CN110481188B - Line dress book aftertreatment device - Google Patents

Abstract

The invention discloses a line-bound book post-processing device, which comprises a transfer system, a boxing system, a drilling system, a glue injection system and a threading system, wherein the drilling system, the glue injection system and the threading system are sequentially arranged; the line-bound book post-processing device can stack the paper to be bound to be overlapped and level in height through the box packing mechanism, the vibration mechanism can further ensure that the paper is in a highly aligned and stacked state, extra operations such as trimming and trimming are not needed, and the integrity of the paper is not damaged. The device realizes the perforation through the three telescopic needle heads with different sizes in the perforation processing process, does not need to use high-pressure violent perforation, does not damage paper, and effectively ensures the high integrity of bound books. The device of the invention does not need excessive manual intervention, has high working efficiency and greatly improves the processing efficiency of thread bound books.

Description

Line dress book aftertreatment device

Technical Field

The invention relates to the technical field of book binding, in particular to a line-bound book post-processing device.

Background

The line book is a book type bound by lines, also called ancient line book, and is an important invention for people working in ancient China. With the gradual trend of the cultural market, the appearance of the thread-bound books is beautiful and the grade is high, so the thread-bound books are more and more popular with readers. For the quality of the thread bound books, especially for the thread bound ancient books, the most important is the post-processing technology of the thread bound book.

The traditional thread binding book made of rice paper materials is basically a manual thread binding book, the manufacturing process is complex, paper is not easy to highly coincide and level, additional cutting is needed, labor consumption is high, and the production efficiency of the thread binding book is limited. Meanwhile, some books which are punched through the machine for thread binding exist in the market, violent high-speed high-pressure punching is adopted for most of machines, paper is easy to damage, the books are incomplete, the sizes of punched holes are difficult to control, the sizes of the holes are different, and the attractiveness of the thread binding books is affected. In addition, most of the existing binding of the thread bound books simply finishes thread binding by punching, edge cutting and threading, does not have a glue injection process, is easy to be insecure between the holes of the thread bound books and the thread after a long time, and is not beneficial to the collection and storage of the thread bound books.

Therefore, in view of the above-mentioned shortcomings, there is still a need for research and improvement of a new type of thread binding post-processing device in the field of book binding technology, which is a research focus and focus of the field at present, and more a starting point and a driving force of the present invention.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a thread binding post-processing device which is reasonable in structural configuration, high in working efficiency and free of damage to paper.

In order to achieve the purpose, the invention provides the following technical scheme:

a line-mounted book post-processing device comprises a transfer system, a boxing system, a drilling system, a glue injection system and a threading system, wherein the drilling system, the glue injection system and the threading system are sequentially arranged;

the boxing mechanism comprises an outer frame I, a push rod I, a push plate I, a push rod II, a sliding groove I, a push plate II, a socket I, a plug I, a rail groove and a bottom plate; the bottom of the first outer frame is provided with a track groove, the bottom plate is arranged in the track groove in a sliding manner, push rods I are arranged on two symmetrical sides of the first outer frame, one end of each push rod penetrates through the first outer frame to be connected with a push plate I arranged inside the box, a sliding groove I is formed in the side wall of one outer frame, a push rod II is arranged in the sliding groove I in a sliding manner, one end of each push rod II is connected with a push plate II arranged inside the box, four corners of the top of the first outer frame are provided with a socket I, and four corners; the boxing mechanism is used for stacking and leveling paper sheets needing to be bound into books in a line

The vibration mechanism comprises a second socket, a first support frame, a universal joint, a frame base and a vibration system; the frame base is arranged at the top of the oscillation system, the universal joint is arranged at the center of the frame base, a first support frame is arranged at the top of the universal joint, and four support end parts of the first support frame are provided with a second socket. The vibrating mechanism is used for further adjusting the stacked paper in the box packing mechanism to be in a height aligned stacked state for subsequent processing.

The drilling system comprises a machine base, a sliding groove II, a lifting rod I, a lifting column I, a rotating joint, a rotating disc, a telescopic needle head, a lifting column II, a telescopic rod II and a pressing plate I; the second sliding groove is formed in the base, one end of the lifting rod is slidably arranged on the second sliding groove, the first lifting rod is sequentially provided with a first lifting column and a second lifting column, the lower end of the first lifting column is sequentially connected with a rotary joint and a rotary table, the bottom of the rotary table is provided with a plurality of telescopic needles, and the lower end of the second lifting column is sequentially connected with a second telescopic rod and a first pressing plate; the punching system is used for punching the paper stacked in the boxing mechanism.

The glue injection system comprises a first rack, a glue box, a first connecting frame, a first fixing rod, a third lifting column, a third telescopic rod, a glue gun, a hose, a glue injection head, a fourth lifting column, a fourth telescopic rod and a second pressing plate; the glue box is arranged on the first rack, the first connecting frame is arranged at the top of the glue box, the top end of the first connecting frame is connected with the first fixing rod, a third lifting column and a fourth lifting column are sequentially arranged on the first fixing rod, the lower end of the third lifting column is sequentially connected with a third telescopic rod and a glue gun, the glue gun is communicated with the glue box through a hose, the lower end of the glue gun is connected with a glue injection head, and the lower end of the fourth lifting column is sequentially connected with a fourth telescopic rod and a second pressing plate; the glue injection system is used for injecting glue to the holes of the punched stacked paper.

Further optimizing, the threading system comprises a second rack, a second connecting frame, a second fixing rod, a knife switch, a fifth lifting column, a fifth telescopic rod, a needle head, a sixth lifting column, a sixth telescopic rod and a third pressing plate; the upper end of the second frame is connected with the second fixing rod through the second connecting frame, a knife switch, a fifth lifting column and a sixth lifting column are sequentially arranged on the second fixing rod, a fifth telescopic rod and a needle head are sequentially connected to the lower end of the fifth lifting column, a sixth telescopic rod and a third pressing plate are sequentially connected to the lower end of the sixth lifting column, a rotary sleeve is arranged below one side of the knife switch, a wire is sleeved on the rotary sleeve, and one end of the wire penetrates through the knife switch and is connected with the needle head. The threading system is used for threading and binding the annular xerogel formed after the punching and glue injection.

Further optimizing, the system comprises an outer frame II, a socket II, a box, a plug II, a socket V, a lifting rod VII, a track III and a sliding rod III; the bottom of the third rail is arranged on the third sliding rod in a sliding mode, the seventh lifting rod is arranged on the third rail in a sliding mode, the fifth socket is arranged at the top of the seventh lifting rod, the second plug is arranged at the bottom of the box and inserted into the fifth socket, the outer portion of the box is wrapped by the second outer frame, and the fourth socket is arranged at the four corners of the top of the second outer frame. The book combining system plays a role in assisting in threading and making thick book-bound books.

Further optimizing, still include two braced systems, be located respectively under clamp plate one and the clamp plate two for support cartoning mechanism.

Further optimizing, the supporting system comprises a third socket, a second supporting frame, a telescopic column, a second sliding block, a second track and a second sliding rod; the second rail is arranged on the second sliding rod in a sliding mode, the second sliding block is arranged on the second rail in a sliding mode, a telescopic column is arranged at the top of the second sliding block, the second supporting frame is arranged at the top of the telescopic column, and the end portions of four supports of the second supporting frame are provided with third sockets. The supporting system is used for supporting and fixing the boxing mechanism so that the operations of drilling and glue injection can be effectively carried out.

The fan system is positioned on one side below the second pressing plate and comprises a fan, a heating box and an air pipe array; the fan is communicated with the heating box, and a plurality of air pipe arrays are arranged at the top of the heating box. The fan system is used for accelerating the rapid drying of the glue injected at the drilling position.

Further optimizing, the transfer system comprises a first rail, a first sliding block, a first sliding rod, a sliding vehicle, a first telescopic rod and a suction head; the first sliding block is arranged on the first rail in a sliding mode, the top of the first sliding block is connected with a first sliding rod, the sliding trolley is arranged on the first sliding rod in a sliding mode, one side of the sliding trolley is connected with a plurality of first telescopic rods, and one end portion of each telescopic rod is connected with a suction head. The transfer system can enable the boxing mechanism to rapidly switch among systems to complete all procedures in order.

Further optimization, the inner diameters of the first socket, the second socket, the third socket and the fourth socket are matched with the outer diameter of the first plug, and the first plug can be inserted into the first socket, the second socket, the third socket and the fourth socket, so that the boxing mechanism can be fixed on the vibration mechanism, the supporting system and the combination system, and meanwhile, a plurality of boxing mechanisms can be assembled together.

Further optimize, flexible syringe needle is three, is tip form, strip column and major diameter strip respectively, and through the flexible syringe needle of tip form preliminary open a hole on piling up the paper, widen the regional area of preliminary open a hole through the flexible syringe needle of strip column, do the polishing through the flexible syringe needle of major diameter strip with the open a hole aperture region at last and polish.

Further optimize, evenly set up porosely on the injecting glue head to glue evenly overflows and realizes the injecting glue.

And the second push plate is of a foldable structure, so that the second push plate can adapt to the width between the first push plates on the left side and the right side of the second push plate, and the paper can be further adjusted to be stacked in a flush manner.

Further optimization, the bottom plate is evenly provided with the strip holes, so that air of the air pipe array 802 can conveniently enter the boxing mechanism.

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

(1) the line-bound book post-processing device can stack the paper to be bound to be overlapped and level in height through the box packing mechanism, the vibration mechanism can further ensure that the paper is in a highly aligned and stacked state, extra operations such as trimming and trimming are not needed, the integrity of the paper is not damaged, and the line-bound book post-processing device is particularly suitable for binding large books and ancient technical books.

(2) According to the device, the punching system and the glue injection system are used for respectively punching and injecting glue to the stacked paper, punching is realized through the three telescopic needles with different sizes in the punching process, high-pressure violent punching is not needed, the paper cannot be damaged, and the integrity of bound books is effectively guaranteed. Meanwhile, the glue injection at the hole punching position can effectively ensure that the sizes of the holes are consistent, and the tight connection between the thread and the holes can be ensured after threading, thereby being beneficial to storing and preserving the thread-bound books.

(3) The device disclosed by the invention completes the binding of the stacked paper by the thread binding through the punching system, the glue injection system, the threading system and the binding system in sequence, does not need excessive manual intervention, has high working efficiency and greatly improves the processing efficiency of the thread binding.

(4) The device provided by the invention is reasonable in structural configuration, the boxing mechanism can freely move to each system to complete each process operation through the transfer system, and meanwhile, the boxing mechanism can be mounted or dismounted on the vibration mechanism, the support system and the boxing system, so that the device is convenient to use, and can realize that a plurality of boxing mechanisms can simultaneously perform each operation in each process, thereby greatly improving the working efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the transfer system of the present invention;

FIG. 3 is a schematic structural diagram of the cartoning mechanism of the present invention;

FIG. 4 is a schematic structural diagram of the cartoning mechanism of the present invention;

FIG. 5 is a schematic structural diagram of a vibration mechanism according to the present invention;

FIG. 6 is a schematic view of the support system of the present invention;

FIG. 7 is a schematic view of the configuration of the drilling system of the present invention;

FIG. 8 is a schematic structural view of the glue injection system of the present invention;

FIG. 9 is a schematic structural diagram of the glue injection head of the present invention;

FIG. 10 is a schematic structural view of a fan system of the present invention;

fig. 11 is a schematic view of the threading system of the present invention;

FIG. 12 is a schematic view of the structure of the rotating sleeve and its associated components of the present invention;

FIG. 13 is a schematic diagram of the present invention system;

wherein: the device comprises a first rail 1, a first sliding block 101, a first sliding rod 102, a sliding vehicle 103, a first telescopic rod 104, a suction head 105, a first outer frame 2, a first push rod 201, a first push plate 202, a second push rod 203, a first sliding groove 204, a second push plate 205, a first socket 206, a first plug 207, a first rail groove 208, a bottom plate 209, a second socket 3, a first support frame 301, a universal joint 302, a frame base 303, a vibration system 304, a third socket 4, a second support frame 401, a telescopic column 402, a second sliding block 403, a second rail 404, a second sliding rod 405, a machine base 5, a second sliding groove 501, a first lifting rod 502, a first lifting column 503, a rotating joint 504, a rotating disc 505, a telescopic needle 506, a second lifting column 507, a second telescopic rod 508, a first pressing plate 509, a first machine frame 6, a glue box 601, a first connecting frame 602, a first fixing rod 603, a third lifting column 604, a telescopic rod 605, a glue gun 606, a hose 607, a head 608, a fourth, The device comprises a second connecting frame 701, a second fixing rod 702, a knife switch 703, a fifth lifting column 704, a fifth telescopic rod 705, a needle 706, a sixth lifting column 707, a sixth telescopic rod 708, a third pressing plate 709, a fan 8, a heating box 801, an air duct array 802, a rotary sleeve 9, a wire 901, a second outer frame 10, a fourth socket 1001, a box 11, a second plug 1101, a fifth socket 1102, a seventh lifting rod 1103, a third track 1104 and a third sliding rod 1105.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-13, a line-mounted book post-processing device includes a transfer system, a box-packing system, and a hole-punching system, a glue-injecting system, and a threading system sequentially disposed, where the box-packing system includes a box-packing mechanism and a vibrating mechanism, the box-packing mechanism is disposed on the vibrating mechanism, the transfer system is used to transfer the box-packing mechanism to each system, and one side of the threading system is provided with a book-combining system;

the boxing mechanism comprises an outer frame I2, a push rod I201, a push plate I202, a push rod II 203, a sliding groove I204, a push plate II 205, a socket I206, a plug I207, a track groove 208 and a bottom plate 209; the bottom of the first outer frame 2 is provided with a track groove 208, a bottom plate 209 is arranged in the track groove 208 in a sliding manner, push rods 201 are arranged on two symmetrical sides of the first outer frame 2, one end of each push rod 201 penetrates through the first outer frame 2 to be connected with a first push plate 202 arranged inside the box, a first sliding groove 204 is formed in the side wall of the first outer frame 2, a second push rod 203 is arranged in the first sliding groove 204 in a sliding manner, one end of the second push rod 203 is connected with a second push plate 205 arranged inside the box, four corners of the top of the first outer frame 2 are respectively provided with a first socket 206, and four corners of the; the boxing mechanism is used for stacking and leveling paper sheets needing to be bound into books in a line

The vibration mechanism comprises a second socket 3, a first support frame 301, a universal joint 302, a frame base 303 and a vibration system 304; frame base 303 sets up at vibration system 304 top, and universal joint 302 sets up at frame base 303 center, and universal joint 302 top is equipped with support frame 301, and four support tip of support frame 301 all are equipped with socket two 3. The vibrating mechanism is used for further adjusting the stacked paper in the box packing mechanism to be in a height aligned stacked state for subsequent processing.

The drilling system comprises a base 5, a second sliding groove 501, a first lifting rod 502, a first lifting column 503, a rotating joint 504, a rotating disc 505, a telescopic needle 506, a second lifting column 507, a second telescopic rod 508 and a first pressing plate 509; the second sliding groove 501 is arranged on the base 5, one end of the first lifting rod 502 is slidably arranged on the second sliding groove 501, the first lifting rod 502 is sequentially provided with a first lifting column 503 and a second lifting column 507, the lower end of the first lifting column 503 is sequentially connected with a rotary joint 504 and a rotary table 505, the bottom of the rotary table 505 is provided with a plurality of telescopic needles 506, and the lower end of the second lifting column 507 is sequentially connected with a second telescopic rod 508 and a first pressing plate 509; the punching system is used for punching the paper stacked in the boxing mechanism.

The glue injection system comprises a first rack 6, a glue box 601, a first connecting frame 602, a first fixing rod 603, a third lifting column 604, a third telescopic rod 605, a glue gun 606, a hose 607, a glue injection head 608, a fourth lifting column 609, a fourth telescopic rod 6010 and a second pressing plate 6011; the glue box 601 is arranged on the first rack 6, the first connecting frame 602 is arranged at the top of the glue box 601, the top end of the first connecting frame 602 is connected with a first fixing rod 603, a third lifting column 604 and a fourth lifting column 609 are sequentially arranged on the first fixing rod 603, the lower end of the third lifting column 604 is sequentially connected with a third telescopic rod 605 and a glue gun 606, the glue gun 606 is communicated with the glue box 601 through a hose 607, the lower end of the glue gun 606 is connected with a glue injection head 608, and the lower end of the fourth lifting column 609 is sequentially connected with a fourth telescopic rod 6010 and a second pressing plate 6011; the glue injection system is used for injecting glue to the holes of the punched stacked paper.

The threading system comprises a second machine frame 7, a second connecting frame 701, a second fixing rod 702, a knife switch 703, a fifth lifting column 704, a fifth telescopic rod 705, a needle 706, a sixth lifting column 707, a sixth telescopic rod 708 and a third pressing plate 709; the upper end of the second rack 7 is connected with a second fixed rod 702 through a second connecting frame 701, a knife switch 703, a fifth lifting column 704 and a sixth lifting column 707 are sequentially arranged on the second fixed rod 702, a fifth telescopic rod 705 and a needle 706 are sequentially connected to the lower end of the fifth lifting column 704, a sixth telescopic rod 708 and a third pressing plate 709 are sequentially connected to the lower end of the sixth lifting column 707, a rotating sleeve 9 is arranged below one side of the knife switch 703, a wire 901 is sleeved on the rotating sleeve 9, and one end of the wire 901 penetrates through the knife switch 703 and is connected with the needle 706. The threading system is used for threading and binding the annular xerogel formed after the punching and glue injection.

The system comprises an outer frame II 10, a socket II 1001, a box 11, a plug II 1101, a socket V1102, a lifting rod VII 1103, a track III 1104 and a sliding rod III 1105; the bottom of the third track 1104 is slidably arranged on the third sliding rod 1105, the seventh lifting rod 1103 is slidably arranged on the third track 1104, the fifth socket 1102 is arranged at the top of the seventh lifting rod 1103, the second plug 1101 is arranged at the bottom of the box 11 and is inserted into the fifth socket 1102, the outer frame 10 wraps the box 11, and the four corners of the top of the second frame 10 are provided with the fourth socket 1001. The book combining system plays a role in assisting in threading and making thick book-bound books.

The boxing device further comprises two supporting systems which are respectively positioned under the first pressure plate 509 and the second pressure plate 6011 and used for supporting the boxing mechanism.

The supporting system comprises a third socket 4, a second supporting frame 401, a telescopic column 402, a second sliding block 403, a second rail 404 and a second sliding rod 405; the second rail 404 is arranged on the second sliding rod 405 in a sliding mode, the second sliding block 403 is arranged on the second rail 404 in a sliding mode, the top of the second sliding block 403 is provided with a telescopic column 402, the second support frame 401 is arranged at the top of the telescopic column 402, and the end portions of four supports of the second support frame 401 are provided with three sockets 4. The supporting system is used for supporting and fixing the boxing mechanism so that the operations of drilling and glue injection can be effectively carried out.

The fan system is positioned on one side below the second pressing plate 6011 and comprises a fan 8, a heating box 801 and an air pipe array 802; the fan 8 is communicated with the heating box 801, and the top of the heating box 801 is provided with a plurality of air pipe arrays 802. The fan system is used for accelerating the rapid drying of the glue injected at the drilling position.

The transfer system comprises a first track 1, a first sliding block 101, a first sliding rod 102, a sliding vehicle 103, a first telescopic rod 104 and a suction head 105; the first sliding block 101 is arranged on the first rail 1 in a sliding mode, the top of the first sliding block 101 is connected with the first sliding rod 102, the sliding trolley 103 is arranged on the first sliding rod 102 in a sliding mode, one side of the sliding trolley 103 is connected with a plurality of first telescopic rods 104, and the end portions of the first telescopic rods 104 are connected with the suction heads 105. The transfer system can enable the boxing mechanism to rapidly switch among systems to complete all procedures in order.

The inner diameters of the first socket 206, the second socket 3, the third socket 4 and the fourth socket 1001 are matched with the outer diameter of the first plug 207, and the first plug 207 can be inserted into the first socket 206, the second socket 3, the third socket 4 and the fourth socket 1001, so that the boxing mechanism can be fixed on the vibration mechanism, the supporting system and the combination system, and meanwhile, a plurality of boxing mechanisms can be assembled together.

The telescopic needles 506 are three and are respectively in a pointed shape, a strip column shape and a large-diameter strip shape, primary open holes are formed in stacked paper through the pointed telescopic needles, primary open hole areas are widened through the strip column telescopic needles, and finally the open hole inner diameter areas are polished through the large-diameter strip telescopic needles.

Holes are uniformly formed in the glue injection head 608, so that glue can uniformly overflow to realize glue injection.

The second push plate 205 is of a foldable structure, so that the second push plate 205 can adapt to the width between the two first push plates 202 on the left side and the right side of the second push plate, and the paper can be further adjusted to be stacked in a flush manner.

The bottom plate 209 is uniformly provided with strip holes, so that air of the air pipe array 802 can conveniently enter the boxing mechanism.

When the invention works: the sheets to be bound into a book are gradually placed in the frame one 2, and the sheets are stably stacked on the bottom plate 209. The plug I207 is inserted into the socket II 3, so that the boxing mechanism is stably arranged on the vibration mechanism. Adjusting the angle of gimbal 302 causes the cartoning mechanism to tilt angularly. The oscillating system 304 is turned on to transmit the vibration to the boxing mechanism through the frame base 303, the universal joint 302 and the first support bracket 301 in sequence. At this time, the paper sheets in the box packing mechanism will also slide each other due to the vibration conduction, and approach to be stacked in a flush manner. Meanwhile, the length of the push rod 201 pushed into the outer frame 2 is adjusted, so that the push plate 202 is attached to the side face of the stacked paper, and the paper is prevented from sliding left and right. Then, the overall length of the second push plate 205 and the position of the second push plate 203 on the first sliding groove 204 are adjusted, so that the second push plate 205 can adapt to the width between the two first push plates 202 on the left side and the right side of the second push plate. And then adjusting the length of the second push rod 203 pushed into the first outer frame 2 to ensure that the second push plate 205 is attached to the top side of the paper, and at the moment, the bottom side of the paper is attached to the inner wall of the first outer frame 2. The stacked sheets will be in a highly aligned stacked state. Socket one 206 can mate with plug one 207 so that the cartoning mechanism can be stacked in multiple tiers. After the step is finished, the suction head 105 is made to adsorb the outer side wall of the outer frame I2 by adjusting the length of the telescopic rod I104, so that the boxing mechanism is adsorbed, the vertical position of the boxing mechanism is adjusted by adjusting the position of the sliding trolley 103 on the sliding rod I102, and the horizontal position of the boxing mechanism is adjusted by adjusting the position of the sliding block I101 on the rail I1, so that the boxing mechanism can be switched between the processes. After the sheet alignment stacking operation is completed, the cartoning mechanism is transferred to the support system by the transfer system, wherein the first plug 207 is inserted into the third socket 4, so that the cartoning mechanism can be mounted on the support system. The telescopic adjustment of the telescopic column 402 can assist in adjusting the vertical position of the boxing mechanism in a matching manner, and the free sliding adjustment position of the second slider 403 in the second rail 404 and the displacement sliding of the second rail 404 on the second sliding rod 405 can assist in adjusting the horizontal position of the boxing mechanism together. The position adjustment is performed to improve the machining accuracy and to quickly and efficiently align the machining position in each machining process. At this time, the boxing mechanism and the paper therein are positioned below the first lifting rod 502. The first lifting rod 502 is adjusted to be located on the second sliding groove 501, the first pressure plate 509 and the telescopic needle 506 are initially close to the boxing mechanism, then the second lifting column 507 is adjusted to be located on the first lifting rod 502, the telescopic length of the second telescopic rod 508 is adjusted, the first pressure plate 509 is accurately pressed on stacked paper in the boxing mechanism, and therefore the paper cannot slide and fluctuate in the punching process. Adjusting the position of the lifting column I503 on the lifting rod I502 enables the telescopic needle 506 to contact with the paper, and the power supply arranged in the rotary table 505 is started to enable the telescopic needle 506 to rotate at high speed and punch holes on the stacked paper. The three telescopic needles 506 are respectively in a tip shape, a bar shape and a large-diameter bar shape, the processing sequence is developed in sequence as described above, the tip-shaped telescopic needles are used for preliminarily opening holes in stacked paper, the bar-shaped telescopic needles are used for widening the preliminarily opened hole area, and finally the large-diameter bar-shaped telescopic needles are used for polishing and grinding the inner diameter area of the opened hole. The switching between different needles is realized by rotating the turntable 505 by the rotating joint 504. After the punching operation is completed on the paper, the boxing mechanism is transferred to the next support system through the transfer system. At this time, the boxing mechanism is positioned below the first fixing rod 603. And adjusting the position of the lifting column four 609 on the fixing rod one 603 and the telescopic length of the telescopic rod four 6010 to press the second pressing plate 6011 on the paper. And then the position of the lifting column III 604 on the fixing rod I603 is adjusted, and the telescopic length of the telescopic rod III 605 is adjusted, so that the glue injection head 608 enters the punching position on the paper. The glue stored in the glue tank 601 is poured into the hole via the hose 607 and the glue gun 606 in sequence. Produce hot-blastly through fan 8 and heating cabinet 801 to blow hot-blastly to cartoning mechanism through tuber pipe array 802 on, conduct certain heat to the paper through cartoning mechanism on, make the glue that is located in the paper department of holing congeal dry fast, fill the limit simultaneously and withdraw from the department of holing with injecting glue head 608 slowly. At the moment, the glue in the hole punching position is solidified to form a ring shape, a straight cylindrical hole is left in the center, the size height of each hole is effectively guaranteed to be consistent, and meanwhile, the tightness between the threads and the holes can be guaranteed after threading, so that collection and storage of the threaded books are facilitated. After the operation is finished, the boxing mechanism is transferred and placed on the socket IV 1001 of the combination system through the transfer system, and the boxing mechanism is positioned right above the outer frame II 10. The position of the lifting column six 707 on the fixing rod two 702 is adjusted, and the telescopic length of the telescopic rod six 708 is adjusted, so that the pressing plate three 709 is pressed on the paper, the bottom plate 209 is pulled out from the outer frame one 2 through the rail groove 208, the paper can fall into the box 11 under the dual actions of the pressing plate three 709 and gravity, and the box 11 is detachable and replaceable, so that the adjustment can be performed according to different size requirements, and the replacement is realized by nesting the plug two 1101 and the socket five 1102. The paper can be accurately dropped into the box 11 by adjusting the position of the lifting rod seven 1103 on the rail three 1104 and adjusting the sliding movement of the rail three 1104 on the sliding rod three 1105, and after the paper drops into the box 11, the paper is further compacted in the box by the pressing plate three 709, so that the subsequent processing is more accurate. The above process is repeated so that sheets of paper of a sufficient thickness are stacked in the cassette 11. At this time, the position of the lifting column five 704 on the fixing rod two 702 is adjusted, so that the needle 706 is close to the annular xerogel position, and the telescopic length of the telescopic rod five 705 is adjusted, so that the needle 706 drives the wire 901 to pass through the straight cylindrical hole and the whole stacked paper, and the threading is completed. Then the knife 703 is controlled to cut the thread 901 and manually knotted. And then the pinhead 706 is taken down, reconnected with the line 901 and then arranged on the five telescopic rods 705, and the process is repeated to finish the book line binding. The rotating sleeve 9 continuously discharges the wire 901 by rotating.

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

Claims (10)

1. The utility model provides a line dress book aftertreatment device which characterized in that: the boxing system comprises a boxing mechanism and a vibration mechanism, the boxing mechanism is arranged on the vibration mechanism, the transfer system is used for transferring the boxing mechanism to each system, and a local combination system is arranged on one side of the threading system;

the boxing mechanism comprises an outer frame I (2), a push rod I (201), a push plate I (202), a push rod II (203), a sliding groove I (204), a push plate II (205), a socket I (206), a plug I (207), a track groove (208) and a bottom plate (209); the bottom of the outer frame I (2) is provided with a track groove (208), the bottom plate (209) is arranged in the track groove (208) in a sliding manner, push rods I (201) are arranged on two symmetrical sides of the outer frame I (2), one end of each push rod I (201) penetrates through the outer frame I (2) to be connected with a push plate I (202) arranged in the box, a sliding groove I (204) is formed in the side wall of the outer frame I (2), a push rod II (203) is arranged in the sliding groove I (204) in a sliding manner, one end of each push rod II (203) is connected with a push plate II (205) arranged in the box, four corners of the top of the outer frame I (2) are respectively provided with a socket I (206), and four corners of the bottom;

the vibration mechanism comprises a second socket (3), a first support frame (301), a universal joint (302), a frame base (303) and a vibration system (304); the frame base (303) is arranged at the top of the oscillating system (304), the universal joint (302) is arranged at the center of the frame base (303), the top of the universal joint (302) is provided with a first support frame (301), and the end parts of four supports of the first support frame (301) are respectively provided with a second socket (3);

the drilling system comprises a base (5), a second sliding groove (501), a first lifting rod (502), a first lifting column (503), a rotating joint (504), a turntable (505), a telescopic needle head (506), a second lifting column (507), a second telescopic rod (508) and a first pressing plate (509); the second sliding groove (501) is arranged on the base (5), one end of the first lifting rod (502) is slidably arranged on the second sliding groove (501), the first lifting rod (502) is sequentially provided with a first lifting column (503) and a second lifting column (507), the lower end of the first lifting column (503) is sequentially connected with a rotary joint (504) and a rotary table (505), the bottom of the rotary table (505) is provided with a plurality of telescopic needles (506), and the lower end of the second lifting column (507) is sequentially connected with a second telescopic rod (508) and a first pressing plate (509);

the glue injection system comprises a first rack (6), a glue box (601), a first connecting frame (602), a first fixing rod (603), a third lifting column (604), a third telescopic rod (605), a glue gun (606), a hose (607), a glue injection head (608), a fourth lifting column (609), a fourth telescopic rod (6010) and a second pressing plate (6011); glue case (601) and set up in frame one (6), link one (602) set up at gluey case (601) top, link one (602) top is connected with dead lever one (603), be equipped with lifting column three (604) and lifting column four (609) on dead lever one (603) in proper order, lifting column three (604) lower extreme has connected gradually telescopic link three (605) and has glued rifle (606), it communicates with gluey case (601) through hose (607) to glue rifle (606), it is connected with injecting glue head (608) to glue rifle (606) lower extreme, lifting column four (609) lower extreme has connected gradually telescopic link four (6010) and clamp plate two (6011).

2. The thread-bound book post-processing device according to claim 1, characterized in that: the threading system comprises a second rack (7), a second connecting frame (701), a second fixing rod (702), a knife switch (703), a fifth lifting column (704), a fifth telescopic rod (705), a needle (706), a sixth lifting column (707), a sixth telescopic rod (708) and a third pressing plate (709); the upper end of the second rack (7) is connected with the second fixing rod (702) through a second connecting frame (701), a knife switch (703), a fifth lifting column (704) and a sixth lifting column (707) are sequentially arranged on the second fixing rod (702), a fifth telescopic rod (705) and a needle (706) are sequentially connected to the lower end of the fifth lifting column (704), a sixth telescopic rod (708) and a third pressing plate (709) are sequentially connected to the lower end of the sixth lifting column (707), a rotary sleeve (9) is arranged below one side of the knife switch (703), and a wire (901) is sleeved on the rotary sleeve (9).

3. The thread-bound book post-processing device according to claim 2, characterized in that: the system comprises an outer frame II (10), a socket II (1001), a box (11), a plug II (1101), a socket II (1102), a lifting rod VII (1103), a track III (1104) and a sliding rod III (1105); the bottom of the third track (1104) is arranged on the third sliding rod (1105) in a sliding mode, the seventh lifting rod (1103) is arranged on the third track (1104) in a sliding mode, a fifth socket (1102) is arranged at the top of the seventh lifting rod (1103), a second plug (1101) is arranged at the bottom of the box (11), the second plug (1101) is inserted into the fifth socket (1102), the outer portion of the box (11) is wrapped by a second outer frame (10), and four corners of the top of the second outer frame (10) are provided with fourth sockets (1001).

4. The thread-bound book post-processing device according to claim 3, characterized in that: the boxing device further comprises two supporting systems which are respectively positioned under the first pressure plate (509) and the second pressure plate (6011) and used for supporting the boxing mechanism.

5. The thread-bound book post-processing device of claim 4, wherein: the supporting system comprises a third socket (4), a second supporting frame (401), a telescopic column (402), a second sliding block (403), a second rail (404) and a second sliding rod (405); the second rail (404) is arranged on the second sliding rod (405) in a sliding mode, the second sliding block (403) is arranged on the second rail (404) in a sliding mode, the telescopic column (402) is arranged at the top of the second sliding block (403), the second support frame (401) is arranged at the top of the telescopic column (402), and the four support end portions of the second support frame (401) are provided with the third socket (4).

6. The thread-bound book post-processing device according to claim 3, characterized in that: the fan system is positioned on one side below the second pressing plate (6011) and comprises a fan (8), a heating box (801) and an air pipe array (802); the fan (8) is communicated with the heating box (801), and the top of the heating box (801) is provided with a plurality of air pipe arrays (802).

7. The thread-bound book post-processing device according to any one of claims 1 to 6, wherein: the transfer system comprises a first rail (1), a first sliding block (101), a first sliding rod (102), a sliding vehicle (103), a first telescopic rod (104) and a suction head (105); the first sliding block (101) is arranged on the first rail (1) in a sliding mode, the top of the first sliding block (101) is connected with a first sliding rod (102), the sliding trolley (103) is arranged on the first sliding rod (102) in a sliding mode, one side of the sliding trolley (103) is connected with a plurality of first telescopic rods (104), and the end portions of the first telescopic rods (104) are connected with suction heads (105).

8. The thread-bound book post-processing device of claim 5, wherein: the inner diameters of the first socket (206), the second socket (3), the third socket (4) and the fourth socket (1001) are matched with the outer diameter of the first plug (207).

9. The thread-bound book post-processing device according to any one of claims 1 to 6, wherein: the number of the telescopic needles (506) is three, and the three telescopic needles are respectively in a pointed shape, a strip column shape and a large-diameter strip shape.

10. The thread-bound book post-processing device according to any one of claims 1 to 6, wherein: holes are uniformly formed in the glue injection head (608).

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