CN113370329A

CN113370329A - Continuous plate splicing machine

Info

Publication number: CN113370329A
Application number: CN202110817077.8A
Authority: CN
Inventors: 郭迎祥; 徐勇
Original assignee: Foshan Jiyuan High Frequency Equipment Co ltd
Current assignee: Foshan Jiyuan High Frequency Equipment Co ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-09-10

Abstract

The invention discloses a continuous plate splicing machine.A first pushing assembly comprises a first pushing table and a first pushing member, wherein the first pushing table is used for arranging plates along a first direction; the first pushing piece is arranged on the first pushing table and pushes the plate along the second direction; the second direction is perpendicular to the first direction; the second pushing assembly comprises a second pushing table and a second pushing piece, the second pushing table is used for receiving the plate pushed by the first pushing piece, and the second pushing piece is arranged on the second pushing table and pushes the plate along the first direction; the third pushing assembly comprises a bin and a third pushing piece, and the bin is arranged on the side part of the first pushing platform and used for stacking a plurality of horizontal plates; the first pushing platform is connected with a discharge hole of the storage bin; the third pushing member is used for sequentially pushing the plates to the first pushing table along the first direction. According to the invention, the plates can be sequentially arranged and spliced in the first direction to form smaller plate units, and then the smaller plate units are pushed to the second pushing table along the second direction to splice the plate units, so that the splicing quality is improved.

Description

Continuous plate splicing machine

Technical Field

The invention relates to the technical field of plate splicing equipment, in particular to a continuous plate splicing machine.

Background

At present, the existing plate splicing machine is to glue a plate with a smaller width on the side surface, then the spliced plate and the spliced plate are spliced to form a whole large plate, and then the subsequent heating and curing are carried out. However, the splicing machine has large occupied area and low splicing efficiency, small workpieces are input and cured and spliced in a single pulse mode, the glue seam forming quality is poor, and more boards are wasted.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a continuous plate splicing machine, which can be used for sequentially arranging and splicing plates in a first direction to form smaller plate units, then pushing the smaller plate units to a second pushing table along a second direction, splicing the plate units and improving the splicing quality.

The purpose of the invention is realized by adopting the following technical scheme:

a continuous plate splicing machine comprises a plate splicing machine,

the first pushing assembly comprises a first pushing table and a first pushing piece, and the first pushing table is used for arranging the plates along a first direction; the first pushing piece is arranged on the first pushing platform and pushes the plate along a second direction; the second direction is perpendicular to the first direction;

the second pushing assembly comprises a second pushing table and a second pushing piece, the second pushing table is used for receiving the plate pushed by the first pushing piece, and the second pushing piece is arranged on the second pushing table and pushes the plate along the first direction;

the third pushing assembly comprises a bin and a third pushing piece, and the bin is arranged on the side part of the first pushing platform and used for stacking a plurality of plates in a horizontal state; the first pushing platform is connected to a discharge hole of the storage bin; the third pushing member is used for sequentially pushing the plates to the first pushing table along the first direction.

Further, the continuous board splicing machine further comprises a turnover assembly, wherein the turnover assembly comprises a turnover frame and a turnover frame driving piece, and the turnover frame is used for receiving a plurality of vertical boards; the roll-over stand driving piece is used for driving the roll-over stand to turn over towards the storage bin, so that the plurality of vertical plates are turned over to be horizontally stacked to the storage bin.

Furthermore, a material pressing component is arranged at the top end of the stock bin and can move along the height direction of the stock bin; the pressing assembly is used for being pressed on the plates stacked in a horizontal state.

The continuous plate splicing machine further comprises a conveying assembly, wherein the conveying assembly comprises a conveying frame, a plurality of conveying rollers and a conveying roller driving part, a material blocking frame is arranged above the first pushing table, and the material blocking frame and the side part of the conveying frame form a material bin at intervals; the bottom end of the material blocking frame and the end face of the first pushing platform form a discharge hole of the storage bin at intervals; the conveying roller is pivoted on the conveying frame; the conveying rollers are distributed at intervals in the second direction; the conveying roller driving part is used for driving the plurality of conveying rollers to rotate so that the plurality of conveying rollers can convey the plurality of vertical plates along the second direction.

Furthermore, the turnover frame comprises a turnover shaft and a plurality of turnover plates, the turnover shaft is arranged below the plurality of conveying rollers, and the plurality of turnover plates are distributed in the interval between every two adjacent conveying rollers one by one; the plurality of turnover plates are connected with the turnover shaft; the overturning frame driving piece is used for driving the overturning shaft to rotate towards the material blocking frame.

Further, the continuous plate splicing machine further comprises a pressing plate assembly, the pressing plate assembly is arranged above the second pushing table, and the pressing plate assembly can move along the height direction of the second pushing table.

Furthermore, the first pushing member comprises a first pushing beam and a first driving member, the first pushing beam is arranged on the first pushing table, and the first pushing beam extends along a first direction; the first driving piece is used for driving the first pushing beam to move along a second direction.

Furthermore, the second pushing member comprises a second pushing beam and a second driving member, the second pushing beam is arranged on the second pushing platform and extends along the first direction, and the second driving member is used for driving the second pushing beam to move along the first direction.

Further, third propelling movement spare includes push pedal and push pedal driving piece, the lateral part that first propelling movement platform was kept away from to the feed bin is located to the push pedal, the push pedal driving piece is used for driving the push pedal and is close to along the first direction the feed bin motion.

Further, the continuous plate splicing machine further comprises a heating assembly, and the second pushing member is used for pushing the plate on the second pushing table to the heating assembly for heating and curing.

Compared with the prior art, the invention has the beneficial effects that:

1. a plurality of panel accessible third propelling movement spare that are the horizontality and stack in its feed bin are released, arrange in proper order at first propelling movement bench, and because the gluey face is located panel and is the side under the horizontality, therefore at the in-process of propelling movement in proper order, can tentatively veneer between panel and the panel, form the panel unit, improve later stage makeup efficiency.

2. The panel can splice into the panel unit on first propelling movement bench, but the first propelling movement spare propelling movement of the panel unit of first propelling movement bench concatenation formation to the second propelling movement bench, then the second propelling movement spare can be with the panel unit propelling movement to next station in proper order that is come by the propelling movement of first propelling movement bench, can splice through the panel unit when the concatenation is the big board, and the atress is relatively even in the unit, and the concatenation effect is better.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a first pushing assembly of the present invention;

FIG. 3 is a schematic structural diagram of a second pushing assembly of the present invention;

FIG. 4 is a schematic view of an assembly structure of the first pushing assembly and the third pushing assembly of the present invention;

fig. 5 is a schematic structural diagram of a third pushing assembly of the present invention.

In the figure: 10. a first push table; 11. a guide beam; 12. a chain; 13. a first motor; 14. a first push beam; 15. a mounting seat; 20. a second pushing table; 21. a belt; 22. a belt pulley; 23. a second push beam; 24. a second motor; 25. pressing the beam; 30. a third pushing assembly; 31. pushing the plate; 311. a push plate driving member; 32. a storage bin; 33. a material blocking frame; 34. a turnover plate; 35. a roll-over stand driving member; 36. pressing the material strips; 37. a swage strip drive member; 40. a delivery assembly; 41. a conveying roller; 42. a transmission belt; 43. a drive shaft; 50. high-frequency splicing machine.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

in the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The continuous panel splicing machine shown in fig. 1 to 5 includes a machine body, a first pushing assembly, a second pushing assembly and a third pushing assembly 30, and specifically, the first pushing assembly, the second pushing assembly and the third pushing assembly 30 are all mounted on the machine body.

The first pushing assembly comprises a first pushing table 10 and a first pushing member, the first pushing table 10 can arrange plates along a first direction, the first pushing member is arranged on the first pushing table 10, the first pushing member can push the plates along a second direction, and the second direction is perpendicular to the first direction.

In addition, the second pushing assembly includes a second pushing table 20 and a second pushing member, the second pushing table 20 can receive the board pushed by the first pushing member, and the second pushing member can be disposed on the second pushing table 20 and push the board along the first direction.

The third pushing assembly 30 includes a stock bin 32 and a third pushing member, the stock bin 32 is disposed on the side of the first pushing platform 10, the stock bin 32 can stack a plurality of boards in a horizontal state, the first pushing platform 10 is connected to the discharge hole of the stock bin 32, and the third pushing member can sequentially push the boards to the first pushing platform 10 along a first direction.

In this embodiment, the first direction is a width direction of the plate, i.e. a transverse direction, and the second direction may be a length direction of the plate, i.e. a longitudinal direction.

On the basis of the structure, when the continuous plate splicing machine is used, a plurality of horizontally placed plates can be stacked in the storage bin 32, glue is coated on two sides of each plate, when plate splicing operation is carried out, the third pushing member can push out one plate at a time along the plate stacked at the bottom when pushing, namely, the upper plate falls downwards, and then the third pushing member resets to operate again, so that the plates are pushed out one by one, quick material discharge is realized, and the material discharge effect is good. And because the gluey face is located panel and is the side under the horizontality, therefore at the in-process of propelling movement in proper order, can tentatively veneer between panel and the panel, improve later stage makeup efficiency, the panel of arranging on first propelling movement platform 10 is the horizontality and arranges promptly, splices in proper order in width direction, forms the panel unit.

The small plates in the plate unit are relatively few, after the plate unit is formed, the small plates can be pushed to the second pushing platform 20 in the longitudinal direction of the plate unit through the first pushing member, the plate unit is pushed in the longitudinal direction, so that the second pushing member can apply force in the transverse direction of the plate unit when being pushed, and when the next plate unit is pushed in, the plate unit is continuously spliced with the previous plate unit in the width direction under the action of the second pushing member.

Can be when the concatenation is the big board, splice through the panel unit, the atress is relatively even in the unit, and the concatenation effect is better. Similarly, the number of the plates of the single plate unit is relatively small, so that the condition of uneven stress in the sequential splicing process due to more plates is reduced, and the splicing effect of the single plate unit is better.

Of course, the first direction may be a longitudinal direction, and the second direction may be a transverse direction, in which case, the method may be applied to splice the plate materials to form the strip-shaped structure.

Specifically, this continuous makeup machine still includes the upset subassembly, and the upset subassembly includes roll-over stand and roll-over stand driving piece 35, and the roll-over stand can receive a plurality of vertical panels, and roll-over stand driving piece 35 can drive the roll-over stand and overturn towards feed bin 32 to make a plurality of vertical panels upset to the horizontality stack to feed bin 32.

On this structure basis, a plurality of coats are coated and are carried through conveying assembly 40 with the vertical panel of placing of glue solution, after carrying to the roll-over stand on, can start roll-over stand driving piece 35, roll-over stand driving piece 35 can drive the roll-over stand and rotate towards feed bin 32, because conveying assembly 40 carries to the roll-over stand on panel and is vertical state, after the roll-over stand upset, the lateral wall of feed bin 32 can be spacing to panel, therefore a plurality of panels of vertical placing can be the horizontality stack from top to bottom in feed bin 32.

Specifically, the top of feed bin 32 is equipped with presses the material subassembly, the heap top of feed bin 32 is located to the material subassembly of will pressing, should press the material subassembly can follow the direction of height motion of feed bin 32, specifically, when a roll-over stand turns into a plurality of panel and piles up for the horizontality, press the material subassembly can the crimping on the panel that is located feed bin 32 the top, namely, be that a plurality of panels that the horizontality piles up can be restricted by pressing the material subassembly at last, and the lateral part can be restricted by feed bin 32, prevent to push away the material subassembly when propelling movement panel, the skew appears in the panel propelling movement in-process, influence panel row material.

Because the pressing component applies pressure downwards, the lateral pushing force of the pushing component just overcomes the pressure applied by the pressing component, and the plate can be prevented from deviating while pushing is completed.

More specifically, the pressing assembly includes a pressing bar 36 and a pressing bar driving member 37, the pressing bar 36 is mounted on the machine body, the pressing bar 36 is located above the bin 32, and the pressing bar driving member 37 is mounted on the machine body and can drive the pressing bar 36 to move along the height direction of the bin 32. In this way, during the pressing operation, the pressing bar driving member 37 can drive the pressing bar 36 to move downward and press the pressing bar above the plate. It should be noted that the extending directions of the material pressing strips 36 and the plate material can be kept consistent, the material pressing strips 36 can be stably pressed on the plate material, and the plate material is more uniformly stressed.

In addition, during the pushing process of the pushing assembly, the stacking height of the sheet material will gradually decrease, so that the pressing bar driving member 37 can cooperate with the decreasing height of the sheet material to drive the pressing bar 36 to move downward to compensate the decreasing height of the sheet material.

Further, the continuous plate splicing machine also comprises a conveying assembly 40, and the conveying assembly 40 can convey the vertically placed plates to the turnover frame. Specifically, conveying assembly 40 includes carriage, a plurality of conveying roller 41 and conveying roller driving piece, is equipped with in the top of first propelling movement platform 10 and keeps off work or material rest 33, and this keeps off work or material rest 33 and the lateral part interval of carriage form feed bin 32, and keeps off the bottom of work or material rest 33 and the terminal surface interval of first propelling movement platform 10 and form the discharge gate of feed bin 32.

The conveying rollers 41 are pivotally connected to the conveying frame, and the conveying rollers 41 are distributed at intervals in the second direction, that is, the conveying rollers 41 can longitudinally convey vertically-placed plates, and the conveying roller driving member can drive the conveying rollers 41 to rotate, so that the conveying rollers 41 can convey the vertical plates in the second direction.

So, a plurality of coats are scribbled and are carried the vertical panel of placing of glue solution can be through conveying assembly 40, after carrying to the roll-over stand on, can start roll-over stand driving piece 35, roll-over stand driving piece 35 can drive the roll-over stand and rotate towards feed bin 32, because conveying assembly 40 carries to the roll-over stand on panel be vertical state, after the roll-over stand upset, a plurality of panels of vertical placing can be through keeping off material frame 33 restriction, restrict a plurality of panels and turn over out outwards, under the restriction that keeps off material frame 33, a plurality of panels can be the horizontality stack in the windrow interval from top to bottom.

It should be noted that, the interval between the bottom end face of the material blocking frame 33 and the end face of the material discharging platform can only allow one plate to pass through, so that when the material pushing assembly performs pushing operation, only one plate can be pushed out at a time, the plates are kept to be pushed out in sequence, and the material discharging effect is better.

Of course, the bottom end of the material blocking frame 33 may be provided with a limiting baffle, when a plurality of plates are stacked in a horizontal state, the limiting baffle abuts against the plate adjacent to the lowermost plate, and the limiting baffle may be hinged to the bottom end of the material blocking frame 33 through a torsion spring, so that the material pushing assembly can be pushed out by one plate at each time.

During specific conveying, the conveying assembly 40 includes a plurality of conveying rollers 41 and a conveying roller driving member, the conveying rollers 41 are distributed at intervals in the conveying direction, the conveying rollers 41 are pivoted on the machine body, and the conveying roller driving member is used for driving the conveying rollers 41 to rotate, so that the conveying rollers 41 can convey a plurality of vertical plates along the conveying direction.

When carrying out panel transport promptly, the panel that is vertical state and places after the outside rubber coating can be received to conveying roller 41, and conveying roller driving piece drives a plurality of conveying roller 41 and rotates, alright carry the operation. And have the interval between two adjacent conveying rollers 41, the contact of the reducible conveying roller 41 of interval and panel prevents to glue on the continuous conveying roller 41 and pollutes the panel.

More specifically, the conveying roller driving member in this embodiment includes a driving shaft 43, a driving shaft driving member, and a driving belt 42, the driving shaft 43 extends along the conveying direction and is pivoted to the bottom end of the machine body; one end of each transmission belt 42 is respectively wound on the conveying roller 41, and the other end of each transmission belt 42 is wound outside the driving shaft 43; the driving shaft driving member is used for driving the driving shaft 43 to rotate.

When carrying out the drive of a plurality of conveying rollers 41, the motor can drive driving shaft 43 and rotate, and driving shaft 43 rotates the in-process, can drive a plurality of conveying roller 41 synchronous rotations that correspond with a plurality of drive belts 42 through the transmission of a plurality of drive belts 42, and a plurality of conveying roller 41 synchronism are higher, and panel transport is more steady.

On the basis of the structure, in the embodiment, the roll-over stand comprises a roll-over shaft and a plurality of roll-over plates 34, when the roll-over stand is assembled, the roll-over shaft is arranged below a plurality of conveying rollers 41, the roll-over plates 34 are distributed in the interval between two adjacent conveying rollers 41 one by one, and the roll-over plates 34 are all connected with the roll-over shaft; the roll-over stand driving member 35 is used for driving the roll-over shaft to rotate.

When carrying out the upset operation, because a plurality of returning face plates 34 correspond the interval of distributing between two liang of conveying rollers 41, a plurality of conveying rollers 41 carry panel to carry the back that targets in place, and a plurality of returning face plates 34 can bear the below at a plurality of panels, and afterwards, roll-over stand driving piece 35 can drive the trip shaft and be close to the feed bin 32 upset, and a plurality of returning face plates 34 can be turned over out by the interval between two adjacent conveying rollers 41, alright drive the panel on the returning face plate 34 and overturn.

Of course, other structures can be selected for use by the turnover mechanism and the conveying mechanism, the whole conveying assembly 40 can be directly arranged on the turnover frame, and after the conveying assembly is conveyed in place, the turnover frame drives the whole conveying assembly 40 to turn over.

Further, this continuous makeup machine still includes the clamp plate subassembly, locate the top of second propelling movement platform 20 with the clamp plate subassembly, the clamp plate subassembly can be followed the direction of height motion of second propelling movement platform 20, so, after two panel units all are located second propelling movement platform 20, the clamp plate subassembly can the downstream, compress tightly on two panel units, after the clamp plate subassembly flattens, send into the splicer by second propelling movement subassembly again, prevent the concatenation in-process, the condition of perk appears in panel, the concatenation effect is better.

Specifically, the clamp plate subassembly includes the fixed beam, press roof beam 25 and press roof beam 25 driving piece, above-mentioned press roof beam 25 extends along first direction, and the fixed beam locates the top of second propelling movement platform 20, will press roof beam 25 to install in the bottom of fixed beam, press roof beam 25 driving piece can drive press roof beam 25 along the direction of height motion of second propelling movement platform 20, so, when carrying out the clamp plate operation, can drive press roof beam 25 downstream through press roof beam 25 driving piece, press roof beam 25 alright carry out the butt with panel, realize the clamp plate operation. It should be noted that, because the pressing beam 25 extends along the transverse direction, each plate unit to be spliced can be pressed in the transverse splicing direction, the stress is uniform, and the splicing effect is better.

Furthermore, a plurality of pressing beams 25 are arranged at the bottom ends of the fixed beams, the plurality of pressing beams 25 are distributed at intervals along the second direction, and the driving piece of the pressing beam 25 can drive the plurality of pressing beams 25 to move. It should be noted that, the driving member of the pressing beam 25 can be selected as a plurality of air cylinders in the prior art, the cylinder bodies of the air cylinders are all installed on the fixed beam, and the plurality of pressing beams 25 of the piston rods of the air cylinders are connected, so that the force can be uniformly applied in the longitudinal direction of the plate unit through the plurality of pressing beams 25, and the force can be applied in the transverse direction of the plate unit through the single pressing beam 25, so that the plate unit is more uniformly stressed, and the subsequent plate splicing effect is better.

Further, the first pushing member in this embodiment includes a first pushing beam 14 and a first driving member, the first pushing beam 14 is disposed on the first pushing platform 10, the first pushing beam 14 extends along a first direction, and the first driving member can drive the first pushing beam 14 to move along a second direction. Therefore, when the plate is longitudinally pushed, the first driving piece can drive the first pushing beam 14 to longitudinally move, and the first pushing beam 14 transversely extends, so that the first pushing beam 14 can push at each position of the plate unit, the stress is uniform, and the deviation is prevented from occurring in the pushing process.

More specifically, the first pushing member includes a first driving member including a first motor 13, a chain 12, a sprocket, a mounting beam and a guide beam 11, the mounting beam and the guide beam 11 are both mounted above the first pushing stage 10, the mounting beam and the guide beam 11 extend above the second pushing stage 20 along the second direction, and the chain 12 is mounted on the mounting beam. In addition, the top end of the first pushing beam 14 is provided with an installation seat 15, the first motor 13 is installed on the installation seat 15, a chain wheel is connected with a rotating shaft of the first motor 13, and the chain wheel is meshed with the chain 12; the mount 15 is a sliding fit with the guide beam 11.

On the basis of the structure, when the first pushing beam 14 is pushed, the first motor 13 is started, the first motor 13 can drive the chain wheel to rotate, the chain wheel can rotate to advance along the chain 12, and then the whole mounting seat 15 is driven to move, so that the first pushing beam 14 is driven to move. Of course, since the mount 15 is slidably fitted with the guide beam 11, the first push beam 14 can be pushed stably.

It should be noted that, a guide wheel may be disposed at the bottom end of the mounting seat 15, and the guide wheel may be in rolling fit with the guide beam 11, so as to achieve stable pushing of the mounting seat 15.

Further, the second pushing member includes a second pushing beam 23 and a second driving member, the second pushing beam 23 is disposed on the second pushing platform 20, the second pushing beam 23 extends along the first direction, and the second driving member can drive the second pushing beam 23 to move along the first direction. So, when carrying out the propelling movement of panel unit, accessible second driving piece drives second propelling movement roof beam 23 along horizontal propelling movement, and second propelling movement roof beam 23 is along longitudinal extension, therefore second propelling movement roof beam 23 can be in vertical different section application of force, and the atress is even, and the concatenation effect of panel unit is better.

More specifically, the second driving member includes a second motor 24, a belt 21 and a belt pulley 22, the second motor 24 is mounted at the bottom end of the second pushing table 20, and the belt pulley 22 is pivoted at both ends of the second pushing table 20 in the first direction; two ends of the belt 21 are respectively wound on the belt pulleys 22; the second push beam 23 is connected to the horizontal drive section of the belt 21. Therefore, the belt pulley 22 can be driven to rotate by the second motor 24, the belt pulley 22 can be driven to rotate to drive the belt 21 to transmit, and the second pushing beam 23 connected with the transmission section of the belt 21 between the two belt pulleys 22 can move to push the plate unit.

It should be noted that the first driving element and the second driving element can also be directly implemented by other linear motion output mechanisms in the prior art, such as an air cylinder or an oil cylinder in the prior art.

Further, the third pushing member comprises a pushing plate 31 and a pushing plate driving member 311, the pushing plate 31 is disposed on a side of the magazine 32 away from the first pushing table 10, and the pushing plate driving member 311 can drive the pushing plate 31 to move close to the magazine 32 along the first direction. When carrying out push pedal 31 and arranging the material operation, push pedal driving piece 311 can drive push pedal 31 and be close to the motion of feed bin 32, adopts the lateral part of push pedal 31 and panel to carry out the propelling movement, and push pedal 31 is bigger with the contact surface of panel, and thrust is more even, and the contact surface atress between panel and the panel is even after the propelling movement, and the amalgamation face is more neat.

Further, the continuous plate splicing machine further comprises a heating assembly, the heating assembly can be a high-frequency heating device of an existing high-frequency plate splicing machine 50, and after the plate units are spliced, the second pushing member can push the plates on the second pushing table 20 to the heating assembly of the high-frequency plate splicing machine 50 for heating and curing, so that plate splicing and heating and curing integrated operation is performed, and the automation degree is better.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. A continuous panel splicing machine is characterized by comprising,

2. The continuous panel machine of claim 1, further comprising an inversion assembly including an inversion carriage for receiving a plurality of vertical panels and an inversion carriage drive; the roll-over stand driving piece is used for driving the roll-over stand to turn over towards the storage bin, so that the plurality of vertical plates are turned over to be horizontally stacked to the storage bin.

3. The continuous panel splicing machine according to claim 2, wherein a pressing component is arranged at the top end of the stock bin, and the pressing component can move along the height direction of the stock bin; the pressing assembly is used for being pressed on the plates stacked in a horizontal state.

4. The continuous panel splicing machine according to claim 2, further comprising a conveying assembly, wherein the conveying assembly comprises a conveying frame, a plurality of conveying rollers and a conveying roller driving part, a material blocking frame is arranged above the first pushing table, and the material blocking frame and the side part of the conveying frame are spaced to form the bin; the bottom end of the material blocking frame and the end face of the first pushing platform form a discharge hole of the storage bin at intervals; the conveying roller is pivoted on the conveying frame; the conveying rollers are distributed at intervals in the second direction; the conveying roller driving part is used for driving the plurality of conveying rollers to rotate so that the plurality of conveying rollers can convey the plurality of vertical plates along the second direction.

5. The continuous panel splicing machine according to claim 4, wherein the turnover frame comprises a turnover shaft and a plurality of turnover plates, the turnover shaft is arranged below the plurality of conveying rollers, and the plurality of turnover plates are distributed in the interval between two adjacent conveying rollers one by one; the plurality of turnover plates are connected with the turnover shaft; the overturning frame driving piece is used for driving the overturning shaft to rotate towards the material blocking frame.

6. The continuous panel splicer of claim 1, further comprising a platen assembly disposed above the second pusher table, the platen assembly being movable along the height of the second pusher table.

7. The continuous panel splicing machine according to any one of claims 1 to 6, wherein the first pushing member comprises a first pushing beam provided on the first pushing table and a first driving member, the first pushing beam extending in a first direction; the first driving piece is used for driving the first pushing beam to move along a second direction.

8. The continuous panel splicing machine according to any one of claims 1 to 6, wherein the second pushing member comprises a second pushing beam provided on the second pushing table, the second pushing beam extending in the first direction, and a second driving member for driving the second pushing beam to move in the first direction.

9. The continuous panel splicer according to any one of claims 1 to 6, wherein the third pusher comprises a pusher plate disposed on a side of the magazine remote from the first pusher table, and a pusher plate drive member for moving the pusher plate in a first direction towards the magazine.

10. The continuous panel splicing machine according to any one of the claims 1 to 6, further comprising a heating assembly, wherein the second pushing member is adapted to push the panel on the second pushing table to the heating assembly for heat curing.