CN203947509U

CN203947509U - Slotter

Info

Publication number: CN203947509U
Application number: CN201420289563.2U
Authority: CN
Inventors: 温读夫; 左帅; 张涛
Original assignee: Construction Machinery Branch of XCMG
Current assignee: Construction Machinery Branch of XCMG
Priority date: 2014-05-30
Filing date: 2014-05-30
Publication date: 2014-11-19
Anticipated expiration: 2024-05-30

Abstract

The utility model discloses a kind of slotter, relate to engineering machinery field, for solving the not high problem of prior art carriage arbor correction precision.Above-mentioned slotter comprises connector, carriage arbor, connector, tension measurement equipment and position adjustment equipment; The quantity of connector is at least two, is all provided with tension measurement equipment on every connector; One end and the connector of each connector are fixed, and the other end and the carriage arbor of each connector are fixed; Position is adjusted equipment and is connected with carriage arbor, and adjustment equipment in position is rectified a deviation to carriage arbor for the value of thrust obtaining according to each tension measurement Equipment Inspection.Technique scheme correction precision is high.

Description

Slotter

Technical field

The utility model relates to engineering machinery field, is specifically related to a kind of slotter.

Background technology

Two-wheel flute milling machine is a kind of large degree of depth grooving engineering machinery, is mainly used in the constructions such as hydraulic engineering construction.Carriage arbor is its equipment, passes through wire rope suspensioning with getting on the bus.During construction, carriage arbor is whole not in deep water mud, due to factors such as milling cutter cutting force are inhomogeneous, can cause carriage arbor to deflect, and then depart from construction center line, if not in time it is rectified a deviation, will affect greatly grooving quality, even cause engineering defective.

Rotation and the carriage arbor of the deflection eud mill frame self of carriage arbor depart from construction center line.

As shown in Figure 1, the central upper portion place of carriage arbor 3 is connected with wire rope 1, is provided with obliquity sensor 2, deviation correcting device 4, guiding device 5 and milling wheel 6 on carriage arbor 3.Upper and lower along carriage arbor 3 (referring to Fig. 2, is respectively 1, upper 2, upper 3, upper 4, upper 5, upper 6 to being respectively distributed with 6 deviation correcting devices 4; Lower 1, lower 2, lower 3, lower 4, lower 5, lower 6), totally 12.The coordinate system that in Fig. 2, X, Y-axis form is used for describing the yawing moment of carriage arbor 3.

, around the direction of rotation of coordinate axes X, Y, utilize the right-hand rule to define: the right hand is grabbed coordinate axes herein, thumb directional arrow direction, all the other four finger rings are that counterclockwise its rightabout is clockwise direction around finger tip direction:

θ _x---carriage arbor 3 is around the deflection angle of X-axis;

θ _y---carriage arbor 3 is around the deflection angle of Y-axis;

L _x---carriage arbor 3 departs from the distance of the center line of constructing along X-direction;

L _y---carriage arbor 3 departs from the distance of the center line of constructing along Y direction.

In real work, the deflection that carriage arbor 3 may occur has following four kinds of situations:

If carriage arbor 3, around counterclockwise deflection of Y-axis, goes up 1,4 these two deviation correcting device 4 extend actions are rectified a deviation down.

If carriage arbor 3 is around the deflection of Y-axis clockwise direction, lower 1, upper 4 these two deviation correcting device 4 extend actions are rectified a deviation.

If carriage arbor 3 around counterclockwise deflection of X-axis, is gone up 5 and upper 6, lower 2 and is rectified a deviation with lower 3 these four deviation correcting device 4 extend actions.

If carriage arbor 3, around the deflection of X-axis clockwise direction, lower 5 is rectified a deviation with upper 3 these four deviation correcting device 4 extend actions with lower 6, upper 2.

Inventor's discovery, prior art is adopted with the following method for the correction Detection & Controling of carriage arbor 3:

(1) about correction, detect: mounted angle sensor 2 on carriage arbor 3, as shown in Figure 1, detects carriage arbor 3 self around the deflection angle θ of X, Y direction _x, θ _y, and judge that carriage arbor 3 departs from the distance L of the center line of constructing _x, L _y, by θ _x, θ _y, L _x, L _yfoundation as deviation correcting device 4 actions.

(2) about correction, control: when carriage arbor 3 being detected and occur deflection, just control 4 pairs of carriage arbors 3 of corresponding deviation correcting device and rectify a deviation, until deflection angle value is 0, and carriage arbor 3 is consistent with construction center line.

Inventor finds, at least has following problems in prior art: the deflection angle θ that only depends on obliquity sensor 2 outputs _x, θ _yvalue, is not enough to the foundation as carriage arbor 3 corrections, also needs separately to go to judge that carriage arbor 3 departs from the distance L of the center line of constructing _x, L _y.Current this offset distance L _x, L _ythe degree of accuracy obtaining is not high, the important evidence that it is controlled as correction, and it causes carriage arbor 3 to depart from construction center line, thereby affects grooving quality.

Utility model content

One of them object of the present utility model is to propose a kind of slotter, solves the not high problem of carriage arbor correction precision in prior art.

Many technique effects that the utility model optimal technical scheme can produce will describe in detail later.

For achieving the above object, the utility model provides following technical scheme:

The utility model provides a kind of slotter, comprises connector, carriage arbor, connector, tension measurement equipment and position adjustment equipment;

The quantity of described connector is at least two, is all provided with described tension measurement equipment on every described connector; Described in each, one end of connector and described connector are fixed, and described in each, the other end of connector and described carriage arbor are fixed;

Described position is adjusted equipment and is connected with described carriage arbor, and described position adjustment equipment is for rectifying a deviation to described carriage arbor according to the value of thrust that described in each, tension measurement Equipment Inspection obtains.

In optional or preferred embodiment, described connector is rope or belt, and the quantity of described connector is four;

The other end of four described connectors is separately fixed at four positions of described carriage arbor upper surface, and wherein the junction of two described connectors and described carriage arbor is positioned in X-axis, and described in two other, the junction of connector and described carriage arbor is positioned in Y-axis;

Wherein, the center of X-axis process described carriage arbor upper surface and parallel with working face, the center of Y-axis process described carriage arbor upper surface and vertical with described working face.

In optional or preferred embodiment, described tension measurement equipment is pulling force sensor.

In optional or preferred embodiment, described position adjustment equipment comprises control valve, correction oil cylinder and deviation correction mechanism; A corresponding described control valve of described deviation correction mechanism and a described correction oil cylinder;

The setting corresponding to described pulling force sensor of described control valve, described in each on the oil circuit of control valve in each self-corresponding described correction oil cylinder place, the oil cylinder of rectifying a deviation described in each drives and is connected with each self-corresponding described deviation correction mechanism;

Described deviation correction mechanism is connected with described carriage arbor.

In optional or preferred embodiment, described position is adjusted equipment and is also comprised comparator; Described control valve is solenoid operated directional valve, and the input of described comparator is electrically connected to pulling force sensor described in each, and the output of described comparator is electrically connected to solenoid operated directional valve described in each;

Described comparator is for according to the value of thrust of described pulling force sensor input, by controlling the operating position of described solenoid operated directional valve, controls described correction oil cylinder and stretches out or bounce back, and to drive described deviation correction mechanism to stretch out or bounce back, rectifies a deviation.

In optional or preferred embodiment, whether described comparator, specifically for according to the value of thrust of described pulling force sensor input, judges with the value of thrust on symmetrically arranged two the described connectors in axis of described carriage arbor and equates;

If the value of thrust on any two symmetrically arranged described connectors in axis with described carriage arbor is unequal, control the operating position of the solenoid operated directional valve that section of described connector that in symmetrically arranged every two described connectors, pulling force is less is corresponding and stretch out to control the movable part of the correction oil cylinder that this solenoid operated directional valve is corresponding, by the movable part of this correction oil cylinder, drive described deviation correction mechanism to stretch out to realize correction.

In optional or preferred embodiment, the quantity of described deviation correction mechanism is 8 or 12;

All described deviation correction mechanisms are divided into two groups, one group of top that is arranged on described carriage arbor, and another group is arranged on the bottom of described carriage arbor.

In optional or preferred embodiment, described connector is for getting on the bus, and one end of each connector is fixed with one end of coupling assembling between two symmetrically, and the other end of described coupling assembling and described connector are fixed.

Based on technique scheme, the utility model embodiment at least can produce following technique effect:

Different from two-wheel flute milling machine of the prior art, in the present embodiment, slotter get on the bus and carriage arbor between connected mode different, herein, between connector (be preferably and get on the bus) and carriage arbor, by multistage connector, connect, and on every connector, be provided with tension measuring device, to detect the value of thrust on connector.This value of thrust is follow-up will adjust the foundation whether equipment rectifies a deviation as position.Technique scheme adopts tension measuring device to detect the value of thrust obtaining and rectifies a deviation, no longer need the distance that gathers the deflection angle of carriage arbor and depart from the center line of constructing, so can avoid the distance measurement that departs from the center line of constructing because of carriage arbor to be forbidden the not high problem of correction precision causing.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms the application's a part, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the part-structure schematic diagram of two-wheel flute milling machine in prior art;

Fig. 2 is the schematic top plan view of carriage arbor and deviation correcting device in Fig. 1;

The part-structure schematic diagram of the slotter that Fig. 3 provides for the utility model embodiment;

Fig. 4 is the schematic top plan view of carriage arbor and deviation correction mechanism in Fig. 3;

Fig. 5 is the principle schematic of correction detection method of the carriage arbor of the disclosed slotter of the utility model embodiment;

Fig. 6 is the schematic flow sheet of correction detection method of the carriage arbor of the disclosed slotter of the utility model embodiment.

The specific embodiment

Can understand the distinctive points between content of the present utility model and the utility model and prior art with reference to accompanying drawing Fig. 1～Fig. 6 and word content below.Below, by accompanying drawing and the mode of enumerating optional embodiment more of the present utility model, the technical solution of the utility model (comprising optimal technical scheme) is described in further detail.It should be noted that: any technical characterictic in the present embodiment, any technical scheme is all the technical characterictic of plurality of optional or one or more in optional technical scheme, cannot exhaustive all alternative technical characterictics of the present utility model and alternative technical scheme in order to describe succinct need in presents, also the embodiment that is not easy to each technical characterictic all emphasizes that it is one of optional numerous embodiments, so those skilled in the art should know: any technical characterictic in the present embodiment and any technical scheme all do not limit protection domain of the present utility model, protection domain of the present utility model should comprise that those skilled in the art do not pay the thinkable any alternate embodiments of creative work.

Technical scheme the utility model being provided below in conjunction with Fig. 3～Fig. 6 is carried out more detailed elaboration, and arbitrary technological means that the utility model is provided is replaced or any two or more technological means that the utility model is provided or technical characterictic combine mutually and the technical scheme that obtains all should be within protection domain of the present utility model.

The utility model embodiment provides a kind of slotter, is specially two-wheel flute milling machine or has the slotter of similar structures.This slotter comprises connector (be preferably and get on the bus), carriage arbor 10, connector (being preferably wire rope herein) 11, tension measurement equipment (being preferably pulling force sensor 12) and position adjustment equipment herein.The quantity of connector 11 is at least two, on every connector 11, is all provided with tension measurement equipment; One end and the connector of each connector 11 are fixed, and the other end of each connector 11 and carriage arbor 10 are fixing.Position is adjusted equipment and is connected with carriage arbor 10, and adjustment equipment in position is rectified a deviation to carriage arbor 10 for the value of thrust obtaining according to each tension measurement Equipment Inspection.

Connector is specially gets on the bus, and one end of each connector 11 is fixed with one end of coupling assembling (being preferably stay cord 17) between two symmetrically, and the other end and the connector of coupling assembling are fixed.

Connector is preferably got on the bus or is fixed on the miscellaneous part on getting on the bus, such as supporting seat etc.Connector 11 can, for rope, wire rope, iron chains etc., be preferably wire rope.The quantity of connector 11 is preferably even number root, and one end of every two between two symmetrically with get on the bus fixingly, and this other end of two is fixing with carriage arbor 10 symmetrically between two.Above-mentioned every two symmetrical connectors 11 and the permanent position of getting on the bus and all symmetrical with the axis of carriage arbor 10 with the permanent position of carriage arbor 10.It is rectangular-shaped that carriage arbor 10 is roughly, and the axis of carriage arbor 10 refers to the central point of carriage arbor 10 upper surfaces and the line between the central point of soffit, and this line generally can be along vertical direction.Position is adjusted equipment (preferably including deviation correction mechanism 16) and is connected with carriage arbor 10, and adjustment equipment in position is rectified a deviation to carriage arbor 10 for detecting according to each tension measuring device the value of thrust obtaining.

Different from two-wheel flute milling machine of the prior art, in the present embodiment, slotter get on the bus and carriage arbor 10 between connected mode different, herein, get on the bus and carriage arbor 10 between by multistage connector 11, connect, and on every connector 11, be provided with tension measuring device, to detect the value of thrust on connector 11.This value of thrust is follow-up will adjust the foundation whether equipment rectifies a deviation as position.Technique scheme adopts tension measuring device to detect the value of thrust obtaining and rectifies a deviation, no longer need the distance that gathers the deflection angle of carriage arbor 10 and depart from the center line of constructing, so can avoid the distance measurement that departs from the center line of constructing because of carriage arbor 10 to be forbidden the not high problem of correction precision causing.

Referring to Fig. 3 and Fig. 4, further, connector 11 is rope or belt, and the quantity of connector 11 is four.The other end of four connectors 11 is separately fixed at four positions of carriage arbor 10 upper surfaces, and wherein two connectors 11 are positioned in X-axis with the junction of carriage arbor 10, and two other connector 11 is positioned in Y-axis with the junction of carriage arbor 10.Wherein, the center of X-axis process carriage arbor 10 upper surfaces and parallel with working face, the center of Y-axis process carriage arbor 10 upper surfaces and vertical with working face.Working face refers to the machined surface that slotter is being processed, and is roughly plane, and this working face is towards slotter.

, around the direction of rotation of coordinate axes X, Y, utilize the right-hand rule to define: the right hand is grabbed coordinate axes herein, thumb directional arrow direction, all the other four finger rings are that counterclockwise its rightabout is clockwise direction around finger tip direction.

Referring to Fig. 4, in four tension measuring devices, the pulling force that wherein two tension measuring devices detect on two connectors 11 that obtain is respectively F ₁and F ₃; Two other tension measuring device detects the pulling force obtaining and is respectively F ₂and F ₄, herein, subscript 1,2,3,4 is distinguished corresponding connector 11 referring to the respective digital in Fig. 4.

Work as F ₃>F ₁time, illustrate that carriage arbor 10 deflects around Y-axis clockwise direction, need make carriage arbor 10 rectify a deviation counterclockwise to Y-axis, until F ₃=F ₁.

Work as F ₃<F ₁time, illustrate that carriage arbor 10 counterclockwise deflects around Y-axis, need make carriage arbor 10 rectify a deviation clockwise to Y-axis, until F ₃=F ₁.

Work as F ₂>F ₄time, illustrate that carriage arbor 10 deflects around X-axis clockwise direction, need make carriage arbor 10 rectify a deviation counterclockwise to X-axis, until F ₂=F ₄.

Work as F ₂<F ₄time, illustrate that carriage arbor 10 counterclockwise deflects around X-axis, need make carriage arbor 10 rectify a deviation clockwise to X-axis, until F ₂=F ₄.

Tension measuring device can adopt pulling force sensor 12, and pulling force sensor 12 measuring speeds are fast, and real-time is good.

Introduce position below and adjust the concrete structure of equipment.Referring to Fig. 5, position adjustment equipment comprises control valve (being preferably solenoid operated directional valve 14), correction oil cylinder 15 and deviation correction mechanism 16; A corresponding control valve of deviation correction mechanism 16 and a correction oil cylinder 15.Control valve setting corresponding to pulling force sensor 12, on the oil circuit of each control valve in each self-corresponding correction oil cylinder 15 places, each oil cylinder 15 of rectifying a deviation drives and is connected with each self-corresponding deviation correction mechanism 16.Deviation correction mechanism 16 is connected with carriage arbor 10.Correction oil cylinder 15 is for driving deviation correction mechanism 16 actions, to realize the correction to carriage arbor 10.

Further, position adjustment equipment also comprises comparator (preferably using industrial control unit (ICU) 13 hardware such as grade to realize, such as PLC controller); Control valve is solenoid operated directional valve 14, and the input of comparator is electrically connected to each pulling force sensor 12, and the output of comparator is electrically connected to each solenoid operated directional valve 14.Comparator, for according to the value of thrust of pulling force sensor 12 inputs, comes error correct oil cylinder 15 stretch out or bounce back by controlling the operating position of solenoid operated directional valve 14, to drive deviation correction mechanism 16 to move to rectify a deviation.

The input of industrial control unit (ICU) 13 is electrically connected to each pulling force sensor 12, the output of industrial control unit (ICU) 13 is electrically connected to each solenoid operated directional valve 14, on the oil circuit of each solenoid operated directional valve 14 in each self-corresponding correction oil cylinder 15 places, each oil cylinder 15 of rectifying a deviation is connected with each self-corresponding deviation correction mechanism 16.Industrial control unit (ICU) 13, for according to the value of thrust of pulling force sensor 12 inputs, comes error correct oil cylinder 15 stretch out or bounce back by controlling the operating position of solenoid operated directional valve 14, to drive deviation correction mechanism 16 to stretch out or bounce back, rectifies a deviation.

Whether comparator, specifically for according to the value of thrust of pulling force sensor 12 inputs, judges with the value of thrust on symmetrically arranged two connectors 11 in axis of carriage arbor 10 and equates.If the value of thrust on any two symmetrically arranged connectors 11 in axis with carriage arbor 10 is unequal, control the operating position of the solenoid operated directional valve 14 of that section of connector 11 correspondences that in symmetrically arranged every two connectors 11, pulling force is less and stretch out to control the movable part of the correction oil cylinder 15 of these solenoid operated directional valve 14 correspondences, by the movable part of this correction oil cylinder 15, drive deviation correction mechanism 16 to stretch out to realize correction.Piston rod or cylinder barrel that the movable part of correction oil cylinder 15 is correction oil cylinder 15, if piston rod is fixedly installed, cylinder barrel is as movable part; Otherwise piston rod is as movable part.

Pulling force sensor 12 detects the value of thrust obtaining and is passed to industrial control unit (ICU) 13, by the value of thrust on 13 pairs of symmetrically arranged two connectors 11 of industrial control unit (ICU), compared, if the value of thrust on all symmetrically arranged two connectors 11 all equate, i.e. F ₃=F ₁and F ₂=F ₄, illustrate that deflection does not appear in carriage arbor 10, be consistent with construction center line, do not need to rectify a deviation.If there is F ₃≠ F ₁, F ₂≠ F ₄in any one situation or two kinds occur simultaneously, illustrate that deflection appears in carriage arbor 10, departed from construction center line, need to rectify a deviation.Such scheme, by industrial control unit (ICU) 13, detect the state of each pulling force sensor 12, when judgement carriage arbor 10 deflects, control corresponding solenoid operated directional valve 14 and obtain dead electricity, make 15 actions of corresponding correction oil cylinder, drive deviation correction mechanism 16 action of stretching, contract, so that carriage arbor 10 is rectified a deviation, control effectively, the degree of accuracy is high.

Further, the quantity of deviation correction mechanism 16 is 8 or 12.All deviation correction mechanisms 16 are divided into two groups, one group of top that is arranged on carriage arbor 10, and another group is arranged on the bottom of carriage arbor 10.Still take that 12 deviation correction mechanisms 16 are set is example herein.

Referring to Fig. 5, there are four connectors 11 herein, on every connector 11, be provided with a pulling force sensor 12, be provided with altogether four pulling force sensors 12.Four pulling force sensors 12 are all electrically connected to industrial control unit (ICU) 13, and industrial control unit (ICU) 13 is connected respectively (only having illustrated one herein) with 12 solenoid operated directional valves 14, and the action between each solenoid operated directional valve 14 is relatively independent.Solenoid operated directional valve 14 is corresponding to be connected with a correction oil cylinder 15, and correction oil cylinder 15 again correspondence is connected with 16 drivings of a deviation correction mechanism.Solenoid operated directional valve 14 and the correction oil cylinder 15 of deviation correction mechanism 16 correspondences in Fig. 5, have only been illustrated.In fact the corresponding solenoid operated directional valve 14 of each deviation correction mechanism 16 and correction oil cylinder 15.

Referring to Fig. 3, one end of each connector 11 is fixed with one end of coupling assembling (being preferably stay cord 17) between two symmetrically, the other end of stay cord 17 with get on the bus fixing.Stay cord 17 can adopt existing main rope.The main rope of transferring from the elevator of getting on the bus (stay cord 17) is not directly connected with carriage arbor 10, but increase by 4 sections from wire rope (connector 11) at main rope end, one end is connected with main rope between two symmetrically, the other end is connected with carriage arbor 10 between two symmetrically, and the pulling force that a pulling force sensor 12 detects wire rope is all installed from wire rope at every.So arrange, can simplify the connection of each connector 11.

The slotter that technique scheme provides, has changed the connected mode of getting on the bus with carriage arbor 10, and by detecting connector, the pulling force being subject on wire rope judges the deflection situation of carriage arbor 10, has instructed the correction control work of carriage arbor 10.Above-mentioned correction operation, without considering the deflection angle of carriage arbor 10 and departing from construction distance between center line, has improved correction precision, and can improve grooving quality.

The utility model embodiment also discloses a kind of correction detection method of carriage arbor of slotter, and slotter is herein preferably the slotter that above-mentioned any technical scheme provides.The method comprises the following steps:

Step S1: detect the value of thrust that at least two connectors 11 that are connected with the carriage arbor 10 of slotter, each connector 11 is subject to.

Tension measuring device can be selected pulling force sensor 12.Referring to Fig. 5, there are four connectors 11 herein, on every connector 11, be provided with a pulling force sensor 12, be provided with altogether four pulling force sensors 12.Four pulling force sensors 12 are all electrically connected to industrial control unit (ICU) 13, and industrial control unit (ICU) 13 is connected respectively (only having illustrated one herein) with 12 solenoid operated directional valves 14, and the action between each solenoid operated directional valve 14 is relatively independent.Solenoid operated directional valve 14 is corresponding to be connected with a correction oil cylinder 15, and correction oil cylinder 15 again correspondence is connected with 16 drivings of a deviation correction mechanism.

Step S2: the value of thrust that relatively each connector 11 is subject to, and the correction parameter using comparative result as carriage arbor 10.Specifically can use the hardware configurations such as the comparator value of thrust that relatively each connector 11 is subject to.

In step S2, can manual type judgement need two values of thrust relatively whether to equate, also can adopt comparator, such as industrial control unit (ICU) 13 judges, the automaticity that adopts industrial control unit (ICU) 13 to judge is high, and speed is fast, and accuracy is high.

Further, all there is symmetrically arranged another root connector 11 in the axis with carriage arbor 10 in every connector 11; Now, use the comparator value of thrust that relatively each connector 11 is subject to specifically to comprise step: relatively with the value of thrust on symmetrically arranged two connectors 11 in axis of carriage arbor 10, whether to equate.Be about to F in Fig. 4 ₁with F ₃relatively, F ₂with F ₄relatively.If F ₃=F ₁and F ₂=F ₄, the time that interval is set (such as 5 seconds, 30 seconds, 1 minute, 5 minutes etc.) repeats this step again, if wherein have one group unequal, the operation of rectifying a deviation.

Further, relatively with the value of thrust on symmetrically arranged two connectors 11 in axis of carriage arbor 10, whether equate to be specially: by each tension measurement Equipment Inspection to value of thrust be sent to comparator, whether comparator equates by relatively judging with the value of thrust on symmetrically arranged every two connectors 11 in axis of carriage arbor 10.

If the value of thrust on any two symmetrically arranged connectors 11 in axis with carriage arbor 10 is unequal, industrial control unit (ICU) 13 error correct mechanisms 16 move to adjust, until all equate with the value of thrust on symmetrically arranged any two connectors 11 in axis of carriage arbor 10, be adjusted to F ₃=F ₁and F ₂=F ₄.

If unequal, error correct mechanism 16 adjustment of moving to rectify a deviation, until all equate with the value of thrust on symmetrically arranged any two connectors 11 in axis of carriage arbor 10.Concrete steps are as follows:

First, industrial control unit (ICU) 13 is controlled the operating position of the solenoid operated directional valve 14 of that section of connector 11 correspondences that in symmetrically arranged every two connectors 11, pulling force is less.

Then, the piston rod that solenoid operated directional valve 14 is controlled the correction oil cylinder 15 corresponding with it stretches out.

Finally, correction oil cylinder 15 drives coupled deviation correction mechanism 16 to stretch out, to realize correction.Deviation correction mechanism 16 can adopt existing structure.

Repeat above-mentioned steps at interval of the time of setting (such as 5 seconds, 30 seconds, 1 minute, 5 minutes etc.), to guarantee to detect in real time in the course of the work the position of carriage arbor 10, avoid it to deflect.

Technique scheme, has simplified the determination methods that carriage arbor 10 is rectified a deviation, and has improved correction precision, has improved grooving quality.

Above-mentioned arbitrary technical scheme disclosed in the utility model unless otherwise stated, if it discloses number range, so disclosed number range is preferred number range, any it should be appreciated by those skilled in the art: preferred number range is only the obvious or representative numerical value of technique effect in many enforceable numerical value.Because numerical value is more, cannot be exhaustive, so the utility model just discloses part numerical value to illustrate the technical solution of the utility model, and the above-mentioned numerical value of enumerating should not form the restriction of the utility model being created to protection domain.

If used the words such as " first ", " second " to limit component herein, those skilled in the art should know: the use of " first ", " second " is only used to be convenient to describe above component are distinguished as not having outside Stated otherwise, and above-mentioned word does not have special implication.

Simultaneously, if above-mentioned the utility model discloses or has related to component or the structural member of connection fastened to each other, so, unless otherwise stated, be fixedly connected with and can be understood as: can dismantle and be fixedly connected with (for example using bolt or screw to connect), also can be understood as: non-removable being fixedly connected with (for example rivet, weld), certainly, connection fastened to each other also can for example, be replaced (obviously cannot adopt except integrally formed technique) by integral type structure (use casting technique is integrally formed to be created).

In addition, in the disclosed arbitrary technical scheme of above-mentioned the utility model applied for the term that represents position relationship or shape unless otherwise stated its implication comprise and its approximate, similar or approaching state or shape.Arbitrary parts that the utility model provides can be both to be assembled by a plurality of independent ingredients, the produced separate part of the technique that also can be one of the forming.

Finally should be noted that: above embodiment is only in order to illustrate that the technical solution of the utility model is not intended to limit; Although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the field are to be understood that: still can modify or part technical characterictic is equal to replacement the specific embodiment of the present utility model; And not departing from the spirit of technical solutions of the utility model, it all should be encompassed in the middle of the technical scheme scope that the utility model asks for protection.

Claims

1. a slotter, is characterized in that, comprises connector, carriage arbor, connector, tension measurement equipment and position adjustment equipment;

2. slotter according to claim 1, is characterized in that, described connector is rope or belt, and the quantity of described connector is four;

3. slotter according to claim 2, is characterized in that, described tension measurement equipment is pulling force sensor.

4. slotter according to claim 3, is characterized in that, described position adjustment equipment comprises control valve, correction oil cylinder and deviation correction mechanism; A corresponding described control valve of described deviation correction mechanism and a described correction oil cylinder;

5. slotter according to claim 4, is characterized in that, described position is adjusted equipment and also comprised comparator; Described control valve is solenoid operated directional valve, and the input of described comparator is electrically connected to pulling force sensor described in each, and the output of described comparator is electrically connected to solenoid operated directional valve described in each;

6. slotter according to claim 5, is characterized in that, whether described comparator, specifically for according to the value of thrust of described pulling force sensor input, judges with the value of thrust on symmetrically arranged two the described connectors in axis of described carriage arbor and equate;

7. slotter according to claim 4, is characterized in that, the quantity of described deviation correction mechanism is 8 or 12;

8. according to the arbitrary described slotter of claim 1-7, it is characterized in that, described connector is for getting on the bus, and one end of each connector is fixed with one end of coupling assembling between two symmetrically, and the other end of described coupling assembling and described connector are fixed.