CN217622876U - Integrated equipment for pasting gauze, headband tape and backing paper strip for book block - Google Patents

Abstract

The utility model relates to the technical field of book block processing, in particular to an integrated device for pasting gauze, a head cloth belt and a back paper strip of a book block, which comprises a book block conveying mechanism, and further comprises a first gum coating mechanism, a gauze pasting cloth mechanism, a second gum coating mechanism and a compound belt pasting mechanism which are respectively matched with the book block conveying mechanism in sequence, wherein the first gum coating mechanism and the second gum coating mechanism respectively coat gum on the spine of the book block conveyed by the book block conveying mechanism; through book block conveying mechanism in proper order with first gum mechanism of scribbling, paste yarn cloth mechanism, the cooperation of gum mechanism and compound area mechanism of subsides is scribbled to the second, realize replacing artifical subsides gauze to the book block back by machinery, head strap and back paper strip, each mechanism ring links up, reduce for pasting twice cloth by original three times cloth that pastes, the machining efficiency of book block has been improved greatly, laminating precision and quality can be guaranteed through mechanical equipment's laminating in guaranteeing efficiency, good integrality has, great difference can not appear.

Description

Integrated equipment for pasting gauze, leader cloth tape and backing paper strip for book block

Technical Field

The utility model relates to a book block processing technology field especially relates to an integral type equipment that is used for pasting gauze, head strap and back note strip of book block.

Background

The processing of book block includes the processing to book block back, and wherein the processing to book block back includes technologies such as subsides gauze, head strap, back of the body note, need take out the book block from conveying mechanism in proper order when pasting these cloth, laminates the spine department at book block back with different cloth through different workman.

This processing method has the following defects: in order to improve the laminating precision during the laminating, need take off the book block from conveying mechanism, laminate different cloth strips in proper order, laminating efficiency is extremely low like this, and the regularity that artifical laminating leads to is not high, has great difference.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integral type equipment that is used for pasting gauze, head strap and back note strip of book block to prior art's not enough.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a integral type equipment that is used for pasting gauze, head strap and back of the body note of book block, including the book block conveying mechanism who is used for carrying the book block, its characterized in that: the book block conveying mechanism is matched with the book block conveying mechanism in sequence; the first gum coating mechanism and the second gum coating mechanism are respectively positioned at two sides of the yarn sticking cloth mechanism and respectively coat gum on the spine of the book block conveyed by the book block conveying mechanism; the gauze pasting mechanism comprises a gauze cutting mechanism for cutting the length and the width of gauze respectively and a cloth pulling mechanism for pasting the cut gauze; the composite tape pasting mechanism comprises a cloth feeding assembly for respectively conveying the back strip paper and the leader cloth tape separately, and further comprises a gluing station for gluing the back strip paper and the leader cloth tape into a composite tape, a composite tape cutting mechanism for cutting the glued composite tape and a cloth suction mechanism for pasting the cut composite tape are arranged beside the gluing station; the integrated equipment further comprises a setting mechanism for pressing the book block after cloth pasting is completed, the setting mechanism comprises an installation frame located beside the cloth pasting composite belt mechanism, a cloth pressing assembly is installed in the installation frame in a liftable mode, and a cloth pressing film matched with the book block in a pressing mode is arranged on the cloth pressing assembly.

The utility model has the advantages that: the utility model discloses an integral type equipment that is used for subsides gauze of book block, first strap and back note, through book block conveying mechanism in proper order with first gum mechanism of scribbling, the gauze cloth mechanism of pasting, the cooperation of gum mechanism and the compound tape unit of subsides is scribbled to the second, realize replacing artifical gauze of pasting to the book block back by machinery, first strap and back note, each mechanism ring links up, reduce for pasting twice cloth by original subsides cubic cloth, the machining efficiency of book block has been improved greatly, laminating precision and quality can be guaranteed through mechanical equipment's laminating when guaranteeing efficiency, good integrality has, great difference can not appear.

Drawings

FIG. 1 is a schematic structural diagram of the connection of a first gum coating mechanism, a yarn sticking mechanism, a second gum coating mechanism, a composite tape sticking mechanism and a shaping mechanism.

Fig. 2 is a schematic structural diagram of the first back glue coating mechanism or the second back glue coating mechanism.

Fig. 3 is a partially enlarged schematic view of the book block conveying mechanism.

Fig. 4 is a schematic structural diagram of the first back-adhesive coating mechanism from another view angle.

Fig. 5 is a schematic view of the overall structure of the yarn sticking mechanism.

Fig. 6 is a schematic view of another view of the yarn sticking mechanism, which hides one of the mounting plates.

Fig. 7 is a schematic structural view of a cloth spreading mechanism for applying gauze.

Fig. 8 is a schematic structural view of a first cutting mechanism for cutting the width of the gauze.

Fig. 9 is a schematic view of the overall structure of the composite tape attaching mechanism.

Fig. 10 is a schematic structural view of the connection between the composite tape cutting mechanism and the cloth suction mechanism, and a vertical plate is hidden.

Fig. 11 is a schematic view of a partial explosion structure of a cloth suction mechanism attached to a composite tape.

Fig. 12 is another view angle structure diagram of the setting mechanism, hiding the cloth pressing film.

Fig. 13 is a side view of the sizing mechanism with a hidden lifting mounting plate.

The reference numerals include:

11-a book block conveying mechanism,

111-conveying mounting plate, 112-conveying chain, 113-conveying chain wheel, 114-elastic press block,

12-a first gum coating mechanism, 120-a second gum coating mechanism,

121-gluing rollers, 122-gluing rollers, 123-first driving shafts, 124-second driving shafts,

13-spacing adjusting mechanism,

130-driving swing part, 131-rotating part, 132-swinging part, 133-driving part,

134-a first driving hole, 135-a second driving hole, 136-a telescopic rod,

2-a yarn sticking cloth mechanism,

21-mounting plate, 211-conveying roller, 22-first cutting mechanism, 221-rotary cutter driving seat,

2211-rotating knife, 2212-spreading wheel, 2213-drive gear, 2214-rotating shaft,

222-a first guide bar,

23-a second cutting mechanism,

230-a positioning guide rail mechanism, 231-a cloth guide component, 232-a cloth guide driving seat,

233-inclined guide rail, 234-cutter mounting seat, 235-rocker mechanism, 236-guide hole,

237-cloth guide opening, 238-cloth guide block, 239-long cutter block,

24-a cloth pulling mechanism,

241-a first cloth pulling rod, 242-a second cloth pulling rod, 243-a first driving frame, 244-a second driving frame, 25-a first driving mechanism,

251-a first linkage mechanism, 252-a second linkage mechanism, 253-a first drive shaft, 254-a drive hole, 255-a second drive shaft, 256-a cam mechanism,

3-pasting composite belt mechanism, 31-vertical plate,

311 a conveying roller, 312 a cloth conveying wheel, 313 a first pressing roller, 314 a discharging winding disc,

32-back paper strip cutting mechanism,

321-a first driving seat, 322-a rotating shaft, 323-a backing paper strip rotating knife, 324-a cloth rolling wheel,

325-a first power shaft, 326-a transmission gear set, 33-a gluing station, 331-a glue spraying opening,

34-a second press-fit roller,

341-cloth feeding driving seat, 342-rolling wheel, 343-passing groove,

35-a cloth guide conveying component,

351-fabric cutting groove, 352-composite belt cutting mechanism, 353-linear cutter block, 354-support table,

355-cloth guide plate,

36-a cloth suction mechanism,

361-cloth suction table, 362-rotary block, 363-vacuum groove, 364-vent, 365-bottom plate,

366-adsorption holes, 367-installation grooves, 368-vacuum tubes, 369-cross flow holes,

37-a second driving mechanism,

371-the first patch driving shaft, 372-the second patch driving shaft, 373-the first rocker member,

374-embedding holes,

4-a shaping mechanism, 41-a mounting frame,

411-lifting mounting plate, 412-fixing piece, 413-lifting driving plate, 414-lifting guide plate,

415-guide rail component, 416-grooved rail component, 417-second rocker component, 418-cylinder component, 419-piston rod,

42-a cloth pressing component,

421-bottom cloth pressing roller, 422-positioning sliding plate, 423-sliding long hole, 424-rotating piece,

425-lifting driving seat, 426-film pressing positioning roller and 427-cloth pressing film.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-13, an integrated equipment for pasting gauze, a head cloth belt and a back paper strip for a book block, a first gum coating mechanism 12 and a second gum coating mechanism 21 are the same in structure and respectively comprise a book block conveying mechanism 11 for horizontally conveying the book block with the back part facing upwards; specifically, the book blocks are conveyed by the book block conveying mechanism 11 in a straight line below the cloth suction mechanism 36, the book block conveying mechanism 11 comprises a pair of conveying mounting plates 111 arranged in parallel at intervals, a conveying chain 112 is nested on each conveying mounting plate 111, the conveying chain 112 is arranged along the edge of each conveying mounting plate 111 through a conveying chain wheel 113, one conveying chain wheel 113 of each conveying mounting plate 111 is connected with a driving motor, the two driving motors rotate simultaneously to drive the conveying chains 112 on the two conveying mounting plates 111 to move around the conveying mounting plates 111 simultaneously, the conveying chains 112 convey the book blocks linearly around the conveying chain wheels 113, the book blocks are placed between the two conveying mounting plates 111 and clamped through the conveying chains 112, an elastic pressing block 114 is mounted on the inner side wall of each conveying chain 112, the book blocks are further clamped through the elastic pressing block 114, friction force is increased, the book blocks can be effectively protected, and pollution to the book blocks is reduced.

Two conveying chains 112 arranged in parallel at intervals are located below the first back glue coating mechanism 12 and the second back glue coating mechanism 120, the first back glue coating mechanism 12 comprises a glue feeding roller 21 and a glue coating roller 122, the glue feeding roller 21 is stained with a large amount of glue, the glue feeding roller 21 is in rolling fit with the glue coating roller 122, the glue is transmitted to the glue coating roller 122, the glue coating roller 122 is arranged at the upper part between the two conveying chains 112, when a book block passes through the glue coating roller 122, the book block is in laminating rolling fit with the back of the book block, the glue is coated on the back of the book block in a rolling manner, during glue coating, the glue can be coated on the back of the book block smoothly, the glue amount can be distributed on the back of the book block more uniformly, and subsequent assembly is facilitated.

The gluing roller 21 is driven to rotate by a first driving shaft 123, the gluing roller 122 is driven to rotate by a second driving shaft 124, the first driving shaft 123 and the second driving shaft 124 are in transmission connection and rotate synchronously through a transmission assembly, the gluing roller 21 and the gluing roller 122 are distributed and installed through different driving shafts, the first driving shaft 123 and the second driving shaft 124 are in transmission connection through a driving chain or other transmission modes, the first driving shaft 123 and the second driving shaft 124 rotate synchronously, and glue of the gluing roller 21 can be transmitted to the gluing roller 122.

A distance adjusting mechanism 13 is arranged between the gluing roller 21 and the gluing roller 122, the distance adjusting mechanism 13 comprises a driving swing part 131 which is coaxially connected with the first driving shaft 123 and the second driving shaft 124 respectively, the driving swing part 131 comprises a rotating part 131 and a swinging part 132, the rotating part 131 extends towards one side, the rotating part 131 is formed with a first driving hole 134 which is coaxially matched with the first driving shaft 123, and the swinging part 132 is formed with a second driving hole 135 which is coaxially matched with the second driving shaft 124; the first driving hole 134 of the rotating part 131 is connected to the first driving shaft through a bearing, the second driving hole 135 of the swinging part 132 is connected to the second driving shaft 124 through a bearing, and the swinging part 132 is located at the body of the driving swing part 131 to realize the connection between the first driving shaft 123 and the second driving shaft 124.

In addition, the spacing adjustment mechanism 13 further includes a telescopic assembly for driving the second driving shaft 124 to swing up and down around the first driving shaft 123, the telescopic assembly includes a driving portion 133 formed at the bottom of the driving swing portion 131, and a telescopic rod 136 capable of sliding back and forth is rotatably installed on the driving portion 133; the telescopic rod 136 is rotatably connected with the driving part 133 of the driving swing part 131, when the telescopic rod 136 extends out, the driving swing part 131 can be driven to swing up and down along an arc-shaped track slightly around the first driving shaft 123, so that the distance between the second driving shaft 124 and the first driving shaft 123 is changed, similarly, the distance between the gluing roller 21 of the first driving shaft 123 and the gluing roller 122 of the second driving shaft 124 is correspondingly adjusted, and when the distance is large, the gluing roller 21 adhered with glue is transmitted to the gluing roller 122, and the thickness of the glue is relatively large; on the contrary, the thickness of the glue is smaller, so that the coated glue can be ensured to be smooth, and meanwhile, the process requirements of different glue thicknesses can be met.

The yarn sticking cloth mechanism 2 comprises a pair of parallel mounting plates 21, the cutting mechanism comprises a first cutting mechanism 22 and a second cutting mechanism 23, the mounting plates 21 are arranged in a vertical structure, a gauze disc for placing gauze is arranged between the two mounting plates 21, the gauze to be attached is wound on the gauze disc, the gauze is wound by a conveying roller 211 and conveyed, the first cutting mechanism 22 comprises a pair of coaxially aligned and rotatable rotating knives 2211, the rotating knives 2211 are mounted by a rotating knife driving seat 221, the width of the gauze is determined by the distance between the two rotating knives 2211, a cloth supporting wheel 2212 arranged below the rotating knives 2211 is rotatably mounted on the rotating knife driving seat 221, the cloth supporting wheel 2212 is the same as the extending direction of the rotating knives 2211, the function of the cloth supporting wheel 2212 is the same as that of the conveying roller 211, the gauze close to the first cutting mechanism 22122 is nested on the cloth supporting wheel 2212, the cutting part of the rotating knife 1 extends towards the end face of the cloth supporting wheel 2212, and the cutting part of the rotating knives 1 can penetrate through the gauze on the cloth supporting wheel 2212 when rotating. It has transmission module to change sword drive seat 221 and embed, transmission module is connected with rotating sword 2211 and propping cloth wheel 2212 through pivot 2214 respectively, rotate through pivot 2214 and can drive respectively and prop cloth wheel 2212 and rotate the rotary motion that sword 2211 is opposite direction, prop cloth wheel 2212 and drive the gauze and go forward to the transfer roller 211 of opposite side one by one, when rotating, the rotation sword 2211 that is the circular block cuts the gauze of process along length direction, make the gauze that cuts can level and smooth, the width phase-match of size and bookblock, be favorable to subsequent laminating, improve the laminating quality, and aesthetic measure.

Preferably, the transmission module is a transmission gear 2213, the transmission gear 2213 is nested with a rotating shaft 2214, one rotating shaft 2214 is used for installing a rotating knife 2211, the other rotating shaft 2214 is installed with a cloth supporting wheel 2212, the two rotating shafts 2214 are in transmission fit through the transmission gear 2213 to realize rotation in opposite directions, the first guide rod 222 is also installed with the transmission gear 2213, and the transmission gear 2213 is in meshing transmission with the transmission gear 2213 provided with the rotating shaft 2214 to drive the rotating knife 2211 and the cloth supporting wheel 2212 to simultaneously rotate in opposite directions.

The second cutting mechanism 23 comprises a positioning guide rail mechanism 230 for positioning and installing the cloth guide component 231, the cloth guide component 231 comprises a cloth guide driving seat 232 which reciprocates on the positioning guide rail mechanism 230, and the cutter group is fixedly installed below the cloth guide driving seat 232; gauze is behind terminal conveying roller, can pass and lead cloth drive seat 232, lead cloth drive seat 232 and move on location guide rail mechanism 230, lead cloth drive seat 232 below and install cutter mount pad 234, long cutter piece 239 is installed to cutter mount pad 234 end, long cutter piece 239 sets up between two mounting panels 21, and the length of long cutter piece 239 is greater than the width of gauze, make the gauze that passes through can be cut off by long cutter piece 239 fast, long cutter piece 239 can cut the gauze of leading between cloth drive seat 232 and the drawing piece, the realization is cut the length of gauze.

Preferably: the positioning guide rail mechanism 230 comprises inclined guide rails 233 which are obliquely installed on the inner side walls of the two installation plates 21 respectively, the inclined direction of the inclined guide rails 233 is downward, the inclined guide rails 233 between the two installation plates 21 are aligned in parallel, a moving part matched with the inclined guide rails 233 is arranged at the side end of the cloth guide driving seat 232, the second cutting mechanism 23 further comprises a first driving mechanism 25 which drives the cloth guide driving seat 232 to reciprocate between the inclined guide rails 233, the first driving mechanism 25 can be a telescopic cylinder or a rocker mechanism 235, one end of the rocker mechanism 235 is rotatably installed at the outer end of the cloth guide driving seat 232 through a rotating shaft 2214, the other end of the rocker mechanism 235 is rotatably connected with a cam mechanism 256, the rocker mechanism 235 comprises a guide hole 236 which is coaxially aligned with the second driving shaft 255, and the cam mechanism 256 rotates to drive the rocker mechanism 235 to reciprocate around the second driving shaft 255 through the guide hole 236, so as to drive the cloth guide driving seat 232 to reciprocate on the inclined guide rails 233.

In addition, the end of the cloth guide driving seat 232 is formed with a cloth guide opening 237 matched with the long cutter block 239, the long cutter block 239 is located below the cloth guide opening 237, the cloth guide opening 237 comprises a pair of cloth guide blocks 238 arranged in an inverted splayed shape, the gauze is guided into the space between the two cloth guide blocks 238 arranged in the inverted splayed shape by the conveying roller 211 close to the cloth guide opening 237, the opening of the cloth guide opening 237 is gradually reduced from top to bottom, the gauze can pass through the cloth guide opening 237 in a tiled manner, the gauze passing through the cloth guide opening 237 can be matched with the long cutter block 239 in a flat manner, the gauze can be matched with the sharp long cutter block 239 arranged in an inclined manner, and the cutting of the length of the gauze is realized.

The cloth pulling piece comprises a first cloth pulling rod 241 and a second cloth pulling rod 242, the cloth pulling mechanism 24 further comprises a first driving frame 243 for installing the first cloth pulling rod 241 and a second driving frame 244 for installing the second cloth pulling rod 242, wherein the first driving frame 243 for installing the second cloth pulling rod 242 is positioned inside the second driving frame 244, a first driving shaft 253 is coaxially installed at the tail ends of the first driving frame 243 and the second driving frame 244, the first driving frame 243 and the second driving frame 244 swing around the first driving shaft 253, when swinging, the first driving frame 243 swings inside the second driving frame 244, when swinging downwards, the first cloth pulling rod 241 and the second cloth pulling rod 242 simultaneously swing the back of the book block, convey the gauze to the positioned book block, and attach the gauze to the spine of the book block.

More specifically, the first driving frame 243 and the second driving frame 244 are both of a portal frame structure and are arranged obliquely upward, the first cloth pulling rod 241 and the second cloth pulling rod 242 are both installed at an opening of the portal frame structure, when the first driving frame 243 swings to overlap with the second driving frame 244, the first cloth pulling rod 241 can be attached to the second cloth pulling rod 242, so that the first cloth pulling rod 241 and the second cloth pulling rod 242 can form a clamping structure and clamp one end of gauze, the first driving frame 243 and the second driving frame 244 then continue to swing downward and simultaneously, one end of the clamped gauze is placed on one side of the book block, the other end of the gauze falls vertically, the gauze is applied to the other side of the spine on the back of the book block, and the gauze is attached to the spine of the book block.

Preferably, the driving mechanism 25 further comprises a first connecting rod mechanism and a second connecting rod mechanism 252, the first connecting rod mechanism 251 is rotatably connected with the first driving frame 243 and drives the first driving frame 243 to swing around the first driving shaft 253, the second connecting rod mechanism 252 is rotatably connected with the second driving frame 244 and drives the second driving frame 244 to swing around the first driving shaft 253, the first connecting rod mechanism 251 and the second connecting rod mechanism 252 are respectively formed with coaxially aligned driving holes 254, a second driving shaft 255 rotatably disposed between the two mounting plates 21 is coaxially mounted on the driving holes 254 of the first connecting rod mechanism 251 and the second connecting rod mechanism 252, and a cam mechanism 256 for simultaneously driving the first connecting rod mechanism 251 and the second connecting rod mechanism 252 to swing is disposed beside the second driving shaft 255; the ends of the first link mechanism 251 and the second link mechanism 252 are both rotatably mounted on the cam plate, the cam mechanism 256 rotates to drive the first link mechanism 251 and the second link mechanism 252 to swing simultaneously, so as to drive the first driving frame 243 and the second driving frame 244 to swing simultaneously, because the first link mechanism 251 and the second link mechanism 252 have different structural sizes, and in an initial state, an included angle exists between the first driving frame 243 and the second driving frame 244, so that when the cam mechanism 256 moves, the first link mechanism 251 and the second link mechanism 252 driven by the first link mechanism 251 and the second link mechanism 252 swing simultaneously, and when the first driving frame 243 and the second driving frame 244 swing, a part of different-frequency swinging conditions exist, and a front-back swinging effect is achieved, specifically, when the first driving frame 243 swings ahead of the second driving frame 244, the first driving frame 244 swings upwards, but when swinging downwards, the first driving frame 244 and the second driving frame 244 are in a same-frequency state.

The specific pasting comprises the following steps: the first cloth pulling rod 241 is obliquely arranged at the outer end of the first driving frame 243, and the second cloth pulling rod 242 is horizontally arranged at the outer end of the second driving frame 244; when the cam mechanism 256 moves, the first link mechanism 251 drives the first cloth pulling rod 241 on the first driving frame 243 to swing upwards, and the first cloth pulling rod 241 reaches the lower part of the cloth guiding opening 237 first, and is used for receiving the gauze coming out of the cloth guiding opening 237 and attaching the gauze to the outer side of the first cloth pulling frame; the second link mechanism 252 simultaneously drives the second driving frame 244 to swing upwards, so that the second cloth pulling rod 242 is attached to the first cloth pulling rod 241, the gauze attached to the first cloth pulling rod 241 is clamped, one end of the gauze is clamped, then the first link mechanism 251 and the second link mechanism 252 continue to swing simultaneously, and at the moment, the first driving frame 243 and the second driving frame 244 driven by the first link mechanism 251 and the second link mechanism 252 simultaneously swing downwards at the same swinging speed; the clamping structure formed by the first cloth pulling rod 241 and the second cloth pulling rod 242 moves to one side of the back of the book block, the other end of the gauze falls to the other side of the back of the book block according to gravity, when the first cloth pulling rod 241 and the second cloth pulling rod 242 swing to the lowest end at the same time, the first connecting rod mechanism 251 drives the first driving frame 243 to swing upwards first and directly swing to the position below the cloth guide opening 237, then the second connecting rod mechanism 252 drives the second driving frame 244 to swing upwards along with the first driving frame 243 at the same time, and at the moment, the gauze is separated from the control of the first cloth pulling rod 241 and the second cloth pulling rod 242 and covers the spine of the back of the book block; the second driving frame 244 swings upwards along with the first driving frame 243 to be in a fitted clamping state, clamps the newly falling gauze, repeats the same motion, clamps and conveys the gauze in a circulating and reciprocating manner, and is respectively in transmission connection with the first driving frame 243 and the second driving frame 244 through a driving mechanism 25 consisting of a cam mechanism 256, a first connecting rod mechanism 251 and a second connecting rod mechanism 252; greatly reduces the manufacturing cost and is beneficial to the actual requirements of small and medium-sized enterprises.

Preferably, first draw cloth pole 241 and second draw cloth pole 242 are parallel to be aligned, the length of second draw cloth pole 242 is greater than the length of first draw cloth pole 241, first draw cloth pole 241 is the slice form, second draw cloth pole 242 is the prism form, wherein second draw cloth pole 242 is the flush side with the opposite face of first draw cloth pole 241, when making first draw cloth pole 241 and the laminating of second draw cloth pole 242 form clamping structure, can increase the centre gripping to the gauze, improve the centre gripping stability, and the damage that causes when the reducible friction to the gauze of smooth face guarantees the integrity of gauze.

After the gauze on the back of the book block is attached by the gauze attaching mechanism 2, the gauze is continuously conveyed forward by the book block conveying mechanism 11 and reaches the second gum applying mechanism 120, and as the structure of the second gum applying mechanism 120 is the same as that of the first gum applying mechanism 12, the gum roller 122 of the second gum applying mechanism 120 applies the gum on the surface of the gauze attached to the back of the book block, and during the gum applying, the gum roller 122 is just matched with the back of the book block in a rolling manner, and simultaneously rolls and compacts the attached gauze, presses the attached gauze, compacts the gauze while realizing the gum applying, improves the stability of the gauze attaching, reduces the falling risk, and is beneficial to the attaching of a subsequent composite tape.

The composite tape pasting mechanism 3 comprises a first conveying assembly and a second conveying assembly, the first conveying assembly is a cylindrical conveying roller 311, the back paper is conveyed around the plurality of conveying rollers 311, a back paper cutting mechanism for cutting the width of the back paper is arranged along the first conveying assembly, and when the back paper passes through the back paper cutting mechanism, the back paper cutting mechanism can cut the width of the back paper so as to be suitable for the size of a spine on the back of a book block; the head cloth belt is stably conveyed around the second conveying assembly, a gluing station is arranged at the intersection of the first conveying assembly and the second conveying assembly and comprises a pair of first pressing roller 313 and a second pressing roller 34 which are arranged at intervals, the first pressing roller 313 is matched with the first conveying assembly, the second pressing roller 34 is matched with the second conveying assembly, a glue spraying opening 331 for coating glue on the joint surface of the back strip paper and the head cloth belt is arranged above the first pressing roller 313, the glue spraying opening 331 can also be used for spraying glue on the interval between the head cloth belt and the back strip paper, the glue is uniformly laid on the joint surface of the back strip paper and the head cloth belt, and after entering the first pressing roller 313 and the second pressing roller 34, a composite tape is formed through rolling and pressing of the pressing rollers, so that two-in-one-time laminating is realized, the subsequent one-time laminating to the spine position on the back of the book block is facilitated, the laminating time can be saved, and the running cost can be reduced; the uniformity of one-time lamination is higher, which is beneficial to improving the lamination quality.

Preferably, the double-layer pasting equipment further comprises a pair of vertical plates 31 arranged in parallel at intervals, the conveying roller 311, the second conveying assembly, the backing paper strip cutting mechanism 32 and the gluing station are all arranged between the two vertical plates 31, the first pressing roller 313 is rotatably arranged between the two vertical plates 31, the conveying roller 311 is positioned above the first pressing roller 313, a discharging winding disc 314 for mounting the backing paper strips is arranged above the two vertical plates 31, and the backing paper strips enter between the first pressing roller 313 and the second pressing roller 34 around the plurality of conveying rollers 311; the second pressing roller 34 is located at the horizontal outer side of the first pressing roller 313, the second conveying assembly is connected to the bottom of the second pressing roller 34, the bottom of the two vertical plates 31 is provided with a discharging winding disc 314 for winding a leader cloth tape, the leader cloth tape is arranged into two rolls and placed on the discharging winding disc 314, and the two rolls enter between the first pressing roller 313 and the second pressing roller 34 after winding the second conveying assembly, so that two-in-one pressing is realized.

Further, the backing paper cutting mechanism comprises a pair of coaxially aligned backing paper cutting knife sets, each backing paper cutting knife set comprises two coaxially aligned first driving seats 321, one of the first driving seats 321 is fixedly installed on the side wall of one of the vertical plates 31, the other first driving seat 321 is horizontally slidably installed between the two vertical plates 31, the first driving seat 321 is rotatably installed with two rotating shafts 322 extending inwards, one of the rotating shafts 322 is installed with a backing paper rotating knife 323, the other rotating shaft 322 is installed with a cloth rolling wheel 324, a first power shaft 325 is arranged between the two vertical plates 31, the first power shaft 325 is nested with a transmission gear set 326 installed in the first driving seat 321, the two rotating shafts 322 are in transmission fit through the transmission gear set 326, the first power shaft 325 is in transmission fit with the two rotating shafts 322 through the transmission gear set 326, and the first power shaft 325 is driven by a motor to rotate, so as to drive the two rotating shafts 322 in the first driving seats 321 to rotate in opposite directions; wherein the knife radius of the backing paper strip rotating knife 323 arranged at the top is pressed against the end surface of the cloth rolling wheel 324, the backing paper strip passing through the cloth rolling wheel 324 can be cut by the backing paper strip rotating knife 323, and the backing paper strip is cut into the required width along the length direction.

The second pressing roller 34 comprises a pair of coaxially aligned glue spraying openings 342, each pair of glue spraying openings 342 is arranged in parallel with the first pressing roller 313 at intervals to form a gap, so that a back paper strip and a head cloth strip can be pressed into a composite belt when entering the composite belt, the second conveying assembly comprises a cloth feeding driving seat 341, a through groove 343 for the head cloth strip to pass through is formed in the cloth feeding driving seat 341, the through groove 343 is respectively aligned with the glue spraying openings 342 and the cloth feeding wheel 312, and the glue spraying openings 342 are rotatably arranged at the top of the cloth feeding driving seat 341 side by side; the second transfer assembly includes the cloth feeding wheel 312 having a width matching the glue spraying port 342, and the cloth feeding wheels 312 are respectively installed at the bottom and the top of the cloth feeding driving base 341, wherein the cloth feeding wheel 312 installed at the top of the cloth feeding driving base 341 is aligned in parallel with the glue spraying port 342. The leader cloth passes through the discharging winding disc 314 and then enters the passing groove 343 around the cloth feeding wheels 312, passes through the passing groove 343 and then continues to pass through the two cloth feeding wheels 312 and then enters a gap between the glue spraying opening 342 and the first pressing roller 313 to be attached to the backing paper strip to form the composite tape.

The composite tape after composite molding is pressed and conveyed by a first pressing roller 313 and a second pressing roller 34, and then enters a cloth guiding and conveying assembly 35, the third conveying assembly is a cloth guiding and conveying assembly and consists of a plurality of conveying rollers 311 with different sizes, the composite tape is formed by two head cloth belts and a piece of backing paper in a gluing and molding mode, wherein the head cloth belts are respectively attached to two ends of the backing paper.

The tail end of the cloth guide conveying assembly 35 is provided with a composite belt cutting mechanism 352, the composite belt cutting mechanism 352 comprises a linear cutter block 353 for cutting the length of the composite belt, the composite belt is conveyed by the cloth guide conveying assembly 35 and then enters the composite belt cutting mechanism 352, and the required length is cut flatly to obtain the required size; the composite belt cutting mechanism 352 is provided with a cloth sucking mechanism 36 at the side, the cloth sucking mechanism 36 comprises a cloth sucking table 361 for sucking the cut composite belt in vacuum, the cloth sucking table 361 is attached to the top surface of the composite belt, and the cloth sucking mechanism 36 further comprises a second driving mechanism 37 for driving the cloth sucking table 361 to swing in a reciprocating manner; the second driving mechanism 37 drives the cloth absorbing platform 361 to swing to the surface of the cut composite belt, the composite belt is subjected to vacuum absorption, after the absorption is finished, the second driving mechanism 37 continues to drive the cloth absorbing platform 361 to swing, a book block to be processed is positioned in a swinging area of the cloth absorbing platform 361, the cloth absorbing platform 361 swings the absorbed composite belt to the spine surface of the back of the book block, and the cloth absorbing platform 361 presses the composite belt to the spine surface of the back of the book block, so that automatic cloth pasting is realized.

The composite tape cutting mechanism 352 includes a support base 354 cooperating with the linear cutter block 353, and the support base 354 is fixedly mounted between the two vertical plates 31. The cloth guide conveying assembly 35 comprises a plurality of conveying rollers 311 which are rotatably arranged between two vertical plates 31 and have different sizes, the conveying rollers 311 are basically the same as the conveying rollers 311 of the first conveying assembly in principle, the sizes of the conveying rollers 311 used at different positions are different, the transmission efficiency can be improved, meanwhile, the friction force can be improved, and the loosening phenomenon can be reduced.

In addition, the support base 354 is formed with a cloth cutting groove 351 vertically aligned with the linear cutter block 353 in a longitudinal direction, and the linear cutter block 353 enters the cloth cutting groove 351 when being cut, thereby protecting the linear cutter block 353 and prolonging the service life thereof. The other side of the supporting platform 354 is matched with the cloth sticking mechanism to be adsorbed by the cloth adsorbing platform 361.

The second driving mechanism 37 includes a first patch driving shaft 371 which can be installed between the two vertical plates 31 in a forward and backward rotation manner, a first rocking bar member 373 which can swing along with the first patch driving shaft 371 is coaxially installed on the first patch driving shaft 371, the tail end of the first rocking bar member 373 is rotatably connected with the cloth suction table 361, nesting holes 374 are respectively formed at two ends of the first rocking bar member 373, one end of the first rocking bar member is fixed on the first patch driving shaft 371 through the nesting holes 374, the other end of the first rocking bar member is rotatably nested with a second patch driving shaft 372, the second patch driving shaft 372 is rotatably connected with the top of the cloth suction table 361, when the first patch driving shaft 371 rotates, the first rocking bar member 373 is driven to swing, the second patch driving shaft 372 at the tail end and the cloth suction table 361 keep a horizontal state to swing, and the cut composite tape on the support table 354 is adsorbed to the book core at the other side.

Preferably, the number of the first rocker members 373 is two, and the two rocker members are respectively installed at both ends of the first patch driving shaft 371, the second patch driving shaft 372 is rotatably installed at the ends of the two first rocker members 373 through the fitting holes 374, the rotating block 362 is formed at the top of the cloth suction table 361, the rotating block 362 is horizontally formed with a coupling hole through which the second patch driving shaft 372 coaxially passes, and when the first rocker members 373 swings as the first patch driving shaft 371 rotates, the cloth suction table 361 swings around the second patch driving shaft 372 in a horizontal state.

The bottom of the cloth suction table 361 comprises a vacuum groove 363 and a bottom plate 365 which is used for attaching the vacuum groove 363 to form a vacuum cavity in the cloth suction table 361, the vacuum groove 363 is provided with a vent 364 extending towards the outer top, a pneumatic system is connected with the vent 364, the bottom plate 365 is formed with a plurality of adsorption holes 366 communicated with the vacuum groove 363, the vacuum or air outlet state is formed in the vacuum groove 363, the bottom surface of the bottom plate 365 is a flat surface, the cloth suction table 361 is attached to the top surface of the supporting table 354, the cut composite belt on the supporting table 354 is adsorbed and swings to a positioned book block, and attaching is achieved.

Preferably, a plurality of installation grooves 367 are formed in the top surface of the bottom plate 365, a vacuum tube 368 is installed in each installation groove 367, the vacuum tube 368 is arranged between the bottom plate 365 and the vacuum groove 363, a plurality of alternating holes 369 are formed in the surface of the vacuum tube 368, one of the alternating holes 369 is communicated with the air vent 364, one of the alternating holes 369 is communicated with the adsorption hole 366, and two adjacent installation grooves 367 are communicated with each other through the alternating holes 369, so that airflow in the vacuum groove 363 flows more stably, a pneumatic system is in pneumatic communication with the vacuum groove 363 through the vacuum tube 368, attachment with the composite belt is achieved, the adsorption force can be improved, the composite belt can be quickly separated from the cloth suction table 361, and the attachment efficiency is improved.

The shaping mechanism 4 for pressing the book block cloth strip comprises a mounting frame 41, a cloth pressing component 42 is arranged in the mounting frame 41 in a lifting way, so that the cloth pressing component 42 can do lifting movement in the mounting frame 41, the cloth pressing component 42 comprises a plurality of cloth pressing roller members arranged at intervals, and a cloth pressing film 427 arranged by winding around the plurality of cloth pressing roller members, and the cloth pressing film 427 can be wound around the cloth pressing roller members for two or more than three circles to form an integral surrounding structure; the cloth pressing roller member comprises two bottom cloth pressing rollers 421 which are parallel to each other and arranged at the bottom of the mounting frame 41 at intervals, the bottom cloth pressing rollers 421 are positioned at the bottom, a cloth pressing film 427 between the two bottom cloth pressing rollers 421 is a pressing surface, and the spine of the back of the book block faces upwards and is positioned below the two bottom cloth pressing rollers 421 which are parallel to each other and arranged at intervals; when the whole cloth pressing assembly 42 slides downwards, the cloth pressing assembly 42 wound with the multi-layer cloth pressing film 427 slides downwards at the same time, wherein the distance between the two bottommost cloth pressing rollers 421 is larger than the thickness of the book block, so that the cloth pressing film 427 is pressed with the spine on the back of the book block, the spine part attached with cloth strips such as a headband strip, gauze and the like is matched with the cloth pressing film 427, the cloth strips are attached with the book block more stably through pressure, and the tilting phenomenon is reduced.

Because the cloth pressing film 427 is the soft material machine-shaping, consequently all have certain extensibility, when the spine of book block has the radian of hunch-up, cloth pressing film 427 can receive the change of shape and change thereupon for cloth pressing film 427 still can form curved laminating face and carry out the pressfitting to the spine at book block back, can adapt to the spine of different radians, improves the quality of pressfitting, and the phenomenon of deformation also can not appear in the book block.

The mounting frame 41 includes a pair of lifting mounting plates 411 arranged in parallel at intervals, and the two lifting mounting plates 411 are connected through a fixing member 412, so that the structural stability of the lifting mounting plates 411 can be improved, the cloth pressing component 42 includes a lifting drive plate 413 slidably mounted between the two lifting mounting plates 411, two bottom cloth pressing rollers 421 are mounted at the bottom of the lifting drive plate 413, when the lifting drive plate 413 slides downwards, the bottom of the cloth pressing film 427 is matched with the bottom cloth pressing rollers 421 to form a cloth pressing surface for pressing the book block, and different radians of the book block spine on the back can be matched.

Two location sliding plates 422 that supply two bottom compress roller 421 horizontal slip are installed to lift drive plate 413 bottom, every location sliding plate 422 lateral wall shaping has two slip slot 423, two location sliding plates 422 are parallel to each other and set up relatively, two bottom compress roller 421 both ends are respectively through sliding slot 423 slidable mounting between two location sliding plates 422, every bottom compress roller 421 both ends nestification has the aperture to be greater than the stopper of slip slot 423, make bottom compress roller 421 both ends can be spacing between two location sliding plates 422, can not drop.

The cloth pressing assembly 42 further comprises a plurality of lifting driving seats 425, the lifting driving seats 425 are respectively installed on the inner side wall of the lifting installation plate 411, each lifting driving seat 425 is rotatably connected with a rotating member 424, and the other end of each rotating member 424 is rotatably connected with the outer end of the bottom cloth pressing roller 421; the seat body of the lifting driving seat 425 is fixed on the inner side wall of the lifting mounting plate 411; two ends of one bottom cloth pressing roller 421 are respectively connected with a rotating member 424 in a rotatable manner, the rotating member 424 is connected with a lifting driving seat 425 in a rotatable manner, and when the lifting driving plate 413 is lifted, the position of the bottom cloth pressing roller 421 in the sliding long hole 423 can be changed through the rotating member 424, so that the distance between the two bottom cloth pressing rollers 421 is adjusted. The lifting driving seat 425 is respectively positioned outside the bottom cloth pressing rollers 421, and the two positioning sliding plates 422 can drive the two bottom cloth pressing rollers 421 mounted on the sliding long holes 423 to be away from each other when descending through the lifting driving plate 413, so that the distance between the two bottom cloth pressing rollers is larger than the thickness of the book block, and the flat surface of the cloth pressing film 427 can be pressed on the book block.

In addition, the cloth pressing roller piece also comprises a film pressing positioning roller 426 horizontally arranged between the two lifting mounting plates 411, the two film pressing positioning rollers 426 are horizontally aligned and are respectively positioned at the periphery of the lifting driving seat 425, the cloth pressing film 427 is a film pressing with an elastic effect, and the cloth pressing film 427 is sequentially arranged around the two bottom cloth pressing rollers 421 and the film pressing positioning roller 426 for a circle to form a flat pressing bottom surface; because press mold registration roller 426 is located the bottom compress roller 421 outside respectively, and press mold registration roller 426 rotationally installs between two lift mounting panels 411, and the position is motionless, when lift mounting panel 411 descends, can stimulate compress film 427 and strut, improves the tightness of compress film 427 for the bottom surface of compress film 427 has certain pressfitting power, can improve the effect of pressfitting.

The lifting guide rail component is arranged on the side wall of the lifting mounting plate 411 and is in sliding fit with the lifting drive plate 413, the lifting guide rail component comprises a lifting guide plate 414 arranged at the top of the lifting drive plate 413, guide rail pieces 415 are vertically arranged at two ends of the lifting guide plate 414 respectively, groove rail pieces 416 in sliding fit with the guide rail pieces 415 are arranged on the inner side walls of the two lifting mounting plates 411 respectively, the shaping mechanism 4 further comprises a lifting drive component arranged between the two lifting mounting plates 411, the lifting drive component comprises a second rocker piece 417 with one end rotatably connected with the top of the guide rail pieces 415, the other second rocker piece 417 is in lifting fit with the lifting power component, and the lifting power component can drive the second rocker piece 417 to lift when lifting motion is performed, so that the lifting guide plate 414 arranged on the guide rail pieces 415 and the lifting drive plate 413 are in sliding fit with the groove rail pieces 416 to perform lifting motion.

Specifically, the number of the second rocker members 417 is two, and the fulcrums are all rotatably installed at the top of the inner side wall of the lifting installation plate 411, one end of each of the two second rocker members 417 is rotatably connected with the top of the guide rail member 415, the other ends of the two second rocker members 417 are connected with each other through a connecting member, the second rocker members 417 can swing between the two lifting installation plates 411 around the fulcrums, the lifting power assembly further comprises an air cylinder member 418 with a lifting function, a piston rod 419 of the air cylinder member 418 vertically extends upwards and is rotatably connected with the outer end of the connecting member, the second rocker members 417 are driven to do lifting motion around the second rocker members through the extension and retraction of the piston rod 419, so that the bottom cloth pressing roller 421 wound with the multi-layer cloth pressing film 427 is driven to descend, the bottom of the cloth pressing film 427 is attached to the spine on the back of the book block, the cloth strips are tightly attached to the spine, the pressing effect is improved, and the processing quality of the book block is improved.

The book block is placed between the two conveying installation plates 111 and is clamped through the conveying chains 112, the spine of the back of the book block faces upwards, an elastic pressing block 114 is installed on the inner side wall of each conveying chain 112, and the book block is further clamped through the elastic pressing blocks 114; firstly, the book block passes through the first back glue coating mechanism 12, the glue coating roller 122 is arranged above the space between the two conveying chains 112, the glue coating roller 21 is stained with a large amount of glue, the glue coating roller 21 is matched with the glue coating roller 122 in a rolling manner, the glue is transferred to the glue coating roller 122, and the book block is matched with the back of the book block in a laminating and rolling manner when passing through the glue coating roller 122 and is coated on the back of the book block in a rolling manner.

The book block coated with the glue for the first time is continuously conveyed forwards by the book block conveying mechanism 1 and then reaches the gauze pasting mechanism 2, the gauze is wound along the conveying roller 211 for conveying, during conveying, the first cutting mechanism 22 along the way cuts the width of the gauze, the width of the gauze is cut along the length direction, and after cutting, the book block is continuously conveyed to the second cutting mechanism 23 by the conveying roller 211.

After the end is reached, the cloth guide driving seat 232 can be passed, the cloth guide driving seat 232 moves on the positioning guide rail mechanism 230, the cutter mounting seat 234 is installed below the cloth guide driving seat 232, the long cutter block 239 is installed at the tail end of the cutter mounting seat 234, the long cutter block 239 is arranged between the two mounting plates 21, the length of the long cutter block 239 is larger than the width of gauze, the passing gauze can be quickly cut off by the long cutter block 239, the long cutter block 239 can cut the gauze between the cloth guide driving seat 232 and a cloth pulling piece, the length cutting of the gauze is realized, and the size of the required attached gauze is obtained.

Further, when the cam mechanism 256 moves, the first link mechanism 251 drives the first cloth pulling rod 241 on the first driving frame 243 to swing upwards, and the first cloth pulling rod 241 reaches the position below the cloth guiding opening 237 first, and is used for receiving gauze coming out of the cloth guiding opening 237 and attaching the gauze to the outer side of the first cloth pulling frame; the second link mechanism 252 simultaneously drives the second driving frame 244 to swing upwards, so that the second cloth pulling rod 242 is attached to the first cloth pulling rod 241, the gauze attached to the first cloth pulling rod 241 is clamped, one end of the gauze is clamped, then the first link mechanism 251 and the second link mechanism 252 continue to swing simultaneously, and at the moment, the first driving frame 243 and the second driving frame 244 driven by the first link mechanism 251 and the second link mechanism 252 simultaneously swing downwards at the same swinging speed; the clamping structure formed by the first cloth pulling rod 241 and the second cloth pulling rod 242 moves to one side of the back of the book block, the other end of the gauze falls to the other side of the back of the book block according to gravity, when the first cloth pulling rod 241 and the second cloth pulling rod 242 swing to the lowest end at the same time, the first connecting rod mechanism 251 drives the first driving frame 243 to swing upwards first and directly swing to the position below the cloth guide opening 237, then the second connecting rod mechanism 252 drives the second driving frame 244 to swing upwards along with the first driving frame 243 at the same time, and at the moment, the gauze is separated from the control of the first cloth pulling rod 241 and the second cloth pulling rod 242 and covers the spine of the back of the book block; the second driving rack 244 swings upward along with the first driving rack 243 to a clamping state of being attached to each other, clamps the gauze which falls newly, repeats the same movement, clamps and conveys the gauze in a reciprocating manner, and is in transmission connection with the first driving rack 243 and the second driving rack 244 through the driving mechanism 25 consisting of the first link mechanism 251 and the second link mechanism 252 of the cam mechanism 256.

After the gauze on the back of the book block is completely attached by the yarn attaching mechanism 2, the gauze is continuously conveyed forwards by the book block conveying mechanism 11 and reaches the second gum applying mechanism 120, and the structure of the second gum applying mechanism 120 is the same as that of the first gum applying mechanism 12, so that the gum roller 122 of the second gum applying mechanism 120 applies the gum on the surface of the gauze attached to the back of the book block, and during gluing, the gum roller 122 is just matched with the back of the book block in a rolling manner, and simultaneously rolls and compacts the attached gauze, presses the attached gauze, and compacts the gauze while realizing gluing, thereby improving the stability of the gauze attachment, reducing the risk of falling, and being beneficial to the attachment of a subsequent composite tape.

After passing through the second gum applying mechanism 120, the adhesive enters the composite tape attaching mechanism 3.

Firstly, respectively winding a leader cloth strip and a backing paper strip on corresponding discharging winding disks 314, wherein the backing paper strip is conveyed around a first conveying assembly consisting of a plurality of conveying rollers 311, and the two leader cloth strips are respectively conveyed around a second conveying assembly consisting of a plurality of cloth conveying wheels 312; wherein, a pair of backing paper strip in the backing paper strip cutting mechanism 32 along the way of first conveying component rotates sword 323 and the cooperation of roller cloth wheel 324, and when backing paper strip passed through backing paper strip and rotated sword 323 and roller cloth wheel 324, backing paper strip rotated sword 323 realized cutting of width to the backing paper strip along length direction, continued transport afterwards, before crossing, the backing paper strip both ends after cutting align with first strap respectively.

Then, before the leader paper and the backing paper enter the gap between the first pressing roller 313 and the second pressing roller 34, the glue spraying port 331 and the glue coating on the backing paper are performed, after the leader paper and the backing paper enter the first pressing roller 313 and the second pressing roller 34, the glue is uniformly laid on the surface where the backing paper and the leader paper are attached to each other, and a composite belt is formed through rolling pressing of the first pressing roller 313 and the second pressing roller 34, so that two-in-one operation is realized; after being pressed and conveyed by a first pressing roller 313 and a second pressing roller 34, the composite belt after composite forming enters the other half of the cloth sticking area, the cloth sticking area of the equipment comprises a cloth guide conveying assembly 35 for receiving and continuously conveying the composite belt, the composite belt after being conveyed by the cloth guide conveying assembly 35 enters a support table 354 through a cloth guide plate 355, the composite belt is continuously pushed forward, after the required length is obtained, a linear cutter block 353 of a composite belt cutting mechanism 352 descends, and the required length of the composite belt is cut flatly to obtain the required size; the cut composite tape is positioned on one side of the linear cutter block 353.

Finally, the second driving mechanism 37 works to drive the cloth absorbing platform 361 to swing to the surface of the cut composite belt, the composite belt is subjected to vacuum absorption, after the absorption is finished, the second driving mechanism 37 continues to drive the cloth absorbing platform 361 to swing, the book block to be processed is positioned in the swing area of the cloth absorbing platform 361, the cloth absorbing platform 361 swings the absorbed composite belt to the back face of the book block, and the cloth absorbing platform 361 presses the composite belt to the back face of the book block, so that automatic cloth pasting is realized.

According to the assembly line production equipment for gluing, cloth pasting and cloth pressing on the back of the book block, the book block conveying mechanism is sequentially matched with the first gum coating mechanism 12, the yarn pasting mechanism 2, the second gum coating mechanism 120 and the composite tape pasting mechanism 3, so that the effects of pasting gauze, a head cloth belt and a back paper tape on the back of the book block by replacing manpower with machinery are achieved, all mechanisms are connected in a ring mode, the original three-time cloth pasting is reduced into two-time cloth pasting, the processing efficiency of the book block is greatly improved, the pasting precision and quality can be guaranteed through the pasting of mechanical equipment while the efficiency is guaranteed, good integrity is guaranteed, and large differences cannot occur.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the performance of the prior art and has practicability, and becomes a product with practical value. The above description is only a preferred embodiment of the present invention, and it should not be understood that the present invention is limited to the details of the embodiment and the range of applications, which can be changed by those skilled in the art according to the spirit of the present invention.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the effectiveness of the prior art and has practicability, and thus it is a product with practical value. The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. A integral type equipment that is used for subsides gauze, headband area and back of the body note of book block, including the book block conveying mechanism who is used for carrying the book block, its characterized in that: the device also comprises a first gum coating mechanism, a yarn sticking mechanism, a second gum coating mechanism and a composite tape sticking mechanism which are respectively matched with the book block conveying mechanism in sequence;

the first gum coating mechanism and the second gum coating mechanism are respectively positioned at two sides of the yarn sticking mechanism and respectively coat gum on the spine of the book block conveyed by the book block conveying mechanism;

the gauze pasting mechanism comprises a gauze cutting mechanism for cutting the length and the width of gauze respectively and a cloth pulling mechanism for pasting the cut gauze;

the composite tape sticking mechanism comprises a cloth feeding assembly for respectively conveying the back strip paper and the head cloth tape separately, and further comprises a gluing station for gluing the back strip paper and the head cloth tape to form a composite tape, a composite tape cutting mechanism for cutting the glued composite tape and a cloth suction mechanism for sticking the cut composite tape are arranged beside the gluing station;

the integrated equipment further comprises a setting mechanism for pressing the book block after cloth pasting is completed, the setting mechanism comprises an installation frame located beside the compound tape pasting mechanism, a cloth pressing component is installed in the installation frame in a lifting mode, and a cloth pressing film matched with the book block in a pressing mode is arranged on the cloth pressing component.

2. The integrated apparatus for the taping of gauze, leader and backing paper strips for book blocks of claim 1, wherein: the cloth pulling mechanism comprises more than two cloth pulling pieces, the cloth pulling mechanism further comprises a driving mechanism for driving different cloth pulling pieces to do reciprocating swing respectively, and the cloth pulling pieces pull the cut gauze to the spine at the back of the book block.

3. The integrated apparatus for the taping of gauze, leader and backing paper strips for book blocks of claim 2, wherein: the cloth pulling piece comprises a first cloth pulling rod and a second cloth pulling rod, the cloth pulling mechanism further comprises a first driving frame used for installing the first cloth pulling rod and a second driving frame used for installing the second cloth pulling rod, the first driving frame provided with the first cloth pulling rod is located on the inner side of the second driving frame, and the first driving frame swings on the inner side of the second driving frame.

4. The integrated apparatus for the taping of gauze, leader and backing paper strips for book blocks of claim 3, wherein: first granny rag pole and the parallel alignment of second granny rag pole, the length of second granny rag pole is greater than the length of first granny rag pole, and first granny rag pole is the strip form, and the second granny rag pole is the prism form, and wherein second granny rag pole is the planarization face with the opposite face of first granny rag pole, and first granny rag pole passes through the mounting and installs in first drive bay bottom, and second granny rag pole passes through adjusting module and adjustably installs in second drive bay outer end, and first granny rag pole and second granny rag pole can form the one end of clamping structure and centre gripping gauze.

5. The integrated apparatus for the taping of gauze, leader and backing paper strips for book blocks of claim 1, wherein: the cloth feeding assembly comprises a first conveying assembly, a second conveying assembly and a third conveying assembly, a back strip paper cutting mechanism for cutting the width of the back strip paper is arranged along the first conveying assembly, a gluing station is arranged at the intersection of the first conveying assembly and the second conveying assembly, the gluing station comprises a first pressing roller and a second pressing roller which are arranged in a pair of gaps, and a glue spraying opening for coating glue is formed in the joint surface of the back strip paper and the head cloth belt and is arranged above the first pressing roller.

6. The integrated apparatus for taping the gauze, the leader and the backing paper strip for a book block according to claim 5, characterized in that: the composite belt cutting mechanism comprises a linear cutter block for cutting the length of the composite belt in a liftable mode, a support table is arranged below the linear cutter block, the linear cutter block is arranged above the support table in a liftable mode, one side of the support table is used for receiving the composite belt of the third conveying assembly, and the other side of the support table is matched with a cloth suction mechanism.

7. The integrated apparatus for the taping of gauze, leader and backing paper strips for book blocks of claim 6, wherein: the cloth suction mechanism comprises a cloth suction table for sucking the cut composite strips in vacuum, and further comprises a driving mechanism for driving the cloth suction table to swing to the spine on the back of the book block in a reciprocating mode, the driving mechanism comprises a first cloth sticking driving shaft capable of rotating forwards and reversely, a first rocking rod piece capable of swinging along with the first cloth sticking driving shaft is coaxially installed on the first cloth sticking driving shaft, the tail end of the first rocking rod piece is rotatably connected with the cloth suction table, and the cloth suction table is driven to swing along with the first rocking rod piece in a reciprocating mode by rotating the first cloth sticking driving shaft.

8. The integrated apparatus for pasting gauze, leader tape and backing paper tape for book blocks according to any one of claims 1 to 7, wherein: the compress assembly comprises a plurality of compress roller pieces arranged at intervals, and the compress film forms a pressing surface located at the bottom of the mounting frame around the plurality of compress roller pieces for more than one week.

9. The integrated apparatus for the taping of gauze, leader and backing paper strips for book blocks of claim 8, wherein: the cloth pressing roller piece comprises two bottom cloth pressing rollers which are arranged at the bottom of the installation frame at intervals, and the two bottom cloth pressing rollers are horizontally aligned and matched with the wound cloth pressing films to form the pressing surface.

10. The integrated apparatus for taping gauze, leader tape and backing paper strips for book blocks as claimed in claim 9, wherein: the installation frame includes the lift mounting panel that a pair of parallel interval set up, and the compress subassembly still includes the lift drive plate of slidable mounting between two lift mounting panels, and two confession two bottom compress roller horizontal slip's positioning sliding plate are installed to lift drive plate bottom, and every positioning sliding plate lateral wall shaping has two slip slot holes.

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