CN214398764U - Backing plate turnover device and conveying and stacking equipment for plates - Google Patents

Abstract

The utility model discloses a backing plate turnover device and a conveying and stacking device for plates, wherein the backing plate turnover device comprises an upper backing plate unit, a stacking unit and a turnover unit; the stacking unit comprises two lifting tables for arranging the base plates and stacking the plates on the base plates; the turnover unit comprises two turnover trolleys which can reciprocate along the conveying direction of the plate and are used for conveying the base plates, the two turnover trolleys are respectively positioned at two sides of the arrangement direction of the upper base plate unit and the stacking unit and are respectively used for conveying the base plates to the upper base plate unit; or bearing the base plates output from the two lifting tables. The utility model discloses a backing plate turnover device, through the setting of upper padding plate unit, stack unit and turnover unit, can cooperate with panel conveyor, the perfect backing plate turnover of realization panel at transport and stack in-process to satisfy the different production demands of panel in the production line.

Description

Backing plate turnover device and conveying and stacking equipment for plates

Technical Field

The utility model relates to a manufacturing field of panel, concretely relates to transport stacking equipment of backing plate turnover device and panel.

Background

The artificial board production line is a production line for production and manufacturing of artificial boards, and is provided with a sanding working section and a sawing working section for sanding and sawing artificial boards, the artificial boards sequentially enter the sanding working section and the sawing working section for sanding and sawing after passing through a previous working procedure of the production line, and then enter a next working procedure, and finally manufacturing of the artificial boards is achieved.

However, in the production line of artificial boards, not all artificial boards need to undergo sanding and sawing simultaneously, and there are three situations when the artificial boards pass through the sanding section and the sawing section: a. the artificial board needs to sequentially pass through a sanding working section and a sawing working section to finish sanding and sawing; b. the artificial board needs to be subjected to sanding but does not need to be sawed, and the artificial board needs to be stacked and output after passing through a sanding working section; c. the artificial board does not need to be sanded but needs to be sawed, and piled boards need to directly enter a sawing section. It is also known that when sheets are stacked, the bottom of the sheets needs to be lined with backing plates, so that in both b and c, this involves the turnover of backing plates to achieve stacking of sheets in b and recycling of the backing plates after the stacked sheets in c enter the sawing section. Therefore, a base plate turnover device capable of simultaneously guaranteeing the two conditions of b and c is needed.

Disclosure of Invention

The utility model discloses an it is not enough to overcome prior art, provides a backing plate turnover device.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a base plate turnover device is used for turnover of base plates in a plate conveying process and comprises an upper base plate unit, a stacking unit and a turnover unit which are sequentially arranged along the conveying direction of the plates;

the upper backing plate unit is used for conveying backing plates, and the conveying direction of the backing plates is perpendicular to the conveying direction of the plates;

the stacking unit comprises two lifting tables for arranging the base plates and stacking the plates on the base plates;

the turnover unit comprises two turnover trolleys which can reciprocate along the conveying direction of the plate and are used for conveying the base plates, the two turnover trolleys are respectively positioned on two sides of the arrangement direction of the upper base plate unit and the stacking unit and are respectively used for conveying the base plates to the upper base plate unit; or the base plate output from the two lifting tables is received.

Preferably, the upper padding plate unit includes along two first conveyor components that the direction of delivery of backing plate set up side by side, be located two first conveyor components between baffle subassembly, the baffle subassembly includes that support, liftable locate pin on the support, be used for the drive the first drive assembly that the pin goes up and down, along the length direction interval of pin arranges in a plurality of dogs on the pin, wherein, the pin extends and its extending direction along the horizontal direction with the direction of delivery of backing plate is mutually perpendicular.

Further preferably, the first driving assembly comprises a lifting rod arranged on the support and capable of lifting, and cylinders arranged at two ends of the support and used for driving two end portions of the lifting rod to lift, the lifting rod comprises at least three coaxially extending rod bodies, and universal couplings arranged between every two rod bodies, wherein two ends of the lifting rod are connected with every two rod bodies respectively, and the stop rods are fixedly connected with the lifting rod and parallel to each other.

Preferably, the stacking unit further comprises a first conveying roller assembly arranged on each lifting platform, and the conveying direction of the first conveying roller assembly is perpendicular to the conveying direction of the plates.

Preferably, the two turnover trolleys comprise a first trolley positioned at one side of the arrangement direction of the upper backing plate unit and the stacking unit, the first trolley comprises a movable first trolley body, a second conveying roller assembly arranged on the first trolley body, a second conveying assembly arranged on the first trolley body in a lifting way, and a second driving assembly used for driving the second conveying assembly to lift, the conveying direction of the second conveying roller assembly is consistent with the conveying direction of the plate, the conveying direction of the second conveying roller assembly is perpendicular to the conveying direction of the second conveying roller assembly, wherein the second conveyor roller assembly comprises a plurality of conveyor rollers arranged along the conveying direction of the sheet material, the second conveying assembly comprises a plurality of conveying chains arranged along the conveying direction of the plate materials, and a plurality of gaps for the transmission of the transmission chains are formed among the plurality of transmission rollers.

Further preferably, the two turnover trolleys further comprise a second trolley positioned on the other side of the arrangement direction of the upper backing plate unit and the stacking unit, the second trolley comprises a movable second trolley body and a third conveying roller assembly arranged on the second trolley body, and the conveying direction of the third conveying roller assembly is perpendicular to the conveying direction of the plate.

Still further preferably, the base plate turnover device further comprises two third conveying assemblies respectively and correspondingly arranged on one side, close to the first trolley, of the two lifting tables and two transition roller tables respectively and correspondingly arranged on one side, close to the second trolley, of the two lifting tables, and the conveying directions of the third conveying assemblies and the transition roller tables are consistent and are respectively perpendicular to the conveying direction of the plate.

Another object of the utility model is to provide a transport stacking equipment of panel.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

the conveying and stacking equipment for the plates comprises a plate conveying device and the base plate turnover device,

the plate conveying device comprises a horizontal conveying table, a first conveying belt and a second conveying belt which are sequentially arranged along the conveying direction of a plate, the horizontal conveying table, the first conveying belt and the second conveying belt are positioned at the same height, the first conveying belt comprises a first belt monomer and a second belt monomer which are sequentially arranged, one end, far away from each other, of the first belt monomer and one end, close to each other, of the second belt monomer are lifting ends, one end, close to each other, of the first belt monomer and the second belt monomer are fixed ends, and the second conveying belt is movably arranged along the conveying direction perpendicular to the plate;

the conveying stacking device is provided with a conveying state, a first stacking state and a second stacking state, when the conveying stacking device is in the conveying state, the first belt single body and the second belt single body are respectively in a horizontal state, the second conveying belt, the horizontal conveying table and the first conveying belt are positioned in the same arrangement direction, and the plates can be conveyed through the horizontal conveying table, the first belt single body, the second belt single body and the second conveying belt in sequence; when the conveying and stacking equipment is in a first stacking state, the lifting end of the first belt monomer rises, and the plates enter the lifting platform below the first belt monomer from the horizontal conveying platform to be stacked; when the conveying and stacking equipment is in a second stacking state, the lifting end of the first belt monomer is flush with the fixed end of the first belt monomer, the lifting end of the second belt monomer is lowered, and the plates are conveyed in sequence to pass through the horizontal conveying platform, the first belt monomer and the second belt monomer and then enter the position below the second conveying belt to be stacked on the lifting platform.

Preferably, the plate conveying device further comprises a push plate assembly slidably arranged above the second conveying belt along the conveying direction of the second conveying belt, a third driving assembly used for driving the push plate assembly to slide, wherein the push plate assembly comprises a slidable sliding seat, a push rod with one end rotatably arranged on the sliding seat and the other end inclined downwards along the conveying direction of the second conveying belt, a fourth driving assembly used for driving the push rod to rotate, and a hook arranged at the lower end part of the push rod, and the rotating axis of the push rod extends along the horizontal direction and is perpendicular to the conveying direction of the second conveying belt.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage: the utility model discloses a backing plate turnover device, through the setting of upper padding plate unit, stack unit and turnover unit, can cooperate with panel conveyor, the perfect backing plate turnover that realizes panel in the transport and stack process to satisfy the different production demands of panel in the production line; the conveying and stacking equipment for the plates, which comprises the base plate turnover device, can meet the diversified demands of the plates in a production line, and is wider in application range.

Drawings

Fig. 1 is a schematic top view of a conveying and stacking apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view A-A of FIG. 1;

FIG. 3 is an enlarged schematic view of FIG. 1 at B;

fig. 4 is an enlarged schematic view of C in fig. 2.

In the figure: 1. a lifting platform; 2. a transfer trolley; 2a, a first trolley; 2a1, a first vehicle body; 2a2, a second conveyor roller assembly; 2a3, a second conveyor assembly; 2b, a second trolley; 2b1, a second vehicle body; 2b2, third conveyor roller assembly; 3. a first conveying assembly; 4. a baffle assembly; 4a, a bracket; 4a1, guide rails; 4b, a stop lever; 4b1, slider; 4c, a first driving component; 4c1, lifter bar; 4c11, a rod body; 4c12, universal joint; 4c2, air cylinder; 4d, a stop block; 5. a first conveyor roller assembly; 6. a third conveying assembly; 7. a transition roller table; 8. a horizontal conveying table; 9. a first conveyor belt; 9a, a first belt monomer; 9b, a second belt monomer; 10. a second conveyor belt; 11. a push plate assembly; 11a, a slide; 11b, a push rod; 11c, a fourth drive assembly; 11d, hanging hooks; 12. a third drive assembly; 13. a turbine; 14. a worm; 15. a first motor; 16. a second motor; 17. a screw; 18. a rack; 19. a slider; 20. a control unit.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

The utility model relates to an improvement to the conveying and stacking equipment of plates, and provides a base plate turnover device, which can be matched with a plate conveying device through the arrangement of an upper base plate unit, a stacking unit and a turnover unit, and perfectly realize the turnover of the base plates in the conveying and stacking processes of the plates, thereby meeting different production requirements of the plates in a production line; the conveying and stacking equipment for the plates, which comprises the base plate turnover device, can meet the diversified demands of the plates in a production line, and is wider in application range.

Referring to fig. 1-4, a conveying and stacking device for boards is shown, which is located between a sanding section and a sawing section of a production line for artificial boards and comprises a board conveying device and a cushion plate turnover device.

Wherein, panel conveyor includes the horizontal transport platform 8 of arranging in proper order along the direction of conveyance of panel, first conveyor belt 9 and second conveyor belt 10, horizontal transport platform 8, first conveyor belt 9 and second conveyor belt 10 are located same height, first conveyor belt 9 is including the first belt monomer 9a and the second belt monomer 9b of arranging in proper order, the one end that first belt monomer 9a and second belt monomer 9b kept away from each other is the lift end, the one end that is close to each other is the stiff end, second conveyor belt 10 is along the mobilizable setting of the direction of conveyance of perpendicular panel.

Further, as shown in fig. 2, the lifting ends of the first belt unit 9a and the second belt unit 9b are lifted up and down by a turbine 13 and a worm 14 respectively, the turbine 13 is driven to rotate by a fixed first motor 15, and the worm 14 is lifted up and down by the transmission action of the turbine 13, so as to drive the lifting ends of the first belt unit 9a and the second belt unit 9b to lift up and down.

In this embodiment, referring to fig. 2 and 4, the plate conveying apparatus further includes a push plate assembly 11 slidably disposed above the second conveying belt 10 along the conveying direction of the second conveying belt 10, and a third driving assembly 12 for driving the push plate assembly 11 to slide, where the push plate assembly 11 includes a slidable slide 11a, a push rod 11b having one end rotatably disposed on the slide 11a and the other end inclined downward along the conveying direction of the second conveying belt 10, a fourth driving assembly 11c for driving the push rod 11b to rotate, and a hook 11d disposed at the lower end of the push rod 11b, and a rotation axis of the push rod 11b extends along the horizontal direction and is perpendicular to the conveying direction of the second conveying belt 10.

When the stacked plates are stacked on the lifting platform 1 below the second conveyor belt 10, the second conveyor belt 10 moves away from the lifting platform 1, at this time, the fourth driving assembly 11c drives the push rod 11b to rotate counterclockwise, so that the hook 11d reaches one side of the first plate on the plate stack, at this time, the third driving assembly 12 drives the sliding seat 11a to slide towards the direction close to the sawing section, and the hook 11d abuts against the side of the first plate and pushes the first plate into the sawing section.

Further, referring to fig. 2 again, the third driving assembly 12 is a driving cylinder, the fourth driving assembly 11c includes a second motor 16, a screw 17, and a rack 18, wherein the second motor 16 is connected with the bracket of the second conveying belt 10, the extending direction of the output shaft of the second motor 16 is consistent with the moving direction of the second conveying belt 10, the output shaft is sleeved with a gear, the gear is in driving connection with a screw 17, which screw 17 extends in a direction perpendicular to the output shaft, the end of which also has a gear wheel, which is in driving connection with the toothed rack 18, the length direction of the toothed rack 18 coinciding with the direction of movement of the second conveyor belt 10, so that, when the output shaft of the second motor 16 rotates, the gear is driven to advance on the rack 18, the belt bracket is also connected with a sliding block 19, and the sliding block 19 slides on the equipment bracket, so that the relative movement of the second conveying belt 10 and the equipment bracket is realized. The screw 17 in this example comprises a plurality of coaxially connected rods and a universal joint connected between each two rods.

As shown in fig. 1 to 3, the base plate turnover device comprises an upper base plate unit, a stacking unit and a turnover unit which are sequentially arranged along the conveying direction of the plate; the upper base plate unit is used for conveying base plates, and the conveying direction of the base plates is perpendicular to the conveying direction of the plates; the stacking unit comprises two lifting tables 1 for arranging base plates and stacking plates on the base plates; the turnover unit comprises two turnover trolleys 2 which can reciprocate along the conveying direction of the plate and are used for conveying the base plates, and the two turnover trolleys 2 are respectively positioned at two sides of the arrangement direction of the upper base plate unit and the stacking unit and are respectively used for conveying the base plates to the upper base plate unit; or bearing the base plates output from the two lifting tables 1. When the lifting table 1 stacks the plates, the plates gradually descend to be accommodated; as the lift table 1 outputs the sheet, it is gradually raised to transport the sheet onto the turnaround cart 2.

Wherein the upper backing plate unit comprises two first conveying assemblies 3 arranged side by side along the conveying direction of the backing plate, a baffle assembly 4 positioned between the two first conveying assemblies 3, the baffle assembly 4 comprises a support 4a, a lifting stop lever 4b arranged on the support 4a, a first driving assembly 4c used for driving the stop lever 4b to lift, and a plurality of stop blocks 4d arranged on the stop lever 4b at intervals along the length direction of the stop lever 4b, wherein the stop lever 4b extends along the horizontal direction and the extension direction of the stop lever is perpendicular to the conveying direction of the backing plate. Here, the both ends of the bar 4b are provided with sliders 4b1, the bracket 4a is provided with a guide rail 4a1, and the both ends of the bar 4b are slid on the guide rail 4a1 by the sliders 4b 1.

Further, as shown in fig. 3, the first driving assembly 4c includes a lifting rod 4c1 disposed on the bracket 4a and capable of lifting, and two cylinders 4c2 disposed at two ends of the bracket 4a and respectively used for driving two ends of the lifting rod 4c1 to lift, the lifting rod 4c1 includes at least three coaxially extending rod bodies 4c11, and a universal coupling 4c12 having two ends respectively connected between every two rod bodies 4c11, and the universal coupling 4c12 is configured such that a movement margin is left for the lifting rod 4c1 to lift, which is more convenient for the lifting rod 4c1 to lift. The gear lever 4b and the lifting lever 4c1 are fixedly connected and parallel to each other. Thus, after the turnover trolley 2 sends the piled base plates to one of the first conveying assemblies 3, the air cylinder 4c2 drives the lifting rod 4c1 to descend, so that the baffle 4d can block the base plates, and by controlling the descending height of the lifting rod 4c1, a passage for the lowest base plate of the piled base plates to pass through can be reserved under the baffle 4d, the lowest base plate passes through the passage and enters the other first conveying assembly 3 and then enters the other turnover trolley 2, and the turnover trolley 2 drives the base plates to move to the two lifting tables 1 and sends the base plates to the lifting tables 1.

The stacking unit further comprises a first conveyor roller assembly 5 provided on each lifting platform 1, the conveying direction of the first conveyor roller assembly 5 being perpendicular to the conveying direction of the sheet material. The first conveyor roller assembly 5 is used for the movement of the pack on the lifting table 1.

As shown in fig. 1, the two turnover trolleys 2 include a first trolley 2a and a second trolley 2b which are positioned on two sides of the arrangement direction of the upper cushion plate unit and the stacking unit, the first trolley 2a includes a movable first trolley body 2a1, a second conveying roller assembly 2a2 arranged on the first trolley body 2a1, a second conveying assembly 2a3 arranged on the first trolley body 2a1 and capable of ascending and descending, and a second driving assembly for driving the second conveying assembly 2a3 to ascend and descend, the second trolley 2b includes a movable second trolley body 2b1, a third conveying roller assembly 2b2 arranged on the second trolley body 2b1, and the conveying direction of the third conveying roller assembly 2b2 is perpendicular to the conveying direction of the plate;

wherein, the conveying direction of the second conveyor roller assembly 2a2 is consistent with the conveying direction of the plate material, the conveying direction of the second conveyor assembly 2a3 is perpendicular to the conveying direction of the second conveyor roller assembly 2a2, wherein, the second conveyor roller assembly 2a2 comprises a plurality of conveyor rollers arranged along the conveying direction of the plate material, the second conveyor assembly 2a3 comprises a plurality of conveyor chains arranged along the conveying direction of the plate material, and a plurality of gaps for the plurality of conveyor chains to pass through are formed among the plurality of conveyor rollers.

In this example, the first trolley 2a is used for conveying a backing plate to the upper backing plate unit, or for conveying a piled plate to the lifting table 1, or for receiving the piled plate output by the lifting table 1; the second trolley 2b is used for receiving the base plate conveyed by the upper base plate unit or used for recovering the base plate on the lifting platform 1.

The base plate turnover device further comprises two third conveying assemblies 6 which are respectively and correspondingly arranged on one sides of the two lifting platforms 1, which are close to the first trolley 2a, and two transition roller platforms 7 which are respectively and correspondingly arranged on one sides of the two lifting platforms 1, which are close to the second trolley 2b, wherein the conveying directions of the third conveying assemblies 6 and the transition roller platforms 7 are consistent and are respectively vertical to the conveying direction of the plate.

In the embodiment, the first conveying assembly 3, the second conveying assembly 2a3 and the third conveying assembly 6 are all chain conveyors, and the horizontal conveying table 8, the first conveying roller assembly 5, the second conveying roller assembly 2a2 and the transition roller table 7 respectively comprise a plurality of conveying rollers which are parallel to each other and are driven to rotate by a motor.

In this embodiment, the conveying and stacking device has a conveying state, a first stacking state and a second stacking state, when the conveying and stacking device is in the conveying state, the first belt unit 9a and the second belt unit 9b are respectively in a horizontal state, the second conveying belt 10 is located in the same arrangement direction as the horizontal conveying table 8 and the first conveying belt 9, and the plate can be conveyed through the horizontal conveying table 8, the first belt unit 9a, the second belt unit 9b and the second conveying belt 10 in sequence; when the conveying and stacking equipment is in a first stacking state, the lifting end of the first belt unit 9a rises, and the plates enter the lifting platform 1 below the first belt unit 9a from the horizontal conveying platform 8 to be stacked; when the conveying and stacking equipment is in a second stacking state, the lifting end of the first belt unit 9a is flush with the fixed end of the first belt unit, the lifting end of the second belt unit 9b descends, and the plates are conveyed in sequence through the horizontal conveying platform 8, the first belt unit 9a and the second belt unit 9b and then enter the lifting platform 1 below the second conveying belt 10 to be stacked.

Thus, when the plate needs to pass through the sanding section and the sawing section in sequence, the conveying and stacking device in this example is in a conveying state, and the plate can be output from the sanding section and pass through the horizontal conveying table 8, the first belt monomer 9a, the second belt monomer 9b and the second conveying belt 10 in sequence, and then enter the sawing section.

When the plate needs to pass through the sanding section but does not need to enter the sawing section, the piled base plates are sent to the first trolley 2a through the second conveying roller assembly 2a2, then the base plates are conveyed to the second trolley 2b one by one through the cooperation of the second conveying assembly 2a3, the two first conveying assemblies 3 and the baffle plate assembly 4, the second trolley 2b drives the base plates to reach the lifting platform 1 below the first conveying belt 9, then the single base plates are conveyed to the lifting platform through the third conveying roller assembly 2b2 on the second trolley 2b, at the moment, the conveying stacking equipment in the embodiment enters a first stacking state, the plate can be output from the sanding section and enter the lifting platform 1 from the horizontal conveying platform 8 to be stacked, and the stacked plate pile is output through the first trolley 2 a; and when the lifting platform 1 below the first conveying belt 9 finishes stacking and blanking, in order to improve efficiency, the second trolley 2b synchronously sends the base plates to the lifting platform 1 below the second conveying belt 10, at the moment, the conveying stacking equipment in the embodiment enters a second stacking state, the plates are conveyed in sequence through the horizontal conveying platform 8, the first belt single bodies 9a and the second belt single bodies 9b and then enter the lifting platform 1 below the second conveying belt 10 for stacking, and the stacked plate stacks are output through the first trolley 2 a.

When the plate does not need to pass through the sanding working section but needs to enter the sawing working section for sawing, the first trolley 2a conveys the stacked plate to the lifting table 1 below the second conveying belt 10, at the moment, the plate is pushed into the sawing working section one by the push plate assembly 11, the backing plate positioned at the bottom is conveyed to the second trolley 2b, at the moment, the first trolley 2a continuously conveys the stacked plate to enter the lifting table 1, and the backing plate at the bottom of the plate stack is stacked, collected and output by the second trolley 2 b.

In this embodiment, a control unit 20 for controlling the whole conveying and stacking device is further included, and the control unit 20 is a PLC controller.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. The utility model provides a backing plate turnover device for backing plate turnover in the panel transportation process, its characterized in that: the device comprises an upper backing plate unit, a stacking unit and a turnover unit which are sequentially arranged along the conveying direction of the plate;

the upper backing plate unit is used for conveying backing plates, and the conveying direction of the backing plates is perpendicular to the conveying direction of the plates;

the stacking unit comprises two lifting tables (1) for placing the base plates and stacking the plates on the base plates;

the turnover unit comprises two turnover trolleys (2) which can reciprocate along the conveying direction of the plate and are used for conveying the base plates, the two turnover trolleys (2) are respectively positioned at two sides of the arrangement direction of the upper base plate unit and the stacking unit and are respectively used for conveying the base plates to the upper base plate unit; or the base plate output from the two lifting tables (1) is received.

2. The mat transferring device of claim 1, wherein: the upper backing plate unit comprises two first conveying assemblies (3) arranged side by side along the conveying direction of the backing plate, a baffle assembly (4) positioned between the two first conveying assemblies (3), wherein the baffle assembly (4) comprises a support (4a) and a liftable baffle rod (4b) arranged on the support (4a), a first driving assembly (4c) used for driving the baffle rod (4b) to lift, and a plurality of baffle blocks (4d) arranged on the baffle rod (4b) at intervals along the length direction of the baffle rod (4b), wherein the baffle rod (4b) extends along the horizontal direction and the extending direction of the baffle rod is vertical to the conveying direction of the backing plate.

3. The mat transferring device of claim 2, wherein: first drive assembly (4c) including liftable locate lifter (4c1) on support (4a), locate two at support (4a) both ends are used for the drive respectively cylinder (4c2) that the both ends of lifter (4c1) go up and down, lifter (4c1) include at least three coaxial body of rod (4c11) that extend, both ends are connected respectively in per two universal joint (4c12) between the body of rod (4c11), wherein, pin (4b) with lifter (4c1) fixed connection and be parallel to each other.

4. The mat transferring device of claim 1, wherein: the stacking unit further comprises a first conveying roller assembly (5) arranged on each lifting platform (1), and the conveying direction of the first conveying roller assembly (5) is perpendicular to the conveying direction of the plates.

5. The mat transferring device of claim 1, wherein: the two turnover trolleys (2) comprise a first trolley (2a) positioned on one side of the arrangement direction of the upper padding plate unit and the stacking unit, the first trolley (2a) comprises a movable first trolley body (2a1), a second conveying roller assembly (2a2) arranged on the first trolley body (2a1), a second conveying assembly (2a3) arranged on the first trolley body (2a1) in a lifting way, and a second driving assembly used for driving the second conveying assembly (2a3) to lift, the conveying direction of the second conveying roller assembly (2a2) is consistent with the conveying direction of the plates, the conveying direction of the second conveying assembly (2a3) is perpendicular to the conveying direction of the second conveying roller assembly (2a2), wherein the second conveying roller assembly (2a2) comprises a plurality of conveying rollers arranged along the conveying direction of the plates, the second conveying assembly (2a3) comprises a plurality of conveying chains arranged along the conveying direction of the plate materials, and a plurality of gaps for the plurality of conveying chains to pass through are formed among the plurality of conveying rollers.

6. The dunnage turnover device of claim 5, wherein: the two turnover trolleys (2) further comprise a second trolley (2b) positioned on the other side of the arrangement direction of the upper cushion plate unit and the stacking unit, the second trolley (2b) comprises a movable second vehicle body (2b1) and a third conveying roller assembly (2b2) arranged on the second vehicle body (2b1), and the conveying direction of the third conveying roller assembly (2b2) is perpendicular to the conveying direction of the plates.

7. The mat transferring device of claim 6, wherein: the base plate turnover device further comprises two corresponding lifting platforms (1) close to two third conveying assemblies (6) on one side of the first trolley (2a) and two corresponding lifting platforms (1) close to two transition roller platforms (7) on one side of the second trolley (2b), wherein the conveying directions of the third conveying assemblies (6) and the transition roller platforms (7) are consistent and are perpendicular to the conveying direction of the plate respectively.

8. The utility model provides a conveying stacking equipment of panel which characterized in that: comprising a sheet conveying device and a mat transferring device according to any one of claims 1-7,

the plate conveying device comprises a horizontal conveying platform (8), a first conveying belt (9) and a second conveying belt (10) which are sequentially arranged along the conveying direction of a plate, the horizontal conveying platform (8), the first conveying belt (9) and the second conveying belt (10) are located at the same height, the first conveying belt (9) comprises a first belt monomer (9a) and a second belt monomer (9b) which are sequentially arranged, one end, far away from each other, of the first belt monomer (9a) and one end, close to each other, of the second belt monomer (9b) are lifting ends, one end, close to each other, of the first belt monomer (9a) and the second belt monomer (9b) is a fixed end, and the second conveying belt (10) is movably arranged along the conveying direction perpendicular to the plate;

the conveying and stacking device has a conveying state, a first stacking state and a second stacking state, when the conveying and stacking device is in the conveying state, the first belt single body (9a) and the second belt single body (9b) are respectively in the horizontal state, the second conveying belt (10) is positioned in the same arrangement direction with the horizontal conveying platform (8) and the first conveying belt (9), and the plate can be conveyed through the horizontal conveying platform (8), the first belt single body (9a), the second belt single body (9b) and the second conveying belt (10) in sequence; when the conveying and stacking equipment is in a first stacking state, the lifting end of the first belt monomer (9a) rises, and the plates enter the lifting platform (1) below the first belt monomer (9a) from the horizontal conveying platform (8) for stacking; when the conveying and stacking equipment is in a second stacking state, the lifting end of the first belt monomer (9a) is flush with the fixed end of the first belt monomer, the lifting end of the second belt monomer (9b) descends, and the plates are sequentially conveyed to pass through the horizontal conveying table (8), the first belt monomer (9a) and the second belt monomer (9b) and then enter the lifting table (1) below the second conveying belt (10) to be stacked.

9. The apparatus for transporting and stacking sheets as claimed in claim 8, wherein: the plate conveying device further comprises a push plate assembly (11) arranged above the second conveying belt (10) and used for driving the push plate assembly (11) to slide in the conveying direction of the second conveying belt (10), a third driving assembly (12) used for driving the push plate assembly (11) to slide, wherein the push plate assembly (11) comprises a slidable sliding seat (11a) and one end of the push plate assembly is rotatably arranged on the sliding seat (11a), the other end of the push plate assembly is arranged along a push rod (11b) inclined downwards in the conveying direction of the second conveying belt (10), the fourth driving assembly (11c) used for driving the push rod (11b) to rotate and a hook (11d) arranged at the lower end of the push rod (11b), and the rotating axis of the push rod (11b) extends along the horizontal direction and is perpendicular to the conveying direction of the second conveying belt (10).

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