GB2597573A - A book making and synthesizing process - Google Patents

Abstract

The present invention relates to the field of printing, in particular to a book making and synthesizing process. The process is performed by a box (10, Fig.2), a milling back device and a gluing device. The box includes a gluing cavity (17, Fig.2), a plurality of first electromagnetic sliding rails (12, Fig.2), a plurality of second electromagnetic sliding rails (16, Fig.2), second electromagnetic sliders (18, Fig.4), a plurality of second cylinder groups (19, Fig.4), second clamping panels (20, Fig.3), a plurality of first cylinder groups (13, Fig.2) and first clamping panels (14, Fig.2). A gluing shaft (41, Fig.10) rotates to apply the hot melt glue on a lower end of the book block. Therefore, problems like difficult cleaning and wire-drawing of the hot melt glue on a clamping surface are avoided, and moreover, dust is prevented from entering the hot melt glue, thereby a good adhesive of the hot melt glue is ensured, thereby a fine book is ensured to be produced.

Description

A BOOK MAKING AND SYNTHESIZING PROCESS

TECHNICAL FIELD

[0001] The present Invention relates to the field of printing, in particular to a book making and synthesizing process

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, a milling back is required to be performed to the book before gluing, and paper scraps and rags are produced in a milling back process, thereby an uneven glue applying will happens, thereby a gluing will be incomplete as missing pages, and the existing gluing machines heat the hot melt glue constantly, thereby a wasting of the glue is caused, and moreover, a wiredrawing of the hot melt glue on a clamping surface is also produced, which is hard to clean.

BRIEF SUMMARY OF THE INVENTION

[0003] The technical problem to be solved by the invention is to provide a book making and synthesizing process, so as to overcome the problems existing in the prior art, such as paper scraps and rags produced in a milling back, a wire-drawing and waste of the hot melt glue in gluing with advantages like paper scraps cleaning and collecting, rag cleaning and outputting of the hot melt glue with certain quantity.

[0004] To achieve the above objective, the present invention achieves the following technical solution: the book making and synthesizing process, detailed technological process is as follows: [0005] Si. cutting roll papers into papers with corresponding sizes; [0006] 52. type setting for book content and book cover; [0007] Si book page printing: printing the book content onto papers with corresponding materials by using type-setting in 52; [0008] S4. page folding process: fold the papers printed with the book content in 52 into a book format size in terms of page numbers; [0009] S5. page gathering process: making folded papers in S4 into a book block with loose pages in sequence; [0010] 56. synthesizing process for the book block: milling back the synthesized book by a milling back device; [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 S6, thus bonding the book spine and the cementing surface formed in S7; [0013] S9, book cutting: pressing and three sided trimming to cemented book to obtain a finished book; [0014] Operation procedure 56, S8 in above technological processes S1-S9 are performed by a box, a milling back device, a gluing device, wherein a gluing cavity is arranged on an upper surface of the box, wherein a plurality of first electromagnetic sliding rails are arranged on a side wall of the gluing cavity, wherein a plurality of second electromagnetic sliding rails are arranged on the side wall of the gluing cavity, wherein second electromagnetic sliders are slidably connected within the second electromagnetic sliding rails, wherein a plurality of second cylinder groups are fixedly connected to the second electromagnetic sliders, wherein second clamping panels are fixedly connected to the second cylinder groups, and a plurality of first cylinder groups are fixedly connected to the first electromagnetic sliders, wherein first clamping panels are fixedly connected to the first cylinder groups, wherein first electromagnetic sliding rails are symmetrically arranged in two side walls of the gluing cavity, wherein the second electromagnetic sliding rails are symmetrically arranged in the two side walls of the gluing cavity, wherein the second electromagnetic sliding rails are located below the first electromagnetic sliding rails, and running lengths of the second electromagnetic sliding rails are one half of running lengths of the first electromagnetic sliding rails, and the second electromagnetic sliders are symmetrically arranged within the second electromagnetic sliding rails, wherein the second cylinder groups are symmetrically arranged on the second electromagnetic sliders, wherein the second clamping panels are symmetrically arranged on the second cylinder groups, and the first electromagnetic sliders are symmetrically arranged in the first electromagnetic sliding rails, and the first cylinder groups are symmetrically arranged on the first electromagnetic sliders, wherein the first clamping panels are symmetrically arranged on the first cylinder groups.

[0015] The milling back device comprises a milling cavity arranged on a middle part of a bottom of the gluing cavity, wherein a collection cavity is arranged on a bottom of the milling cavity, wherein a first motor cavity is arranged on a bottom of the collection cavity, and a milling cutter is rotatably arranged in the milling cavity, wherein a milling spindle is fixedly connected to the milling cutter, wherein a first motor is fixedly connected to another end of the milling spindle, wherein a second collection cavity is arranged on the middle part of the bottom of the gluing cavity, wherein a partition plate is fixedly arranged on front and rear end surfaces of the second collection cavity, wherein a plurality of spherical slots are arranged on the partition plate, wherein rotation grooves are arranged on side walls of the spherical slots, wherein rotation pushing plates are elastically connected to upper surfaces of the rotation grooves, wherein rotation shafts are reciprocally and slidably arranged within the rotation grooves, wherein rotation balls are rotatably arranged on the rotation shafts, and a plurality of the rotation balls are rotatably connected in the spherical slots, wherein rotation cams are fixedly arranged on the rotation balls, and a scraper is fixedly arranged on an upper end of a first side wall of the second collection cavity, wherein a scraper groove is arranged on a side wall of the scraper, wherein a plurality of divide blocks are fixedly arranged on an upper surface of the scraper, and the milling cavity is communicated with the collection cavity, and the second collection cavity is communicated with the collection cavity, and a milling spindle is fixedly connected to an output terminal of the first motor, and the milling spindle penetrates through the collection cavity, and the spherical slots are uniformly distributed on the partition plate along a radial direction at equal intervals, and the rotation balls are in fit connection within the spherical slots on the partition plate along the radial direction at equal intervals, and the rotation pushing plates are elastically connected to upper surfaces of the rotation grooves, wherein the rotation shafts are located on lower surfaces of the rotation pushing plates, and under actions of springs, the rotation shafts stick to lower surfaces of the rotation grooves, and an upper surface of the scraper and a lower surface of the gluing cavity are at a same horizontal plane, and the divide blocks are distributed on the upper surface of the scraper along a radical direction at equal intervals.

[0016] The gluing device comprises a first gluing cavity arranged on the middle part of the bottom of the gluing cavity, wherein a gluing heating sleeve is rotatably arranged within the first gluing cavity, wherein a second gluing cavity is arranged in the gluing heating sleeve, wherein a plurality of transmission through holes are arranged on an inner surface of the gluing heating sleeve, wherein a transmission shaft is rotatably connected within the transmission through holes, wherein a plurality of extrusion grooves are arranged on two side walls of the gluing heating sleeve, wherein a plurality of extrusion bend plates are rotatably arranged in the extrusion grooves, wherein a plurality of bend plate grooves are arranged on a circumferential wall of the gluing heating sleeve, wherein gluing bend plates are rotatably arranged in the bend plate grooves, wherein gluing cavities are arranged in the gluing bend plates, wherein rubber plates are fixedly connected to inner surfaces of the gluing bend plates, wherein a plurality of gluing through holes are arranged on front ends of the gluing bend plates, wherein fan-shaped grooves are arranged on middle parts of the transmission shafts along an axial direction, and an extrusion bump is fixedly arranged on bottoms of the bend plate grooves, wherein a lower pressing bump is fixedly arranged on a bottom of two side surfaces of the first gluing cavity, wherein an upper pressing bump is fixedly arranged on an upper part of an inner front end of the first gluing cavity, wherein a gluing shaft is rotatably arranged on a front end of the upper pressing bump, and the transmission through holes are distributed on a circumferential surface of the gluing heating sleeve along a circumferential direction at equal intervals, wherein the extrusion grooves are distributed on a side surface of the gluing heating sleeve along a circumferential direction at equal intervals, wherein the transmission shafts penetrate through the side surface of the gluing heating sleeve, wherein the extrusion bend plates are fixedly connected to the transmission shafts, and the extrusion bend plates are elastically connected to bottoms of the extrusion grooves, and the gluing bend plates are rotatably connected to the transmission shafts, and the gluing bend plates are elastically connected to side walls of the bend plate grooves.

[0017] The gluing device further comprises a second motor groove arranged on a rear side surface of the box, wherein a fixed plate is fixedly arranged on a bottom of the second motor groove, wherein a second motor is fixedly connected to an upper surface of the fixed plate, wherein an accelerator is fixedly connected to an output terminal of the second motor, wherein a connection shaft is detachably connected to the accelerator, wherein a glue machine pressing mechanism is arranged on a rear end of the gluing cavity, and the connection shaft is detachably connected with the gluing heating sleeve.

[0018] In conclusion, the benefits of the invention are as follows: 1, by arranging the divide blocks, the partition plate, the scraper groove, the rotation shafts and the rotation cams, thereby the paper scraps in the book block are separated from a page sandwich, thereby bubbles when gluing are avoided, thereby a page losing phenomenon caused by incomplete gluing is avoided, and then the book block continues to move towards the first side, and then the lower end of the book block contacts flanges of the scraper groove, thereby the paper scraps after being struck by the rotation balls fall into the second collection cavity, and then rags on the lower end of the book block after being milled are removed, and then the book block continues to go by gaps of the divide blocks to separate the lower end of the book, thereby a more even gumming of hot melt glue in the follow-up gluing process is ensured, thereby the gluing process for the book block is performed better, and furthermore, the paper scraps between the book block fall into the second collection cavity; 2. by arranging the, the extrusion bend plates, the transmission shafts and the gluing bend plates, thereby the hot melt glue on the lower end of the book block is applied evenly by the gluing shaft in rotating, thereby the hot melt glue is squeezed from the gluing through holes intermittently to ensure a complete application of the hot melt glue, thereby a wasting is avoided, and moreover, the gluing shaft applies the hot melt glue on the gluing shaft when in rotating, thereby problems like difficult cleaning and wire-drawing of the hot melt glue on a clamping surface are avoided, and moreover, the hot melt glue is semi-closed, thereby dust is prevented from entering the hot melt glue, thereby a good adhesive of the hot melt glue is ensured, thereby a fine book is ensured to be produced.

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Further explanations to the present invention according to the embodiments and figures will be described below, [0020] FIG. 1 is a process flow diagram of the invention; [0021] FIG. 2 is a structural view showing theinvention; [0022] FIG. 3 is a top view showing of the present invention; [0023] FIG. 4 is a sectional perspective view along"A-A" direction in FIG. 3; [0024] FIG. 5 is an enlarged diagram of "Q" in FIG. 4; [0025] FIG. 6 is an enlarged diagram of "W" in FIG. 4; [0026] FIG. 7 is a sectional perspective view of rotation balls 31; [0027] FIG. 8 is a sectional view along "S-S" direction in FIG.3; [0028] FIG. 9 is an enlarged diagram of "R" in FIG. 8; [0029] FIG. 10 is an enlarged diagram of "E" in FIG. 4; [0030] FIG. 11 is an enlarged diagram of "Y" in FIG. 10; [0031] FIG. 12 is a sectional perspective view along"D-D" direction in FIG. 3; [0032] FIG. 13 is an enlarged diagram of "T in FIG. 12.

DETAILED DESCRIPTION OF THE INVENTION

[0033] For better explain the technical proposal in the present invention embodiments, Figures I-first cylinder groups 13 in the embodiments will be briefly described below, Obviously, the embodiment described 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.

[0034] Referring to figures I-1, a book and s tithes ng process detailed technological process is as follows: [0035] Si cutting roil papers into papers with corresponding sizes; [0036] 52. type setting for book content and book cover; [0037] 53, book page printing: printing the book content onto papers with correspon materials by using type-setting in 52; [0038] 54. page folding process: fold the papers printed with the book content in S2 into a book format size in terms of page numbers; [0039] 55. page gathering process: making folded papers in S4 into a. boot block with loose pages in sequence; [0040] 56. synthesizing process for the book block: milling back the synthesized book by a milling back device; [0041] 57. 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 54, and a part of the book cover between two kink marks is the cemented surface; [0042] 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 57; [0043] 59. book cutting: pressing and three side( d book; iminQ to cemented book to obtain a [00441 Operation procedure S6, S8 in above technological processes S1-S9 are performed by a box 10, a milling back device, a gluing device, wherein a gluing cavity 17 is arranged on an upper surface of the box 10, wherein a plurality of first electromagnetic sliding rails 12 are arranged on a side wall of the gluing cavity 17, wherein a plurality of second electromagnetic sliding rails 16 are arranged on the side wall of the gluing cavity 17, 'wherein second electromagnetic sliders 18 are slidably connected within the second electromagnetic sliding rails 16, wherein a plurality of second cylinder groups 19 are fixedly connected to the second electromagnetic sliders 18, wherein second clamping panels 20 are fixedly connected to the second cylinder groups 19, and a plurality of first cylinder groups 13 are fixedly connected to the first electromagnetic sliders 11, wherein first clamping panels 14 are fixedly connected to the first cylinder groups 13, wherein first electromagnetic sliding rails 12 are symmetrically: arranged in two side walls of the gluing cavity 17, wherein the second electromagnetic sliding rails 16 are symmetrically arranged in the two side walls of the gluing cavity 17, wherein the second electromagnetic sliding rails 16 are located below the first electromagnetic sliding rails 12, and running lengths of the second electromagnetic sliding rails 16 are one half of running lengths of the first electromagnetic sliding rails 12, and the second electromagnetic sliders 18 are symmetrically arranged within the second electromagnetic sliding rails 16, wherein the second cylinder groups 19 are symmetrically arranged on the second electromagnetic sliders 18, wherein the second clamping panels 20 are symmetrically arranged on the second cylinder groups 19, and st electromagnetic sliders 11 are symmetrically arranged in the first electromagnetic sliding rails 12, and the first cylinder groups 13 are symmetrically arranged on the first electromagnetic sliders 11, wherein the first clamping panels 14 are symmetrically arranged on the first cylinder groups 13; whereby when book binding is required to be performed, the book block with loose pages in sequence is put into the gluing cavity 17, and then the first cylinder groups 13 on front and rear sides are started, thereby the first clamping panels 14 are driven to clamp a middle part and an upper end of the book block, and at the same time, the second cylinder groups 19 on front and rear sides are started, thereby the second clamping panels 20 are driven to clamp a lower end of the book block, and then the first electromagnetic sliders 11 are started to move towards a first side within the first electromagnetic sliding rails 12, and at the same time, the second electromagnetic sliders 18 are started to move towards a first side within the second electromagnetic sliding rails 16, and at the same time, the book block being clamped is driven to move towards a first side:, and at the same time, the first electromagnetic sliders 11 arid the second electromagnetic sliders t1 move towards the first side to ensure a smooth horizontal movement of the book block within a plane of the gluing cavity 17, thereby the lower end of the book block is ensured to be regular, thereby the book block does not disordered and slant, thereby a normal follow-up processing is ensured.

[0045] The milling back device comprises a milling cavity 21 arranged on a middle part of a bottom of the gluing cavity 17, wherein a collection cavity 22 is arranged on a bottom of the milling cavity 21, wherein a first motor cavity 24 is arranged on a bottom of the collection cavity 22, and a milling cutter 27 is rotatably arranged in the Trilling cavity 21, wherein a milling spindle 25 is fixedly connected to the milling cutter 27, wherein a first motor 26 is fixedly connected to another end of the milling spindle 25, wherein a second collection cavity 23 is arranged on the middle part of the bottom of the gluing cavity 17,, wherein a partition plate 29 is fixedly arranged on front and rear end surfaces of the second collection cavity 23, wherein a plurality of spherical slots 30 are arranged on the partition plate 29, wherein rotation grooves 34 are arranged on side walls of the spherical slots 30, wherein rotation pushing plates 35 are elastically connected to upper surfaces of the rotation grooves 34, ',vherein rotation shafts 36 are reciprocally and slidably arranged within the rotation grooves 34, wherein rotation balls.3 I are rotatably arranged on the rotation shafts 36, and a plurality of the rotation balls 31 are rotatably connected in the spherical slots 30" wherein rotation cams 37 are fixedly arranged on the rotation balls 31, and a scraper 32 is fixedly arranged on an upper end of a first side wall of the second collection cavity 23, wherein a scraper groove 33 is arranged on a side wall of the scraper 32, wherein a plurality of divide blocks 28 are fixedly arranged on an upper surface of the scraper 32., and the milling cavity 21 is communicated with the collection cavity 22, and the second collection cavity 23 is communicated with the collection cavity 22, and a milling spindle 25 is fixedly connected to an output terminal of the first motor 26, and the milling spindle 25 penetrates through the collection cavity 22, and the spherical slots 30 are uniformly distributed on the partition plate 29 along a. radial direction at equal intervals, and the rotation balls 31 are in fit connection within the spherical slots 30 on the partition plate 29 along the radial direction at equal intervals, and the rotation pushing plates 35 are elastically connected to upper surfaces of the rotation grooves 34, wherein the rotation shafts 36 are located on lower surfaces of the rotation pushing plates 35, and under actions of springs, the rotation shafts 36 stick to lower surfaces of the rotation grooves 34, and an upper surface of the scraper 32 and a tower surface of the gluing cavity 17 are at a same horizontal plane, and the divide blocks 28 are distributed on the upper surface of the scraper 32 along a radical direction at equal intervals; whereby the first motor 26 is started, the milling spindle 25 is driven to rotate within the first motor cavity 24, thereby the milling cutter 27 is driven to rotate within the milling cavity 21, and when the book block moves towards a first side from an upper port of the milling cavity 21, the milling cutter 27 mills back the irregular book block to a regular state, and then the milling cutter 27 rotates paper scraps of the book block into the milling cavity 21 under an action of centriffigal force, and then the second cylinder groups 19 contracts to drive the second clamping panels 20 to contract at the same time, and then the book block after being milled continue to move towards a first side, and at the same time, the second cylinder groups 19 contract to drive the second clamping panels 20 to contract at the same time, thereby a clamping of the lower end of the book block is finished, and then a lower surface of the book block contact the rotation balls 31, thereby the rotation balls 31 rotate along the rotation shafts 36, thereby the rotation cams 37 on the rotation balls 31 rotate to a bottom to contact bottoms of the spherical slots 30, thereby the rotation shafts 36 are pushed to move upwards, thereby the rotation pushing plates 35 are extruded to rotate to compress the springs, and at the same time, the rotation shafts 36 contact the bottom of the book block, thereby the paper scraps in the book block are separated from a page sandwich, thereby bubbles when gluing are avoided, thereby a page losing phenomenon caused by incomplete gluing is avoided, and then the book block continues to move towards the first side, and then the lower end of the book block contacts flanges of the scraper groove 33, thereby the paper scraps after being struck by the rotation balls 31 fall into the second collection cavity 23, and then rags on the lower end of the book block after being milled are removed, and then the book block continues to go by gaps of the divide blocks 28 to separate the lower end of the book, thereby a more even gumming of hot melt glue in the follow-up gluing process is ensured, thereby the gluing process for the book block is performed better, and furthermore, the paper scraps between the book block fall into the second collection cavity 23.

[0046] The gluing device comprises a first gluing cavity 38 arranged on the middle part of he bottom of the gluing cavity 17, wherein a gluing heating sleeve 39 is rotatably arranged within the first gluing cavity 38, wherein a second gluing cavity 55 is arranged in the gluing heating sleeve 39, wherein a plurality of transmission through holes 43 are arranged on an inner surface of the gluing heating sleeve 39, wherein a transmission shaft 53 is rotatably connected within the transmission through holes 43 wherein a plurality of extrusion grooves 42 are arranged on two side walls of the gluing heating sleeve 39, wherein a plurality of extrusion bend plates 44 are rota.tably arranged in the extrusion grooves 42, wherein a plurality of bend plate grooves 52 are arranged on a circumferential wall of the gluing heating sleeve 39, wherein gluing, bend plates 54 are rotatably arranged in the head plate grooves 52., wherein gluing cavities 47 are arranged in the gluing bend plates 54, wherein rubber plates 48 are fixedly connected to inner surfaces of the gluing bend plates 54, wherein a plurality of gluing through holes 50 are arranged on front ends of the gluing bend plates 54, wherein fan-shaped grooves 51 are arranged on middle parts of the transmission shafts 53 along an axial direction, and an extrusion bump 49 is fixedly arranged on bottoms of the bend plate grooves 52, wherein a lower pressing bump 46 is fixedly arranged on a bottom of two side surfaces of the first gluing cavity 38, wherein an upper pressing bump 40 is fixedly arranged on an upper part of an inner front end of the first gluing cavity 38, wherein a gluing shaft 41 is rotatablv arranged on a front end of the upper pressing bump 40, and the transmission through holes 43 are distributed on a circumferential surface of the gluing heating sleeve 39 along a circumferential direction at equal intervals, wherein the extrusion grooves 42 are distributed on a side surface of the gluing heating sleeve 39 along a circumferential direction at equal intervals, wherein the transmission shafts 53 penetrate through the side surface of the gluing heating sleeve 39; wherein the extrusion bend plates 44 are fixedly connected to the transmission shafts 53, and the extrusion bend plates 44 are elastically connected to bottoms of the extrusion grooves 42, and the gluing bend plates 54 are rotatably connected to the transmission shafts 53, and the gluing bend plates 54 are elastically connected to side walls of the bend plate grooves 52.

[0047] The gluing device further comprises a second motor groove 58 arranged on a rear side surface of the box 10, wherein a fixed plate 62 is fixedly arranged on a bottom of the second motor groove 58; wherein a second motor 59 is fixedly connected to an upper surface of the fixed plate 62, wherein an accelerator 60 is fixedly connected to an output terminal of the second motor 59, wherein a connection shaft 56 is detachably connected to the accelerator 60, wherein a glue machine pressing mechanism is arranged on a rear end of the gluing cavity 17, and the connection shaft 56 is detachably connected with the gluing heating sleeve whereby the hot melt glue is put into the second gluing cavity 55, and then the second motor 59 is started, thereby the second motor 59 is decelerated through the accelerator 60, thereby the accelerator 60 drives the connection shaft 56 to rotate, thereby the gluing heating sleeve 39 is driven to rotate anticlockwise, and then the hot melt glue is heated by the gluing heating sleeve 39 for being melted to latex on appearance within the second gluing cavity 55, and then the gluing heating sleeve 39 continues to rotate; and when in rotating, circumferential surfaces of the extrusion bend plates 44 contact the lower pressing bump 46, thereby the transmission shafts 53 are driven to rotate anticlockwise to compress the springs on front ends of the extrusion bend plates 44 within the extrusion grooves 42, and then the transmission shafts 53 after rotate drive the transmission through holes 43 to communicate with the gluing cavities 47, and under actions of a gavity, the hot melt glue flows into the gluing cavities 47 from the gluing bend plates 54, and then the gluing heating sleeve 39 continues to rotate, thereby the extrusion bend plates 44 reset under actions of the springs to drive the transmission shafts 53 to reset, thereby the transmission through holes 43 are disconnected with the gluing cavities 47, and then the gluing heating sleeve 39 in rotating drives the gluing bend plates 54 to contact the upper pressing bump 40, thereby the gluing bend plates 54 compress the springs under a squeeze of the upper pressing bump 40 and rotate around the transmission shafts 53 anticlockwise, thereby the extrusion bump 49 in the bend plate grooves 52 extrudes the rubber plates 48, thereby the hot melt glue in the gluing cavities 47 is squeezed from the gluing through holes 50, and the squeezed hot melt glue is applied on the lower end of the book block, and then the book block after being applied with the hot melt glue continues to move through the gluing shaft 41, thereby the gluing shaft 41 is driven to rotate, thereby the hot melt glue on the lower end of the book block is applied evenly by the gluing shaft 41 in rotating; thereby the hot melt glue is squeezed from the gluing through holes 50 intermittently to ensure a complete application of the hot melt glue, thereby a wasting is avoided, and moreover, the gluing shaft 41 applies the hot melt e on the gluing shaft 41 when in rotating, thereby problems like difficult cleaning and wire-drawing of the hot melt glue on a clamping surface are avoided, and moreover; the hot melt glue is semi-closed, thereby dust is prevented from entering the hot melt glue, thereby a good adhesive of the hot melt glue is ensured, thereby a fine book is ensured to be produced; after the glue is applied, the book block continues to move towards the first side to be compressed and shaped by the pressing device.

Claims (5)

1. CLAIMSI. A book making and synthesizing process, detailed technological process is as follows: Sl. cutting roll papers into papers with corresponding sizes; S2. type setting for book content and book cover; S3. book page printing: printing the book content onto papers with corresponding materials by using type-setting in S2; S4, page folding process: fold the papers printed with the book content in S2 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; S6. synthesizing process for the book block: milling back the synthesized book by a milling back device; 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 54, and a part of the book cover between two kink marks is the cemented surface; S8, 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 56, S8 in above technological processes S1-S9 are performed by a box, a milling back device, a gluing device, wherein a gluing cavity is arranged on an upper surface of the box, wherein a plurality of first electromagnetic sliding rails are arranged on a side wall of the gluing cavity, wherein a plurality of second electromagnetic sliding rails are arranged on the side wall of the gluing cavity, wherein second electromagnetic sliders are slidably connected within the second electromagnetic sliding rails, wherein a plurality of second cylinder groups are fixedly connected to the second electromagnetic sliders, wherein second clamping panels are fixedly connected to the second cylinder groups; a plurality of first cylinder groups fixedly connected to the first electromagnetic sliders, wherein first clamping panels are fixedly connected to the first cylinder groups; the milling back device comprising: a milling cavity arranged on a middle part of a bottom of the gluing cavity, wherein a collection cavity is arranged on a bottom of the milling cavity, wherein a first motor cavity is arranged on a bottom of the collection cavity; a milling cutter rotatably arranged in the milling cavity, wherein a milling spindle is fixedly connected to the milling cutter, wherein a first motor is fixedly connected to another end of the milling spindle, wherein a second collection cavity is arranged on the middle part of the bottom of the gluing cavity, wherein a partition plate is fixedly arranged on front and rear end surfaces of the second collection cavity, wherein a plurality of spherical slots are arranged on the partition plate, wherein rotation grooves are arranged on side walls of the spherical slots, wherein rotation pushing plates are elastically connected to upper surfaces of the rotation grooves, wherein rotation shafts are reciprocally and slidably arranged within the rotation grooves, wherein rotation balls are rotatably arranged on the rotation shafts; a plurality of the rotation balls rotatably connected in the spherical slots, wherein rotation cams are fixedly arranged on the rotation balls; a scraper fixedly arranged on an upper end of a first side wall of the second collection cavity, wherein a scraper groove is arranged on a side wall of the scraper, wherein a plurality of divide blocks are fixedly arranged on an upper surface of the scraper, and the milling cavity is communicated with the collection cavity, and the second collection cavity is communicated with the collection cavity, and a milling spindle is fixedly connected to an output terminal of the first motor, and the milling spindle penetrates through the collection cavity, and the spherical slots are uniformly distributed on the partition plate along a radial direction at equal intervals, and the rotation balls are in fit connection within the spherical slots on the partition plate along the radial direction at equal intervals, and the rotation pushing plates are elastically connected to upper surfaces of the rotation grooves, wherein the rotation shafts are located on lower surfaces of the rotation pushing plates, and under actions of springs, the rotation shafts stick to lower surfaces of the rotation grooves, and an upper surface of the scraper and a lower surface of the gluing cavity are at a same horizontal plane, and the divide blocks are distributed on the upper surface of the scraper along a radical direction at equal intervals.
2. 2. The book making and synthesizing process defined in claim I, wherein first electromagnetic sliding rails are symmetrically arranged in two side walls of the gluing cavity, wherein the second electromagnetic sliding rails are symmetrically arranged in the two side walls of the gluing cavity, wherein the second electromagnetic sliding rails are located below the first electromagnetic sliding rails, and running lengths of the second electromagnetic sliding rails are one half of running lengths of the first electromagnetic sliding rails, and the second electromagnetic sliders are symmetrically arranged within the second electromagnetic sliding rails, wherein the second cylinder groups are symmetrically arranged on the second electromagnetic sliders, wherein the second clamping panels are symmetrically arranged on the second cylinder groups, and the first electromagnetic sliders are symmetrically arranged in the first electromagnetic sliding rails, and the first cylinder groups are symmetrically arranged on the first electromagnetic sliders, wherein the first clamping panels are symmetrically arranged on the first cylinder groups
3. 3. The book making and synthesizing process defined in claim 1_, wherein the gluing device comprises a first gluing cavity arranged on the middle part of the bottom of the gluing cavity, wherein a gluing heating sleeve is rotatably arranged within the first gluing cavity, wherein a second gluing cavity is arranged in the gluing heating sleeve, wherein a plurality of transmission through holes are arranged on an inner surface of the gluing heating sleeve, wherein a transmission shaft is rotatably connected within the transmission through holes, wherein a plurality of extrusion grooves are arranged on two side walls of the gluing heating sleeve, wherein a plurality of extrusion bend plates are rotatably arranged in the extrusion grooves, wherein a plurality of bend plate grooves are arranged on a circumferential wall of the gluing heating sleeve, wherein gluing bend plates are rotatably arranged in the bend plate grooves, wherein gluing cavities are arranged in the gluing bend plates, wherein rubber plates are fixedly connected to inner surfaces of the gluing bend plates, wherein a plurality of gluing through holes are arranged on front ends of the gluing bend plates, wherein fan-shaped grooves are arranged on middle parts of the transmission shafts along an axial direction, and an extrusion bump is fixedly arranged on bottoms of the bend plate grooves, wherein a lower pressing bump is fixedly arranged on a bottom of two side surfaces of the first gluing cavity, wherein an upper pressing bump is fixedly arranged on an upper part of an inner front end of the first gluing cavity, wherein a gluing shaft is rotatably arranged on a front end of the upper pressing bump.
4. 4 The book making and synthesizing process defined in claim 5, wherein the transmission through holes are distributed on a circumferential surface of the gluing heating sleeve along a circumferential direction at equal intervals, wherein the extrusion grooves are distributed on a side surface of the gluing heating sleeve along a circumferential direction at equal intervals, wherein the transmission shafts penetrate through the side surface of the gluing heating sleeve, wherein the extrusion bend plates are fixedly connected to the transmission shafts, and the extrusion bend plates are elastically connected to bottoms of the extrusion grooves, and the gluing bend plates are rotatably connected to the transmission shafts, and the gluing bend plates are elastically connected to side walls of the bend plate grooves
5. 5. The book making and synthesizing process defined in claim 1, wherein the gluing device further comprising: a second motor groove arranged on a rear side surface of the box, wherein a fixed plate is fixedly arranged on a bottom of the second motor groove, wherein a second motor is fixedly connected to an upper surface of the fixed plate, wherein an accelerator is fixedly connected to an output terminal of the second motor, wherein a connection shaft is detachably connected to the accelerator, wherein a glue machine pressing mechanism is arranged on a rear end of the gluing cavity, and the connection shaft is detachably connected with the gluing heating sleeve