CN209009780U - Position remote adjustment device and deviation-rectifying system - Google Patents

Abstract

The utility model relates to a kind of position remote adjustment device and deviation-rectifying systems, which includes: controller；Driver, the driver and the controller are electrically connected；Mounting base, the mounting base include mounting bracket and the slipway mechanism that is set in the mounting bracket, and the slipway mechanism and the driver are electrically connected, and drive sensor mobile for output power.Compared to traditional mode of operation for manually adjusting sensor position; the adjustment device of the technical program can be realized the remote control of operator; can it is convenient, fast under the premise of production line is non-stop-machine and accurately adjust sensor physical location; the demand of production line debugging or the replacement of product size is adapted to, while guaranteeing production efficiency.

Description

Position remote adjustment device and deviation-rectifying system

Technical field

The utility model relates to product deviation correcting technology fields, are more particularly to a kind of position remote adjustment device and correction System.

Background technique

In the automated productions industry such as sanitary napkin, paper diaper, it usually needs by two or more material carry out it is compound or Person carried out on material decorative pattern coining, also or to material carry out slitting treatment, in order to be accurately positioned in case positions of materials deviate Caused defective products occurs and causes waste of material, generally requires and installs deviation-rectifying system additional before above-mentioned each process, in the hope of working as material When positional shift occurs for material, positions of materials is corrected and is restored to correct position.

Deviation-rectifying system is detected positions of materials by sensor, and sensor can only detect material relative to sensor physics position The offset set and offset direction must just readjust the object of sensor when production line is debugged or replaces product size Position is managed to ensure the positioning accuracy of deviation-rectifying system.It is mostly used in industry at present and manually adjusts mode, it is not only inconvenient, take When it is laborious, and when in equipment production process find base position there is deviation when, then need shut down be adjusted, to production imitate Rate also results in larger impact.

Utility model content

Based on this, it is necessary to a kind of position remote adjustment device is provided, can it is convenient, fast under the premise of non-stop-machine and The physical location for accurately adjusting sensor, adapts to the demand of production line debugging or the replacement of product size, while guaranteeing to produce Efficiency；Deviation-rectifying system is greatly promoted by assembling the position remote adjustment device, ability to work, can satisfy changeable production field Conjunction and condition, it is ensured that producing line production efficiency.

Its technical solution is as follows:

On the one hand, the application provides a kind of position remote adjustment device, comprising:

Controller；

Driver, the driver and the controller are electrically connected；

Mounting base, the mounting base include mounting bracket and the slipway mechanism that is set in the mounting bracket, the cunning Platform mechanism and the driver are electrically connected, and drive sensor mobile for output power.

When being worked using above-mentioned position remote adjustment device, mounting base can be monolithically integrated into deviation-rectifying system, And then sensor is installed on slipway mechanism, it is opposite with the raw material after deviation-rectifying system, to be used for real-time detection raw material Transmission path whether shift.When progress production line debugging efforts or product size has been replaced, has caused sensor original Physical location when not being available testing requirements, staff can remote control controller, by controller output order to driving Device work, driver and then exportable work order driving slipway mechanism work, are finally driven by slipway mechanism output power Sensor is mobile, and sensor physical location adjusted is made to meet detection status requirement.Sensing is manually adjusted compared to traditional The mode of operation of device position, the adjustment device of the technical program can be realized the remote control of operator, can production line not Physical location that is convenient, fast and accurately adjusting sensor, adapts to production line debugging or product size under the premise of shutdown The demand of replacement, while guaranteeing production efficiency.

The technical solution of the application is further described below:

The slipway mechanism includes the mounting plate connecting with the mounting bracket, is set in one of the embodiments, It pedestal on the mounting plate, the transmission component being set on the pedestal, the fixation kit being set on the pedestal and sets It is placed in the actuator on the fixation kit and with transmission component driving cooperation, the actuator and the driver are electrical Connection.

The cunning that the transmission component includes sliding rail and is slidably set on the sliding rail in one of the embodiments, Block, the top surface of the pedestal are recessed with the first mounting groove, and the sliding rail and the sliding block are all set in first mounting groove；And The sliding rail is equipped with card slot, and the sliding block is equipped with card convex, and the card convex and the card slot, which fix, to be cooperated；The bottom surface of the pedestal is also Equipped with the second mounting groove, the side of the pedestal is additionally provided with third mounting groove.

In one of the embodiments, the transmission component further include the drive block being set on the sliding block and with institute The screw rod of drive block screw-driven connection is stated, the screw rod is rotatably set on the fixation kit and drives with the actuator Dynamic connection.

The side of the sliding rail offers limiting slot extended along its length, institute in one of the embodiments, The bottom surface for stating sliding block is recessed with mounting groove, and the cell wall of the mounting groove is convexly equipped with limit convex, the limit convex and the limiting slot Fix cooperation.

The transmission component further includes the connection sheet being set on the drive block, setting in one of the embodiments, In the sensing chip in the connection sheet for fixing the installation sheet of the sensor and being set in the connection sheet.

The fixation kit includes bearing part, bearing mounting plate, shaft coupling and fixed plate in one of the embodiments, The bearing mounting plate and fixed plate interval is opposite is set on the pedestal, the bearing part is set to the bearing On mounting plate, the power axis connection of one end of the shaft coupling and the actuator, the other end of the shaft coupling and the silk One end of bar connects, and the other end of the screw rod is connect with the bearing part.

It in one of the embodiments, further include two limit switches, two limit switches are arranged at intervals at described Third mounting groove is interior and is located at the both ends of the screw rod, and two limit switches electrically connect with the controller It connects.

It in one of the embodiments, include two drivers, the mounting base includes being arranged at intervals at the peace Two slipway mechanisms of the same side of bracket are filled, the driver and the slipway mechanism, which correspond, to be electrically connected；Further include Selection switch, the first button, the second button and the third button being electrically connected with the controller, the selection switch, institute The first button, second button and the third button are stated for being installed in master control platform or safety protective door.

On the other hand, the application also provides a kind of deviation-rectifying system comprising sensor and position as described above are remotely adjusted Engagement positions, the sensor are installed on the position remote adjustment device.Deviation-rectifying system is remotely adjusted by assembling the position Device, ability to work greatly promote, and can satisfy changeable production occasion and condition, it is ensured that producing line production efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of position remote adjustment device described in an embodiment of the present invention；

Fig. 2 is the configuration schematic diagram of Fig. 1 shown device；

Fig. 3 is the configuration schematic diagram of the slipway mechanism in Fig. 1 shown device.

Description of symbols:

100, controller, 200, driver, 300, mounting bracket, 400, slipway mechanism, 410, mounting plate, 420, pedestal, 421, the first mounting groove, the 422, second mounting groove, 423, third mounting groove, 430, transmission component, 431, sliding rail, 4312, card slot, 432, sliding block, 4322, card convex, 433, drive block, 434, screw rod, 435, connection sheet, 436, installation sheet, 437, sensing chip, 440, Fixation kit, 441, bearing part, 442, bearing mounting plate, 443, shaft coupling, 444, fixed plate, 450, actuator, 500, limit Switch, 600, selection switch, the 700, first button, the 800, second button, 900, third button, 1000, sensor, 1100, entangle Inclined executing agency.

Specific embodiment

It is below in conjunction with attached drawing and specifically real for the purpose of this utility model, technical solution and advantage is more clearly understood Mode is applied, the utility model is described in further detail.It should be understood that the specific embodiments described herein Only to explain the utility model, the protection scope of the utility model is not limited.

It should be noted that when element is referred to as " being fixedly arranged on ", " being set to " or " install in " another element, it can be with Directly on the other element or there may also be elements placed in the middle.When an element is considered as " connection " another yuan Part, it can be directly to another element or may be simultaneously present centering elements；One element and another element The concrete mode being fixedly connected can be achieved by the prior art, and details are not described herein, it is preferred to use the fixation side of threaded connection Formula.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet Include any and all combinations of one or more related listed items.

" first " described in the utility model, " second " do not represent specific quantity and sequence, are only used for title It distinguishes.

As shown in Figure 1 to Figure 3, a kind of position remote adjustment device of the embodiment shown for the application, comprising: controller 100, the control axis as device regulates and controls each unit coordinates by output order and works；Driver 200, for converting control The output order of device 100 makes the power part output power of slipway mechanism 400, the driver 200 and 100 electricity of controller Property connection；Mounting base, the mounting base include mounting bracket 300 and the slipway mechanism that is set in the mounting bracket 300 400, the slipway mechanism 400 is electrically connected with the driver 200, for output power (being straight line power in the present embodiment) Drive sensor 1000 mobile；For being installed with correction executing mechanism 1100 in mounting base, with can be according to sensor 1000 Testing result carries out correction adjustment to the feedstock pathway of transmission.

When being worked using above-mentioned position remote adjustment device, mounting base can be monolithically integrated into deviation-rectifying system, And then sensor 1000 is installed on slipway mechanism 400, it is opposite with the raw material after deviation-rectifying system, for examining in real time Whether the transmission path for surveying raw material shifts.When progress production line debugging efforts or product size has been replaced, has been caused original The physical location of sensor 1000 when not being available testing requirements, staff can remote control controller 100, by controller 100 output orders work to driver 200, driver 200 and then the exportable work order driving work of slipway mechanism 400, most It drives sensor 1000 mobile by 400 output power of slipway mechanism eventually, meets the physical location adjusted of sensor 1000 Detect status requirement.Compared to traditional mode of operation for manually adjusting 1000 position of sensor, the adjustment of the technical program is filled Set the remote control that can be realized operator, can it is convenient, fast under the premise of production line is non-stop-machine and accurately adjustment pass The physical location of sensor 1000, adapts to the demand of production line debugging or the replacement of product size, while guaranteeing production efficiency.

Guarantee correction precision and accuracy, long-range position please continue to refer to Fig. 1 and Fig. 2 in order to further enhance centering capacity Liang Zu testing agency can be equipped simultaneously by setting adjustment device, i.e., further include two institutes in addition to mounting bracket 300, controller 100 are unexpected Driver 200 is stated, the mounting base includes two slipway mechanisms 400 for being arranged at intervals at the same side of the mounting bracket 300, The driver 200 is corresponded with the slipway mechanism 400 to be electrically connected.In this way, can be filled respectively on two slipway mechanisms 400 If a sensor 1000, two sensors 1000 can be sensed two by controller 100 simultaneously to the path detection of raw material The testing result of device 1000 carries out comprehensive analysis, can effectively exclude external environment interference, 1000 sensitivity of sensor missing etc. and make At the low problem of precision.Two sensors 1000 are installed between correction executing mechanism 1100 and the process equipment of production line.

Mounting bracket 300 is concaved with cavity far from the side of slipway mechanism 400, and cavity is separated to form three by partition Mounting groove be can be rotated or slidably be installed with cover board at the notch of three mounting grooves.Two drivers 200 correspond respectively Be installed therein on two cover boards, and can be concealed in two of them mounting groove；Controller 100 is mounted on third cover board On, and can also be concealed in third mounting groove.In this way, controller 100 and driver 200 can be protected not by external interference and Damage guarantees working performance and service life.

Please continue to refer to Fig. 2, in addition, in an alternative embodiment, the slipway mechanism 400 includes and the mounting bracket The mounting plate 410 of 300 connections, the pedestal 420 being set on the mounting plate 410, the transmission group being set on the pedestal 420 Part 430, the fixation kit 440 being set on the pedestal 420 and be set on the fixation kit 440 and with the transmission The actuator 450 of the driving cooperation of component 430, the actuator 450 are electrically connected with the driver 200.Mounting plate 410 serves as Carrier is installed, pedestal 420 can be fixed.Fixation kit 440 then can be mounted on pedestal 420 for actuator 450 is firm On, improve the compactedness and globality of mechanism.When work, 100 output order of controller drives after handling via driver 200 450 output power of actuator, it is final to drive transmission component 430 mobile, drive sensor 1000 to adjust operating position.

Please continue to refer to Fig. 2, further, the transmission component 430 includes sliding rail 431 and is slidably set to described Sliding block 432 on sliding rail 431, the top surface of the pedestal 420 are recessed with the first mounting groove 421, the sliding rail 431 and the sliding block 432 are all set in first mounting groove 421；And the sliding rail 431 is equipped with card slot 4312, the sliding block 432 is equipped with card convex 4322, the card convex 4322 is fixed with the card slot 4312 to be cooperated；Thus sliding rail 431 can be with 432 jail of pedestal 420 and sliding block It is solidly connected, bonding strength is high, good integrity.In addition, the bottom surface of the pedestal 420 is additionally provided with the second mounting groove 422, optionally, The quantity of second mounting groove 422 is two and interval setting, two the second mounting grooves 422 can be preset in mounting bracket 300 On two bar shaped convex bodys snap connection so that reliably dress joins for pedestal 420 and mounting bracket 300.In addition, the pedestal 420 Side is additionally provided with third mounting groove 423, and position remote adjustment device further includes two limit switches 500, and two limits are opened Close 500 both ends for being arranged at intervals in the third mounting groove 423 and being located at the screw rod 434, and two limits Switch 500 is electrically connected with the controller 100.In a preferred embodiment, the quantity of limit switch 500 is four, with Two are one group, and every group of limit switch 500 and a cooperation of sensor 1000 are assembled.Limit switch 500 can prevent sensor 1000 transition are mobile and collide damage with circumferential component.And limit switch 500 is installed in third mounting groove 423, make It obtains limit switch 500 and is able to carry out sliding adjustment position, different workplaces and different targets can be useful in.

Please continue to refer to Fig. 2, further, the transmission component 430 further includes the drive being set on the sliding block 432 Motion block 433 and the screw rod 434 connecting with 433 screw-driven of drive block, the sliding block 432 pass through screw rod and drive block 433 It is detachably connected, the screw rod 434 is rotatably set on the fixation kit 440 and is drivingly connected with the actuator 450. Optional actuator 450 is motor, and motor outputting rotary power drives screw rod 434 to rotate, and is preset on screw rod 434 and drive block 433 Threaded hole cooperation so that drive block 433 is able to carry out axial displacement, and finally drive sensor 1000 thereon mobile and complete It is adjusted at position.Driving method is simple, reliable operation, and mobile accuracy controllability is good.

Further, the side of the sliding rail 431 offers limiting slot extended along its length, the sliding block 432 bottom surface is recessed with mounting groove, and the cell wall of the mounting groove is convexly equipped with limit convex, and the limit convex and the limiting slot fix Cooperation.In this way, being snapped connection by limit convex and limiting slot, it can be avoided sliding rail 431 and loosening or lateral inclined occur for sliding block 432 It moves, it is ensured that sliding block 432 is mobile by desired guiding trajectory, guarantees the position Adjustment precision with higher of sensor 1000.

Please continue to refer to Fig. 2, in addition, the transmission component 430 further includes the connection sheet being set on the drive block 433 435, it is set to the installation sheet 436 for being used to fix the sensor 1000 in the connection sheet 435 and is set to the connection Sensing chip 437 on piece 435.Wherein, installation sheet 436 is L-type structure, is installed on drive block 433 it by connection sheet 435 Afterwards, the free end of installation sheet 436 and apparatus main body are at a distance of a safe spacing, so that sensor 1000 has enough installations empty Between, avoid the interference that collides when installation or in moving process.And by setting sensing chip 437, it is capable of providing limit switch 500 The benchmark detected can reset the position of limit by adjusting the position of sensing chip 437.

Please continue to refer to Fig. 3, in another alternative embodiment, the fixation kit 440 includes bearing part 441, bearing peace Loading board 442, shaft coupling 443 and fixed plate 444, the bearing mounting plate 442 and the fixed plate 444 are spaced opposite be set to On the pedestal 420, the bearing part 441 is set on the bearing mounting plate 442, one end of the shaft coupling 443 and institute The power axis connection of actuator 450 is stated, the other end of the shaft coupling 443 is connect with one end of the screw rod 434, the screw rod 434 other end is connect with the bearing part 441.Shaft coupling 443 can be by the output power smooth transfer of motor to screw rod 434, when screw rod 434 rotates, since the support positioning and anti-attrition of bearing part 441 act on, thus rotate more steady, fretting wear It is smaller.

Optionally, bearing part 441 is deep groove ball bearing；Motor is stepper motor.It of courses, in other embodiments, axis Bearing member 441 is also possible to angular contact bearing etc., and motor is also possible to servo motor etc., also all within the scope of protection of this application.

It should be noted that the mounting hole on bearing mounting plate 442 is set with the mounting hole in fixed plate 444 for coaxial relation It is distorted when setting, thus can prevent screw rod 434 from rotating and card resistance occurs and be even broken.

Controller 100 is provided with both direction control port, two enabled control ports, two pulse output end mouths；Its Middle first direction control port controls the rotation direction of the motor of one of slipway mechanism 400, second direction control port control Make the rotation direction of the motor of another slipway mechanism 400；First enabled control port control the first synchronous motor it is enabled, second It is enabled that enabled control port controls the second synchronous motor；First pulse output end mouth controls the first synchronous motor amount of spin, second Pulse output end mouth controls the second synchronous motor amount of spin.

As shown in Fig. 2, based on any of the above embodiments, position remote adjustment device further includes equal and the control Selection switch 600, the first button 700, the second button 800 and the third button 900 that device 100 is electrically connected, the selection switch 600, first button 700, second button 800 and the third button 900 are for being installed in master control platform or safety On protective door.

Facilitate for ease of description, two slipway mechanisms 400 are named as the first slipway mechanism 400 and the second slipway mechanism 400, the two is symmetrically spaced setting；Two drivers 200 are named as the first driver 200 and the second driver 200；Four limits Bit switch 500 is respectively the first limit switch 500, the second limit switch 500, third limit switch 500 and the 4th limit switch 500.There are four types of operating modes by the setting of selection switch 600 for controller 100, wherein the first operating mode is to individually adjust first Slipway mechanism 400；Second operating mode is to individually adjust the second slipway mechanism 400；Third operating mode is two groups of slipway mechanisms 400 adjust to same direction simultaneously；4th operating mode is that two groups of slipway mechanisms 400 adjust round about simultaneously.

When selecting switch 600 to be in the connection of A-O point, controller 100 is in the first operating mode.Press at this time first by Button 700, controller 100 drive the drive block 433 of the first slipway mechanism 400 to the first limit switch by the first driver 200 The displacement of 500 directions, second slipway mechanism 400 remain unchanged；When pressing the second button 800, the controller 100 passes through First driver 200 drives the drive block 433 of the first slipway mechanism 400 to be displaced to 500 direction of the second limit switch, and described second Slipway mechanism 400 remains unchanged.Realize the position for individually adjusting first sensor 1000.

When selecting switch 600 to be in the connection of B-O point, controller 100 is in the second operating mode.Press at this time first by Button 700, controller 100 drive the drive block 433 of the second slipway mechanism 400 to third limit switch by the second driver 200 The displacement of 500 directions, the first slipway mechanism 400 remain unchanged；When pressing the second button 800, controller 100 passes through the second driving Device 200 drives the drive block 433 of the second slipway mechanism 400 to be displaced to 500 direction of the 4th limit switch, the first slipway mechanism 400 It remains unchanged.Realize the position for individually adjusting second sensor 1000.

When selecting switch 600 to be in the connection of C-O point, controller 100 is in third operating mode.At this time when pressing first When button 700, controller 100 drives the drive block 433 of the first slipway mechanism 400 to the first limit by the first driver 200 The displacement of 500 direction of switch, while driving the drive block 433 of the second slipway mechanism 400 to the 4th limit by the second driver 200 The displacement of 500 direction of switch；When pressing the second button 800, controller 100 drives the first slide unit machine by the first driver 200 The drive block 433 of structure 400 is displaced to 500 direction of the second limit switch, while driving the second slide unit machine by the second driver 200 The drive block 433 of structure 400 is displaced to 500 direction of third limit switch.It realizes simultaneously to two sensors 1000 to same direction Adjustment.

When selecting switch 600 to be in the connection of D-O point, controller 100 is in the 4th operating mode.At this time when pressing first When button 700, controller 100 drives the drive block 433 of the first slipway mechanism 400 to the first limit by the first driver 200 The displacement of 500 direction of switch, while driving the drive block 433 of the second slipway mechanism 400 to limit to third by the second driver 200 The displacement of 500 direction of switch；When pressing the second button 800, controller 100 drives the first slide unit machine by the first driver 200 The drive block 433 of structure 400 is displaced to 500 direction of the second limit switch, while driving the second slide unit machine by the second driver 200 The drive block 433 of structure 400 is displaced to 500 direction of the 4th limit switch.Realize simultaneously to two sensors 1000 round about Adjustment.

Also, under any operating mode, high-precision adjustment and rough adjustment can be switched when pressing third button 900. High-precision adjustment precision default setting be 0.5mm, i.e., under high-precision adjustment modes, press the first button 700 next time or Second button 800, slipway mechanism 400 corresponding to current operation mode will generate 0.5mm displacement.Full accuracy can be according to user Demand is set as 0.01mm.

The precision default setting adjusted roughly has 5mm.I.e. under rough adjustment modes, press the first button 700 next time or The second button of person 800, slipway mechanism 400 corresponding to current operation mode will generate 5mm fast offset.It can also be according to user's need Seek the arbitrary value being set as in stroke range.

Under any operating mode, when press third button 900 it is for 5 seconds after press the second button 800 again, triggering is multiple Position program.When reset routine triggers, controller 100 drives the first slipway mechanism 400 to the first limit by the first driver 200 The displacement of 500 direction of switch, until the first limit switch 500 is triggered, stopping drives the first slipway mechanism 400；Pass through simultaneously Second driver 200 drives the second slipway mechanism 400 to be displaced to third limit switch 500, until third limit switch 500 is touched Hair stops driving the second slipway mechanism 400.

On the other hand, the application also provides a kind of deviation-rectifying system comprising sensor 1000 is remote with position as described above Journey tune engagement positions, the sensor 1000 are installed on the position remote adjustment device.Deviation-rectifying system is by assembling the position Remote adjustment device, ability to work greatly promote, and can satisfy changeable production occasion and condition, it is ensured that producing line production efficiency.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of position remote adjustment device characterized by comprising

Controller；

Driver, the driver and the controller are electrically connected；

Mounting base, the mounting base include mounting bracket and the slipway mechanism that is set in the mounting bracket, the slide unit machine Structure and the driver are electrically connected, and drive sensor mobile for output power.

2. position remote adjustment device according to claim 1, which is characterized in that the slipway mechanism includes and the peace The mounting plate of dress bracket connection, the transmission component being set on the pedestal, is set to the pedestal being set on the mounting plate Fixation kit on the pedestal and it is set to actuator on the fixation kit and with transmission component driving cooperation, The actuator and the driver are electrically connected.

3. position remote adjustment device according to claim 2, which is characterized in that the transmission component include sliding rail and The sliding block being slidably set on the sliding rail, the top surface of the pedestal are recessed with the first mounting groove, the sliding rail and the cunning Block is all set in first mounting groove；And the sliding rail is equipped with card slot, the sliding block is equipped with card convex, the card convex and the card Slot fixes cooperation；The bottom surface of the pedestal is additionally provided with the second mounting groove, and the side of the pedestal is additionally provided with third mounting groove.

4. position remote adjustment device according to claim 3, which is characterized in that the transmission component further includes being set to Drive block on the sliding block and the screw rod connecting with the drive block screw-driven, the screw rod are rotatably set to described It is drivingly connected on fixation kit and with the actuator.

5. position remote adjustment device according to claim 4, which is characterized in that the side of the sliding rail is offered along length The extended limiting slot in direction is spent, the bottom surface of the sliding block is recessed with mounting groove, and the cell wall of the mounting groove is convexly equipped with limit Convex, the limit convex and the limiting slot fix and cooperate.

6. position remote adjustment device according to claim 4, which is characterized in that the transmission component further includes being set to Connection sheet on the drive block is set to the installation sheet in the connection sheet for fixing the sensor and is set to Sensing chip in the connection sheet.

7. position remote adjustment device according to claim 4, which is characterized in that the fixation kit include bearing part, Bearing mounting plate, shaft coupling and fixed plate, the bearing mounting plate and the fixed plate interval it is opposite be set to the pedestal On, the bearing part is set on the bearing mounting plate, the power axis connection of one end of the shaft coupling and the actuator, The other end of the shaft coupling is connect with one end of the screw rod, and the other end of the screw rod is connect with the bearing part.

8. position remote adjustment device according to claim 4, which is characterized in that it further include two limit switches, two The limit switch is arranged at intervals in the third mounting groove and is located at the both ends of the screw rod, and two limits Bit switch is electrically connected with the controller.

9. position remote adjustment device according to any one of claims 1 to 8, which is characterized in that including two drives Dynamic device, the mounting base include two slipway mechanisms for being arranged at intervals at the same side of the mounting bracket, the driver with The slipway mechanism, which corresponds, to be electrically connected；Further include the equal selection switch being electrically connected with the controller, the first button, Second button and third button, the selection switch, first button, second button and the third button are for filling It is located on master control platform or safety protective door.

10. a kind of deviation-rectifying system, which is characterized in that including sensor and such as the described in any item positions of the claims 1 to 9 Remote adjustment device, the sensor are installed on the position remote adjustment device.