tow cylinder solely controlled is constituted, and pushing tow cylinder is arranged in the fixed plate of detection probe;And pushing tow cylinder is opposite with gib block
Setting.
9. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:The measurement sensor includes two
A, two measurement sensors are in arranged crosswise or reversed arrangement.
10. inner diameter of cylinder sleeve detection device according to claim 1, it is characterised in that:The measurement sensor is one
It is a, also need to a caliberating device when measuring, behind ejector pin contact cylinder inner wall one end of caliberating device, measurement sensor starts
Internal diameter is measured, caliberating device is connect with control system.
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CN109269384A (en) * | 2018-11-07 | 2019-01-25 | 安徽省岳西缸套有限公司 | A kind of cylinder cover inner hole diameter measuring device |
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CN109946373A (en) * | 2019-04-30 | 2019-06-28 | 河南中原吉凯恩气缸套有限公司 | A kind of cylinder jacket automatic flaw detection device |
CN110044283A (en) * | 2019-04-25 | 2019-07-23 | 郑州郑大智能科技股份有限公司 | A kind of inside diameter detection device and its measurement method |
CN110044299A (en) * | 2019-05-29 | 2019-07-23 | 吉林大学 | A kind of cylindrical parts excircle size and Form and position error non-contact intelligent detection instrument |
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CN109269384A (en) * | 2018-11-07 | 2019-01-25 | 安徽省岳西缸套有限公司 | A kind of cylinder cover inner hole diameter measuring device |
CN109587945A (en) * | 2018-12-26 | 2019-04-05 | 珠海超群电子科技有限公司 | A kind of FPC plate and its manufacture craft |
CN109587945B (en) * | 2018-12-26 | 2024-03-01 | 珠海超群电子科技有限公司 | FPC board and manufacturing process thereof |
CN110044283A (en) * | 2019-04-25 | 2019-07-23 | 郑州郑大智能科技股份有限公司 | A kind of inside diameter detection device and its measurement method |
CN109946373A (en) * | 2019-04-30 | 2019-06-28 | 河南中原吉凯恩气缸套有限公司 | A kind of cylinder jacket automatic flaw detection device |
CN110044299A (en) * | 2019-05-29 | 2019-07-23 | 吉林大学 | A kind of cylindrical parts excircle size and Form and position error non-contact intelligent detection instrument |
CN112129208A (en) * | 2020-09-18 | 2020-12-25 | 东莞理工学院 | Detection apparatus for cylinder outer cylinder detects with angle regulatory function |
CN113758402A (en) * | 2021-09-08 | 2021-12-07 | 安徽维克多自动化设备有限公司 | High-precision online intelligent detection sensor |
CN113758402B (en) * | 2021-09-08 | 2024-01-30 | 安徽维克多自动化设备有限公司 | High-precision online intelligent detection sensor |
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