CN206334966U - A kind of deviation-rectifying system of rolling line - Google Patents

Abstract

The utility model discloses a kind of deviation-rectifying system of rolling line, including hai roll machine, roll, winder and deviation-rectifying system, hai roll machine and winder are located at the both sides of roll respectively, deviation-rectifying system includes the first deviation correcting device, the second deviation correcting device, the first deflection correction sensor and the second deflection correction sensor, hai roll machine and winder are separately positioned on the first deviation correcting device with the second deviation correcting device, also do the drive device of straight reciprocating motion along roll footage direction including the first deflection correction sensor of driving.When rolling line works, drive device drives the first deflection correction sensor to do straight reciprocating motion along roll footage direction, the first deviation correcting device and the second deviation correcting device is set to drive length direction of the base material along roll back and forth to rectify a deviation, make the region of roll generation wear phenomenon bigger, concentrated wear situation is reduced, so as to extend the service life of roll, the waste of resource is reduced, production cost is reduced.

Description

A kind of deviation-rectifying system of rolling line

Technical field

The utility model is related to rolling technique, more particularly to a kind of deviation-rectifying system of rolling line.

Background technology

There are many products to be required for being rolled using roll during production, such as strip, section bar.Rolling is Refer to gap (variously-shaped) of the metal base by a pair of rotary rollers, metal base makes material section because of the compression by roll Reduce, the increased pressure processing method of length.

In the prior art to prevent that base material is offset during rolling, can all be provided with deviation-rectifying system on rolling line, such as Fig. 1 and Shown in Fig. 2, deviation-rectifying system includes the first deviation correcting device 101, the second deviation correcting device 102, the first deflection correction sensor 103 and second and entangled Inclined sensor 104, hai roll machine 105 and winder 106 are separately positioned on the first deviation correcting device 101 and the second deviation correcting device 102 On, the first deflection correction sensor 103 is located between hai roll machine 105 and roll 107, and the second deflection correction sensor 104 is located at winder 106 Between roll 107, when the first deflection correction sensor 103 or the second deflection correction sensor 104 detect base material skew, the first correction The deviation correcting device 102 of device 101 or second will drive hai roll machine 105 or winder 106 to move, and carry out base material correction.Therefore, exist During base material is rolled, base material is all that roll-in is carried out in the same position of roll squeezer roll 107, can be right after the time is permanent The roll-in region surface of roll 107 causes abrasion, causes the base material after rolling not reach production requirement, so, roll wear is arrived Need to change afterwards to a certain degree, but roll, in addition to the serious wear of roll-in region, other regions are substantially not in abrasion Situation, but needs roll whole to replace, this results in the waste of resource when changing roll.

Utility model content

Technical problem to be solved in the utility model is：A kind of deviation-rectifying system of rolling line is provided, the correction system System can extend the service life of roll in rolling line, so as to reduce the wasting of resources.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is：A kind of correction of rolling line System, including hai roll machine, roll, winder and deviation-rectifying system, hai roll machine and winder are located at the both sides of roll, correction system respectively System includes the first deviation correcting device, the second deviation correcting device, the first deflection correction sensor and the second deflection correction sensor, hai roll machine and winder It is separately positioned on the first deviation correcting device with the second deviation correcting device, the first deflection correction sensor is located between hai roll machine and roll, Second deflection correction sensor is located between winder and roll, is also done directly along roll footage direction including the first deflection correction sensor of driving The reciprocating drive device of line.

Further, the drive device includes drive mechanism and transmission mechanism, and the drive mechanism is motor, the biography Motivation structure includes shaft coupling, screw mandrel, bottom framework, sliding block and the support being located on sliding block, length direction of the screw mandrel along roll Set, the screw mandrel is rotatably provided on bottom framework and is connected by shaft coupling with the output shaft of motor, and the sliding block can be slided Dynamic to be arranged on screw mandrel, first deflection correction sensor is on support.

Further, sliding block is 0-100mm along the slidable distance range of screw mandrel length direction.

Further, movement velocity of the sliding block along screw mandrel length direction is 0.5mm/min-1.5mm/min.

Further, the drive device includes drive mechanism and transmission mechanism, and the drive mechanism is cylinder or hydraulic pressure Cylinder, the transmission mechanism is a support bar, and the length direction of the direction of motion of the support bar along roll is set, the one of support bar End is connected with drive mechanism, and the other end of support bar sets the first deflection correction sensor.

Further, the drive mechanism is provided with flow speed control valve.

Further, the stroke of the drive mechanism is 90mm-110mm.

Further, the piston rod movement speed of the drive mechanism is 0.5mm/min-1.5mm/min.

The beneficial effects of the utility model are：First deflection correction sensor is arranged on one along roll footage direction and does straight line In reciprocating drive device, due to the motion of drive device, the first deflection correction sensor can detect base material skew, and first entangles Deflection device is rectified a deviation to base material, allows base material real skew occur, so as to be detected by the second deflection correction sensor, the second correction Device makes corresponding adjustment to base material again, and then make it that the motion that base material followed by the first deflection correction sensor carries out coming for entirety Return is dynamic, makes the region of roll generation wear phenomenon bigger, concentrated wear situation reduction, so as to extend the use longevity of roll Life, reduces the waste of resource, reduces production cost.

Brief description of the drawings

Fig. 1 is the schematic top plan view of rolling line roll-in part in the prior art；

Fig. 2 is the schematic elevation view of rolling line roll-in part in the prior art；

Fig. 3 is the schematic top plan view of the rolling line roll-in part of the utility model embodiment one；

Fig. 4 is the schematic elevation view of the rolling line roll-in part of the utility model embodiment one；

Fig. 5 for the rolling line of the utility model embodiment one deviation-rectifying system in drive device left view schematic diagram；

Fig. 6 for the rolling line of the utility model embodiment two deviation-rectifying system in drive device left view schematic diagram.

Label declaration：

1st, hai roll machine；2nd, roll；3rd, winder；4th, deviation-rectifying system；41st, the first deviation correcting device；

42nd, the second deviation correcting device；43rd, the first deflection correction sensor；44th, the second deflection correction sensor；

5th, drive device；51st, drive mechanism；52nd, transmission mechanism；521st, shaft coupling；

522nd, screw mandrel；523rd, bottom framework；524th, sliding block；525th, support；6th, base material to be rolled.

Embodiment

To describe technology contents of the present utility model, the objects and the effects in detail, below in conjunction with embodiment and match somebody with somebody Accompanying drawing is closed to be explained.

The design of the utility model most critical is：Set and carry being done directly along roll footage direction for the first deflection correction sensor The reciprocating drive device of line, when drive device works, the base material that detects of the first deflection correction sensor is offset so that first entangles Deflection device makes corresponding adjustment, allows base material really skew occur and be detected by the second deflection correction sensor, the second deviation correcting device Base material is rectified a deviation according to the testing result of the second deflection correction sensor；Finally make it that base material followed by the first deflection correction sensor Motion is moved integrally.

It refer to Fig. 3 to Fig. 6, a kind of deviation-rectifying system of rolling line, including hai roll machine 1, roll 2, winder 3 and entangle Inclined system 4, hai roll machine 1 and winder 3 are located at the both sides of roll 2 respectively, and deviation-rectifying system 4 includes the first deviation correcting device 41, second Deviation correcting device 42, the first deflection correction sensor 43 and the second deflection correction sensor 44, hai roll machine 1 and winder 3 are separately positioned on first On deviation correcting device 41 and on the second deviation correcting device 42, the first deflection correction sensor 43 is located between hai roll machine 1 and roll 2, and second entangles Inclined sensor 44 is located between winder 3 and roll 2, is also done including the first deflection correction sensor 43 of driving along the length direction of roll 2 The drive device 5 of straight reciprocating motion.

Knowable to foregoing description, the beneficial effects of the utility model are：First deflection correction sensor is arranged on into an edge to roll Roller length direction is done in the drive device of straight reciprocating motion, due to the motion of drive device, and the first deflection correction sensor can be detected To base material skew, the first deviation correcting device is rectified a deviation to base material, allows base material real skew occur, so as to be sensed by the second correction Device is detected, and the second deviation correcting device makes corresponding adjustment to base material again, and then make it that base material followed by the first deflection correction sensor Motion carry out it is overall move back and forth, allow roll occur wear phenomenon region it is bigger, concentrated wear situation reduction, so as to prolong The service life of roll has been grown, the waste of resource is reduced, production cost is reduced.

Specifically, when drive device drives the first deflection correction sensor to be moved towards the direction away from base material, the first correction Sensor detects base material skew (base material is virtually free from skew), and the first deviation correcting device is according to the first deflection correction sensor Testing result, can be with hai roll machine towards (first rectifies a deviation with the movement of the first deflection correction sensor direction of motion identical direction, correction This action of device makes base material really offset by), the second deflection correction sensor detects base material and offset, the second correction Device can be with winder towards identical with the first deflection correction sensor direction of motion according to the testing result of the second deflection correction sensor Direction movement, correction so that base material is moved integrally relative to roll, and then allow roll to occur the area of wear phenomenon Follow the motion of first sensor and move in domain.Similarly, when drive device drives the first deflection correction sensor towards the side close to base material To during motion, base material can also be moved integrally.Final result is exactly that the first deviation correcting device and the second deviation correcting device will drive base material Overall back and forth to be rectified a deviation (movement) along the length direction of roll, the region that wear phenomenon occurs for roll also can and then be moved.

Further, the drive device 5 includes drive mechanism 51 and transmission mechanism 52, and the drive mechanism 51 is electricity Machine, the transmission mechanism 52 includes shaft coupling 521, screw mandrel 522, bottom framework 523, sliding block 524 and the support being located on sliding block 524 525, length direction of the screw mandrel 522 along roll 2 is set, and the screw mandrel 522 is rotatably provided on bottom framework 523 and passed through Shaft coupling 521 is connected with the output shaft of motor, and sliding block 524 is slidably arranged on screw mandrel 522, first deflection correction sensor 43 On support 525.

Seen from the above description, using motor as drive mechanism, rotating and reverse for motor can just allow sliding block in silk Realize and move back and forth on bar, and then allow the first deflection correction sensor to realize straight reciprocating motion.

Further, sliding block 524 is 0-100mm along the slidable distance range of the length direction of screw mandrel 522.

Further, movement velocity of the sliding block 524 along the length direction of screw mandrel 522 is 0.5mm/min-1.5mm/min.

Further, movement velocity of the sliding block 524 along the length direction of screw mandrel 522 is 1mm/min.

Seen from the above description, the movement velocity of sliding block can not be too fast, i.e. the reciprocating motion speed of the first deflection correction sensor Can not be too fast, it is to avoid the first deviation correcting device and the second deviation correcting device carry out correction by a relatively large margin within the unit interval to base material, So that base material can not make quick adjustment, the pressing effect of base material is advantageously ensured that.More importantly the motion of sliding block is fast Degree is constant, and base material can be allowed to be moved integrally with constant speed, allows the uniform roll-in base material of roll, makes roller surface abrasion It is even to avoid concentrated wear excessive.

Further, the drive device 5 includes drive mechanism 51 and transmission mechanism 52, and the drive mechanism 51 is cylinder Or hydraulic cylinder, the transmission mechanism 52 is a support bar, and the length direction of the direction of motion of the support bar along roll 2 is set, One end of support bar is connected with drive mechanism 51, and the other end of support bar sets the first deflection correction sensor 43.

Seen from the above description, when drive mechanism is concordant with base material, the effect of support bar be connect drive mechanism and First deflection correction sensor.When drive mechanism is not concordant with base material, the effect of support bar has two, one, connection drive mechanism and First deflection correction sensor；Two, the difference in height between balance driving mechanism and base material allows the first deflection correction sensor just can be with base Material aligns, and facilitates the first deflection correction sensor to detect the skew of base material.

Further, the drive mechanism 51 is provided with flow speed control valve.

Seen from the above description, flow speed control valve is set to be conducive to controlling drive mechanism (cylinder or hydraulic cylinder) in drive mechanism The amount of feeding, and then control the movement velocity of the first deflection correction sensor.

Further, the stroke of the drive mechanism 51 is 90mm-110mm.

Further, the movement velocity of the piston rod of the drive mechanism is 0.5mm/min-1.5mm/min.

Further, the movement velocity of the piston rod of the drive mechanism is 1mm/min.

Seen from the above description, the feed speed of cylinder or hydraulic cylinder can not be too fast, i.e., the first deflection correction sensor is reciprocal Movement velocity can not be too fast, it is to avoid the first deviation correcting device and the second deviation correcting device are carried out by a relatively large margin within the unit interval to base material Correction so that base material can not make quick adjustment, advantageously ensure that the pressing effect of base material.More importantly sliding block Movement velocity is constant, and base material can be allowed to be moved integrally with constant speed, allows the uniform roll-in base material of roll, makes roller surface Even wearing avoids concentrated wear excessive.

Embodiment one

Fig. 3 be refer to Fig. 5, embodiment one of the present utility model is：As shown in Figure 3 and Figure 4, a kind of rolling line Deviation-rectifying system, including hai roll machine 1, roll 2, winder 3 and deviation-rectifying system 4, hai roll machine 1 and winder 3 are respectively positioned at roll 2 Both sides, deviation-rectifying system 4 includes the first deviation correcting device 41, the second deviation correcting device 42, the first deflection correction sensor 43 and the second correction and passed Sensor 44, hai roll machine 1 and winder 3 are separately positioned on the first deviation correcting device 41 with the second deviation correcting device 42, and first rectifies a deviation Sensor 43 is located between hai roll machine 1 and roll 2, and the second deflection correction sensor 44 is located between winder 3 and roll 2, is also included The first deflection correction sensor 43 is driven to do the drive device 5 of straight reciprocating motion along the length direction of roll 2.

Incorporated by reference to Fig. 4 and Fig. 5, in the present embodiment, the drive device 5 includes drive mechanism 51 and transmission mechanism 52, institute Drive mechanism 51 is stated for motor, the transmission mechanism 52 includes shaft coupling 521, screw mandrel 522, bottom framework 523, sliding block 524 and set Support 525 on sliding block 524, length direction of the screw mandrel 522 along roll 2 is set, and the screw mandrel 522 is rotatably provided in It is connected on bottom framework 523 and by shaft coupling 521 with the output shaft of motor, the sliding block 524 is slidably arranged on screw mandrel 522 On, first deflection correction sensor 43 is alignd on support 525 and with base material 6 to be rolled.

Sliding block 524 is 0-100mm along the slidable distance range of the length direction of screw mandrel 522.When initial, sliding block 524 is parked in The midpoint (at 50mm) of its slidable distance range, so, sliding block 524 can be relatively initial by the forward and reverse of motor Slided in the range of ± 50mm position, that is to say, that relative to existing rolling technique, the region that roll 2 weares and teares is to rolling The two ends of roller 2 have each extended over 50mm, and the concrete numerical value of the wear area increase of roll 2 is multiplied by the week of roll 2 equal to 100mm It is long.It is readily appreciated that, sliding block 524 is 0-100mm along the slidable distance range of the length direction of screw mandrel 522 in the present embodiment, In other embodiment, sliding block 524 can be with greater or lesser along the slidable distance range of the length direction of screw mandrel 522, specifically can be with Select according to actual needs.

Movement velocity of the sliding block 524 along the length direction of screw mandrel 522 is 0.5mm/min-1.5mm/min, the preferably edge of sliding block 524 The movement velocity of the length direction of screw mandrel 522 is 1mm/min.

In the utility model, the first deflection correction sensor 43 is provided in one and done in the drive device of straight reciprocating motion, Far from each other, the first deflection correction sensor being fixedly installed with the way of the prior art that the first deflection correction sensor 43 is fixedly installed 43 testing result is not offset for base material in most cases, i.e. the result for the first deflection correction sensor 43 that prior art is expected It should be base material not offset, and the utility model is gone around, allows the testing result of the first deflection correction sensor 43 to be always base Material is offset, and then allows the first deviation correcting device 41 and the second deviation correcting device 42 to be rectified a deviation all the time to base material, so as to allow base to be rolled Material 6 swings back and forth on roll 2 along the length direction of roll 2, increases the wear area of roll 2, the use of final extension roll 2 Life-span.

The operation principle of the utility model deviation-rectifying system is summarized as follows：Drive device drives the motion of the first deflection correction sensor, The first deflection correction sensor is set to detect base material skew (now base material is virtually free from skew), the first deviation correcting device is according to the The testing result of one deflection correction sensor is rectified a deviation to base material, and (this action of the first deviation correcting device makes base material really offset ), so as to be detected by the second deflection correction sensor, the second deviation correcting device is according to the testing result of the second deflection correction sensor to base material Rectified a deviation, so that base material is moved integrally relative to roll, and then the region for allowing roll to occur wear phenomenon is followed The motion of first sensor and move.

Embodiment two

Fig. 6 is refer to, embodiment two of the present utility model is to the another of the proposition of drive device 5 on the basis of embodiment one A kind of technical scheme, the difference with embodiment one is：Drive mechanism 51 in drive device 5 is cylinder or hydraulic cylinder, Transmission mechanism 52 is a support bar, and the length direction of the direction of motion of the support bar along roll 2 is set, one end of support bar with Drive mechanism 51 is connected, and the other end of support bar sets the first deflection correction sensor 43.

When drive mechanism 51 and not concordant base material 6 to be rolled, the length of support bar be equal to drive mechanism 51 with it is to be rolled Difference in height between base material 6, so as to allow the first deflection correction sensor 43 to be alignd with base material 6 to be rolled.When drive mechanism 51 is with treating roller When pressing base material 6 concordant, the length direction of support bar is consistent with the length direction of roll 2.

The stroke of the drive mechanism 51 is the row of piston rod or the piston rod in hydraulic cylinder in 90mm-110mm, i.e. cylinder Journey is 90mm-110mm.It is preferred that the stroke of piston rod or the piston rod in hydraulic cylinder is 100mm in cylinder.

Further, the drive mechanism 51 is provided with flow speed control valve.The movement velocity of the piston rod of the drive mechanism 51 For 0.5mm/min-1.5mm/min, preferably 1mm/min.

In summary, a kind of deviation-rectifying system for rolling line that the utility model is provided, the first deflection correction sensor is set Putting can drive the first deflection correction sensor to be done along roll footage direction in the drive device of straight reciprocating motion one, rolling line During work, drive device drives the first deflection correction sensor to do straight reciprocating motion along roll footage direction, makes the first deviation correcting device Drive length direction of the base material along roll back and forth to rectify a deviation with the second deviation correcting device, make the region of roll generation wear phenomenon bigger, Concentrated wear situation is reduced, so as to extend the service life of roll, is reduced the waste of resource, is reduced production cost.

Embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, it is every The equivalents made using the utility model specification and accompanying drawing content, or directly or indirectly it is used in the technology neck of correlation Domain, is similarly included in scope of patent protection of the present utility model.

Claims (8)

1. a kind of deviation-rectifying system of rolling line, including hai roll machine, roll, winder and deviation-rectifying system, hai roll machine and winding Machine is located at the both sides of roll respectively, and deviation-rectifying system includes the first deviation correcting device, the second deviation correcting device, the first deflection correction sensor and the Two deflection correction sensors, hai roll machine and winder are separately positioned on the first deviation correcting device with the second deviation correcting device, and first rectifies a deviation Sensor is located between hai roll machine and roll, and the second deflection correction sensor is located between winder and roll, it is characterised in that：Also wrap Include the drive device that the first deflection correction sensor of driving does straight reciprocating motion along roll footage direction.

2. the deviation-rectifying system of rolling line according to claim 1, it is characterised in that：The drive device includes driving Mechanism and transmission mechanism, the drive mechanism are motor, and the transmission mechanism includes shaft coupling, screw mandrel, bottom framework, sliding block and set Support on sliding block, length direction of the screw mandrel along roll is set, and the screw mandrel is rotatably provided on bottom framework and led to Cross shaft coupling with the output shaft of motor to be connected, the sliding block is slidably arranged on screw mandrel, first deflection correction sensor is located at On support.

3. the deviation-rectifying system of rolling line according to claim 2, it is characterised in that：Sliding block can along screw mandrel length direction The distance range of slip is 0-100mm.

4. the deviation-rectifying system of rolling line according to claim 2, it is characterised in that：Sliding block is along screw mandrel length direction Movement velocity is 0.5mm/min-1.5mm/min.

5. the deviation-rectifying system of rolling line according to claim 1, it is characterised in that：The drive device includes driving Mechanism and transmission mechanism, the drive mechanism are cylinder or hydraulic cylinder, and the transmission mechanism is a support bar, the support bar Length direction of the direction of motion along roll is set, and one end of support bar is connected with drive mechanism, the other end setting of support bar the One deflection correction sensor.

6. the deviation-rectifying system of rolling line according to claim 5, it is characterised in that：The drive mechanism is provided with tune Fast valve.

7. the deviation-rectifying system of rolling line according to claim 5, it is characterised in that：The stroke of the drive mechanism is 90mm-110mm。

8. the deviation-rectifying system of rolling line according to claim 5, it is characterised in that：The piston rod of the drive mechanism Movement velocity is 0.5mm/min-1.5mm/min.