CN114103253A - Full-automatic production equipment for notebook computer packaging box - Google Patents

Abstract

The invention discloses full-automatic production equipment for a notebook computer packaging box, which comprises a rack, a plurality of groups of bin parts, a plurality of groups of folding box assemblies, a plurality of groups of transplanting units, a conveying assembly, a protective cover and a feed opening, wherein the rack is integrally rectangular, the protective cover is locked and installed on one side of the upper surface of the rack, and the bin parts are distributed at the front end of the upper surface of the rack side by side. The invention utilizes a plurality of groups of bin parts to realize the rapid storage of a plurality of groups of unprocessed cartons, ensures the sufficient supply of subsequent processing raw materials, rapidly forms and folds the cartons through the carton folding assemblies, then rapidly transfers and conveys the cartons, improves the overall processing efficiency, can adjust the processing positions of the cartons with different positions and sizes under the coordination of the conveying assemblies, and can rapidly transmit the formed cartons of the plurality of groups of carton folding assemblies to the outside, so that the overall automation degree of the equipment is high, and the efficient and continuous processing and production work can be carried out.

Description

Full-automatic production equipment for notebook computer packaging box

Technical Field

The invention relates to the technical field of packaging boxes, in particular to full-automatic production equipment for a notebook computer packaging box.

Background

The packaging carton is made of paper products and is used for packaging various articles, the packaging carton is divided into a single-pit (3 layers), a double-pit (5 layers), a three-pit (7 layers) and a four-pit (9 layers) carton, the carton is divided into various packages such as a paper box, a color box and an oversized odd-shaped beer box, the notebook is packaged and protected by the matching packaging carton when the notebook is packaged, and meanwhile, the packaging carton is matched with production equipment to process and form the carton in production.

The conventional device has the following disadvantages: the whole automation effect of current packing carton production facility is not good, needs the staff to carry out auxiliary processing in the processing, has increased staff's intensity of labour to current production facility adaptation effect is relatively poor, and the not unidimensional carton of unable effective adaptation carries out processing, makes the effect of the whole operation of equipment not good, and can not be to the coordination cooperation of each process in the carton processing, makes the processing continuity of equipment relatively poor, has improved the cycle of carton processing.

Disclosure of Invention

The invention aims to provide full-automatic production equipment for a notebook packing box to solve the problem.

In order to achieve the purpose, the invention provides the following technical scheme: full-automatic production equipment for notebook packing carton transplants unit, conveying component, protection casing and feed opening including frame, multiunit feed bin part, multiunit bellows subassembly, multiunit, the frame is whole to be the rectangle structure, the protection casing closure is installed in frame upper surface one side, the feed bin part distributes in frame upper surface front end side by side, the bellows subassembly is installed in the frame and is located feed bin part one side, transplant the unit and distribute in frame upper surface and be located feed bin part one side by side, and transplant the unit output and face bellows subassembly, conveying component installs in the frame afterbody outside, the feed opening runs through and sets up in frame back one side, and the feed opening corresponds the setting with conveying component.

As a further preferred option of the technical solution, a plurality of groups of adjusting suction cups are distributed on the frame side by side, and the adjusting suction cups communicate the bin component with the bellows assembly.

As a further preferred of this technical scheme, two sets of three-colour alarm lamps are installed to the protection casing upper surface bilateral symmetry, the touch-sensitive screen is installed to the protection casing lateral wall, and the even equipment internal control system electric connection of touch-sensitive screen, three-colour alarm lamp.

As a further preferred of this technical scheme, the feed bin part includes two sets of guiding axles, fixed stop, adjusting stop and two sets of latch segments, the guiding axle parallel distribution is at the frame upper surface side by side, the fixed stop fixed cover is established in two sets of guiding axle outside one sides, adjusting stop sliding sleeve is established at two sets of guiding axle outside opposite sides, the latch segment is installed in adjusting stop and guiding axle laminating department.

As a further preferred aspect of the present technical solution, the fixed baffle and the adjusting baffle are arranged in parallel, and the fixed baffle and the adjusting baffle form a storage bin.

As a further preferred of this technical scheme, bellows subassembly includes work platform, push pedal cylinder, hem board, electronic slip table, hem cylinder, No. two hem cylinders, No. three hem cylinders, a clamp plate cylinder, No. two clamp plate cylinders and multiunit unloading portion, work platform installs in the frame upper surface, the push pedal cylinder is installed in work platform upper surface one side, the hem board rotates and installs in push pedal cylinder one side, electronic slip table installs in the hem board top, hem cylinder, clamp plate cylinder, No. two hem cylinders, No. two clamp plate cylinders and No. three hem cylinders are installed side by side in proper order on electronic slip table, unloading portion installs in work platform one side, and unloading portion is corresponding with the output direction of bellows subassembly.

As a further preferred of this technical scheme, unloading portion includes spout, upset cylinder and pushes away the case cylinder, the spout rotates to be installed in work platform one side, it wears to establish inside the spout through the support to push away the case cylinder, the upset cylinder passes through the hinge mount bottom in the frame, and the upset cylinder output passes through universal bearing and is connected with the spout lower surface rotation.

As a further preferred of this technical scheme, the transfer chain is installed to bottom one side in the frame, and the transfer chain corresponds the setting with unloading portion.

As a further preferred of this technical scheme, conveying component includes two sets of fixing bases, two sets of gangbar, starter motor, hold-in range, fixed block, linkage seat and pay-off portion, fixing base symmetry closure is installed in tail one side in the frame, the parallel closure of gangbar is installed in the fixing base both sides, linkage seat slip cap is established on the gangbar, starter motor passes through the support mounting on one of them a set of fixing base, hold-in range one end corresponds the cover and is established on starter motor, and hold-in range other end transmission cover establishes on another a set of fixing base, the fixed block fixed cover is established outside the hold-in range, and the fixed block is fixed with linkage seat closure, pay-off portion installs at linkage seat lower surface.

As a further preferred of this technical scheme, pay-off portion includes driving motor, lead screw, screw nut, baffle, telescopic cylinder and electric chuck, driving motor installs in linkage seat upper surface one side, the lead screw rotates to be installed at linkage seat lower surface, and the driving motor output corresponds the transmission with the lead screw and is connected, the screw nut cover is established at the lead screw outside, the baffle closure is installed at the screw nut lower surface, electric chuck slidable mounting is outside at the baffle, and electric chuck and baffle vertical distribution, telescopic cylinder installs on baffle inner wall top, and telescopic cylinder output corresponds the transmission with electric chuck and is connected.

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

1. according to the invention, the folding box assembly is arranged, after the carton reaches the working platform, the push plate cylinder is started to act to perform forming treatment on the carton, then the electric folding plate is turned over, the long edge of the carton can be formed, then the first folding cylinder and the third folding cylinder act simultaneously to perform two short edge forming on the carton, then the second folding cylinder is started to act, the first pressing plate cylinder and the second pressing plate cylinder act simultaneously to press the long edge into the other long edge, so that the integral forming work is realized, and then the folded carton is transferred into the chute through the adjusting sucker to perform subsequent transfer conveying;

2. according to the carton conveying device, the conveying assembly is arranged, the fixing block is driven to move along with the conveying assembly under the transmission of the synchronous belt, the fixing block drives the linkage seat to slide on the linkage rod, the adsorption position of the electric sucker can be quickly adjusted, the carton conveying device can be suitable for adsorbing and fixing cartons at different positions, the telescopic air cylinder is started under the matching of the feeding part, the electric sucker moves downwards on the inner wall of the baffle to be close to the cartons, the electric sucker is used for adsorbing the cartons, the transmission motor is started at the same time, and the screw rod nut are correspondingly arranged to drive the baffle and the electric sucker to move along with the conveying device, so that the formed cartons can be conveyed to an external conveying line through the discharging port to be transferred;

3. according to the multi-channel synchronous processing device, multiple groups of bin parts are arranged, multi-channel synchronous processing of the paper boxes can be achieved, the overall processing efficiency is improved, unprocessed paper boxes are stored through the bin formed by the fixed baffle and the adjusting baffle, sufficient supply of raw materials in the subsequent processing process is guaranteed, the adjusting baffle slides on the guide shaft, and a worker can adjust the distance between the fixed baffle and the adjusting baffle, so that the bin can be effectively matched with the paper boxes with different sizes to be stored, and after the adjustment is completed, the position of the adjusting baffle is positioned through the locking block, and the subsequent accidental sliding condition is avoided.

Drawings

FIG. 1 is a front view of the whole fully automatic production equipment for a notebook computer packing box;

FIG. 2 is an overall side view of the fully automatic production apparatus for a notebook computer packing box;

FIG. 3 is a schematic structural view of a folding box assembly of the fully automatic production equipment for the notebook computer packaging box;

FIG. 4 is a schematic structural diagram of a bin component of the fully automatic production equipment for the notebook computer packaging box;

FIG. 5 is a schematic structural view of a conveying assembly of the fully automatic production equipment for the notebook computer packaging box;

FIG. 6 is a schematic view of a feeding part of the fully automatic production equipment for the notebook computer packing box;

fig. 7 is a schematic diagram of a structure of a blanking part of the full-automatic production equipment for the notebook computer packaging box.

In the figure: 1. a frame; 2. a transplanting unit; 3. a protective cover; 4. a feeding port; 5. adjusting the sucker; 6. a three-color alarm lamp; 7. a touch screen; 8. a guide shaft; 9. fixing a baffle plate; 10. adjusting the baffle; 11. a locking block; 12. a storage bin; 13. a working platform; 14. a push plate cylinder; 15. a hemming plate; 16. an electric sliding table; 17. a first flanging cylinder; 18. a second flanging cylinder; 19. a third flanging cylinder; 20. a first pressure plate cylinder; 21. a second platen cylinder; 22. a chute; 23. turning over the air cylinder; 24. a box pushing cylinder; 25. a conveying line; 26. a fixed seat; 27. a linkage rod; 28. starting the motor; 29. a synchronous belt; 30. a fixed block; 31. a linkage seat; 32. a drive motor; 33. a lead screw; 34. a lead screw nut; 35. a baffle plate; 36. a telescopic cylinder; 37. an electric chuck.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: full-automatic production equipment for notebook packing carton, including frame 1, multiunit feed bin part, multiunit bellows subassembly, multiunit transplant unit 2, conveying component, protection casing 3 and feed opening 4, frame 1 wholly is the rectangle structure, 3 lockings of protection casing are installed in 1 upper surface one side of frame, the feed bin part distributes side by side at 1 upper surface front end of frame, the bellows unit mount just is located feed bin part one side on frame 1, transplant unit 2 and distribute side by side at 1 upper surface of frame and be located feed bin part one side, and transplant unit 2 output orientation bellows subassembly, conveying component installs in the 1 afterbody outside of frame, feed opening 4 runs through and sets up in 1 back one side of frame, and feed opening 4 corresponds the setting with conveying component.

Referring to fig. 1, in this embodiment, specifically, a plurality of groups of adjusting suction cups 5 are distributed on the frame 1 side by side, and the adjusting suction cups 5 communicate the bin component with the box folding assembly.

Referring to fig. 1 and 2, in this embodiment, specifically, two sets of three-color alarm lamps 6 are installed to 3 upper surface bilateral symmetry of protection casing, touch-sensitive screen 7 is installed to 3 lateral walls of protection casing, and touch-sensitive screen 7, the even equipment internal control system electric connection of three-color alarm lamp 6.

Referring to fig. 1, 2, 4, in this embodiment, specifically, the feed bin part includes two sets of guiding axles 8, fixed stop 9, adjusting baffle 10 and two sets of latch segments 11, guiding axle 8 parallel distribution is on 1 upper surface of frame side by side, fixed stop 9 fixed cover is established in two sets of guiding axles 8 outside one side, adjusting baffle 10 sliding cover is established at two sets of guiding axles 8 outside opposite sides, latch segments 11 are installed in adjusting baffle 10 and 8 laminating departments of guiding axles.

Referring to fig. 4, in the embodiment, specifically, the fixed baffle 9 and the adjustable baffle 10 are arranged in parallel, and the fixed baffle 9 and the adjustable baffle 10 form a bin 12.

Referring to fig. 1 and 3, in this embodiment, specifically, the bellows assembly includes a working platform 13, a push plate cylinder 14, a bellows plate 15, an electric sliding table 16, a first bellows cylinder 17, a second bellows cylinder 18, a third bellows cylinder 19, a first press plate cylinder 20, a second press plate cylinder 21, and a plurality of sets of blanking portions, the working platform 13 is installed on the upper surface of the frame 1, the push plate cylinder 14 is installed on one side of the upper surface of the working platform 13, the bellows plate 15 is rotatably installed on one side of the push plate cylinder 14, the electric sliding table 16 is installed above the bellows plate 15, the first bellows cylinder 17, the first press plate cylinder 20, the second bellows cylinder 18, the second press plate cylinder 21, and the third bellows cylinder 19 are sequentially installed on the electric sliding table 16 side by side, the blanking portion is installed on one side of the working platform 13, and the blanking portion corresponds to the output direction of the bellows assembly, electronic hem board 15 overturns, can carry out the shaping to the long limit of carton, later utilizes hem cylinder 17, No. three hem cylinders 19 simultaneous movement, can be to the two minor face shaping of carrying on of carton, later starts No. two hem cylinders 18 actions, and this another long limit, a clamp plate cylinder 20 and No. two clamp plate cylinders 21 simultaneous movement are impressed long limit, have realized whole shaping work.

Referring to fig. 2 and 7, in this embodiment, specifically, the blanking portion includes a chute 22, an overturning cylinder 23 and a box pushing cylinder 24, the chute 22 is rotatably installed on one side of the working platform 13, the box pushing cylinder 24 is inserted into the chute 22 through a support, the overturning cylinder 23 is installed at the bottom end of the rack 1 through a hinge, an output end of the overturning cylinder 23 is rotatably connected with a lower surface of the chute 22 through a universal bearing, the overturning cylinder 23 is started to drive the chute 22 and a carton thereon to be followed and overturned, so that the chute 22 and the conveyor line 25 are in a vertical state, and then the box pushing cylinder 24 is started to push the carton on the chute 22 to the conveyor line 25 for transmission.

Referring to fig. 1 and 2, in the embodiment, specifically, a conveying line 25 is installed on one side of the bottom end of the rack 1, and the conveying line 25 is disposed corresponding to the blanking portion.

Referring to fig. 2, 5 and 6, in this embodiment, specifically, the conveying assembly includes two sets of fixing bases 26, two sets of linkage rods 27, a starting motor 28, a synchronous belt 29, a fixing block 30, a linkage base 31 and a feeding portion, the fixing bases 26 are symmetrically installed at one side of the tail portion of the machine frame 1 in a locking manner, the linkage rods 27 are installed at two sides of the fixing bases 26 in a parallel locking manner, the linkage base 31 is slidably sleeved on the linkage rods 27, the starting motor 28 is installed on one set of the fixing bases 26 through a bracket, one end of the synchronous belt 29 is correspondingly sleeved on the starting motor 28, the other end of the synchronous belt 29 is in transmission sleeved on the other set of the fixing bases 26, the fixing block 30 is fixedly sleeved outside the synchronous belt 29, the fixing block 30 and the linkage base 31 are fixedly locked, the feeding portion is installed at the lower surface of the linkage base 31, the fixing block 30 is driven by the synchronous belt 29 to move along with it, the fixing block 30 drives the linkage seat 31 to slide on the linkage rod 27, so that the adsorption position of the electric suction cup 37 can be quickly adjusted, and the fixing block can adapt to paper boxes at different positions to be adsorbed and fixed.

Referring to fig. 5 and 6, in this embodiment, specifically, the feeding portion includes a transmission motor 32, a lead screw 33, a lead screw nut 34, a baffle 35, a telescopic cylinder 36 and an electric suction cup 37, the transmission motor 32 is installed on one side of the upper surface of the linkage seat 31, the lead screw 33 is rotatably installed on the lower surface of the linkage seat 31, an output end of the transmission motor 32 is correspondingly connected with the lead screw 33 in a transmission manner, the lead screw nut 34 is sleeved outside the lead screw 33, the baffle 35 is installed on the lower surface of the lead screw nut 34 in a locking manner, the electric suction cup 37 is installed outside the baffle 35 in a sliding manner, the electric suction cup 37 is vertically distributed with the baffle 35, the telescopic cylinder 36 is installed at the top end of the inner wall of the baffle 35, an output end of the telescopic cylinder 36 is correspondingly connected with the electric suction cup 37 in a transmission manner, the telescopic cylinder 36 is started, so that the electric suction cup 37 moves down on the inner wall of the baffle 35 to approach the carton, and the carton is sucked by the electric suction cup 37, meanwhile, the transmission motor 32 is started, and the lead screw 33 and the lead screw nut 34 are correspondingly arranged to drive the baffle 35 and the electric suction cup 37 to move along, so that the formed carton can be conveyed to the external conveying line 25 through the feed opening 4 to be transferred.

The working principle is as follows: when in use, the multi-channel synchronous processing of the paper boxes can be realized by arranging a plurality of groups of bin parts, the whole processing efficiency is improved, the unprocessed paper boxes are stored by the bin 12 formed by the fixed baffle 9 and the adjusting baffle 10, the sufficient supply of raw materials in the subsequent processing process is ensured, the adjusting baffle 10 slides on the guide shaft 8, and the distance between the fixed baffle 9 and the adjusting baffle 10 can be adjusted by a worker, so that the bin 12 can be effectively adapted to the paper boxes with different sizes for storage, the adaptation range of the equipment is improved, after the adjustment is finished, the position of the adjusting baffle 10 is positioned by the locking block 11, the subsequent accidental sliding condition is avoided, in the subsequent processing, the paper boxes are transferred from the bin 12 to the working platform 13 under the combined action of the adjusting sucker 5 and the transplanting unit 2, and the box folding assembly is arranged, after the carton reaches the working platform 13, the push plate cylinder 14 is started to act to perform forming treatment on the carton, then the electric flanging plate 15 is turned over to form the long edge of the carton, then the first flanging cylinder 17 and the third flanging cylinder 19 act simultaneously to perform two short edge forming on the carton, then the second flanging cylinder 18 is started to act, the first pressing plate cylinder 20 and the second pressing plate cylinder 21 act simultaneously to press the long edge into the carton, so that the integral forming work is realized, then the folded carton is transferred into the chute 22 through the adjusting suction cup 5 to perform subsequent transfer conveying, the turning cylinder 23 is started under the coordination of the blanking part to drive the chute 22 and the carton thereon to perform following turning, so that the chute 22 and the conveying line 25 are in a vertical state, and then the carton pushing cylinder 24 is started to push the carton on the chute 22 to the conveying line 25 to perform transferring, the finished products of all the box folding assemblies are transmitted to the blanking port 4 through the conveying line 25, through the conveying assembly, when the finished products of the carton reach the tail part of the conveying line 25, the starting motor 28 works to drive the synchronous belt 29 to rotate, the fixed block 30 is driven by the synchronous belt 29 to move along with the conveying, the fixed block 30 drives the linkage seat 31 to slide on the linkage rod 27, the adsorption position of the electric suction cup 37 can be rapidly adjusted, the carton can be suitable for being adsorbed and fixed on different positions, the telescopic cylinder 36 is started under the matching of the feeding part, the electric suction cup 37 moves downwards on the inner wall of the baffle 35 to be close to the carton, the electric suction cup 37 adsorbs the carton, then the telescopic cylinder 36 resets, the conveying motor 32 is started at the same time, as the lead screw 33 is arranged corresponding to the lead screw nut 34, the baffle 35 and the electric suction cup 37 are driven to move along with the conveying line, and the formed carton can be conveyed to the outer part 25 through the blanking port 4 to be transferred, realized the quick transmission to shaping carton, whole simple operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Full-automatic production equipment for notebook computer packaging boxes is characterized by comprising a frame (1), a plurality of groups of bin parts, a plurality of groups of folding box assemblies, a plurality of groups of transplanting units (2), a conveying assembly, a protective cover (3) and a feed opening (4), the whole frame (1) is of a rectangular structure, the protective cover (3) is installed on one side of the upper surface of the frame (1) in a locking manner, the bin parts are distributed at the front end of the upper surface of the frame (1) side by side, the box folding assembly is arranged on the frame (1) and is positioned at one side of the bin parts, the transplanting units (2) are distributed on the upper surface of the frame (1) side by side and are positioned on one side of the bin component, the output end of the transplanting unit (2) faces the box folding component, the conveying component is arranged at the outer side of the tail part of the frame (1), feed opening (4) run through and set up in frame (1) back one side, and feed opening (4) and conveying component correspond the setting.

2. The full-automatic production equipment for the notebook packing boxes according to claim 1, characterized in that: a plurality of groups of adjusting suckers (5) are distributed on the rack (1) side by side, and the adjusting suckers (5) are used for communicating the stock bin component with the folding box component.

3. The full-automatic production equipment for the notebook packing boxes according to claim 1, characterized in that: two sets of three-colour alarm lamps (6) are installed to protection casing (3) upper surface bilateral symmetry, touch-sensitive screen (7) are installed to protection casing (3) lateral wall, and touch-sensitive screen (7), three-colour alarm lamp (6) even equipment internal control system electric connection.

4. The full-automatic production equipment for the notebook packing boxes according to claim 1, characterized in that: the feed bin part includes two sets of guiding axle (8), fixed stop (9), adjusting stop (10) and two sets of latch segment (11), parallel distribution is at frame (1) upper surface side by side in guiding axle (8), fixed stop (9) are fixed to be established in two sets of guiding axle (8) outside one side, adjusting stop (10) slip cap is established at two sets of guiding axle (8) outside opposite sides, latch segment (11) are installed and are located in adjusting stop (10) and guiding axle (8) laminating.

5. The full-automatic production equipment for the notebook packing boxes according to claim 4, characterized in that: the fixed baffle (9) and the adjusting baffle (10) are arranged in parallel, and the fixed baffle (9) and the adjusting baffle (10) form a storage bin (12).

6. The full-automatic production equipment for the notebook packing boxes according to claim 1, characterized in that: the folding box component comprises a working platform (13), a push plate cylinder (14), a folding plate (15), an electric sliding table (16), a folding cylinder (17), a second folding cylinder (18), a third folding cylinder (19), a first pressing plate cylinder (20), a second pressing plate cylinder (21) and a plurality of groups of blanking parts, wherein the working platform (13) is arranged on the upper surface of the frame (1), the push plate cylinder (14) is arranged on one side of the upper surface of the working platform (13), the folding plate (15) is rotatably arranged on one side of the push plate cylinder (14), the electric sliding table (16) is arranged above the folding plate (15), the first folding cylinder (17), the first pressing plate cylinder (20), the second folding cylinder (18), the second pressing plate cylinder (21) and the third folding cylinder (19) are sequentially arranged on the electric sliding table (16) side by side, the blanking parts are arranged on one side of the working platform (13), and the blanking part corresponds to the output direction of the folding box component.

7. The full-automatic production equipment for the notebook packing boxes according to claim 6, characterized in that: unloading portion includes spout (22), upset cylinder (23) and pushes away case cylinder (24), spout (22) rotate to be installed in work platform (13) one side, push away case cylinder (24) and wear to establish inside spout (22) through the support, upset cylinder (23) pass through the hinge mount bottom in frame (1), and upset cylinder (23) output passes through universal bearing and is connected with spout (22) lower surface rotation.

8. The full-automatic production equipment for the notebook packing boxes according to claim 1, characterized in that: conveying line (25) are installed to bottom one side in frame (1), and conveying line (25) correspond the setting with unloading portion.

9. The full-automatic production equipment for the notebook packing boxes according to claim 1, characterized in that: the conveying component comprises two groups of fixed seats (26), two groups of linkage rods (27), a starting motor (28), a synchronous belt (29), a fixed block (30), a linkage seat (31) and a feeding part, the fixed seats (26) are symmetrically locked and installed at one side of the inner tail part of the frame (1), the linkage rods (27) are parallelly locked and installed at two sides of the fixed seats (26), the linkage seat (31) is sleeved on the linkage rod (27) in a sliding way, the starting motor (28) is arranged on one group of fixed seats (26) through a bracket, one end of the synchronous belt (29) is correspondingly sleeved on the starting motor (28), the other end of the synchronous belt (29) is sleeved on the other group of fixed seats (26) in a transmission way, the fixed block (30) is fixedly sleeved outside the synchronous belt (29), and the fixed block (30) is locked and fixed with the linkage seat (31), and the feeding part is arranged on the lower surface of the linkage seat (31).

10. The full-automatic production equipment for the notebook packing box according to claim 9, characterized in that: pay-off portion includes driving motor (32), lead screw (33), screw nut (34), baffle (35), telescopic cylinder (36) and electric chuck (37), driving motor (32) are installed in linkage seat (31) upper surface one side, screw (33) are rotated and are installed at linkage seat (31) lower surface, and driving motor (32) output and lead screw (33) correspond the transmission and are connected, screw nut (34) cover is established in lead screw (33) outside, baffle (35) closure is installed at screw nut (34) lower surface, electric chuck (37) slidable mounting is outside at baffle (35), and electric chuck (37) and baffle (35) vertical distribution, install on baffle (35) inner wall top telescopic cylinder (36), and telescopic cylinder (36) output corresponds the transmission with electric chuck (37) and is connected.

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