CN216578366U

CN216578366U - Synchronous driving type pull-back device for multilayer ecological plate

Info

Publication number: CN216578366U
Application number: CN202122727089.XU
Authority: CN
Inventors: 林垂伍; 林垂友; 林垂都
Original assignee: Jiangxi Nanfeng Zhenyu Industry Group Co Ltd
Current assignee: Jiangxi Nanfeng Zhenyu Industry Group Co Ltd
Priority date: 2021-11-09
Filing date: 2021-11-09
Publication date: 2022-05-24
Anticipated expiration: 2031-11-09

Abstract

The invention provides a pull-back device of a synchronous driving type multilayer ecological plate, which aims to solve the technical problems of trouble and labor waste when the current ecological plate is taken out from a hot press one by one and comprises an outer frame, wherein a plurality of layers of supporting frames which correspond to all layers of the hot press one by one are arranged in the outer frame, and a plurality of rollers for supporting the ecological plate and promoting the ecological plate to move are respectively arranged on all the layers of supporting frames; the both sides of each layer support frame are equipped with respectively and can stretch into the press forward and stretch out to the outside flexible arm mechanism of press, flexible arm mechanism removes through front and back actuating mechanism, and this design can realize pulling out the ecological plate from the hot press through front arm mechanism, and realization that can be stable through front and back actuating mechanism is with multilayer flexible arm mechanism synchronous drive, has solved artifical pulling out and has taken trouble, hard problem, can accomplish once to pull out multilayer ecological plate from the hot press through multilayer front arm mechanism simultaneously, has greatly improved work efficiency, has reduced intensity of labour.

Description

Synchronous driving type pull-back device for multilayer ecological plate

Technical Field

The invention relates to the technical field of ecological plate production, in particular to a synchronous driving type multi-layer ecological plate pull-back device.

Background

The ecological board needs to be subjected to the processes of surface paper (melamine paper), hot pressing, edge cutting and the like in production, workers need to attach the surface paper 902 to the board one by one before hot pressing, then send the board to each layer of hot pressing boards in the hot pressing machine 801 one by one, and take the board out of the hot pressing machine 801 one by one after hot pressing, and the manual mode (1) is high in labor intensity, and needs to take the board out of the hot pressing machine 801 one by one, (2) is low in efficiency, and is high in production cost.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, adapt to the practical requirements, and provide a synchronous driving type multi-layer ecological plate pull-back device to solve the technical problems that the current ecological plates are taken out from a hot press one by one and are troublesome and laborious.

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

designing a pull-back device of a synchronous driving type multilayer ecological plate, comprising an outer frame, wherein a plurality of layers of supporting frames which are in one-to-one correspondence with each layer of a hot press are arranged in the outer frame, and a plurality of rollers for supporting the ecological plate and promoting the ecological plate to move are respectively arranged on each layer of supporting frame;

the two sides of each layer of supporting frame are respectively provided with a telescopic arm mechanism which can extend forwards into the press and extend forwards to the outside of the press, the front end of the telescopic arm mechanism is provided with a hook mechanism which can be bent and is used for abutting against the tail end part of the ecological plate, and the hook mechanism abuts against the tail end part of the ecological plate during bending and moves backwards through the telescopic arm mechanism to enable the ecological plate in the press to enter the supporting frame;

the telescopic arm mechanism moves through a front and back driving mechanism, the front and back driving mechanism comprises a mounting rack and a motor,

the top of the outer frame is provided with two supporting slide rails arranged along the front-back direction, a cross beam at the top of the mounting frame is provided with two groups of rollers, and the two groups of rollers can roll on the two supporting slide rails respectively and support the mounting frame; the left side and the right side of the mounting rack are respectively provided with a longitudinal transmission shaft, two lateral beams positioned at the bottom and the top of the outer framework are respectively provided with a fixed toothed belt, the lower end and the upper end of the longitudinal transmission shaft are respectively provided with a driven gear, the driven gear is in meshing transmission with the fixed toothed belts, the top of the mounting rack is provided with a transverse transmission shaft through a bearing sleeve, and two ends of the transverse transmission shaft are in meshing transmission with the longitudinal transmission shaft through bevel gear pairs; the motor is further mounted at the top of the mounting frame and is connected with the transverse transmission shaft through a chain to drive the transverse transmission shaft to rotate;

the tail end of the telescopic arm mechanism on each layer of support frame is connected with the mounting frame and moves synchronously with the mounting frame.

The telescopic boom mechanism comprises forward arms which are positioned on the left side and the right side of the support frame and can extend forwards into the press, supporting wheels are arranged on an outer frame of the side part of the support frame at the front end of the forward arms, the forward arms are positioned on the supporting wheels, front idler wheels are arranged at the front ends of the forward arms, and the drag hook mechanism is arranged at the front ends of the forward arms.

The drag hook mechanism includes the arm-tie, the tail end of arm-tie rotate through the pivot connect in reach the arm front end, be connected with in the pivot with synchronous pivoted gear of arm-tie is located the lateral part of gear is equipped with the cingulum, the cingulum with gear engagement rotates and makes gear, arm-tie synchronous revolution and make the arm-tie is the contained angle setting with reach the arm.

The cross section of the front arm is U-shaped or U-shaped with an upward opening, a pull rod is arranged in a U-shaped groove in the front arm, and the toothed belt is connected to the front end of the pull rod.

The top and the bottom of the mounting frame at the tail end of the front extending arm are respectively fixed with a pull-back cylinder, the end parts of telescopic shafts of the two pull-back cylinders are connected with a synchronous drive plate, and the tail ends of the pull rods on the support frames of each layer are jointly connected with the synchronous drive plate and synchronously drive the toothed belt to move back and forth.

The tail end of the front extending arm on each layer of supporting frame is connected with the tail end of the mounting frame and moves synchronously with the mounting frame,

the tail ends of the front arms of each layer are connected with a fixed mounting plate fixedly connected with the mounting frame and move synchronously along with the mounting frame and the fixed mounting plate.

The invention has the beneficial effects that:

this design can realize pulling out the ecological plate from the hot press through the preceding boom mechanism, realization that can be stable through front and back actuating mechanism's design is with multilayer telescopic boom mechanism synchronous drive, has accomplished synchronous motion promptly, has realized the compact design of this device structure again, has solved the manual work and has pulled out troublesome, hard problem, can accomplish once to pull out multilayer ecological plate from the hot press through multilayer preceding boom mechanism simultaneously, has greatly improved work efficiency, has reduced intensity of labour.

Drawings

FIG. 1 is a schematic view of the main structure of the telescopic arm mechanism in the present design;

FIG. 2 is an enlarged view of the portion B of FIG. 1;

FIG. 3 is a schematic view of the main structure of the cantilever in the present design;

FIG. 4 is a schematic view of the main structure of the telescopic arm mechanism and the front and rear driving mechanism in the present design;

FIG. 5 is a schematic view of the main structure of the present design after the telescopic arm mechanism and the front and rear driving mechanisms are engaged with the outer frame;

fig. 6 is a schematic structural view of the structure shown in fig. 5 after the ecological plate is pulled back to the supporting frame;

FIG. 7 is a structural view of the structure of FIG. 5 from another perspective on the back;

fig. 8 is a schematic view of the main structure of the synchronously driven multi-layer ecological plate pulling-back device of the present design after being matched with a hot press.

Detailed Description

The invention is further illustrated with reference to the following figures and examples:

example 1: a pull-back device of a synchronous driving type multilayer ecological plate, which is shown in figures 1 to 8.

The device comprises an outer frame 401, wherein a plurality of layers of support frames 301 which correspond to the layers of a hot press 801 one by one are arranged in the outer frame 401, and a plurality of rollers 302 which can support an ecological plate and promote the ecological plate to move are arranged on the support frames 301; according to the design, telescopic arm mechanisms which can extend into the press 801 forwards and extend to the outside of the press 801 forwards are respectively arranged on two sides of each support frame 301, a hook mechanism which can be bent and is used for abutting against the tail end part of the ecological plate is arranged at the front end of each telescopic arm mechanism, and the hook pulling machine abuts against the tail end part of the ecological plate during bending and moves backwards through the telescopic arm mechanisms to enable the ecological plate in the press to enter the support frames 301.

Specifically, the telescopic arm mechanism includes front arms 201 which are located on the left and right sides of a support frame 301 and can extend forward into the press, support wheels 206 are arranged on an outer frame 401 of the side portion of the support frame 301 at the front end of the front arms 201, the front arms 201 are located on the support wheels 206, front rollers 204 are arranged at the front ends of the front arms 201, the front rollers 204 and the support wheels 206 can jointly support the front arms 201, and meanwhile, when the front arms 201 extend forward, the front rollers 204 can extend forward along with the front arms 201 and contact with a bottom plate of the hot press 801 to prevent the front ends of the front arms 201 from sinking, and meanwhile, the risk that the front ends of the front arms 201 contact with the bottom plate of the hot press 801 to scratch the hot press 801 (relative to the case that the front rollers 204 are not additionally arranged) is also prevented.

In this design, drag hook mechanism set up in the front end of protraction arm 201, specifically, drag hook mechanism includes arm-tie 202, the tail end of arm-tie 202 rotate through the pivot connect in the protraction arm 201 front end, be connected with in the pivot with the synchronous pivoted gear 205 of arm-tie 202, be located the lateral part of gear 205 is equipped with cingulum 208, cingulum 208 with gear 205 meshing rotation makes gear 205, arm-tie 202 synchronous revolution and impel arm-tie 202 and protraction arm 201 are the contained angle setting.

Further, according to the design, a stress plate 203 is further arranged on the inner side of the front end of the pulling plate 202, the middle lower part of the stress plate 203 extends to the lower part of the pulling plate 202, the middle lower part of the stress plate 203 extending to the lower part of the pulling plate 202 is used for abutting against the end part of the ecological plate 901, and meanwhile, a rubber pad can be arranged on the side wall of the stress plate 203 to prevent the end part of the ecological plate from being damaged by a hard metal plate.

Further, the cross section of the front arm 201 in the present design is U-shaped or "c" shaped with an upward opening, a pull rod 207 is arranged in a U-shaped groove in the front arm 201, and the toothed belt 208 is connected to the front end of the pull rod 207.

In the design, the telescopic arm mechanism moves through a front-back driving mechanism, the front-back driving mechanism comprises a mounting rack and a motor 501, the top of the outer frame 401 is provided with two supporting slide rails 509 arranged along the front-back direction, a cross beam at the top of the mounting rack is provided with two groups of rollers 508, and the two groups of rollers 508 can respectively roll on the two supporting slide rails 509 and support the mounting rack; longitudinal transmission shafts 503 are respectively arranged on the left side and the right side of the mounting rack, fixed toothed belts 505 are respectively arranged on cross beams on the two sides of the bottom and the top of the outer frame 401, driven gears 506 are respectively arranged at the lower end and the upper end of the longitudinal transmission shafts 503, the driven gears 506 are in meshing transmission with the fixed toothed belts 505, a transverse transmission shaft 502 is mounted on the top of the mounting rack through a bearing sleeve, and two ends of the transverse transmission shaft 502 are in meshing transmission with the longitudinal transmission shafts 503 through bevel gear pairs respectively; further, the motor 501 is further installed at the top of the mounting rack, the motor 501 is connected with the horizontal transmission shaft 502 through a chain 606 and drives the horizontal transmission shaft 502 to rotate, and at this time, the horizontal transmission shaft 502 is in meshing transmission with the longitudinal transmission shaft 503 through a bevel gear pair.

In the design, the top and the bottom of the mounting frame at the tail end of the front arm 201 are respectively fixed with a pull-back cylinder 361, the two pull-back cylinders 361 are fixed on a fixed mounting plate 363 fixedly connected with the mounting frame and the longitudinal transmission shaft 503, the end parts of the telescopic shafts of the two pull-back cylinders 361 are connected with a synchronous driving plate 362, and the tail ends of the pull rods 207 on the supporting frames 301 at all layers are connected with the synchronous driving plate 362 together and synchronously drive the toothed belt 208 to move back and forth.

Further, in this design, the tail end of the forward arm on each layer of the supporting frame 301 is connected to the tail end of the mounting frame and moves synchronously therewith, and specifically, the tail end of the forward arm 201 on each layer is connected to the fixed mounting plate 363 and moves synchronously with the mounting frame and the fixed mounting plate 363 to realize forward movement or backward movement of the forward arm 201.

As shown in fig. 7, the device is disposed at the side of a hot press 801, and the pull-back mechanism designed for increasing efficiency can be disposed in a multi-layer structure through an outer frame 401, and the pull-back mechanism of each layer can correspond to each layer of the hot press.

As shown in fig. 5, 6, and 7, initially, the two front arms are respectively located outside the two heat presses, at this time, the extrusion is released in the heat presses, the ecological board 901 is located in each layer of the heat presses to wait for being pulled out, and when the ecological board needs to be pulled out, the following steps are performed:

1. the motor 501 drives the mounting rack and the fixed mounting plate 363 connected with the mounting rack to synchronously move forwards through the combined action of the driven gear 506, the horizontal transmission shaft 502, the vertical transmission shaft 503 and the bevel gear pair, when the fixed mounting plate 363 moves, the two front extending arms can be synchronously driven to move forwards, the front ends of the front extending arms and the pulling plate are promoted to enter the hot press from two sides of the ecological plate, and at the moment, the pulling plate and the front extending arms are linearly arranged.

2. The front arm continues to extend forwards, the front roller 204 at the front end of the front arm abuts against the bottom plate 802 of the hot press and supports the front end of the front arm, the rear arm continues to extend forwards and extends to the other end of the ecological plate, then the motor 501 stops, and the front arm stops moving.

3. The pull-back cylinder 361 acts to drive the pull plate to extend forwards (push the pull rod forwards), at the moment, the pull rod and the toothed belt synchronously move and drive the gear to rotate, at the moment, the pull plate and the extending arm form a right angle or are arranged at other angles, and at the moment, the lower half part of the stress plate at the front end of the pull plate abuts against the end part of the ecological plate.

4. The motor moves reversely and drives the front extending arm to reset, at the moment, the pulling plate and the stress plate at the end part pull the ecological plate to move, and along with the continuous movement of the front extending arm, the pulling plate can pull the ecological plate out of the hot press through the continuous resetting of the front extending arm.

5. When the end of the ecological plate is pulled out from the hot press, the end of the ecological plate first comes into contact with the roller 302 at the end of the supporting frame 301 and is guided onto the supporting frame 301 by the roller 508.

6. The forward arms continue to move until the ecological plate is fully drawn onto the support bracket 301 (shown in figure 6).

7. The pull-back cylinder 361 resets and causes the pull rod to reset, at this time, the pull plate moves reversely and linearly releases the contact with the ecological plate with the front arm, and at this time, the ecological plate can be pulled out from the hot press.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims

1. The utility model provides a pull back device of synchronous drive formula multilayer ecological plate which characterized in that: the device comprises an outer frame, wherein a plurality of layers of supporting frames which correspond to all layers of a hot press one by one are arranged in the outer frame, and a plurality of rollers for supporting the ecological plate and promoting the ecological plate to move are respectively arranged on all the supporting frames;

the telescopic arm mechanism moves through a front-back driving mechanism, and the front-back driving mechanism comprises a mounting frame and a motor; the top of the outer frame is provided with two supporting slide rails arranged along the front-back direction, a cross beam at the top of the mounting frame is provided with two groups of rollers, and the two groups of rollers can roll on the two supporting slide rails respectively and support the mounting frame; the left side and the right side of the mounting rack are respectively provided with a longitudinal transmission shaft, two lateral beams positioned at the bottom and the top of the outer framework are respectively provided with a fixed toothed belt, the lower end and the upper end of the longitudinal transmission shaft are respectively provided with a driven gear, the driven gear is in meshing transmission with the fixed toothed belts, the top of the mounting rack is provided with a transverse transmission shaft through a bearing sleeve, and two ends of the transverse transmission shaft are in meshing transmission with the longitudinal transmission shaft through bevel gear pairs; the motor is further mounted at the top of the mounting frame and is connected with the transverse transmission shaft through a chain to drive the transverse transmission shaft to rotate;

2. The pull-back device of a synchronously driven multi-layer ecological plate as claimed in claim 1, wherein: the telescopic boom mechanism comprises forward arms which are positioned on the left side and the right side of the support frame and can extend forwards into the press, supporting wheels are arranged on an outer frame of the side part of the support frame at the front end of the forward arms, the forward arms are positioned on the supporting wheels, front idler wheels are arranged at the front ends of the forward arms, and the drag hook mechanism is arranged at the front ends of the forward arms.

3. The pull-back device of a synchronously driven multi-layer ecological plate as claimed in claim 2, wherein: the drag hook mechanism includes the arm-tie, the tail end of arm-tie rotate through the pivot connect in reach the arm front end, be connected with in the pivot with synchronous pivoted gear of arm-tie is located the lateral part of gear is equipped with the cingulum, the cingulum with gear engagement rotates and makes gear, arm-tie synchronous revolution and make the arm-tie is the contained angle setting with reach the arm.

4. The pull-back device of a synchronously driven multi-layer ecological plate as claimed in claim 3, wherein: the section of the front extending arm is U-shaped or U-shaped with an upward opening, a pull rod is arranged in a U-shaped groove in the front extending arm, and the toothed belt is connected to the front end of the pull rod.

5. The pull-back device of a synchronously driven multi-layer ecological plate as claimed in claim 4, wherein: the top and the bottom of the mounting frame at the tail end of the front extending arm are respectively fixed with a pull-back cylinder, the end parts of telescopic shafts of the two pull-back cylinders are connected with a synchronous drive plate, and the tail ends of the pull rods on the support frames of each layer are jointly connected with the synchronous drive plate and synchronously drive the toothed belt to move back and forth.

6. The pull-back device of a synchronously driven multi-layer ecological plate as claimed in claim 5, wherein: the tail end of the front extending arm on each layer of supporting frame is connected with the tail end of the mounting frame and moves synchronously with the mounting frame.

7. The apparatus for pulling back a synchronously driven multi-layer ecological plate as claimed in claim 6, wherein: the tail ends of the front arms of each layer are connected with a fixed mounting plate fixedly connected with the mounting frame and move synchronously along with the mounting frame and the fixed mounting plate.