CN209240717U - A fully automated notebook production line - Google Patents

Abstract

The utility model relates to the technical field of notebook production, in particular to a full-automatic notebook production line, the paper cutting machine comprises a feeding device for placing and rolling paper rolls into paper tapes, a printing device for printing the paper tapes, a cutting device for cutting the paper tapes into paper sheets, a paper collecting device for stacking the paper sheets discharged from the cutting device, a collating device for configuring special pages, a paper collecting device for blanking, a transfer device for transporting paper piles discharged from the collating device, a nailing device for nailing the paper piles discharged from the transfer device, a folding device for folding the paper piles discharged from the nailing device into a notebook, a cutting device for cutting the notebook discharged from the folding device, a notebook turning device for turning the notebook discharged from the cutting device, and a notebook collecting device for blanking the notebook discharged from the notebook turning device. The utility model discloses do benefit to the notebook and carry out large-scale production.

Description

A fully automated notebook production line

technical field

The utility model relates to the technical field of notebook production, in particular to a fully automatic notebook production line.

Background technique

In daily life, you will encounter situations where you need to use words or pictures to record, and you need to use a notebook at this time. The structure of the notebook is relatively simple, but it needs to go through multiple processes during production: printing lines on the paper, cutting the roll paper into the size required for the notebook, configuring the cover for the notebook and binding the notebook, etc. After the production is completed, the notebooks also need to be stacked in a certain order for subsequent packaging of the notebooks.

In the current notebook manufacturing, different processes are completed by different workshops. After batch processing in the previous workshop, it is sent to the next workshop for batch processing until the finished product is produced. Since it takes time to send semi-finished products from one workshop to another, and the next workshop must wait for the completion of the previous workshop before the operation can be performed, the time cost of making notebooks is high, the production efficiency is low, and it is difficult to carry out large-scale production. .

SUMMARY OF THE INVENTION

Aiming at the problems of the prior art, the utility model provides a fully automated notebook production line, which reduces the time cost of notebook production and improves notebook production efficiency through automated assembly line operations, thereby facilitating the large-scale production of notebooks.

The utility model adopts the following technical solutions: a fully automatic notebook production line, comprising a feeding device for unwinding the roll paper into a paper tape, a printing device for printing the paper tape discharged from the feeding device, a A slitter for slitting a tape from a printing unit into sheets, a stacker for stacking sheets discharged from a slitter, and a special page for placing a stack of sheets discharged from a stacker The collating device of the A nailing device for stapling a pile of paper fed from the nailing device, a folding device for folding a paper pile discharged from the nailing device into a notebook, a cutting device for cutting a notebook discharged from the folding device A device, a book turning device for turning over the notebooks discharged from the cutting device, and a book collecting device for unloading the notebooks discharged from the turning device.

Preferably, the collating device includes a collating feeding belt, a sealing feeding belt located above the collating feeding belt, a special page feeding mechanism located at the side end of the collating feeding belt, and a collating feeding mechanism for driving the collating feeding belt to move. A driving part and a sealing driving part for driving the sealing feeding belt to move, the feeding end of the sealing feeding belt is communicated with the discharging end of the paper collecting device, and the sealing feeding belt is used to transfer the special pages from the special pages The special pages discharged by the feeding mechanism are conveyed to the middle of the collating feeding belt; the collating device further includes a sealing driving wheel, a sealing driven wheel and a sealing driving wheel, which are all arranged on one side of the sealing feeding belt, and are used for driving the sealing. The sealing rotary driving part is rotated by the driving wheel, and a special page feeding channel for passing the special pages on the sealing feeding belt is formed between the sealing driving wheel and the sealing driven wheel.

Preferably, the delivery device includes a delivery frame, a delivery conveyor belt, a delivery delivery driver, a paper support table, a first paper support driver, and a second paper support all arranged on the delivery frame. A driving member, a first paper supporting member and a second paper supporting member, the delivery transmission driving member is used to drive the delivery transmission belt to move, and the paper supporting platform is communicated with the discharge end of the delivery transmission belt, so The first paper supporting member and the second paper supporting member are both located above the paper supporting table, the first paper supporting member is used to drive the first paper supporting member away from and approaching the second paper supporting member, and the first paper supporting member is used to drive the first paper supporting member away from and approaching the second paper supporting member. The second paper supporting member is used for driving the second paper supporting member away from and close to the first paper supporting member, and the feeding end of the delivery conveyor belt communicates with the feeding end of the collation device.

Preferably, the paper supporting table includes a plurality of supporting boards arranged at intervals; the paper supporting table is slidably connected to the paper delivery frame; the paper delivery device further comprises a paper delivery driver, and the output of the paper delivery driver The end sleeve is provided with a delivery gear, and the paper support table is provided with a delivery rack for meshing with the delivery gear.

Preferably, the cutting device includes a cross-cutting mechanism, a slitting mechanism, a first cutting and feeding belt, a second cutting and feeding belt, a first cutting and feeding driving member for driving the first cutting and feeding belt to move, and A second cutting and feeding driving member for driving the second cutting and feeding belt to move, the feeding end of the cross-cutting mechanism communicates with the discharging end of the folding device, the first cutting and feeding belt and the second cutting and feeding belt A cutting and feeding channel is formed between the cutting and feeding belts, the feeding end of the cutting and feeding channel is communicated with the discharging end of the cross-cutting mechanism, and the slitting mechanism is arranged on one side of the cutting and feeding channel ; The slitting mechanism includes a slitting frame, a slitting knife, a slitting base, a slitting drive and a pre-cutting knife all arranged on the slitting frame, and the slitting knife is located at the slitting base Above, the slitting drive member is used to drive the slitting knife to move up and down, the pre-cutting knife is arranged at the discharge end of the slitting feeding channel, and there is a space between the slitting base and the slitting knife for cutting The slitting channel through which the notebooks in the feeding channel pass, and the direction of the blade of the pre-cutter is opposite to the moving direction of the notebooks in the cutting and feeding channel.

Preferably, the slitting mechanism further comprises a slitting knife seat and a slitting pressure block slidably connected with the slitting knife seat, the slitting knife is fixed on the slitting knife seat, and the slitting driving member The output end is connected with the slitting knife seat; the slitting frame is provided with a slitting sliding rail, and the slitting knife seat is slidably connected with the slitting sliding rail; the slitting mechanism also includes a slitting driving shaft, A slitting eccentric disc sleeved on the outer periphery of the slitting drive shaft and a slitting pull rod connected with the slitting knife seat, the end of the slitting pull rod away from the slitting knife seat is provided with a slitting rod connected to the slitting knife seat. The eccentric disc is movably connected to the guide groove, and the slitting driving shaft is connected with the output end of the slitting driving member.

Preferably, the cross-cutting mechanism comprises a cross-cutting frame, a cross-cutting knife base, an upper cross-cutting knife fixed to the cross-cutting knife base, a cross-cutting lower knife fixed to the cross-cutting frame, and A cross-cutting drive for driving the cross-cutting upper knife to approach and away from the cross-cutting lower knife; the cross-cutting frame is provided with a cross-cutting slide rail inclined relative to the horizontal plane, and the cross-cutting knife seat slides with the cross-cutting slide rail connect.

Preferably, the cross-cutting mechanism further includes a cross-cutting pressing transmission assembly and a cross-cutting pressure block arranged on one side of the cross-cutting upper knife, and the cross-cutting driving member drives the cross-cutting through the cross-cutting pressing transmission assembly The pressing block is lifted and lowered; the cross-cutting and pressing transmission assembly includes a first cross-cutting tie rod, a cross-cutting swing arm, a cross-cutting connecting rod and a pressing plate shaft rotatably connected with the cross-cutting frame. The first connecting arm and the second connecting arm, the cross-cutting pressure block is provided with a connecting rod that is hinged with the second connecting arm, and one end of the cross-cutting connecting rod is hinged with the first connecting arm, and the cross-cutting link is hinged with the first connecting arm. The other end of the cross-cutting link is hinged with the upper end of the cross-cut swing arm, the lower end of the cross-cut swing arm is hinged with one end of the first cross-cut pull rod, and one side of the cross-cut swing arm is hinged with the cross-cut swing arm. The cutting frame is hinged, and the other end of the first cross-cutting rod is connected to the output end of the cross-cutting drive; the cross-cutting mechanism further includes a second cross-cutting rod, one end of which is connected to the cross-cutting rod. The cross-cutting knife seat is hinged, and the other end of the second cross-cutting pull rod is hinged with the upper end of the cross-cutting swing arm.

Preferably, the book-turning device includes a book-turning drive member, a first conveyor belt and a second conveyor belt arranged in sequence from the inside to the outside, the book-turning drive member is used to drive the first conveyor belt to move, and the second conveyor belt is sleeved On the outer circumference of the first conveyor belt, along the moving direction of the first conveyor belt, a first channel, a turning channel and a second channel are sequentially arranged between the first and second conveyor belts. A channel is provided with a feed port for the notebook to enter the first channel, the feed port communicates with the discharge end of the cutting device, and the second channel is provided with a discharge port for the notebook to exit the second channel.

Preferably, the receiving device includes a receiving frame, and the receiving frame is provided with a baffle plate, a first receiving plate, and a second receiving plate for driving the first receiving plate to approach and away from the second receiving plate. A first feeding drive part of the feeding plate, a second feeding driving part for driving the second feeding plate close to and away from the second feeding plate, and a receiving plate arranged under the first feeding plate and the second feeding plate The material table, the first material receiving driver, the second material receiving driver and the receiving table are all fixed on the receiving machine frame, the output of the first material receiving plate and the first material receiving driver The second feeder plate is connected to the output end of the second feeder driver, the baffle is arranged on the second feeder plate, and the feed end of the first feeder plate is connected to the output end of the second feeder drive. The discharge end of the reversing device is in communication

The beneficial effects of the utility model are as follows: by using an automated assembly line to complete each process of making notebooks, the time cost of making notebooks is reduced and the production efficiency of notebooks is improved, thereby facilitating large-scale production of notebooks.

Description of drawings

FIG. 1 is a three-dimensional structural diagram of the utility model.

FIG. 2 is a perspective structural view of the collation device of the present invention.

FIG. 3 is an enlarged schematic view of part A in FIG. 2 .

FIG. 4 is a perspective structural view of the paper delivery device of the present invention.

FIG. 5 is an enlarged schematic view of part B in FIG. 4 .

FIG. 6 is an enlarged schematic view of part C in FIG. 4 .

FIG. 7 is a perspective structural view of the delivery device of the present invention from another perspective.

FIG. 8 is an enlarged schematic view of part D in FIG. 7 .

9 is a perspective structural view of the cutting device of the present invention.

FIG. 10 is a three-dimensional structural view of the cross-cutting upper knife and the cross-cutting pressing block of the utility model.

11 is a three-dimensional structural view of the cutting device of the present invention from another perspective.

FIG. 12 is an enlarged schematic view of part E in FIG. 11 .

FIG. 13 is a three-dimensional structural view of the flipping device of the present invention.

Fig. 14 is a cross-sectional view taken along the direction F-F' of Fig. 13 .

FIG. 15 is a schematic structural diagram of the cooperation of the first conveyor belt and the second conveyor belt of the present invention.

FIG. 16 is a three-dimensional structural view of the device for collecting this utility model.

Reference numerals are: 1, feeding device; 11, printing device; 13, slitting device; 14, transfer device; 15, nailing device; 2, paper collecting device; 3, collation device; 31, collation feeding Belt; 32. Feeding belt for sealing; 33. Driving wheel for sealing; 34. Driving wheel for sealing; 35. Special page feeding mechanism; 4. Delivery device; 41. Delivery frame; 42. Delivery conveyor 43, paper support table; 431, support board; 432, delivery rack; 44, first paper support drive; 45, second paper support drive; 46, first paper support; 47, second support Paper; 48. Delivery gear; 5. Folding device; 6. Cutting device; 61. Cross-cutting mechanism; 611. Cross-cutting frame; 612. Cross-cutting knife seat; 613. Cross-cutting upper knife; Cross-cut lower knife; 615, cross-cut slide rail; 616, cross-cut pressure block; 617, first cross-cut pull rod; 6171, cross-cut swing arm; 6172, cross-cut connecting rod; 6173, pressure plate shaft; 6174, first connecting arm; 6175, second connecting arm; 618, second cross-cutting rod; 62, slitting mechanism; 621, slitting frame; 622, slitting base; 623, slitting knife; 624, pre-cutting knife; 625 , slitting knife seat; 626, slitting pressure block; 627, slitting slide rail; 628, slitting drive shaft; 6281, slitting pull rod; 6282, guide groove; 629, slitting eccentric disc; 63, first cutting Cutting feeding belt; 64, second cutting feeding belt; 7, turning over device; 71, first conveyor belt; 72, second conveyor belt; 73, first channel; 731, feeding port; 74, turning channel; 75, Second channel; 751, discharge port; 8, receiving device; 81, receiving rack; 811, baffle; 812, first receiving plate; 813, second receiving plate; 814, first receiving The driving member; 815, the second feeding driving member; 82, the receiving table.

Detailed ways

In order to facilitate the understanding of those skilled in the art, the present invention will be further described below with reference to the embodiments and the accompanying drawings, and the contents mentioned in the embodiments are not intended to limit the present invention. The present utility model will be described in detail below in conjunction with the accompanying drawings.

As shown in FIG. 1 , a fully automated notebook production line includes a feeding device 1 for unwinding roll paper into a tape, a printing device 11 for printing the tape discharged from the feeding device 1, Slitting device 13 for slitting the paper tape discharged from the printing device 11 into sheets, stacking device 2 for stacking the sheets discharged from the slitting device 13, discharging to the stacking device 2 The paper stack is equipped with a collating device 3 for special pages, a delivery device 4 for unloading the paper stack discharged from the collating device 3, and a paper stack for transporting the paper stack discharged from the collating device 3. The transfer device 14, the staple device 15 for stapling the stack of paper discharged from the transfer device 14, the folding device 5 for folding the stack of paper discharged from the staple device 15 into a notebook, for A cutting device 6 for cutting the notebooks discharged from the folding device 5, a book turning device 7 for turning over the notebooks discharged from the cutting device 6, and a book turning device 7 for discharging The notebook for the unloading of the notebook device 8.

After the worker puts the roll paper on the feeding device 1, the feeding device 1 unwinds the roll paper into a paper tape, the paper tape enters the printing device 11, and the printing device 11 prints the lines on the paper tape; after the printing is completed, the paper tape enters The slitting device 13, the slitting device 13 divides the paper tape into sheets of paper; the sheets enter the stacking device 2 and are stacked into piles of paper piles, each pile of paper piles is used to make a notebook; then the paper The piles enter the collation device 3 in turn, and the collation device 3 configures a special page for each paper pile, such as cover or backing paper, etc. When it is moved to other equipment for processing, it can also enter the nailing device 15 through the transfer device 14; the nailing device 15 nails the paper pile along the middle of the paper pile, so that the paper piles are nailed together without being scattered; The back stack of paper enters the folding device 5, which folds the stack of paper in half to form a notebook; the top edge, side edge or bottom edge of the notebook formed by folding in half will be uneven, so the cutting device is used. 6 Cut the notebook so that the top, side and bottom edges of the notebook are neat; after the notebook is processed, it is necessary to stack the notebook for packing or transporting the notebook, because the folding position of the notebook will form the back of the book, and the edge of the paper will form The front and back of the notebook will be thicker than the front of the notebook. Therefore, in order to ensure that the notes can be stacked stably, the front and back of the notebook should be staggered. The position of the front and the back of the previous notebook, so in the present invention, the book-turning device 7 is used to turn over some notebooks, even if they are turned over, so that the notebooks can be stacked in a positive and negative position; finally, the book-receiving device is used 8. Unload the notebook. The utility model uses an automated assembly line to complete each process of making the notebook, thereby reducing the time cost of making the notebook and improving the production efficiency of the notebook, thereby facilitating the large-scale production of the notebook.

As shown in FIG. 2 to FIG. 3 , the collating device 3 includes a collating feeding belt 31 , a sealing feeding belt 32 located above the collating feeding belt 31 , and a special page feeding mechanism 35 located at the side end of the collating feeding belt 31 . , a collating driver for driving the collating and feeding belt 31 to move, and a collating driver for driving the collating and feeding belt 32 to move. The ends are connected, and the packing and feeding belt 32 is used for conveying the special pages discharged from the special page feeding mechanism 35 to the middle of the sorting and feeding belt 31; The sealing driving pulley 33, the sealing driven wheel 34 and the sealing rotating driving member for driving the sealing driving wheel 33 to rotate on one side of the feeding belt 32, the sealing driving wheel 33 and the sealing driven wheel 34 are formed between the sealing driving wheel 33 and the sealing driven wheel 34. There are special page feed channels for the passage of special pages on the packaging feed belt 32 . Special pages include covers or backing sheets, etc. The special page feeding mechanism 35 feeds the special pages single sheet to the feeding end of the sealing feeding belt 32, and the sealing feeding belt 31 transports the stacks of paper, and at the same time the sealing feeding belt 32 transports the special pages of the single sheet, The special page is moved to the direction perpendicular to the moving direction of the paper, and enters between the sealing driving wheel 33 and the sealing driven wheel 34 . When the paper passes under the sealing feeding belt 32, the sealing driving wheel 33 rotates, so that the special page moves in the same direction as the paper moving direction, so that the special page leaves the sealing feeding belt 32 and slides down onto the stack of papers. The present invention is realized by arranging a collating feeding belt 32 for transporting special pages above the collating feeding belt 31 for transporting stacks of papers, and making the special pages slide down onto the paper on the collating feeding belt 31 . Automatically configure notebooks with special page effects, reducing the labor required for the collation process and increasing notebook productivity.

As shown in FIG. 4 to FIG. 8 , the delivery device 4 includes a delivery frame 41 , a delivery conveyor belt 42 , a delivery transmission drive member, a paper support table 43 , and a delivery conveyor belt 42 , which are all arranged on the delivery frame 41 . The first paper supporting member 44, the second paper supporting member 45, the first paper supporting member 46 and the second paper supporting member 47 are used for driving the paper delivery transmission belt 42 to move. The paper table 43 is in communication with the discharge end of the delivery belt 42 , the first paper supporting member 46 and the second paper supporting member 47 are both located above the paper supporting table 43 , and the first paper supporting member drives the The first paper supporting member 44 is used to drive the first paper supporting member 46 away from and approaching the second paper supporting member 47, and the second paper supporting member 45 is used to drive the second paper supporting member 47 away from and approaching the first paper supporting member 46, so The feeding end of the delivery conveyor belt 42 communicates with the discharging end of the collating device 3 . The paper transfer belt moves continuously and transports the paper to the paper support table 43. When the worker needs to remove the paper on the paper support table 43, the first paper support member 46 and the second paper support member 47 approach each other and move to the paper support table 43. In the middle above the table 43 , the paper discharged from the delivery belt 42 is supported by the first paper supporting member 46 and the second paper supporting member 47 , and the worker can easily remove the paper on the paper supporting table 43 . After the transportation is completed, the first paper supporting member 46 and the second paper supporting member 47 are kept away from each other, so that the paper on the first paper supporting member 46 and the second paper supporting member 47 is dropped to the paper supporting table 43, and the paper conveying belt The paper on 42 continues to be discharged to the paper tray 43 . In the present invention, the movable first paper supporting member 46 and the second paper supporting member 47 are arranged above the paper supporting table 43 for placing the paper, so that the paper can be temporarily carried by the first paper supporting member when the worker is carrying the paper. 46 and the second paper supporting member 47 are supported to prevent the continuous delivery of paper from the delivery conveyor belt 42 from hindering the workers from moving paper, so that the workers do not need to stop the delivery device 4 and the front device of the delivery device 4 when moving the paper, thereby simplifying the process. Take delivery of paper and increase notebook productivity.

As shown in FIG. 4 , the paper supporting table 43 includes a plurality of supporting boards 431 arranged at intervals; the paper supporting table 43 is slidably connected with the paper delivery frame 41 ; the paper delivery device 4 further includes a paper delivery drive member, A delivery gear 48 is sleeved on the output end of the delivery driver, and a delivery rack 432 is provided on the paper support table 43 for engaging with the delivery gear 48 . The gaps between the supporting boards 431 can be inserted by a worker's hand, which is convenient for the worker to grasp the bottom of the paper to carry the paper. When the worker needs to carry the paper, the paper support table 43 moves away from the delivery conveyor belt 42 , so that the end of the paper on the paper support table 43 is opposite to the end of the paper on the first paper support member 46 and the second paper support member 47 The part protrudes so that the worker has more space to take the paper on the paper tray 43, which is convenient for the worker to carry out the paper handling operation. The delivery drive is specifically a motor. The output of the motor is a curve motion. In conventional calculation, converting the curve motion of the motor into a linear motion requires the use of a lead screw with a complex structure and high cost. The paper delivery device 4 uses the delivery gear 48 and the delivery rack 432 to convert the curvilinear motion output by the delivery driver into the linear motion of the paper support table 43, and has a simple structure and low cost.

As shown in FIG. 9 to FIG. 12 , the cutting device 6 includes a cross-cutting mechanism 61 , a slitting mechanism 62 , a first cutting and feeding belt 63 , and a second cutting and feeding belt 64 for driving the first cutting and feeding The first cutting and feeding driving member for moving the belt 63 and the second cutting and feeding driving member for driving the second cutting and feeding belt 64 to move. The discharge end is connected, a cutting and feeding channel is formed between the first cutting and feeding belt 63 and the second cutting and feeding belt 64 , and the feeding end of the cutting and feeding channel is connected with the discharging end of the cross-cutting mechanism 61 Connected, the slitting mechanism 62 is arranged on one side of the cutting and feeding channel; The slitting base 622, the slitting drive member and the pre-cutting knife 624, the slitting knife 623 is located above the slitting base 622, the slitting driving element is used to drive the slitting knife 623 to rise and fall, and the pre-cutting knife 624 It is arranged at the discharge end of the cutting and feeding channel. Between the longitudinal cutting base 622 and the longitudinal cutting knife 623 is a longitudinal cutting channel for the notebook in the cutting and feeding channel to pass through. The blade of the pre-cutting knife 624 The orientation is opposite to the direction of movement of the notebook in the cutting feed path.

After the cross-cutting mechanism 61 sequentially cuts the bottom edge and the top edge of the notebook, the notebook enters the slitting mechanism 62 through the cutting and feeding channel. The first cutting and feeding belt 63 and the second cutting and feeding belt 64 drive the notebook to move, so that the bottom edge of the notebook is close to the pre-cutting knife 624, and the pre-cutting knife 624 is perpendicular to the bottom edge of the notebook. A pre-opening is cut out on the bottom edge of the notebook, which is equivalent to cutting the notebook in a horizontal direction by the pre-cutting knife 624 . Then the slitting knife 623 descends and cuts off the side of the notebook. The side end of the slitting knife 623 is located above the pre-opening, so the slit of the slitting knife 623 overlaps the pre-opening. The slitting knife 623 is used for cutting in an ascending and descending manner. Often, the force on the side of the notebook near the bottom edge is weaker than the force on the middle of the side, resulting in the cut part sticking to the bottom edge of the notebook. The utility model cuts the side of the notebook by using the pre-cutting knife 624 to cut an opening at the bottom edge of the notebook in advance along the horizontal direction, and then lifts the slitting knife 623 to cut the side of the notebook, thereby preventing the cut side of the notebook from being separated from the notebook. The bottom edge is glued.

As shown in FIGS. 11 to 12 , the slitting mechanism 62 further includes a slitting knife seat 625 and a slitting pressure block 626 slidably connected with the slitting knife seat 625 , and the slitting knife 623 is fixed on the slitting knife 623 . The slitting knife seat 625, the output end of the slitting drive is connected with the slitting knife seat 625; the slitting frame 621 is provided with a slitting sliding rail 627, and the slitting knife seat 625 is connected with the slitting knife seat 625; The sliding rail 627 is slidably connected; the slitting mechanism further includes a slitting drive shaft 628 , a slitting eccentric disc 629 sleeved on the outer periphery of the slitting drive shaft 628 and a slitting pull rod connected with the slitting knife seat 625 6281, the end of the slitting rod 6281 away from the slitting knife seat 625 is provided with a guide groove 6282 movably connected with the slitting eccentric disc 629, the slitting drive shaft 628 and the slitting drive output connection. The notebook is prevented from shifting during the cutting process by pressing the notebook with the slitting pressure block 626 . The specific working process is as follows: the slitting drive member drives the slitting knife seat 625 to descend, so that the slitting pressing block 626 and the slitting knife 623 also descend. After the slitting pressure block 626 contacts the notebook, the slitting knife seat 625 continues to slide relative to the slitting pressure block 626, that is, continues to descend, until the slitting knife 623 contacts the notebook and cuts the side of the notebook. After the cutting is completed, the slitting knife seat 625 rises to drive the slitting knife 623 and the slitting pressing block 626 to be separated from the notebook in sequence. The slitting drive is specifically a motor. In the conventional technology, to convert the curvilinear motion output by the motor into linear motion, a lead screw structure needs to be adopted, and the cost is relatively high. The utility model converts the curved motion of the slitting drive member into the linear motion of the slitting knife seat 625 by using the eccentric disk, and has a simple structure and low cost.

As shown in FIGS. 9 and 10 , the cross-cutting mechanism 61 includes a cross-cutting frame 611 , a cross-cutting knife seat 612 , an upper cross-cutting knife 613 fixed to the cross-cutting knife seat 612 , The cross-cutting lower knife 614 of the cross-cutting frame 611 and the cross-cutting driving member for driving the cross-cutting upper knife 613 to approach and away from the cross-cutting lower knife 614; The cross-cutting slide rail 615 is slidably connected to the cross-cutting knife seat 612 . Since the cross-cutting slide rail 615 is inclined relative to the horizontal plane, the cross-cutting upper knife 613 is returned obliquely, and it is difficult to lift up the notebook paper and cause the notebook to be warped.

As shown in FIG. 9 and FIG. 10 , the cross-cutting mechanism 61 further includes a cross-cutting pressing transmission assembly and a cross-cutting pressure block 616 arranged on one side of the cross-cutting upper knife 613 . The cutting and pressing transmission assembly is used to drive the cross-cutting pressure block 616 to rise and fall; the cross-cutting and pressing transmission assembly includes a first cross-cutting pull rod 617, a cross-cutting swing arm 6171, a cross-cutting link 6172, and is rotatably connected to the cross-cutting frame 611 A first connecting arm 6174 and a second connecting arm 6175 are formed on the outer circumference of the pressing plate shaft 6173, and the transverse pressing block 616 is provided with a connecting rod hinged with the second connecting arm 6175, One end of the cross-cutting link 6172 is hinged with the first connecting arm 6174, the other end of the cross-cutting link 6172 is hinged with the upper end of the cross-cutting swing arm 6171, and the lower end of the cross-cutting swing arm 6171 is hinged It is hinged with one end of the first cross-cutting rod 617, one side of the cross-cutting swing arm 6171 is hinged with the cross-cutting frame 611, and the other end of the first cross-cutting rod 617 is connected with the cross-cutting drive member. The output end is connected; the cross-cutting mechanism 61 also includes a second cross-cutting rod 618, one end of the second cross-cutting rod 618 is hinged with the cross-cutting knife seat 612, and the other end of the second cross-cutting rod 618 It is hinged with the upper end of the transverse swing arm 6171 . The cross-cutting drive member rotates the cross-cut swing arm 6171 by driving the first cross-cut pull rod 617 to rotate. The rotation of the cross-cut swing arm 6171 makes the second cross-cut pull rod 618 rise and fall, so that the cross-cut upper knife 613 on the cross-cut knife seat 612 is raised and lowered. The rotation of the cross-cutting swing arm 6171 will also make the first cross-cutting pull rod 617 rise and fall, and make the pressure plate shaft 6173 rotate under the driving of the first cross-cutting pull rod 617, and the pressure plate shaft 6173 drives the connecting rod to rise and fall, thereby making the cross-cutting pressure block 616 rise and fall . To make the cross-cutting pressing block 616 and the cross-cutting upper knife 613 move respectively, two driving members are usually required. The utility model utilizes one driving member, which can make the cross-cutting pressing block 616 and the cross-cutting upper knife 613 move respectively, thereby reducing the number of driving members, thereby achieving the effect of cost saving.

As shown in FIG. 13 to FIG. 15 , the book-reversing device 7 includes a book-returning drive member, a first conveyor belt 71 and a second conveyor belt 72 arranged in sequence from the inside to the outside, and the book-returning driving member is used to drive the first A conveyor belt 71 moves, and a second conveyor belt 72 is sleeved on the outer circumference of the first conveyor belt 71. Along the moving direction of the first conveyor belt 71, a first channel 73 and a turning channel are arranged between the first conveyor belt 71 and the second conveyor belt 72 in sequence. 74 and a second channel 75, the turning channel 74 is used to turn the notebook over, the first channel 73 is provided with a feeding port 731 for the notebook to enter the first channel 73, the feeding port 731 and the cutting device 6 The discharge end of the second channel 75 is provided with a discharge port 751 for the notebook to exit the second channel 75 . The first conveyor belt 71 has a loop shape, so the upper end of the first conveyor belt 71 and the lower end of the first conveyor belt 71 move in opposite directions, respectively. The first channel 73 is located at the upper end of the first conveyor belt 71 , and the turning pass is located at the side end of the first conveyor belt 71 , and the second channel 75 is located at the lower end of the first conveyor belt 71 . After the notebook enters the first channel 73 from the feeding port 731, it moves forward with the first channel 73; then the notebook enters the turning channel 74, and the notebook will not be separated from the first conveyor belt 71 due to the limitation of the second conveyor belt 72. In the process of moving in the turning channel 74, the notebook turns over and enters the second channel 75; after entering the second channel 75, the notebook continues to move with the first conveyor belt 71 due to the limitation of the second conveyor belt 72, and moves to the second channel 75. The material is discharged at the discharge port 751, thereby realizing the automatic turnover of the notebook. The present invention uses the first conveyor belt 71 and the second conveyor belt 72 to clamp the notebook and makes the notebook move with the circular first conveyor belt 71, so as to realize the automatic turnover of the notebook, thereby reducing the labor cost in the process of turning the notebook over. Improve notebook productivity.

As shown in FIG. 16 , the receiving device 8 includes a receiving frame 81, and the receiving frame 81 is provided with a baffle plate 811, a first receiving plate 812, and a second receiving plate 813 for driving the first receiving plate 813. A feeding plate 812 is close to and away from the first feeding driving member 814 of the second feeding plate 813 , the second feeding driving member 815 is used to drive the second feeding plate 813 close to and away from the second feeding plate 813 , and The receiving table 82 is disposed under the first receiving plate 812 and the second receiving plate 813 , and the first receiving driving member 814 , the second receiving driving member 815 and the receiving table 82 are all fixed to the receiving table 82 . In the frame 81 , the first splice plate 812 is connected to the output end of the first splice driver 814 , and the second splice plate 813 is connected to the output end of the second splice driver 815 , the baffle plate 811 is arranged on the second feeding plate 813 , and the feeding end of the first feeding plate 812 communicates with the discharging end of the turning device 7 . After the notebook is unloaded from the conveyor belt of the front unit, there will be a lateral movement component, which makes it impossible to stack neatly. In the present invention, the notebook is discharged from the conveyor belt of the front device and then slides onto the first feeding plate 812 and the second feeding plate 813. The second feeding plate 813 blocks the notebook, so that the notebook cannot be moved laterally to eliminate the need for The lateral movement component of the notebook. Afterwards, the first panel driver 814 drives the first panel 812 away from the second panel 813 and the second panel driver 815 drives the second panel 813 away from the first panel 812 . The material plate 812 and the second material receiving plate 813 are dropped to the receiving table 82 , and after several cycles, the notebooks are neatly stacked on the receiving table 82 . The utility model achieves the effect of neatly stacking the notebooks by using the baffle 811 to eliminate the lateral movement component of the notebooks and then allowing the notebooks to fall naturally.

The above are only preferred embodiments of the present invention, and are not intended to limit the present invention in any form. Although the present invention is disclosed as a preferred embodiment, it is not intended to limit the present Professional and technical personnel, within the scope of the technical solution of the present invention, make some changes or modifications to the equivalent embodiments of the equivalent changes by using the technical content disclosed above, provided that the content of the technical solution of the present invention is not departed from, according to the present invention. The utility model technology refers to any simple modification, equivalent change and modification made to the above embodiments, which all belong to the scope of the technical solution of the present utility model.

Claims (10)

1. a kind of full-automation notebook production line, it is characterised in that: including for the feeding device by unreeling reel paper at paper tape (1), the printing equipment (11) for being printed to paper tape discharge from feeding device (1), be used for will be from printing equipment (11) The paper tape of discharging cuts into the cutting device (13) of paper, the paper stacking apparatus for stacking the paper to discharge from cutting device (13) (2), for pile configuration specialized page discharge from paper stacking apparatus (2) gathering device (3), be used for from gathering device (3) pile to discharge carries out the delivery device (4) of blanking, turns for what is transported to the pile to discharge from gathering device (3) Moving device (14), the nailing device (15) for carrying out nailing to the pile that discharge from transfer device (14), be used for will be from nailing Device (15) discharging pile folding at notebook folding apparatus (5), for from the notebook that folding apparatus (5) discharges into Row cut cutting means (6), for the notebook to discharge from cutting means (6) won back all the money lost win back all the money lost device (7) and For to the receipts present apparatus (8) for carrying out blanking from the notebook for winning back all the money lost device (7) discharging.

2. a kind of full-automatic notebook production line according to claim 1, it is characterised in that: the gathering device (3) Including collating feeding belt (31), it is located above collating feeding belt (31) and matches envelope feeding belt (32), positioned at collating feeding belt (31) The specialized page feed mechanism (35) of side, the collating actuator for driving collating feeding belt (31) mobile and for driving Actuator, the feeding end of the collating feeding belt (31) and the discharging of paper stacking apparatus (2) are sealed with mobile the matching of envelope feeding belt (32) End connection, it is described to be used to the specialized page to discharge from specialized page feed mechanism (35) being delivered to collating with envelope feeding belt (32) The middle part of feeding belt (31)；

The gathering device (3) further includes being arranged at the matching with envelope feeding belt (32) side to seal driving wheel (33), with envelope Driven wheel (34) and for drive with envelope driving wheel (33) rotation with envelope rotating drive part, it is described with seal driving wheel (33) and It is logical for the specialized page feeding for passing through with the specialized page in envelope feeding belt (32) with being formed between envelope driven wheel (34) Road.

3. a kind of full-automatic notebook production line according to claim 1, it is characterised in that: the delivery device (4) Including collection rack (41) and be all set in the collection transmission belt (42) of the collection rack (41), collection transmission actuator, Tray paper platform (43), the first tray paper actuator (44), the second tray paper actuator (45), the first tray paper part (46) and the second tray paper part (47), for driving collection transmission belt (42) mobile, the tray paper platform (43) and the collection pass the collection transmission actuator The discharge end of defeated band (42) is connected to, and the first tray paper part (46) and the second tray paper part (47) are respectively positioned on the tray paper platform (43) Top, the first tray paper actuator (44) is for driving the first tray paper part (46) separate and close to the second tray paper part (47), institute State the second tray paper actuator (45) for drive the second tray paper part (47) far from and close to the first tray paper part (46), the collection biography The feeding end of defeated band (42) is connected to the discharge end of the gathering device (3).

4. a kind of full-automatic notebook production line according to claim 3, it is characterised in that: tray paper platform (43) packet Include spaced muti-piece paper platform (431)；Tray paper platform (43) is slidably connected with the collection rack (41)；The delivery device It (4) further include collection actuator, the output end of the collection actuator is arranged with collection gear (48), and the tray paper platform (43) sets There is the collection rack gear (432) for engaging with the collection gear (48).

5. a kind of full-automatic notebook production line according to claim 1, it is characterised in that: the cutting means (6) Feeding belt (63) is cut including transverse cutting mechanism (61), longitudinal sectional mechanism (62), first, second cuts feeding belt (64), for driving First, which cuts feeding belt (63) are moved first, cuts feeding actuator and for driving second to cut feeding belt (64) movement Second cut feeding actuator, the feed end of the transverse cutting mechanism (61) is connected to the discharge end of the folding apparatus (5), One, which cuts feeding belt (63) and second, cuts to be formed between feeding belt (64) and cuts feeding passage, it is described cut feeding passage into Material end is connected to the discharge end of the transverse cutting mechanism (61), and the longitudinal sectional mechanism (62), which is arranged in, described cuts the one of feeding passage Side；

The longitudinal sectional mechanism (62) includes longitudinal sectional rack (621), longitudinal knife (623) and is all set in the longitudinal sectional rack (621) longitudinal sectional pedestal (622), longitudinal sectional actuator and stocking cutter (624), the longitudinal knife (623) are located at the longitudinal sectional pedestal (622) top, for the longitudinal sectional actuator for driving longitudinal knife (623) to go up and down, the stocking cutter (624) is set to described cut Feeding passage discharge end is equipped between the longitudinal sectional pedestal (622) and longitudinal knife (623) for for cutting the pen in feeding passage Remember the longitudinal sectional channel that originally passes through, the knife edge of the stocking cutter (624) towards with the moving direction that cuts notebook in feeding passage On the contrary.

6. a kind of full-automatic notebook production line according to claim 5, it is characterised in that: the longitudinal sectional mechanism (62) The longitudinal sectional briquetting (626) for further including longitudinal sectional tool apron (625) and being slidably connected with the longitudinal sectional tool apron (625), the longitudinal knife (623) it is fixed on the longitudinal sectional tool apron (625), the output end of the longitudinal sectional actuator is connect with longitudinal sectional tool apron (625)；

The longitudinal sectional rack (621) is equipped with longitudinal sectional sliding rail (627), and the longitudinal sectional tool apron (625) and the longitudinal sectional sliding rail (627) are sliding Dynamic connection；

The longitudinal sectional mechanism (62) further includes longitudinal sectional driving shaft (628), is set in the longitudinal sectional of longitudinal sectional driving shaft (628) periphery Eccentric disc (629) and the longitudinal sectional pull rod (6281) connecting with the longitudinal sectional tool apron (625), the longitudinal sectional pull rod (6281) are separate One end of the longitudinal sectional tool apron (625) is equipped with the guide groove (6282) being flexibly connected with the longitudinal sectional eccentric disc (629), described vertical Driving shaft (628) is cut to connect with the output end of the longitudinal sectional actuator.

7. a kind of full-automatic notebook production line according to claim 5, it is characterised in that: the transverse cutting mechanism (61) The transverse cutting mechanism (61) includes crosscutting rack (611), crosscutting tool apron (612), the crosscutting upper slitter for being fixed on crosscutting tool apron (612) (613), it is fixed on the crosscutting of the crosscutting rack (611) and cuts (614) and for driving crosscutting upper slitter (613) by near and far From the crosscutting crosscutting actuator for cutting (614)；

The crosscutting rack (611) is equipped with the inclined crosscutting sliding rail (615) of relative level, the crosscutting tool apron (612) and institute Crosscutting sliding rail (615) is stated to be slidably connected.

8. a kind of full-automatic notebook production line according to claim 7, it is characterised in that: the transverse cutting mechanism (61) It further include the crosscutting briquetting (616) of crosscutting compression transmission component and setting in crosscutting upper slitter (613) side, the crosscutting driving Part drives crosscutting briquetting (616) to go up and down by the crosscutting compression transmission component；

The crosscutting compression transmission component include the first crosscutting pull rod (617), crosscutting swing arm (6171), crosscutting connecting rod (6172) with And the pressing plate shaft (6173) with crosscutting rack (611) rotation connection, the periphery protrusion of the pressing plate shaft (6173) are formed with first Linking arm (6174) and the second linking arm (6175), the crosscutting briquetting (616) is equipped with cuts with scissors with second linking arm (6175) The connecting rod connect, one end of the crosscutting connecting rod (6172) and first linking arm (6174) hingedly, the crosscutting connecting rod (6172) the other end and the upper end of the crosscutting swing arm (6171) are hinged, the lower end of the crosscutting swing arm (6171) and described the One end of one crosscutting pull rod (617) is hinged, the side of the crosscutting swing arm (6171) and the crosscutting rack (611) hingedly, institute The other end for stating the first crosscutting pull rod (617) is connect with the output end of crosscutting actuator；

The transverse cutting mechanism (61) further includes the second crosscutting pull rod (618), one end of the second crosscutting pull rod (618) with it is described Crosscutting tool apron (612) hingedly, cut with scissors by the other end of the second crosscutting pull rod (618) and the upper end of the crosscutting swing arm (6171) It connects.

9. a kind of full-automatic notebook production line according to claim 1, it is characterised in that: described to win back all the money lost device (7) It is described to win back all the money lost drive including winning back all the money lost actuator and the first conveyer belt (71) and the second conveyer belt (72) that set gradually from the inside to the outside For moving part for driving first conveyer belt (71) mobile, the second conveyer belt (72) is sheathed on the periphery of the first conveyer belt (71), Along the moving direction of the first conveyer belt (71), first is disposed between the first conveyer belt (71) and the second conveyer belt (72) Channel (73) turns to channel (74) and second channel (75), turns to channel (74) for overturning notebook, described first is logical Road (73) is equipped with the feed inlet (731) for entering first passage (73) for notebook, the feed inlet (731) and the cutting means (6) discharge end connection, the second channel (75) are equipped with the discharge port (751) that second channel (75) are exited for notebook.

10. a kind of full-automatic notebook production line according to claim 1, it is characterised in that: the receipts present apparatus (8) Including receiving this rack (81), this rack of receipts (81) is equipped with baffle (811), the first splicing plate (812), the second splicing plate (813), for drive the first splicing plate (812) close to and separate second splicing plate (813) the first splicing actuator (814), For driving the second splicing actuator (815) and the setting of the close and separate second splicing plate (813) of the second splicing plate (813) Material receiving desk (82) below the first splicing plate (812) and the second splicing plate (813), the first splicing actuator (814), Two splicing actuators (815) and material receiving desk (82) are both secured to this rack of receipts (81), the first splicing plate (812) with The output end of the first splicing actuator (814) connects, the second splicing plate (813) and the second splicing actuator (815) output end connection, the baffle (811) are set to the second splicing plate (813), the first splicing plate (812) Feed end be connected to the discharge end for winning back all the money lost device (7).