CN215159784U - Double-triangle broken-sheet stacking and wire connecting device - Google Patents

Abstract

The utility model provides a double-triangle plate broken-sheet stacking online device, which comprises a primary folding part assembly, a secondary folding part assembly, a broken-sheet part assembly, a paper collecting part assembly and a stacking part assembly, wherein the primary folding part assembly and the secondary folding part assembly respectively comprise a triangle plate folding unit, each triangle plate folding unit comprises a bottom roller, a point line knife and an adjustable triangle plate, the point line knife is connected with a servo position adjusting mechanism, the broken-sheet part assembly comprises a rubber roller, a traction roller and a broken-sheet mechanism, the rubber roller is connected with the rubber roller adjusting mechanism, the paper collecting part assembly comprises a paper conveying mechanism, a paper folding mechanism and a paper feeding mechanism which are sequentially arranged along the advancing direction of paper, the stacking part assembly comprises a paper receiving plate, a paper baffle plate, a first conveying belt and a paper pushing mechanism, the paper receiving plate is connected with a paper collecting plate driving mechanism, the utility model realizes the secondary folding of printed paper, and simultaneously can ensure that the paper can be directly subjected to the broken-sheet collecting and stacking processes without the paper-sheet folding roller, and the integration online of multiple processes is realized, the labor is saved, and the production efficiency is greatly improved.

Description

Double-triangle broken-sheet stacking and wire connecting device

Technical Field

The utility model belongs to the technical field of the paper folding machine technique and specifically relates to a broken piece of two set-squares piles up on-line device is related to.

Background

The folding machine is mainly used for folding paper with different sizes and thicknesses in a design range and is suitable for folding large-batch paper in places such as rapid printing centers, production enterprises, official documents, business letters and the like. The former folding device is an essential part of a post-press device and is used as a part of a folding machine for completing folding of paper.

The existing folding machine mainly has the following problems: the first is that the existing folding machine can only realize one-time folding of paper, and cannot meet the requirement of the existing folding work, if the paper needs to be folded secondarily, the paper needs to enter the folding machine again, which is very troublesome; secondly, the existing folding machine has single dot line specification and can not meet the requirement; thirdly, in the existing folding machine, the folded paper can be subjected to subsequent processes of breaking, collecting and stacking after passing through a folding cylinder on the folding machine.

Therefore, a double-triangle sheet-cutting stacking line connecting device capable of solving the above problems is required.

SUMMERY OF THE UTILITY MODEL

The utility model provides a two set-square are disconnected and are piled up on-line device has realized the secondary of printing back paper and has folded paper, can make the paper directly carry out disconnected paper delivery and pile up the process through the cylinder of folding paper simultaneously, has realized the integration on-line of multiple operation moreover, has saved the manual work, very big improvement production efficiency.

The technical scheme of the utility model is realized like this:

the double-triangle broken sheet stacking line connecting device comprises a primary folding part assembly, a secondary folding part assembly, a broken sheet part assembly, a paper collecting part assembly and a stacking part assembly which are sequentially connected along the advancing direction of paper;

the primary folding part assembly and the secondary folding part assembly respectively comprise a triangular plate folding unit, each triangular plate folding unit comprises a pair of parallel wallboards, the upper parts of each pair of wallboards are jointly provided with a horizontally arranged bottom roller, one side of each bottom roller is provided with a plurality of parallel line-pointing knives, the line-pointing knives on the same pair of wallboards are jointly connected with a servo position adjusting mechanism, and an adjustable triangular plate which inclines downwards is arranged between each pair of wallboards;

the paper breaking part comprises a first rack, a rubber roller and a traction roller which are arranged up and down are arranged on the first rack, the rubber roller and the traction roller are both horizontally arranged, the traction roller is rotatably arranged on the first rack, the rubber roller is connected with a rubber roller adjusting mechanism, a paper breaking mechanism for cutting paper is further arranged on the first rack, and the paper breaking mechanism is arranged at the downstream of the rubber roller and the traction roller;

the paper collecting part comprises a second frame, and a paper conveying mechanism, a paper stacking mechanism and a paper feeding mechanism are sequentially arranged on the second frame along the paper advancing direction;

pile up the portion dress and include the third frame, there is one along vertical direction slidable mounting in the third frame and connects the cardboard, connect the cardboard to be connected with one and be used for the drive connect the cardboard actuating mechanism of cardboard, connect the vertical paper baffle that is used for blockking the paper that is provided with in one side of cardboard, the below of paper baffle is provided with a first conveyer belt, be provided with one in the third frame and be used for arriving the paper propelling movement mechanism on the first conveyer belt.

As an optimal technical scheme, each servo position adjusting mechanism comprises an adjusting lead screw which is horizontally arranged, each adjusting lead screw is installed on the corresponding two wallboards and is parallel to the bottom roller, a plurality of sliding seats are installed on each adjusting lead screw in a threaded mode, each line dotting knife is fixed with one sliding seat, and each sliding seat is connected with a servo motor in a transmission mode.

As an optimal technical scheme, each adjusting screw rod and a supporting rod are arranged between the corresponding bottom rollers, each supporting rod is parallel to the bottom rollers and fixed on the two wallboards, and each sliding seat is slidably mounted on the corresponding supporting rod.

As a preferable technical scheme, a cross bar is fixed on the lower part of each pair of wall boards, each cross bar is parallel to the bottom roller, the nose tip of each adjustable triangular plate is fixed on the corresponding cross bar, the other end of each adjustable triangular plate is arranged on one side of the bottom roller, and the other end of each adjustable triangular plate is positioned below the adjusting screw rod.

As a preferred technical scheme, the breaking mechanism comprises a spiral knife rotatably mounted on the first frame, the spiral knife is horizontally arranged and parallel to the traction roller, and a bottom knife matched with the spiral knife is arranged below the spiral knife.

As a preferred technical scheme, the rubber roller adjusting mechanism comprises two adjusting rods which are respectively hinged to two ends of the rubber roller, the middle of each adjusting rod is hinged to the first rack, the other end of each adjusting rod is connected with a piston rod of an air cylinder, and a cylinder body of each air cylinder is fixed on the first rack.

As a preferred technical scheme, the paper conveying mechanism comprises an upper conveying belt and a lower conveying belt which are arranged up and down, the upper conveying belt and the lower conveying belt are both arranged on the second rack, and the upper conveying belt and the lower conveying belt are both driven by a variable frequency motor;

the paper folding mechanism comprises a second conveying belt connected with the lower conveying belt, an adjustable paper pressing wheel arranged on the second rack is further arranged above the second conveying belt, and the adjustable paper pressing wheel is pressed against the top of the second conveying belt;

the paper feeding unit comprises a front conveying belt and a rear conveying belt which are connected, the paper feeding end of the front conveying belt is connected with the second conveying belt located at the upstream, and a moving plate for conveying paper on the front conveying belt to the rear conveying belt is arranged on the second rack.

As a preferred technical scheme, push away paper mechanism include one install in hold-in range in the third frame, the hold-in range set up in the below of first conveyer belt, install one on the hold-in range be used for with paper on the board that connects pushes away the push pedal on the first conveyer belt, the push pedal perpendicular to connect the cardboard setting.

As a preferred technical scheme, the paper receiving plate driving mechanism comprises a vertically arranged ball screw, the ball screw is rotatably installed on the third rack, the ball screw is connected with a driving motor in a transmission manner, a lifting frame is installed on the ball screw in a threaded manner, and the paper receiving plate is fixed on the lifting frame.

By adopting the technical scheme, the beneficial effects of the utility model are that:

because two set-squares are broken and are piled up on-line device and include the portion of folding paper dress, the secondary portion of folding paper dress, the portion of opening paper dress, receipts paper portion dress and the portion of piling up dress that links up the setting in proper order along paper direction of advance the utility model discloses in, the paper that the printing is good enters into a portion of folding paper earlier and carries out folding for the first time, accomplishes and carries out folding for the second time in the first folding paper entering secondary portion of folding paper dress of accomplishing, later the mechanism of opening paper of breaking on the portion of opening paper dress cuts off the paper, then through the receipts paper work of receiving paper portion dress to and pile up and form final product behind the work of piling up of portion dress, take off by the manual work at last can.

In the utility model, the double-set square structure is adopted to fold the printed paper for the second time, and meanwhile, the paper can directly carry out the processes of breaking and collecting paper and stacking without passing through a folding cylinder in the utility model, thereby realizing the rapid breaking and stacking of the paper; and the utility model discloses to fold paper, break, collect paper, pile up a plurality of processes and integrate the line together, saved required manual work and time in the production process, very big improvement the production efficiency of folding machine.

Because the set-square unit of folding paper all includes bottom roll, point line sword and servo position control mechanism the utility model discloses in, the point line sword is used for carrying out the electric wire to the paper, and the position of point line sword can be adjusted according to the specification of paper and the needs of production, and servo motor drives the drive worm wheel and rotates, drives the point line sword through the transmission of worm gear structure and removes, has realized the adjustment to point line sword position, makes the user can carry out free adjustment to the specification of folding paper as required.

Because disconnected tension part dress includes rubber roll and carry over pinch rolls, and the rubber roll is connected with a rubber roll adjustment mechanism the utility model discloses in, the carry over pinch rolls is rotated by a motor drive, and the user can come through the interval between cylinder control rubber roll and the carry over pinch rolls according to the thickness of the required paper of folding paper, has guaranteed the traction work of rubber roll and carry over pinch rolls to the paper.

Because all be fixed with a bracing piece between each to the wallboard, the equal slidable mounting of each sliding seat is on corresponding the bracing piece the utility model discloses in, the bracing piece plays the effect of direction and support to the sliding seat, has improved the stability that the fixed stability of dotted line sword and the stability that moves in the dotted line sword position control process.

Because one side of the paper receiving plate is provided with the paper baffle plate, in the utility model, the paper baffle plate has the function of preventing paper from falling off the paper receiving plate, and the position of the paper baffle plate can be adjusted back and forth according to the size of a product; connect the cardboard to be connected with one and connect cardboard actuating mechanism the utility model discloses in, driving motor rotates through driving ball and drives to connect the cardboard and reciprocate, therefore the user can adjust the height that connects the cardboard according to the thickness of different products.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

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

FIG. 2 is a schematic structural view of a triangle folding unit of the present invention;

FIG. 3 is a schematic structural view of the tension-breaking part of the present invention;

FIG. 4 is a schematic structural view of the paper receiving unit of the present invention;

FIG. 5 is a schematic view showing a state where sheets are partially overlapped;

fig. 6 is a schematic structural view of the stacking unit of the present invention.

Wherein: 1. a primary folding unit 10; 20. secondary folding part assembly; 101. a triangular plate folding unit; 102. a wallboard; 103. a bottom roll; 104. a line dotting knife; 105. an adjustable triangle; 106. adjusting the lead screw; 107. a sliding seat; 108. a servo motor; 109. a support bar; 1010. a cross bar; 30. the broken part is installed; 301. a first frame; 302. a rubber roller; 303. a traction roller; 304. a spiral knife; 305. a bed knife; 306. adjusting a rod; 307. a cylinder; 40. a paper collecting part; 401. a second frame; 402. an upper conveying belt; 403, a conveying belt; 404. a variable frequency motor; 405. a second conveyor belt; 406. the paper pressing wheel can be adjusted; 407. a front conveyor belt; 408. a rear conveyor belt; 409. moving the plate; 50. stacking; 501. a third frame; 502. paper receiving plates; 503. a paper baffle; 504. a first conveyor belt; 505. a synchronous belt; 506. pushing the plate; 507. a ball screw; 508. a drive motor; 509. a lifting frame; 60. paper.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-6, the double-triangle sheet-cutting stacking line device comprises a primary folding unit 10, a secondary folding unit 20, a sheet-cutting unit 30, a sheet-collecting unit 40 and a stacking unit 50 which are sequentially arranged in an abutting manner along the advancing direction of a sheet 60, wherein arrows shown in fig. 1, 3 and 5 indicate the advancing direction of the sheet 60.

The primary folding part assembly 10 and the secondary folding part assembly 20 both comprise a triangular plate folding unit 101, each triangular plate folding unit 101 comprises a pair of wall plates 102 which are parallel to each other, a bottom roller 103 which is horizontally arranged is commonly installed on the upper part of each pair of wall plates 102, one side of each bottom roller 103 is provided with a plurality of line point cutters 104 which are arranged side by side, the line point cutters 104 which are arranged on the same pair of wall plates 102 are commonly connected with a servo position adjusting mechanism, and an adjustable triangular plate 105 which inclines downwards is arranged between each pair of wall plates 102.

The tension breaking part 30 comprises a first frame 301, a rubber roller 302 and a traction roller 303 which are arranged up and down are installed on the first frame 301, the traction roller 303 is rotatably installed on the first frame 301, the rubber roller 302 and the traction roller 303 are both horizontally arranged, the rubber roller 302 is connected with a rubber roller adjusting mechanism, a tension breaking mechanism for cutting off the paper 60 is further arranged on the first frame 301, and the tension breaking mechanism is arranged at the downstream of the rubber roller 302 and the traction roller 303.

The sheet delivery unit 40 includes a second frame 401, and a sheet feeding mechanism, a sheet stacking mechanism, and a sheet feeding mechanism are provided in this order along the forward direction of the sheet 60 on the second frame 401.

The stacking unit 50 includes a third frame 501, a paper receiving plate 502 is slidably mounted on the third frame 501 along a vertical direction, the paper receiving plate 502 is connected to a driving mechanism for driving the paper receiving plate 502, a paper blocking plate 503 for blocking the paper 60 is vertically disposed on one side of the paper receiving plate 502, a first conveying belt 504 is disposed below the paper blocking plate 503, and a paper pushing mechanism for pushing the paper 60 onto the first conveying belt 504 is disposed on the third frame 501.

As shown in fig. 2, each servo position adjusting mechanism includes an adjusting screw 106 horizontally disposed, each adjusting screw 106 is installed on the corresponding two wall boards 102 and is parallel to the bottom roller 103, each adjusting screw 106 is installed with a plurality of sliding seats 107 by screw threads, each point line knife 104 is fixed with one sliding seat 107, and each sliding seat 107 is connected with a servo motor 108 in a transmission manner.

Wherein, each is adjusted lead screw 106 and is corresponded and all be provided with a bracing piece 109 between the bottom roll 103, and on each bracing piece 109 all was on a parallel with bottom roll 103 and was fixed in two wallboards 102, the equal slidable mounting of each sliding seat 107 was on corresponding bracing piece 109 the utility model discloses in, bracing piece 109 had played the effect of support, had improved the fixed stability of dotted line sword 104.

A cross bar 1010 is fixed on the lower part of each pair of wall plates 102, each cross bar 1010 is parallel to the bottom roller 103, the nose tip of each adjustable triangular plate 105 is fixed on the corresponding cross bar 1010, the other end of each adjustable triangular plate 105 is arranged on one side of the bottom roller 103, and the other end of each adjustable triangular plate 105 is positioned below the adjusting screw 106.

As shown in fig. 3, the tension breaking mechanism includes a spiral blade 304 rotatably mounted on the first frame 301, the spiral blade 304 is horizontally disposed and parallel to the drawing roller 303, a bottom blade 305 is disposed below the spiral blade 304 and is adapted to the spiral blade 304, and in this embodiment, the spiral blade 304 is driven by a motor to rotate.

Moreover, rubber roll adjustment mechanism includes that two articulate respectively in the regulation pole 306 at rubber roll 302 both ends, and the middle part of each regulation pole 306 all articulates on first frame 301, and the other end of each regulation pole 306 all is connected with the piston rod of a cylinder 307, and the cylinder body of each cylinder 307 all is fixed in on first frame 301 the utility model discloses in, the user can adjust the interval between rubber roll 302 and the carry over pinch rolls 303 according to the thickness of the paper 60 that the claim will be folded paper to the normal clear of paper 60 work of pulling has been guaranteed.

As shown in fig. 4, the paper feeding mechanism includes an upper conveyor belt 402 and a lower conveyor belt 403 which are disposed up and down, the upper conveyor belt 402 and the lower conveyor belt 403 are both mounted on the second frame 401, and the upper conveyor belt 402 and the lower conveyor belt 403 are both driven by a variable frequency motor 404.

The paper stacking mechanism comprises a second conveyor belt 405 connected with the lower conveyor belt 403, an adjustable paper pressing wheel 406 arranged on the second frame 401 is further arranged above the second conveyor belt 405, and the adjustable paper pressing wheel 406 is pressed against the top of the second conveyor belt 405.

The paper feeding unit includes a front conveyor 407 and a rear conveyor 408 connected to each other, a paper feeding end of the front conveyor 407 is connected to a second conveyor 405 located upstream, and a moving plate 409 for feeding the paper 60 on the front conveyor 407 to the rear conveyor 408 is disposed on the second frame 401.

As shown in fig. 5, the paper pushing mechanism includes a timing belt 505 installed on the third frame 501, the timing belt 505 is installed below the first conveyor belt 504, a pushing plate 506 for pushing the paper 60 on the paper receiving plate 502 to the first conveyor belt 504 is installed on the timing belt 505, and the pushing plate 506 is installed perpendicular to the paper receiving plate 502.

In addition, connect cardboard 502 actuating mechanism to include the ball 507 of a vertical setting, and ball 507 rotates and installs on third frame 501, and ball 507 transmission is connected with a driving motor 508, and a crane 509 is installed to the screw thread on the ball 507, is fixed with on the crane 509 and connects cardboard 502.

Use the utility model discloses the process of folding paper 60 is as follows:

firstly, printed paper 60 enters the primary folding part assembly 10, the paper 60 moves forwards around a bottom roller 103, a point line knife 104 rotates to point the paper 60 on the bottom roller 103, then the paper is folded for the first time by an adjustable triangular plate 105, the paper 60 which is folded for the first time is conveyed to the secondary folding part assembly 20, and the operation is repeated to complete the second folding;

secondly, the paper 60 which completes the second folding enters between the bottom knife 305 and the spiral knife 304 under the traction action of the traction roller 303, meanwhile, the spiral knife 304 rotates under the driving action of the motor, and when the knife body on the spiral knife 304 is matched with the bottom knife 305, the paper 60 can be cut off;

third, the sheet 60 after the sheet break is fed between the upper conveyor belt 402 and the lower conveyor belt 403 of the sheet conveying mechanism and is conveyed to the second conveyor belt 405 of the sheet stacking mechanism by the upper conveyor belt 402 and the lower conveyor belt 403, the sheet 60 can be partially overlapped by the adjustable pressing wheel 406 pressed on the second conveyor belt 405, the partially overlapped sheet 60 is shown in fig. 5, the partially overlapped sheet 60 passes through the front conveyor belt 407 of the sheet conveying mechanism to move on the moving plate 409, and the moving plate 409 rapidly moves to rapidly push the sheet 60 to the stacking unit 50.

Fourthly, the moving plate 409 pushes the partially overlapped paper 60 to the paper receiving plate 502 for stacking, when the paper 60 on the paper receiving plate 502 reaches a preset specification, the driving motor 508 drives the ball screw 507 to rotate, the wiring board falls, the synchronous belt 505 drives the pushing plate 506 to push the paper 60 on the wiring board to the conveying belt, and the conveying belt sends out the paper 60 and finally is manually taken down.

To sum up, the utility model provides a two set-square are disconnected and are piled up on-line device has realized that the secondary of back paper 60 of printing is folded paper, can make paper 60 not directly carry out disconnected paper receipts and pile up the process through the cylinder of folding paper simultaneously, has realized the integration on-line of multiple operation moreover, has saved the manual work, very big improvement production efficiency.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The double-triangle broken sheet stacking line connecting device is characterized by comprising a primary folding part device, a secondary folding part device, a broken sheet part device, a paper collecting part device and a stacking part device which are sequentially connected in the paper advancing direction;

the primary folding part assembly and the secondary folding part assembly respectively comprise a triangular plate folding unit, each triangular plate folding unit comprises a pair of parallel wallboards, the upper parts of each pair of wallboards are jointly provided with a horizontally arranged bottom roller, one side of each bottom roller is provided with a plurality of parallel line-pointing knives, the line-pointing knives on the same pair of wallboards are jointly connected with a servo position adjusting mechanism, and an adjustable triangular plate which inclines downwards is arranged between each pair of wallboards;

the paper breaking part comprises a first rack, a rubber roller and a traction roller which are arranged up and down are arranged on the first rack, the rubber roller and the traction roller are both horizontally arranged, the traction roller is rotatably arranged on the first rack, the rubber roller is connected with a rubber roller adjusting mechanism, a paper breaking mechanism for cutting paper is further arranged on the first rack, and the paper breaking mechanism is arranged at the downstream of the rubber roller and the traction roller;

the paper collecting part comprises a second frame, and a paper conveying mechanism, a paper stacking mechanism and a paper feeding mechanism are sequentially arranged on the second frame along the paper advancing direction;

pile up the portion dress and include the third frame, there is one along vertical direction slidable mounting in the third frame and connects the cardboard, connect the cardboard to be connected with one and be used for the drive connect the cardboard actuating mechanism of cardboard, connect the vertical paper baffle that is used for blockking the paper that is provided with in one side of cardboard, the below of paper baffle is provided with a first conveyer belt, be provided with one in the third frame and be used for arriving the paper propelling movement mechanism on the first conveyer belt.

2. The double-triangular-plate broken-sheet stacking line connecting device as claimed in claim 1, wherein each of the servo position adjusting mechanisms comprises a horizontally-arranged adjusting screw, each of the adjusting screws is mounted on two corresponding wall plates and parallel to the bottom roller, each of the adjusting screws is threadedly mounted with a plurality of sliding seats, each of the line dotting knives is fixed with one of the sliding seats, and each of the sliding seats is in transmission connection with a servo motor.

3. The double-triangular-plate broken-sheet stacking and wiring device as claimed in claim 2, wherein a support rod is arranged between each adjusting screw and the corresponding bottom roller, each support rod is parallel to the bottom roller and fixed on the two wall plates, and each point wire cutter is slidably mounted on the corresponding support rod.

4. The double-triangular-plate tensioning and stacking line connecting device as claimed in claim 2, wherein a cross bar is fixed to the lower portion of each pair of wall plates, each cross bar is parallel to the bottom roller, the nose tip of each adjustable triangular plate is fixed to the corresponding cross bar, the other end of each adjustable triangular plate is arranged on one side of the bottom roller, and the other end of each adjustable triangular plate is located below the adjusting screw.

5. The double-triangular-plate breaking, stacking and connecting device according to claim 1, wherein the breaking mechanism comprises a spiral knife rotatably mounted on the first frame, the spiral knife is horizontally arranged and parallel to the drawing roller, and a bottom knife matched with the spiral knife is arranged below the spiral knife.

6. The double-triangular-plate breaking, stacking and line connecting device according to claim 1, wherein the rubber roll adjusting mechanism comprises two adjusting rods respectively hinged to two ends of the rubber roll, the middle of each adjusting rod is hinged to the first frame, the other end of each adjusting rod is connected with a piston rod of an air cylinder, and a cylinder body of each air cylinder is fixed to the first frame.

7. The double-triangle sheet breaking and stacking line connecting device as claimed in claim 1, wherein the paper conveying mechanism comprises an upper conveying belt and a lower conveying belt which are arranged up and down, the upper conveying belt and the lower conveying belt are both mounted on the second frame, and both the upper conveying belt and the lower conveying belt are driven by a variable frequency motor;

the paper folding mechanism comprises a second conveying belt connected with the lower conveying belt, an adjustable paper pressing wheel arranged on the second rack is further arranged above the second conveying belt, and the adjustable paper pressing wheel is pressed against the top of the second conveying belt;

the paper feeding unit comprises a front conveying belt and a rear conveying belt which are connected, the paper feeding end of the front conveying belt is connected with the second conveying belt located at the upstream, and a moving plate for conveying paper on the front conveying belt to the rear conveying belt is arranged on the second rack.

8. The double-triangle sheet breaking and stacking on-line device as claimed in claim 1, wherein the paper pushing mechanism comprises a synchronous belt mounted on the third frame, the synchronous belt is disposed below the first conveying belt, a pushing plate for pushing the paper on the paper receiving plate onto the first conveying belt is mounted on the synchronous belt, and the pushing plate is disposed perpendicular to the paper receiving plate.

9. The double-triangle-plate breaking, stacking and wiring device according to claim 1, wherein the paper receiving plate driving mechanism comprises a vertically arranged ball screw, the ball screw is rotatably mounted on the third rack, the ball screw is in transmission connection with a driving motor, a lifting frame is mounted on the ball screw in a threaded manner, and the paper receiving plate is fixed on the lifting frame.

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