CN109849118B

CN109849118B - Production equipment and method for high-strength industrial template prepared from waste plates

Info

Publication number: CN109849118B
Application number: CN201910199645.5A
Authority: CN
Inventors: 刘建国; 陈思宇; 王小宜; 泮杨尹; 胡欣; 邓伟芬; 童红卫; 陆海鹏; 李琳雅; 高翔; 余顺平
Original assignee: Zhejiang Dolo Industrial Co ltd
Current assignee: Zhejiang Dolo Industrial Co ltd
Priority date: 2019-03-15
Filing date: 2019-03-15
Publication date: 2022-05-17
Anticipated expiration: 2039-03-15
Also published as: CN109849118A

Abstract

The invention relates to production equipment and a method for preparing a high-strength industrial template by using waste plates. The invention collects the damaged building templates and waste plates in other fields, and processes the waste plates into the templates for the industrial building, thereby not only saving the manufacturing cost of the industrial templates, but also reducing the damage of the waste plates to the environment and realizing the full utilization and sustainable development of plate resources.

Description

Production equipment and method for high-strength industrial template prepared from waste plates

Technical Field

The invention relates to the technical field of industrial building template production equipment, in particular to production equipment and a method of a high-strength industrial template prepared from waste plates.

Background

The industrial building template is a temporary supporting structure, and can enable concrete structures and components to be formed according to specified positions and geometric dimensions according to use requirements, keep the correct positions, and bear the dead weight of the building template and the external load acting on the building template, the building template can be divided into a wood template, a rigid template or an aluminum template according to the material, wherein the metal template has good reusability, but high manufacturing cost, has the defects of no alkali corrosion resistance, easy ash adhesion to the inner surface, short service life and the like, has poor use effect, the existing wooden template has low manufacturing cost, but after two times of use, the damage rate of the template exceeds forty percent, and most of the damaged building templates are abandoned as garbage or firewood for combustion, the environment is polluted, and meanwhile, new wooden templates are frequently added to fill up the damaged building templates, so that the cost is high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides production equipment and a method of a high-strength industrial template prepared from waste plates.

The invention is realized by the following technical scheme: the utility model provides a production facility of high strength industry template of preparation with abandonment panel, includes first conveyer belt, second conveyer belt, third conveyer belt, the prepressing mechanism of setting between first conveyer belt and second conveyer belt, the panel hot press of setting at third conveyer belt output port department and the fourth conveyer belt of setting in panel hot press one side of arranging into one row according to the preface, horizontal slide rail is installed on second conveyer belt and third conveyer belt upper portion, sliding connection has panel to stack mechanism and panel rubber coating mechanism on the horizontal slide rail, panel stacks the mechanism and includes gliding mechanism grillage I on horizontal slide rail, fixes support roller I in mechanism grillage I four corners and fixes lift cylinder I on mechanism grillage I, lift cylinder I piston rod tip fixed mounting plate, evenly be fixed with a plurality of atmospheric pressure adsorption nozzle on the mounting plate, support roller I and horizontal slide rail sliding connection, and be fixed with displacement drive motor I at I side tip of mechanism plate frame, I pivot of displacement drive motor and I central fixed connection of support roller.

Furthermore, the prepressing mechanism comprises a connecting plate seat, a lower rolling wheel and an upper rolling wheel which are movably connected with the connecting plate seat, a long-edge through groove is formed in the surface of the connecting plate seat close to the upper end, a displacement block is clamped in the long-edge through groove, a rotating shaft at the center of two end portions of the upper rolling wheel is movably connected with the displacement block in the long-edge through groove in a penetrating mode, a position adjusting cylinder is fixed at the top end of the connecting plate seat, a piston rod of the position adjusting cylinder is fixedly connected with the displacement block in the long-edge through groove, a rotating shaft at the center of two end portions of the lower rolling wheel is movably connected with the connecting plate seat in a penetrating mode, and a rotary driving motor I which is respectively in driving connection with the rotating shaft of the lower rolling wheel and the rotating shaft of the upper rolling wheel is arranged on the end face of the outer side of the connecting plate seat.

Further, third conveyer belt output end both sides set up the installation frame board, and two installation frame board upper trusses are equipped with the pivot of drawing forth, draw forth the fixed driving wheel of pivot end, just third conveyer belt output end is fixed with rotary driving motor II, II pivots of rotary driving motor are fixed with the action wheel, the action wheel is connected with driving wheel belt transmission.

Further, the panel hot press is including setting up at the organism frame seat of third conveyer belt output port department, fixing at the jacking drive hydraulic cylinder of organism frame seat both sides portion, fixing at the drive hydraulic cylinder that pushes down at organism frame seat top, the plate is placed in the connection of jacking drive hydraulic cylinder piston rod, just push down the drive hydraulic cylinder piston rod and connect the push down plate, organism frame seat rear end portion is fixed with the installation grillage, be fixed with on the installation grillage and release the drive hydraulic cylinder, release the drive hydraulic cylinder piston rod and connect the push pedal, just fixed direction polished rod on the push pedal rear side face, direction polished rod and installation grillage activity cross-under.

Further, panel rubber coating mechanism includes gliding mechanism grillage II on horizontal slide rail, fixes at the supporting roller II in mechanism grillage II four corners and fixes lift cylinder II on mechanism grillage II, the outside terminal surface of mechanism grillage II is fixed with displacement drive motor II, II pivots of displacement drive motor and II central fixed connection of supporting roller, II piston rods of lift cylinder are connected and are stored up gluey box, evenly be equipped with one row of injecting glue mouth on storing up gluey box bottom face, and store up the side case face of gluing the box and connect rubber transmission pipe.

The processing method of the production equipment of the high-strength industrial template prepared by using the waste plates comprises the following steps:

1) starting a rotary driving motor I, driving a lower rolling wheel and an upper rolling wheel to rotate by the rotary driving motor I, placing the waste plates on a first conveying belt one by one, conveying the waste plates to a gap position between the lower rolling wheel and the upper rolling wheel one by the first conveying belt, and under the driving of the rotation of the lower rolling wheel and the upper rolling wheel, the waste plates pass through the gap between the lower rolling wheel and the upper rolling wheel and run to a second conveying belt;

2) the second conveying belt conveys the waste plates to the position right below the plate stacking mechanism, a lifting cylinder I of the plate stacking mechanism is started, the lifting cylinder I drives the mounting plate to vertically move downwards, so that an air pressure adsorption nozzle on the mounting plate sucks air, presses and adsorbs the waste plates on the surface of the waste plates, then the lifting cylinder I drives the mounting plate and the adsorbed waste plate to rise, the displacement driving motor I drives the supporting roller I to rotate, the plate stacking mechanism is driven to move along the horizontal sliding rail, so that the waste plate is transferred to the upper part of a third conveying belt, then the mounting plate and the adsorbed waste plate are driven by the lifting cylinder I to move downwards to a third conveyor belt, and air is blown to the air pressure adsorption nozzle to release the waste plate on the third conveyor belt, meanwhile, a displacement driving motor I drives the plate stacking mechanism to return to the initial position to convey a piece of waste plate;

3) starting a displacement driving motor II, driving a supporting roller II to rotate by the displacement driving motor II, driving a plate gluing mechanism to move to the position right above the waste plate along a horizontal sliding rail, driving a glue storage box body to move downwards by a lifting cylinder II, moving a glue injection nozzle at the bottom end of the glue storage box body to the upper part of the waste plate, dripping glue on the surface of the waste plate by the glue injection nozzle, driving the plate gluing mechanism to move along the horizontal sliding rail by the displacement driving motor II, driving the glue injection nozzle to move along the surface of the waste plate, completing the overall gluing of the surface of the waste plate, driving the plate gluing mechanism to return to an initial position by the lifting cylinder II and the displacement driving motor II, simultaneously transferring a next waste plate adsorbed by a plate stacking mechanism from a second conveying belt to the gluing surface of a first waste plate on a third conveying belt, and then performing the overall gluing on the upper surface of the second waste plate by the plate mechanism, thereby stacking a plurality of waste plates in sequence, and coating adhesive on the surfaces of the stacked adjacent waste plates;

4) the third conveyer belt conveys the stacked waste plates forwards continuously, and the rotary driving motor II drives the leading-out rotating shaft to rotate simultaneously, so that the waste plates are transferred to a placing plate block in the plate hot press through the third conveyer belt, then the jacking driving hydraulic cylinder and the pressing-down driving hydraulic cylinder are started to drive the placing plate block and the pressing-down plate block to move in opposite directions, the waste plates stacked on the placing plate block are pressed heavily, the waste plates are completely adhered together, then the pushing-out driving hydraulic cylinder drives the push plate to move along the guide polished rod, and the stacked waste plates are pushed out to the fourth conveyer belt from the placing plate block through the push plate. And outputting the stacked and cemented waste plates by a fourth conveying belt to finish the preparation of the industrial template stacked by the waste plates.

Compared with the prior art, the invention has the beneficial effects that: the template manufacturing equipment of the invention conveys the waste plates into a prepressing mechanism by a first conveying belt, the prepressing mechanism presses and flattens the upper and lower surfaces of the waste plates and flatly conveys the waste plates into a second conveying belt, the second conveying belt conveys the waste plates with the flat upper and lower surfaces to the position right below a plate stacking mechanism, then the plate stacking mechanism adsorbs and conveys the waste plates to a third conveying belt, then a plate gluing mechanism moves to the upper parts of the waste plates and evenly pastes viscose on the surfaces of the waste plates, the plate stacking mechanism and the plate gluing mechanism alternately stack and glue the surfaces of the waste plates, then the third conveying belt conveys the stacked and multi-layer waste plates with the glued surfaces of the adjacent plates to a placing plate of a plate hot press, the upper and lower end surfaces of the waste plates are extruded by the plate hot press, so that the adjacent waste plates are completely adhered together, and finally, the processed waste plates are pushed out to a fourth conveying belt and are output by the fourth conveying belt, and the waste plates are processed into templates for industrial buildings by collecting damaged building templates and waste plates in other fields, so that the manufacturing cost of the industrial templates is saved, the damage of the waste plates to the environment is reduced, and the full utilization and sustainable development of plate resources are realized.

Drawings

FIG. 1 is a front view of a strength industrial form manufacturing apparatus made of waste sheets according to the present invention;

FIG. 2 is a top view of the apparatus for manufacturing industrial strength forms from waste sheets according to the present invention;

FIG. 3 is a front view of a pre-compression mechanism for use with the present invention;

FIG. 4 is a side view of a prepress mechanism for use in the present invention;

FIG. 5 is a front view of the sheet stacking mechanism of the present invention;

FIG. 6 is a front view of the plate gluing mechanism of the present invention;

FIG. 7 is a side view of the plate gluing mechanism of the present invention;

FIG. 8 is a front view of a third conveyor belt of the present invention;

FIG. 9 is a front view of the hot press for sheet material of the present invention;

fig. 10 is a top view of the panel press of the present invention.

Wherein: 1. a first conveyor belt; 2. a pre-pressing mechanism; 3. a second conveyor belt; 4. a horizontal slide rail; 5. a plate stacking mechanism; 6. a plate gluing mechanism; 7. a third conveyor belt; 8. a plate hot press; 9. a fourth conveyor belt; 10. mounting a frame plate; 11. leading out a rotating shaft; 12. driving the wheel; 13. a rotary driving motor II; 14. a driving wheel; 201. a connecting plate seat; 202. a long-side through groove; 203. a lower rolling wheel; 204. rolling wheels are arranged; 205. a rotary driving motor I; 206. a position adjusting cylinder; 501. a mechanism plate frame I; 502. a mechanism plate frame I; 503. supporting a roller I; 504. a displacement driving motor I; 505. installing a plate block; 506. an air pressure adsorption nozzle; 601. a mechanism plate frame II; 602. a lifting cylinder II; 603. supporting a roller II; 604. a displacement driving motor II; 605. a glue storage box body; 606. a rubber delivery pipe; 607. a glue injection nozzle; 801. a machine frame seat; 802. jacking a driving hydraulic cylinder; 803. placing the plate; 804. pressing down the driving hydraulic cylinder; 805. pressing the plate downwards; 806. installing a plate frame; 807. pushing the plate; 808. a guide polish rod; 809. and pushing out the driving hydraulic cylinder.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and 2, the present invention relates to a production apparatus for a high-strength industrial template prepared from waste plates, which comprises a first conveyor belt 1, a second conveyor belt 3, a third conveyor belt 7, a prepressing mechanism 2 arranged between the first conveyor belt 1 and the second conveyor belt 3, a plate hot press 8 arranged at an output port of the third conveyor belt 7, and a fourth conveyor belt 9 arranged at one side of the plate hot press 8, wherein horizontal slide rails 4 are mounted on the upper portions of the second conveyor belt 3 and the third conveyor belt 7, and a plate stacking mechanism 5 and a plate gluing mechanism 6 are slidably connected on the horizontal slide rails 4.

As shown in fig. 1 and 5, the plate stacking mechanism 5 comprises a mechanism plate frame i 501 sliding on the horizontal sliding rail 4, supporting rollers i 503 fixed at four corners of the mechanism plate frame i 501, and a lifting cylinder i 502 fixed on the mechanism plate frame i 501, wherein a piston rod end part of the lifting cylinder i 502 is fixedly provided with a plate block 505, a plurality of air pressure adsorption nozzles 506 are uniformly fixed on the plate block 505, the supporting rollers i 503 are slidably connected with the horizontal sliding rail 4, a side end part of the mechanism plate frame i 501 is fixedly provided with a displacement driving motor i 504, and a rotating shaft of the displacement driving motor i 504 is fixedly connected with the center of the supporting rollers i 503.

As shown in fig. 3 and 4, the pre-pressing mechanism 2 includes a connecting plate seat 201, a lower rolling wheel 203 and an upper rolling wheel 204 movably connected to the connecting plate seat 201, and the connecting plate seat 201 is provided with a long-side through groove 202 on the upper surface thereof, and a displacement block is clamped in the long-side through groove 202, the rotating shafts at the centers of the two end portions of the upper rolling wheel 204 are movably connected to the displacement block in the long-side through groove 202, a position adjusting cylinder 206 is fixed at the top end of the connecting plate seat 201, the piston rod of the position adjusting cylinder 206 is fixedly connected to the displacement block in the long-side through groove 202, the rotating shafts at the centers of the two end portions of the lower rolling wheel 203 are movably connected to the connecting plate seat 201, and the outer side surface of the connecting plate seat 201 is provided with a rotary driving motor i 205 which is respectively connected to the rotating shafts of the lower rolling wheel 203 and the upper rolling wheel 204.

As shown in fig. 8, mounting frame plates 10 are arranged on two sides of an output end of the third conveyor belt 7, two mounting frame plates 10 are erected with leading-out rotating shafts 11, end fixing driving wheels 12 are arranged at the end of the leading-out rotating shafts 11, an output end of the third conveyor belt 7 is fixed with a rotary driving motor ii 13, a rotating shaft of the rotary driving motor ii 13 is fixed with a driving wheel 14, and the driving wheel 14 is in belt transmission connection with the driving wheels 12.

As shown in fig. 9 and 10, the plate hot press 8 includes a machine body frame seat 801 disposed at the output port of the third conveyer belt 7, a jacking driving hydraulic cylinder 802 fixed at two side portions of the machine body frame seat 801, and a pushing driving hydraulic cylinder 804 fixed at the top of the machine body frame seat 801, the piston rod of the jacking driving hydraulic cylinder 802 is connected with the placement plate 803, and the piston rod of the pushing driving hydraulic cylinder 804 is connected with the pushing plate 805, the rear end portion of the machine body frame seat 801 is fixed with a mounting plate frame 806, the mounting plate frame 806 is fixed with a pushing driving hydraulic cylinder 809, the pushing driving hydraulic cylinder 809 is connected with a push plate 807, and the rear side plate surface of the push plate 807 is fixed with a guiding polish rod 808, and the guiding polish rod 808 is movably connected with the mounting plate frame 806 in a penetrating manner.

As shown in fig. 6 and 7, the plate gluing mechanism 6 comprises a mechanism plate frame ii 601 sliding on the horizontal slide rail 4, a support roller ii 603 fixed at four corners of the mechanism plate frame ii 601, and a lifting cylinder ii 602 fixed on the mechanism plate frame ii 601, the outer side end face of the mechanism plate frame ii 601 is fixed with a displacement driving motor ii 604, the central fixed connection of the rotation shaft of the displacement driving motor ii 604 and the support roller ii 603, a piston rod of the lifting cylinder ii 602 is connected with a glue storage box body 605, a row of glue injection nozzles 607 is uniformly arranged on the bottom end face of the glue storage box body 605, and a side box face of the glue storage box body 605 is connected with a glue delivery pipe 606.

A processing method of production equipment of the high-strength industrial template prepared from the waste plates specifically comprises the following steps:

1) starting a rotary driving motor I205, driving a lower rolling wheel 203 and an upper rolling wheel 204 to rotate by the rotary driving motor I205, placing the waste plates on a first conveyer belt 1 one by one, conveying the waste plates to a gap position between the lower rolling wheel 203 and the upper rolling wheel 204 one by the first conveyer belt 1, and under the driving of the rotation of the lower rolling wheel 203 and the upper rolling wheel 204, the waste plates pass through between the lower rolling wheel 203 and the upper rolling wheel 204 and run to a second conveyer belt 3;

2) the second conveyer belt 3 conveys the waste plate to the position right below the plate stacking mechanism 5, the lifting cylinder I502 of the plate stacking mechanism 5 is started, the lifting cylinder I502 drives the mounting plate 505 to vertically move downwards, so that the air pressure suction nozzle 506 on the installation plate 505 sucks air, presses and sucks on the surface of the waste plate, then the lifting cylinder I502 drives the mounting plate 505 and the adsorbed waste plate to rise, the displacement driving motor I504 drives the supporting roller I503 to rotate, the plate stacking mechanism 5 is driven to move along the horizontal slide rail 4, so that the waste plate is transferred to the upper part of the third conveyer belt 7, then the mounting plate 505 and the adsorbed waste plate are driven by the lifting cylinder I502 to move downwards to the third conveyer belt 7, and air is blown to the air pressure adsorption nozzle 506 to release the waste plate on the third conveyer belt 7, meanwhile, the plate stacking mechanism 5 is driven by the displacement driving motor I504 to return to the initial position to convey a piece of waste plate;

3) starting a displacement driving motor II 604, driving a supporting roller II 603 to rotate by the displacement driving motor II 604, driving a plate gluing mechanism 6 to move to the position right above the waste plate along a horizontal slide rail 4, driving a glue storage box 605 to move downwards by a lifting cylinder II 602, moving a glue injection nozzle 607 at the bottom end of the glue storage box 605 to the upper part of the waste plate, dripping glue on the surface of the waste plate by the glue injection nozzle 607, driving the plate gluing mechanism 6 to move along the horizontal slide rail 4 by the displacement driving motor II 604, driving the glue injection nozzle 607 to move along the surface of the waste plate, completing the overall gluing of the surface of the waste plate, driving the plate gluing mechanism 6 to return to an initial position by the lifting cylinder II 602 and the displacement driving motor II 604, simultaneously transferring a next waste plate adsorbed on a second conveying belt 3 to the gluing surface of a first waste plate on a third conveying belt 7 by a plate stacking mechanism 5, then, the upper surface of the second waste plate is subjected to overall gluing by a plate gluing mechanism 6, so that a plurality of waste plates are stacked in sequence, and meanwhile, the surfaces of adjacent stacked waste plates are coated with viscose glue;

4) the third conveyer belt 7 conveys the stacked waste plates forwards continuously, and the rotary driving motor ii 13 drives the leading-out rotary shaft 11 to rotate, so that the waste plates are transferred to the placing plate 803 in the plate hot press 8 by the third conveyer belt 7, then the jacking driving hydraulic cylinder 802 and the pushing driving hydraulic cylinder 804 are started to drive the placing plate 803 and the pushing plate 805 to run in opposite directions, the stacked waste plates on the placing plate 803 are pressed again, the waste plates are completely adhered together, then the pushing driving hydraulic cylinder 809 drives the pushing plate 807 to move along the guide polished rod 808, and the stacked waste plates are pushed out from the placing plate 803 to the fourth conveyer belt 9 by the pushing plate 807. And outputting the stacked and stuck waste plates by a fourth conveying belt 9 to finish the preparation of the industrial template of the waste plate stack.

Example 1

The industrial template manufacturing equipment comprises a first conveying belt 1 for conveying waste plates into a prepressing mechanism 2, the prepressing mechanism 2 for pressing and flattening the upper and lower surfaces of the waste plates, a second conveying belt 3 for flatly conveying the waste plates, a second conveying belt 3 for transferring the waste plates with the flat upper and lower surfaces to the position under a plate stacking mechanism 5, a plate stacking mechanism 5 for adsorbing the waste plates and transferring the waste plates to a third conveying belt 3, a plate gluing mechanism 6 for moving the waste plates to the upper part of the waste plates and uniformly coating viscose on the surfaces of the waste plates, a plate stacking mechanism 5 and a plate gluing mechanism 6 for alternately stacking and gluing the surfaces of the waste plates, a third conveying belt 7 for conveying the stacked and multilayered waste plates with the glued surfaces of the adjacent plates to a placing plate 803 of a plate hot press 8, and the plates 8 for extruding the upper and lower end surfaces of the waste plates, the adjacent waste plates are completely adhered together, the finally processed waste plates are pushed out to the fourth conveying belt 9 and output by the fourth conveying belt 9, and the waste plates are processed into templates for industrial buildings by collecting damaged building templates and waste plates in other fields, so that the manufacturing cost of the industrial templates is saved, the damage of the waste plates to the environment is reduced, and the full utilization and sustainable development of plate resources are realized. The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The processing method of the production equipment of the high-strength industrial template prepared from the waste plates comprises a first conveying belt (1), a prepressing mechanism (2), a second conveying belt (3), a horizontal sliding rail (4), a plate stacking mechanism (5), a plate gluing mechanism (6), a third conveying belt (7), a plate hot press (8), a fourth conveying belt (9), a mounting frame plate (10), a leading-out rotating shaft (11), a driving wheel (12), a rotary driving motor II (13), a driving wheel (14), a connecting plate seat (201), a long-side through groove (202), a lower rolling wheel (203), an upper rolling wheel (204), a rotary driving motor I (205), a position adjusting cylinder (206), a mechanism I (501), a mechanism plate frame I (502), a supporting roller I (503), The device comprises a displacement driving motor I (504), a mounting plate block (505), an air pressure adsorption nozzle (506), a mechanism plate frame II (601), a lifting cylinder II (602), a supporting roller II I (603), a displacement driving motor II (604), a glue storage box body (605), a glue conveying pipe (606), a glue injection nozzle (607), a machine body frame seat (801), a jacking driving hydraulic cylinder (802), a placing plate block (803), a pressing driving hydraulic cylinder (804), a pressing plate block (805), a mounting plate frame (806), a push plate (807), a guide polish rod (808) and a pressing driving hydraulic cylinder (809);

the method specifically comprises the following steps:

1) starting a rotary driving motor I (205), driving a lower rolling wheel (203) and an upper rolling wheel (204) to rotate by the rotary driving motor I (205), placing the waste plates on a first conveying belt (1) one by one, conveying the waste plates to a gap position between the lower rolling wheel (203) and the upper rolling wheel (204) one by the first conveying belt (1), and under the driving of the rotation of the lower rolling wheel (203) and the upper rolling wheel (204), the waste plates pass through a gap between the lower rolling wheel (203) and the upper rolling wheel (204) and run to a second conveying belt (3);

2) the second conveying belt (3) conveys the waste plates to the position right below the plate stacking mechanism (5), a lifting cylinder I (502) of the plate stacking mechanism (5) is started, the lifting cylinder I (502) drives the mounting plate block (505) to vertically move downwards, so that an air pressure adsorption nozzle (506) on the mounting plate block (505) sucks air on the surface of the waste plates, the lifting cylinder I (502) drives the mounting plate block (505) and the adsorbed waste plates to ascend, a displacement driving motor I (604) drives a supporting roller I (503) to rotate, the plate stacking mechanism (5) is driven to move along a horizontal sliding rail (4), so that the waste plates are transferred to the position above the third conveying belt (7), the mounting plate block (505) and the adsorbed waste plates are driven to move downwards to the third conveying belt (7) by the lifting cylinder I (502), and air is blown to the air pressure adsorption nozzle (506) to release the waste plates on the third conveying belt (7), meanwhile, a displacement driving motor I (604) drives the plate stacking mechanism (5) to return to the initial position to convey a piece of waste plate;

3) starting a displacement driving motor II (604), driving a supporting roller II (603) to rotate by the displacement driving motor II (604), driving a plate gluing mechanism (6) to move right above the waste plate along a horizontal sliding rail (4), driving a glue storage box body (605) to move downwards by a lifting cylinder II (602), moving a glue injection nozzle (607) at the bottom end of the glue storage box body (605) to the upper part of the waste plate, dripping glue on the surface of the waste plate by the glue injection nozzle (607), driving the plate gluing mechanism (6) to move along the horizontal sliding rail (4) by the displacement driving motor II (604), driving the glue injection nozzle (607) to move along the surface of the waste plate, completing the overall gluing of the surface of the waste plate, driving the plate gluing mechanism (6) to return to an initial position by the lifting cylinder II (602) and the displacement driving motor II (604), and simultaneously transferring the next waste plate adsorbed on a second conveying belt (3) to a third conveying belt (5) 7) Coating the rubber on the rubber-coated surface of the first waste plate, and then coating the rubber on the upper surface of the second waste plate comprehensively by using a plate rubber coating mechanism (6), so that a plurality of waste plates are stacked in sequence, and meanwhile, coating the adhesive on the surfaces of the stacked adjacent waste plates;

4) the third conveyer belt (7) conveys the stacked waste plates forwards continuously, the rotary driving motor II (13) drives the leading-out rotary shaft (11) to rotate, so that the waste plates are transferred to a placing plate block (803) in the plate hot press (8) by the third conveyer belt (7), then a jacking driving hydraulic cylinder (802) and a pressing driving hydraulic cylinder (804) are started to drive the placing plate block (803) and the pressing plate block (805) to move oppositely, the waste plates stacked on the placing plate block (803) are pressed again to be completely adhered together, then a pushing driving hydraulic cylinder (809) drives a pushing plate (807) to move along a guide polished rod (808), the stacked waste plates are pushed out from the placing plate block (803) to a fourth conveyer belt (9) by the pushing plate (807), and the stacked waste plates are output by the fourth conveyer belt (9), and finishing the preparation of the industrial template stacked by the waste plates.

2. The production equipment used in the processing method of the production equipment for the high-strength industrial template prepared from the waste plates according to claim 1 is characterized by comprising a first conveying belt (1), a second conveying belt (3), a third conveying belt (7), a prepressing mechanism (2) arranged between the first conveying belt (1) and the second conveying belt (3), a plate hot press (8) arranged at an output port of the third conveying belt (7) and a fourth conveying belt (9) arranged on one side of the plate hot press (8), wherein the horizontal sliding rails (4) are arranged at the upper parts of the second conveying belt (3) and the third conveying belt (7), a plate stacking mechanism (5) and a plate gluing mechanism (6) are connected onto the horizontal sliding rails (4) in a sliding manner, and the plate stacking mechanism (5) comprises a plate frame I (501) and a plate frame I (6) which slide on the horizontal sliding rails (4), Fix I (503) of supporting roller in mechanism grillage I (501) four corners and fix I (502) of lift cylinder on mechanism grillage I (501), I (502) piston rod tip fixed mounting plate (505) of lift cylinder, evenly be fixed with a plurality of atmospheric pressure adsorption nozzle (506) on installation plate (505), I (503) of supporting roller and horizontal slide rail (4) sliding connection, and be fixed with I (604) of displacement driving motor at I (501) side tip of mechanism grillage, I (604) pivot of displacement driving motor and I (503) center fixed connection of supporting roller.

3. The production equipment used in the processing method of the production equipment of the high-strength industrial template prepared by using the waste plates is characterized in that the pre-pressing mechanism (2) comprises a connecting plate seat (201), a lower rolling wheel (203) and an upper rolling wheel (204) which are movably connected with the connecting plate seat (201), a long-edge through groove (202) is arranged on the upper end surface of the connecting plate seat (201), a displacement block is clamped in the long-edge through groove (202), a rotating shaft at the center of two end parts of the upper rolling wheel (204) is movably connected with the displacement block in the long-edge through groove (202) in a penetrating way, a position adjusting cylinder (206) is fixed at the top end of the connecting plate seat (201), a piston rod of the position adjusting cylinder (206) is fixedly connected with the displacement block in the long-edge through groove (202), a rotating shaft at the center of two end parts of the lower rolling wheel (203) is movably connected with the connecting plate seat (201) in a penetrating way, and a rotary driving motor I (205) which is respectively in driving connection with the rotating shafts of the lower rolling wheel (203) and the upper rolling wheel (204) is arranged on the outer side end face of the connecting plate seat (201).

4. The production equipment used in the processing method of the production equipment of the high-strength industrial template prepared by using the waste plate as claimed in claim 2 is characterized in that mounting plates (10) are arranged on two sides of the output end of the third conveyer belt (7), leading-out rotating shafts (11) are erected on the two mounting plates (10), driving wheels (12) are fixed at the ends of the leading-out rotating shafts (11), a rotary driving motor II (13) is fixed at the output end of the third conveyer belt (7), a driving wheel (14) is fixed at the rotating shaft of the rotary driving motor II (13), and the driving wheel (14) is in belt transmission connection with the driving wheels (12).

5. The production equipment used in the processing method of the production equipment of the high-strength industrial formwork prepared by using the waste plate according to claim 2 is characterized in that the plate hot press (8) comprises a machine body frame base (801) arranged at the output port of the third conveyer belt (7), jacking driving hydraulic cylinders (802) fixed at two side parts of the machine body frame base (801), and a pressing driving hydraulic cylinder (804) fixed at the top of the machine body frame base (801), wherein piston rods of the jacking driving hydraulic cylinders (802) are connected with a placing plate block (803), piston rods of the pressing driving hydraulic cylinders (804) are connected with a pressing plate block (805), a mounting plate frame (806) is fixed at the rear end part of the machine body frame base (801), a pushing driving hydraulic cylinder (809) is fixed on the mounting plate frame (806), and piston rods of the pushing driving hydraulic cylinders (809) are connected with a pushing plate (807), and a guide polish rod (808) is fixed on the rear side plate surface of the push plate (807), and the guide polish rod (808) is movably connected with the mounting plate frame (806) in a penetrating manner.

6. The manufacturing apparatus for use in the manufacturing method of the high-strength industrial formworks using the waste sheets according to claim 2, it is characterized in that the plate gluing mechanism (6) comprises a mechanism plate frame II (601) sliding on the horizontal sliding rail (4), supporting rollers II (603) fixed at four corners of the mechanism plate frame II (601) and a lifting cylinder II (602) fixed on the mechanism plate frame II (601), a displacement driving motor II (604) is fixed on the outer side end face of the mechanism plate frame II (601), the rotating shaft of the displacement driving motor II (604) is fixedly connected with the center of the supporting roller II (603), the piston rod of the lifting cylinder II (602) is connected with the glue storage box body (605), a row of glue injection nozzles (607) are uniformly arranged on the bottom end face of the glue storage box body (605), and the side box face of the glue storage box body (605) is connected with the glue conveying pipe (606).