GB2596631A

GB2596631A - A book production and processing technology

Info

Publication number: GB2596631A
Application number: GB2105153.7A
Authority: GB
Inventors: Zhan Jie
Original assignee: Zhejiang Yanji Technology Co Ltd
Current assignee: Zhejiang Yanji Technology Co Ltd
Priority date: 2020-07-06
Filing date: 2021-04-12
Publication date: 2022-01-05
Anticipated expiration: 2041-04-12
Also published as: CN111731010A; JP2022020531A; JP6959481B1; GB2596631B; GB202105153D0; CN111731010B

Abstract

A book production and processing technology is performed by an apparatus having a base (1, Fig.2), a case panel (2, Fig.2), a rotation device and a cutting device. Paper storage cavities (3, 9, Fig.2) are defined in an interior of a first and second end respectively of the case panel. The rotation device and cutting device are arranged in the paper storage cavities respectively. The cutting device includes a tightening member and a collecting member, wherein the tightening member comprises a connecting through hole (20, Fig.4), a connecting plate (21, Fig.5) in the connecting through hole, a forcing plate (22, Fig.5), a sliding plate (26, Fig.5), a transmission block (15, Fig.5), a cylinder (10, Fig.5), a transmission plate (25, Fig.5), a paper cutter (24, Fig,5), a squeeze block (23, Fig.5) connected to a first side surface of the lower end of the transmission plate, a contract groove (30, Fig.8) in the forcing plate (22, Fig.8), a contraction block (29, Fig.8) connected to the contract groove, an upper connecting groove (27, Fig.8) on an inner side wall of the connecting plate and a lower connecting groove (28, Fig.8) on the inner side wall of the connecting plate.

Description

A BOOK PRODUCTION AND PROCESSING TECHNOLOGY

TECHNICAL FIELD

[0001] The present invention relates to the field of printing, in particular to a book production and processing technology.

BACKGROUND OF THE INVENTION

[0002] With the development of the society, people's demands on material and spiritual civilizations are increasingly improved, book collection and reading are also developing towards a higher lever; people are not only demanding a novelty and a high quality in book content, but also asking for a beautiful, neat cover with high grade and hard cover, so that reading or collection demands of people in different levels are all met; furthermore, book production is a process that making use of paper, all kinds of binding materials, printing processes to materialize book designs into books with physical forms; in such a process, the paper generally used are roll paper, when in a roll paper cutting, the paper can be cut by one single piece, which can not meet a consistent working process; moreover, a multiple of complex alignment operations of cutters are required, and the cut paper are required to be collected to finish alignment by the workers, and when in work, paper to be cut will extrude front paper, thus a paper winkles are formed to affect a beauty.

BRIEF SUMMARY OF THE INVENTION

[0003] The technical problem to be solved by the invention is to provide a book production and processing technology, so as to overcome the problems existing in the prior art, such as a multiple of complex alignment operations of cutters, the cut paper collected to finish alignment by the workers, a paper winkles are formed as paper to be cut extrude front paper when in work, which can realize a cutting distance with accuracy and automatically collect and align the paper without producing wrinkles.

[0004] To achieve the above objective, the present invention achieves the following technical solution: the book production and processing technology, detailed technological process is as follows: [0005] Sl. cutting roll papers into papers with corresponding sizes by a cutting device; [0006] S2, type setting for book content and book cover; [0007] S3. book page printing: printing the book content onto the papers with corresponding materials by using type-setting in Sl; [0008] 54. page folding process: fold large papers printed with the book content in S3 into a book format size in terms of page numbers [0009] 55. page gathering process: making folded papers in S4 into a book block with loose pages in sequence; [0010] S6, book block composing process: including gluing on a bottom of a book spine and a side surface of the book surface near the book spine, and then the book block is shaped; [0011] S7, folding the book cover into a cemented surface well-matched with the book block and the book spine: folding into two kink marks on a center of the book cover in S4, and a part of the book cover between two kink marks is the cemented surface; [0012] 58. cementing the book cover and the book block: gluing on the book spine of the book block formed in 56, thus bonding the book spine and the cementing surface formed in S7; [0013] 59. book cutting: pressing and three sided trimming to cemented book to obtain a finished book.

[0014] Operation procedure S1 in above technological processes SI-S9 are performed by a base, a case panel, a rotation device and the cutting device, wherein the present invention comprises the case panel fixedly arranged on the base, wherein a paper storage cavity is defined in an interior of a first end of the case panel, wherein a paper cutting cavity is defined in an interior of a second end of the case panel, wherein the rotation device is arranged in the paper storage cavity, wherein the cutting device is arranged in the paper cutting cavity, wherein a fixed plate is fixedly arranged on the second end of an upper surface of the case panel, wherein a motor is removably connected to the fixed plate, wherein a forcing spindle is fixedly arranged on a side wall of the case panel, wherein a forcing wheel is rotatably connected to the forcing spindle.

[0015] The rotation device comprises a rotating shaft removably connected to a side wall of the paper storage cavity, wherein a rotating wheel is rotatably connected to the rotating shaft, wherein a driving wheel is rotatably connected to a first side wall of the paper storage cavity, wherein the rotating wheel and the forcing wheel are connected to an output terminal of the motor through a chain.

[0016] The cutting device comprises a tightening member and a collecting member, wherein the tightening member comprises a connecting through hole defined on an upper end of a side wall of the paper cutting cavity, wherein a connecting plate is slidably connected in the connecting through hole, wherein a forcing plate is slidably connected to the connecting plate, wherein a sliding plate is slidably connected to the upper surface of the side wall of the case panel, wherein a transmission block is fixedly connected to a side end of the sliding plate, wherein a cylinder is fixedly connected to two ends of the sliding plate, wherein a transmission plate is fixedly connected to an output terminal of the cylinder, wherein a paper cutter is fixedly connected to a lower end of the transmission plate, wherein a squeeze block is fixedly connected to a first side surface of the lower end of the transmission plate, wherein a contract groove is defined in the forcing plate, wherein a contraction block is slidably connected to the contract groove, wherein an upper connecting groove is defined on an inner side wall of the connecting plate, wherein a lower connecting groove is defined on the inner side wall of the connecting plate, wherein a connecting plate is fixedly connected to the transmission block, wherein the transmission block engages with the chain on the motor, and when the cylinder presses downward, the transmission plate presses the squeeze block to extrude the forcing plate.

[0017] The tightening device further comprises a receiving plate fixedly arranged on the upper end of the side wall of the paper cutting cavity, wherein a guiding plate is fixedly connected to a first end of the receiving plate, wherein a pressing block is fixedly arranged on the upper end of the side wall of the paper cutting cavity, wherein a pressing groove is defined on a lower surface of the pressing block, wherein a pressing plate is slidably connected to the pressing groove, wherein a clamping groove is defined on a side wall of the pressing plate, wherein a plurality of launching plate grooves are defined on a side wall of the pressing block, wherein launching block are slidably connected to a plurality of the launching plate grooves, wherein a launching plate is fixedly arranged on a side end of the launching block, wherein an extrusion bump is fixedly arranged on a front end of the connecting through hole, and the pressing plate is elastically connected to a top end of the pressing groove, and the launching plate is elastically connected with a side wall of the pressing block, and the launching block is able to reciprocally slide in the clamping groove, and a front end of the launching block is a chamfer with degrees.

[0018] The collecting device comprises a collecting cavity defined on the side wall of the paper cutting cavity, wherein a collecting through hole is defined on a side wall of the collecting cavity, wherein a collecting shaft is slidably arranged in the collecting through hole, wherein a pushing plate is fixedly connected to the collecting shaft, wherein a buckle plate is arranged in the collecting cavity, wherein an upper collecting plate is fixedly connected to a side wall of the buckle plate, wherein a collecting groove is defined on a front end of the upper collecting plate, and the collecting shaft is fixedly connected with the transmission block by the collecting through hole, and the pushing plate slides along an upper surface of the buckle plate, and the upper collecting plate is elastically connected with a bottom of the paper cutting cavity.

[0019] In conclusion, the benefits of the invention are as follows: 1, by arranging the driving wheel, the rotating shaft driven by the motor is able to drive the roll paper to rotate, so that avoid a damage due to the roll paper being broke when in cutting, and the transmission wheel is also make sure a smooth output of the roll paper; 2. by arranging the collecting shaft, the pushing plate and the buckle plate, the buckle plate can drive the upper collecting plate to vibrate up and down under the action of the spring when in movement, thereby the paper can be flatly laid on the upper collecting plate to reduce a collecting work for workers, and at the same time, the collecting shaft moves to level the folded paper and the paper fell on the side wall, and after being cut, neat paper are collected by the collecting groove for book typesetting.

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] Further explanations to the present invention according to the embodiments and figures will be described below.

[0021] FIG. 1 is a process flow diagram of the invention; [0022] FIG. 2 is a structural view showing theinvention; [0023] FIG. 3 is a top view showing of the present invention; [0024] FIG. 4 is a sectional perspective view along"B-B" direction in FIG. 3; [0025] FIG. 5 is an enlarged diagram of "Q" in FIG. 4; [0026] FIG. 6 is an enlarged diagram of "S" in FIG. 4; [0027] FIG. 7 is a sectional perspective view along"E-ET direction in FIG. 3; [0028] FIG. 8 is an enlarged diagram of "F" in FIG. 7.

DETAILED DESCRIPTION OF THE INVENTION

[0029] For better explain the technical proposal in the present invention embodiments, Figure 1 to Figure 8 in the embodiments will be briefly described below. Obviously, the embodiment desciibed is only part of the embodiments of the present invention. All other embodiments obtained by persons of ordinary skill in the art based on the embodiment of the present invention without creative efforts shall fall within the protection scope of the present. invention [0030] Referring to FIG. 1-8, a book production and processing technology, detailed technological process is as follows: [003 t] Si. cutting roll papers into papers with corresponding sizes by a cutting deyi c [0032] S2. type setting for book content and book cover; [0033] 5:3, book page p n ing printing the book content onto the papers with ponding materials by using type-setting in Si; [0034] 54, page folding process: fold large papers printed-with the book content in S3 into book format size in terms of page numbers; [0035] 55, page gathering process: making folded papers in 54 into a book block with loose pages in sequence; [0036] 56, book block composing process: including gluing on a bottom of a book spine and a side surface of the book surface near the book spine, and then the book block is shaped; [0037] 57, folding the book cover into a cemented surface well-matched wit * the book block and the book spine: folding into two kink marks on a center of the book cover in 54, and a part of the book cover between two kink marks is the cemented surface; [0038] 58. cemen book block formed 57; .he book cover and the book block.: gluing on the book spine of the 56, thus bonding the book spine and the cementing surface formed in [0039] 59. book cutu pressing and three sided trimming to cemented book to obtain a finished book; [0040] Operation procedure Si in above technological processes I-59 are performed by a base 1, a case panel 2, a rotation device and the cutting device, wherein the present invention comprises the case panel 2 fixedly arranged on the base 1, wherein a paper storage cavity 3 is defined in an interior of a first end of the case panel 2, wherein a paper cutting cavity 9 is d in an interior of a second end of the case panel 2, wherein the rotation device is arranged in the paper storage cavity 3, wherein the cutting device is arranged in the paper cutting cavity 9, wherein a fixed plate 5 is fixedly arranged on the second end of an upper surface of the ease panel 2, wherein a motor 6 is removably connected to the fixed plate 5, wherein a forcing spindle ii is fixedly arranged on a side wall of the case panel 2, wherein a forcing wheel 12 is rotatably connected to the forcing spindle 11; the rotation device comprises a rotating shaft 13 removably connected to a side wall of the paper storage cavity wherein a rotating wheel 14 is rotatably connected to the rotating shaft 13, wherein a driving wheel 4 is rotatably connected to a first side wall of the paper storage cavity 3, wherein the rotating wheel 14 and the forcing wheel 12 are connected to an output terminal of the motor 6 through a chain; whereby before using, the output terminal of the motor 6 is connected with the rotating wheel 14 through the chain, and then the chain is pressed under the forcing wheel 12, thereby the chain horizontally rotates on a plane of the forcing wheel 12 and the output terminal of the motor 6, and then roll papers are sleeved on the rotating shaft 13, and then heads of the roll papers are pulled from a top of the driving wheel 4; the rotating shaft 13 driven by the motor 6 is able to drive the roll papers to rotate, thus avoid an economic damage due to a breakage of the roll papers in cutting, and the driving wheel 4 is able to ensure a smooth output of the roll papers.

[0041] The cutting device comprises a tightening member and a collecting member, wherein the tightening member comprises a connecting through hole 20 defined on an upper end of a side wall of the paper cutting cavity 9, wherein a connecting plate 21 is slidably connected in the connecting through hole 20, wherein a forcing plate 22 is slidably connected to the connecting plate 21, wherein a sliding plate 26 is slidably connected to the upper surface of the side wall of the case panel 2, wherein a transmission block 15 is fixedly connected to a side end of the sliding plate 26, wherein a cylinder 10 is fixedly connected to two ends of the sliding plate 26, wherein a transmission plate 25 is fixedly connected to an output terminal of the cylinder 10, wherein a paper cutter 24 is fixedi:tr connected to a lower end of the transmission plate 25, wherein a squeeze block 23 is fixedly connected to a first side surface of the lower end of the transmission plate 25,, wherein a contract groove 30 is defined in the forcing plate 22, wherein a contraction block 29 is slidably connected to the contract groove wherein an upper connecting groove 27 is defined on an inner side wall of the connecting plate 21, wherein a lower connecting groove 28 is defined on the inner side wall of the connecting plate 21, wherein a connecting plate 21 is fixedly connected to the transmission block 15, wherein the transmission block 15 engages with the chain on the motor 6, and when the cylinder 10 presses downward, the transmission plate 25 presses the squeeze block 23 to extrude the forcing plate 22, and then the heads of the roll papers pulled by the driving wheel 4 are drew out from a lower surface of the forcing plate 22 and an upper surface of the connecting plate 21, so that the heads of the roll papers are aligned with a front end of the connecting plate 21, and then the forcing plate 22 is pressed downward manually, and the contraction block 29 extracts into the contract groove 30 from the upper connecting groove 2.7 under an action of pressure, and then the forcing plate 22 moves downward to press the roll papers tightly, and then the contraction block 29 is pressed into the lower connecting groove 28 from the contract groove 30 under an action of a spring, thereby the forcing plate 22 is ensured to be limited and not being separated in movement, and the roll papers will also follow the connecting plate 21 to slide forward, and then the transmission block 15 engages with a rack to rotate with the rotating wheel 14, thereby a rotation speed of the roll papers is the same as a moving speed of the connecting plate 21.

[0042] The tightening device farther comprises a receiving plate 31 fixedly arranged on the upper end of the side wall of the paper cutting cavity 9, wherein a guiding plate 32 is fixedly connected to a first end of the receiving plate 31, wherein a pressing block 39 is fixedly arranged on the upper end of the side wall of the paper cutting cavity 9, wherein a pressing groove 35 is defined on a lower surface of the pressing block 39, wherein a pressing plate 33 is slidably connected to the pressing groove 35, wherein a clamping groove 34 is defined on a side wall of the pressing plate 33, wherein a plurality of launching plate grooves 38 are defined on a side wall of the pressing block 39, wherein launching block 37 are slidably connected to a plurality of the launching plate grooves 38, wherein a launching plate 36 is fixedly arranged on a side end of the launching block 37, wherein an extrusion bump 47 is fixedly arranged on a front end of the connecting through hole 20, and the pressing plate 33 is elastically connected to a top end of the pressing groove 35, and the launching plate 36 is elastically connected with a side wall of the pressing block 39, and the launching block 37 is able to reciprocally slide in the clamping groove 34, and a front end of the launching block 37 is a chamfer with 30 degrees; whereby when the motor 6 rotates the chain to drive the rotating wheel 14 to rotate, the roll papers are outputted, and at the same time, the transmission block 15 moves forward to drive the forcing plate 22 and the connecting plate 21 to move forward, and then the launching plate 36 is extruded by a side surface of the forcing plate 22 which moves to a front end of the connecting plate 21, and then the launching block 37 is driven to be compressed by the launching plate 36 to slide into the clamping groove 34 from the pressing groove 35, and then the pressing plate 33 separates from the receiving plate 31" thereby a first side surface of a lower end of the connecting plate 21 attaches to the guiding plate 32, and then the extrusion bump 47 extrudes upward the forcing plate 22, and the contraction block 29 is driven to be contracted into the contract groove 30 front the lower connecting groove 28 under an action of pressure, and then the forcing plate 22 moves upward to separate from the roll papers, and under an action of the spring, the contraction block 29 is pressed into the upper connecting groove 27 from the contract groove 30, and then the motor 6 rotates reversely to drive the connecting plate 21 to move to a first side, thereby the rotating wheel 14 is driven to idle by the chain, thereby the forcing, plate 22 separates from the launching plate 36, to drive the launching block 37 to reset under an action of the spring, thereby the pressing plate 33 is pressed downward under an action of the spring to press papers on the receiving plate 31 tightly, and then a cutting distance is confirmed by a scale on an upper surface of the case panel 2, and after reaching a designated distance, the cylinder 10 is started to move downward, and then the squeeze block 23 extrudes the forcing plate 22 preferentially, and then the contraction block 29 is extracted into the contract groove 30 from the upper connecting groove 27 under an action of pressure, arid then under an action of the spring, the contraction block 29 is pressed into the lower connecting groove 28 from the contract groove 30, thereby the paper cutter 24 cuts the papers; the forcing plate 22 is pressed downward again to move downward to press the roll papers tightly to keep the roll papers in a tight state, so that a. paper sliding and a slant cutting are avoided when in cutting, thereby following roll papers are pressed tightly on the connecting plate 21 to keep a consistency of the roll papers in cutting, thereby a practicality of the present invention and a working efficiency can be improved.

[0043] The collecting device comprises a collecting cavity 45 defined on the side wall of the paper cutting cavity 9, wherein a collecting through hole 46 is defined on a side wall of the collecting cavity 45, wherein a collecting shaft 42 is slidably arranged in the collecting through hole 46, wherein a pushing plate 43 is fixedly connected to the collecting shaft 42, wherein a buckle plate 41 is arranged in the collecting cavity 45, wherein an upper collecting plate 7 is fixedly connected to a side wall of the buckle plate 41, wherein a collecting groove 8 is defined on a front end of the upper collecting plate 7, and the collecting shaft 42 is fixedly connected with the transmission block 15 by the collecting through hole 46, and the pushing plate 43 slides along an upper surface of the buckle plate 41, and the upper collecting plate 7 is elastically connected with a bottom of the paper cutting cavity 9; whereby after the papers being cut and fall on the collecting shaft 42, the motor 6 rotates forward to drive the connecting plate?] to move to a first side, and when the side wail of the forcing plate 22 extrudes the launching plate 36 again, the launching plate 36 drives the launching block 37 to compress, and the launching block 37 slides into the clamping groove 34 from the pressing groove 35 to separate the pressing plate 33 and the receiving plate 31, thereby the papers being cut on the receiving plate 31 fall down under an action of gravity, and then front ends of the roll papers re-enter into an extrusion surface between the pressing plate 33 and the receiving plate 31, thereby a first side surface of a lower end of the connecting plate 21 attaches to the guiding plate 32, and then the extrusion bump 47 extrudes upward the forcing plate 22, and the contraction block 29 is driven to be contracted into the contract groove 30 from the lower connecting groove 28 under the action of pressure, and then the forcing plate 22 moves upward to separate from the roll papers, and under the action of the spring, the contraction block 29 is pressed into the upper connecting groove 27 from the contract groove 30, thereby a consistent paper cutting is performed to ensure an accuracy of papers length when in cutting and reduce a working intensity of workers, and then the motor 6 rotates reversely to drive the connecting plate 21 to move to a first side, thereby the rotating wheel 14 is driven to idle by the chain, thereby the forcing plate 22 separates from the launching plate 36 to drive the launching block 37 to reset under the action of the spring, and then the collecting shaft 42 pushes the pushing plate 43 to move synchronously under an action of the chain, and when in movement, the buclde plate 41 drives the upper collecting plate 7 to vibrate up and down under an action of the spring, thereby a collecting work for workers can be reduced as the papers are flatly covering on the upper collecting plate 7 with a vibration, at the same time, the collecting shaft 42 moves to level folded papers and the papers fell on the side wall, and after the cutting is finished, neat papers are collected through the collecting groove 8 for book typesetting.

Claims

CLAIMS1. A book production and processing technology, detailed technological process is as follows: Si. cutting roll papers into papers with corresponding sizes by a cutting device; S2. type setting for book content and book cover; Si book page printing: printing the book content onto the papers with corresponding materials by using type-setting in Si; S4, page folding process: fold large papers printed with the book content in 53 into a book format size in terms of page numbers; S5, page gathering process: making folded papers in S4 into a book block with loose pages in sequence; SG, book block composing process: including gluing on a bottom of a book spine and a side surface of the book surface near the book spine, and then the book block is shaped; S7, folding the book cover into a cemented surface well-matched with the book block and the book spine: folding into two kink marks on a center of the book cover in S4, and a part of the book cover between two kink marks is the cemented surface; SS, cementing the book cover and the book block: gluing on the book spine of the book block formed in S6, thus bonding the book spine and the cementing surface formed in S7; S9, book cutting: pressing and three sided trimming to cemented book to obtain a finished book; operation procedure S1 in above technological processes Sl-S9 are performed by a base, a case panel, a rotation device and the cutting device, wherein the present invention comprising: the case panel fixedly arranged on the base, wherein a paper storage cavity is defined in an interior of a first end of the case panel, wherein a paper cutting cavity is defined in an interior of a second end of the case panel, wherein the rotation device is arranged in the paper storage cavity, wherein the cutting device is arranged in the paper cutting cavity, wherein a fixed plate is fixedly arranged on the second end of an upper surface of the case panel, wherein a motor is removably connected to the fixed plate, wherein a forcing spindle is fixedly arranged on a side wall of the case panel, wherein a forcing wheel is rotatably connected to the forcing spindle; the rotation device comprising a rotating shaft removably connected to a side wall of the paper storage cavity, wherein a rotating wheel is rotatably connected to the rotating shaft, wherein a driving wheel is rotatably connected to a first side wall of the paper storage cavity, wherein the rotating wheel and the forcing wheel are connected to an output terminal of the motor through a chain; the cutting device comprising.a tightening member and a collecting member, wherein the tightening member comprises a connecting through hole defined on an upper end of a side wall of the paper cutting cavity, wherein a connecting plate is slidably connected in the connecting through hole, wherein a forcing plate is slidably connected to the connecting plate, wherein a sliding plate is slidably connected to the upper surface of the side wall of the case panel, wherein a transmission block is fixedly connected to a side end of the sliding plate, wherein a cylinder is fixedly connected to two ends of the sliding plate, wherein a transmission plate is fixedly connected to an output terminal of the cylinder, wherein a paper cutter is fixedly connected to a lower end of the transmission plate, wherein a squeeze block is fixedly connected to a first side surface of the lower end of the transmission plate, wherein a contract groove is defined in the forcing plate, wherein a contraction block is slidably connected to the contract groove, wherein an upper connecting groove is defined on an inner side wall of the connecting plate, wherein a lower connecting groove is defined on the inner side wall of the connecting plate, 2. The book production and processing technology defined in claim 1, wherein a connecting plate is fixedly connected to the transmission block, wherein the transmission block engages with the chain on the motor; whereby when the cylinder presses downward, the transmission plate presses the squeeze block to extrude the forcing plate.3. The book production and processing technology defined in claim 1, wherein the tightening device further comprises a receiving plate fixedly arranged on the upper end of the side wall of the paper cutting cavity, wherein a guiding plate is fixedly connected to a first end of the receiving plate, wherein a pressing block is fixedly arranged on the upper end of the side wall of the paper cutting cavity, wherein a pressing groove is defined on a lower surface of the pressing block, wherein a pressing plate is slidably connected to the pressing groove, wherein a clamping groove is defined on a side wall of the pressing plate, wherein a plurality of launching plate grooves are defined on a side wall of the pressing block, wherein launching block are slidably connected to a plurality of the launching plate grooves, wherein a launching plate is fixedly arranged on a side end of the launching block, wherein an extrusion bump is fixedly arranged on a front end of the connecting through hole.4. The book production and processing technology defined in claim 3, wherein the pressing plate is elastically connected to a top end of the pressing groove, and the launching plate is elastically connected with a side wall of the pressing block, and the launching block is able to reciprocally slide in the clamping groove, and a front end of the launching block is a chamfer with 30 degrees.5. The book production and processing technology defined in claim 1, wherein the collecting device comprising: a collecting cavity defined on the side wall of the paper cutting cavity, wherein a collecting through hole is defined on a side wall of the collecting cavity, wherein a collecting shaft is slidably arranged in the collecting through hole, wherein a pushing plate is fixedly connected to the collecting shaft, wherein a buckle plate is arranged in the collecting cavity, wherein an upper collecting plate is fixedly connected to a side wall of the buckle plate, wherein a collecting groove is defined on a front end of the upper collecting plate.6. The book production and processing technology defined in claim 5, wherein the collecting shaft is fixedly connected with the transmission block by the collecting through hole, and the pushing plate slides along an upper surface of the buckle plate, and the upper collecting plate is elastically connected with a bottom of the paper cutting cavity