CN114619697A - Hot plinth machine of books processing with waste material processing function - Google Patents

Abstract

The invention discloses a book processing hot flap machine with waste material treatment function, comprising: the cutting chamber, the waste chamber and the inclined conveying chamber are connected between the cutting chamber and the waste chamber; the scraping plate is slidably arranged in the inclined conveying chamber and driven by the reciprocating assembly to slide in a reciprocating manner, and the scraping plate is arranged in a manner of being attached to the inner wall of the inclined conveying chamber; a drive assembly; pressing the material; and a brake assembly; the reciprocating component is driven to start through the driving component, then the reciprocating component drives the scraper blade to move towards the direction of the waste material chamber on the inclined conveying chamber, paper waste materials in the inclined conveying chamber are pushed to the waste material chamber, meanwhile, the braking component is driven to remove braking of the material pressing component, the first driving source drives the material pressing component to lift, the paper waste materials in the waste material chamber can be pressed and processed, and the problem that the space is wasted due to the fact that the paper waste materials are collected in the waste material chamber due to self hardness is effectively avoided.

Description

Hot plinth machine of books processing with waste material processing function

Technical Field

The invention relates to the technical field of book processing, in particular to a book processing hot flap machine with a waste treatment function.

Background

The edge closing machine is one kind of front edge treating apparatus for flush bound book with folded edge, and is to set the book with folded edge on the folded edge vertically on the material conveying and discharging table, convey the book with pushing rod to the front edge automatically, cut the front edge of the book according to size, seal the front edge with the book and convey the folded cover to the book collecting table.

Application number is CN 202120416961.6's patent application discloses a plinth machine with clear bits mechanism, the books that will be located between two guide rolls during the use pass through the conveyer belt and carry to cutting room, open the direction motion that cuts the sword and cut to books behind the cutting motor, open and clean the motor, the brush head also moves to the direction that books cut, brush head and the clearance is left on the top of books this moment, brush head and paging board contact after the sword that cuts and accomplish, continue to move and clean waste material to slope delivery board, waste material on the slope delivery board utilizes gravity to arrive on the belt, conveyor motor drives the belt and rotates the waste material and transports to the waste material room, cut sword and brush head and get back to the home position, carry out the clear bits process of cutting next time.

However, this application is in the use, because the paper waste weight that produces cuts is less, only when relying on the gravity of paper waste self, be not enough to make on whole paper waste reachs the belt through the slope delivery board completely, paper waste can stop and lead to blockking up on the slope delivery board to paper waste is because self has the hardness, and the indoor paper waste of garbage can't neatly stack, very easily leads to the waste in the indoor collection space of garbage.

Disclosure of Invention

The invention aims to provide a book processing hot edge sealing machine with a waste treatment function, which solves the following technical problems:

when only relying on the gravity of paper waste material self, be not enough to make on whole paper waste material reachs the belt through the slope delivery board completely, the paper waste material can stop and lead to blockking up on the slope delivery board to the paper waste material is because self has hardness, and the indoor paper waste material of garbage collection can't stack in good order, very easily leads to the waste in the indoor collection space of garbage.

The purpose of the invention can be realized by the following technical scheme:

a hot-heading machine for book processing with waste disposal, comprising:

the cutting chamber, the waste chamber and the inclined conveying chamber are connected between the cutting chamber and the waste chamber;

further comprising:

the scraping plate is slidably arranged in the inclined conveying chamber and driven by the reciprocating assembly to slide in a reciprocating manner, and the scraping plate is arranged in a manner of being attached to the inner wall of the inclined conveying chamber;

a drive assembly for intermittently driving the reciprocating assembly;

the material pressing piece is slidably arranged in the waste material chamber and is driven by a first driving source to reciprocate; and

and when the scraper slides towards the waste chamber, the scraper drives the braking component to brake the material pressing piece, and the first driving source drives the material pressing piece to ascend and descend.

As a further scheme of the invention: the drive assembly includes:

the driving gear is rotatably arranged on the inclined conveying chamber and is driven to rotate by a second driving source, and a convex cambered surface and a first tooth block are arranged at the edge of the driving gear;

the positioning column is fixed at the joint of the convex cambered surface on the driving gear and the first tooth block;

the driven gear is rotatably arranged on the inclined conveying chamber, a second tooth block meshed with the first tooth block is arranged on the driven gear, a concave arc surface matched with the convex arc surface is arranged on the driven gear, and the driven gear is linked with the reciprocating assembly; and

the push rod is fixed on a central shaft of the driven gear, the positioning column is arranged on a rotating path of the push rod, and the push rod is arranged towards the direction of the circle center of the concave cambered surface.

As a further scheme of the invention: the reciprocating assembly comprises:

the half gear is coaxially and fixedly connected with the driven gear; and

the sliding frame is slidably mounted on the inclined conveying chamber, saw-tooth convex blocks meshed with the half gears are arranged on two sides of the inner wall of the sliding frame, and the sliding frame is fixedly connected with the scraper.

As a further scheme of the invention: the brake assembly includes:

the assembling box is in sliding fit with a sliding rail arranged on the waste chamber, and the end part of the assembling box, which is far away from the material pressing part, is connected with the sliding rail through a first elastic part;

the first magnetic part is arranged on the end part, close to the material pressing part, of the sliding frame;

the second magnetic part is arranged on the assembly box, and the second magnetic part and the first magnetic part are magnetically repelled; the ratchet wheel is rotatably arranged in the assembly box; and

the ratchet bar is fixed on the pressing piece and meshed with the ratchet wheel, and when the ratchet bar is meshed with the ratchet wheel, the pressing piece cannot descend.

As a further scheme of the invention: the material piece of pressing includes:

the cross section of the top plate is T-shaped and is fixedly connected with the ratchet bar, and the top plate is connected with the output end of the first driving source; and

and the bottom plate is slidably mounted at the bottom of the top plate, and the top plate is connected with the bottom plate through a second elastic piece.

As a further scheme of the invention: and the contact surfaces of the scraper plate and the inner wall of the inclined conveying chamber and the contact surfaces of the bottom plate and the inner wall of the waste chamber are provided with fastening pieces.

As a further scheme of the invention: and a conveying roller for conveying the waste is rotatably arranged on the inclined bottom plate of the inclined conveying chamber, and the conveying roller is driven to rotate by a third driving source.

As a further scheme of the invention: and a water tank for wetting the roller surface of the conveying roller is arranged at the bottom of the inclined conveying chamber.

The invention has the beneficial effects that:

(1) according to the invention, the driving component drives the reciprocating component to start so as to drive the scraper to move towards the waste chamber on the inclined conveying chamber, so that the paper waste remained in the inclined conveying chamber is pushed into the waste chamber, and the problem that the paper waste stays in the inclined conveying chamber due to the self gravity is avoided;

(2) according to the invention, by utilizing the action of magnetic repulsion, in the process that the scraper moves towards the waste chamber until the connection part of the cutting chamber and the inclined conveying chamber, the assembling box moves along with the moving direction of the sliding frame, the ratchet wheel is separated from the ratchet bar, the pressing piece is released from a braking state, the first driving source can drive the pressing piece to descend and press the waste in the waste chamber, and the problem of waste of a collecting space in the waste chamber caused by the elasticity of paper waste in the waste chamber is effectively avoided;

(3) according to the invention, the rotating conveying roller is arranged at the bottom of the inclined conveying chamber, the water tank for wetting the roller surface of the conveying roller is arranged at the bottom of the inclined conveying chamber, paper contacting with the wet conveying roller cannot fly upwards, and the collection efficiency of paper waste can be effectively improved.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the drive assembly of the present invention;

FIG. 3 is a schematic view of the reciprocating assembly of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1A of the present invention;

FIG. 5 is a schematic structural view of a swage of the present invention;

FIG. 6 is a schematic view showing the structure of the feed roller in the present invention.

In the figure: 1. a cutting chamber; 2. an inclined conveying chamber; 3. a waste chamber; 4. cutting the assembly; 5. a squeegee; 6. a drive assembly; 601. a driving gear; 602. a positioning column; 603. a driven gear; 604. a push rod; 7. a reciprocating assembly; 701. a half gear; 702. a sliding frame; 8. a brake assembly; 801. an assembly box; 802. a first magnetic member; 803. a ratchet wheel; 804. a ratchet bar; 805. a first elastic member; 806. a second magnetic member; 9. pressing the material; 901. a top plate; 902. a base plate; 903. a second elastic member; 10. attaching a fastening piece; 11. a conveying roller; 12. a water tank.

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. 1-6, the present invention relates to a book-processing hot-top machine with waste treatment function, comprising:

the cutting chamber 1, the waste chamber 3 and the inclined conveying chamber 2 connected between the cutting chamber and the waste chamber;

further comprising:

the scraping plate 5 is slidably arranged in the inclined conveying chamber 2 and driven by the reciprocating assembly 7 to slide in a reciprocating manner, and the scraping plate 5 is arranged in a manner of being attached to the inner wall of the inclined conveying chamber 2;

a drive assembly 6 for intermittently driving the reciprocating assembly 7;

the material pressing piece 9 is arranged in the waste material chamber 3 in a sliding mode and is driven by a first driving source to reciprocate; and

and when the scraper 5 slides towards the waste chamber 3, the scraper 5 drives the brake assembly 8 to brake the material pressing piece 9, and the first driving source drives the material pressing piece 9 to ascend and descend.

The scraper 5 is a U-shaped plate, two side plates of the scraper are respectively clung to two side walls of the inclined conveying chamber 2, a bottom plate of the scraper 5 is clung to a bottom plate of the inclined conveying chamber 2, and the highest point of the bottom plate of the scraper 5 is lower than the joint of the cutting chamber 1 and the inclined conveying chamber 2.

The cutting chamber 1 is internally provided with a cutting component 4 for cutting a front opening of a book, and it is necessary to say that the cutting component 4 is the prior art, and the cutting component is not improved in the application, so that a specific mechanical structure and a circuit structure of the cutting component do not need to be disclosed, and the integrity of the application is not affected.

In one aspect of the present embodiment, the first driving source may be a hydraulic cylinder, an air cylinder, or other mechanisms that can achieve linear motion, and the present embodiment is not particularly limited herein.

In practical application of the embodiment, in an initial state, the scraper 5 is located at a connection position of the cutting chamber 1 and the inclined conveying chamber 2, that is, the scraper 5 is far away from the waste chamber 3, at this time, the braking component 8 brakes the material pressing component 9, and the material pressing component 9 cannot descend and is still at the top in the waste chamber 3; when drive assembly 6 drive reciprocating assembly 7 starts, reciprocating assembly 7 drives scraper blade 5 and removes to waste material room 3's direction on slope transport chamber 2, to be detained in the paper waste propelling movement in slope transport chamber 2 to waste material room 3, when scraper blade 5 slides to waste material room 3, scraper blade 5 drives brake assembly 8 and removes the braking to pressing material 9, first driving source drive pressing material 9 goes up and down afterwards, can press the material to the paper waste that gets into in waste material room 3 and handle, effectively avoided the paper waste because self hardness leads to the extravagant problem in the waste material room 3 internal collection space.

As shown in fig. 1 to 2, as a preferred embodiment of the present invention, the driving assembly 6 includes:

the driving gear 601 is rotatably arranged on the inclined conveying chamber 2 and is driven to rotate by a second driving source, and a convex arc surface and a first tooth block are arranged at the edge of the driving gear 601;

the positioning column 602 is fixed at the joint of the convex arc surface on the driving gear 601 and the first tooth block;

the driven gear 603 is rotatably arranged on the inclined conveying chamber 2, a second tooth block meshed with the first tooth block is arranged on the driven gear 603, a concave arc surface matched with the convex arc surface is arranged on the driven gear 603, and the driven gear 603 is linked with the reciprocating assembly 7; and

the push rod 604 is fixed on the central shaft of the driven gear 603, and the positioning column 602 is disposed on the rotation path of the push rod 604, wherein the push rod 604 is disposed toward the center of the concave arc surface.

In one aspect of the present embodiment, the second driving source may be a motor assembly, or may be a gear assembly or a pulley assembly driven by a motor, as long as the driving gear 601 can rotate, and the present embodiment is not specifically limited herein.

In practical application, in an initial state, the second driving source drives the driving gear 601 to rotate, the convex arc surface and the concave arc surface slide relatively, the driven gear 603 is stationary, after the positioning column 602 rotates to contact with the push rod 604, the positioning column 602 pushes the push rod 604 to rotate the driven gear 603, the second tooth block on the driven gear 603 engages with the first tooth block on the driving gear 601, meanwhile, the driving gear 601 rotates to drive the driven gear 603 to rotate until the second tooth block rotates away from the first tooth block, at this time, the driven gear 603 rotates once to return to an initial position, the driving gear 601 continues to rotate, the above process is repeated after the positioning column 602 rotates to contact with the push rod 604, and in such a reciprocating manner, the driven gear 603 realizes intermittent rotation, and each rotation of the driven gear 603 rotates once, and each rotation of the driven gear 603 drives the reciprocating assembly 7, so that the reciprocating assembly 7 realizes intermittent starting, the starting time is the time of one rotation of the driven gear 603.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, the shuttle assembly 7 includes:

a half gear 701 coaxially and fixedly connected with the driven gear 603; and

and the sliding frame 702 is slidably mounted on the inclined conveying chamber 2, saw-tooth convex blocks meshed with the half gear 701 are arranged on two sides of the inner wall of the sliding frame 702, and the sliding frame 702 is fixedly connected with the scraper 5.

In practical application of the present embodiment, in an initial state, the half gear 701 is located on one side of the sliding frame 702; when the driving gear 601 rotates to drive the driven gear 603 to rotate, the half gear 701 rotates synchronously, and along with one rotation of the driven gear 603, that is, when the driven gear 603 rotates one rotation, the half gear 701 rotates along with the rotation and is engaged with the saw tooth bump on one side of the sliding frame 702, the half gear 701 drives the sliding frame 702 to move until the half gear 701 rotates away from the saw tooth bump on the next side, then the half gear 701 continues to rotate and is engaged with the saw tooth bump on the other side of the sliding frame 702, and then the half gear 701 drives the sliding frame 702 to move reversely, so that, during each rotation of the driven gear 603, the half gear 701 is driven to rotate one rotation, and simultaneously the sliding frame 702 performs one reciprocating linear motion, that is, the scraping plate 5 performs one reciprocating motion, and because the scraping plate 5 is initially located at the connection between the cutting chamber 1 and the inclined conveying chamber 2, the scraping plate 5 performs one reciprocating motion, that is moved towards the waste chamber 3 until the connection between the cutting chamber 1 and the inclined conveying chamber 2 And then, the paper scrap is returned to the initial position, so that the pushing of the paper scrap retained in the inclined conveying chamber 2 is completed, and the paper scrap is effectively prevented from being retained in the inclined conveying chamber 2 due to the self gravity.

As shown in fig. 1 to 4, as a preferred embodiment of the present invention, the brake assembly 8 includes:

the assembly box 801 is in sliding fit with a sliding rail arranged on the waste chamber 3, and the end part of the assembly box 801 far away from the material pressing piece 9 is connected with the sliding rail through a first elastic piece 805;

the first magnetic piece 802 is arranged at the end part of the sliding frame 702 close to the material pressing piece 9;

the second magnetic member 806 is disposed on the assembly box 801, and the second magnetic member 806 magnetically repels the first magnetic member 802;

a ratchet 803 rotatably mounted in the assembly box 801; and

the ratchet bar 804 is fixed on the pressing member 9 and meshed with the ratchet 803, and when the ratchet bar 804 is meshed with the ratchet 803, the pressing member 9 cannot descend.

In an aspect of this embodiment, the first magnetic member 802 and the second magnetic member 806 may be permanent magnets, electromagnets connected to the electromagnetic modules, or magnetic coatings, and this embodiment is not limited in this application.

In addition, the first elastic member 805 may be a spring as shown in fig. 4, or may be replaced by other elastic members, such as a silica gel column, an elastic sheet, and the like, which is not limited in this embodiment.

In practical application, in an initial state, the assembly box 801 is still at one end of the slide rail close to the slide frame 702; in the process that the scraper 5 moves towards the waste chamber 3 until the connection part of the cutting chamber 1 and the inclined conveying chamber 2 is reached, the first magnetic piece 802 moves towards the waste chamber 3 along with the scraper 5, under the action of magnetic repulsion force, the second magnetic piece 806 and the assembling box 801 move along with the moving direction of the sliding frame 702, the first elastic piece 805 is extruded and deformed, in the process, the assembling box 801 and the ratchet 803 are far away from the material pressing piece 9 and the ratchet rack 804, the material pressing piece 9 is released from a braking state, and the first driving source can drive the material pressing piece 9 to descend and perform material pressing treatment on waste materials in the waste chamber 3; when the first driving source drives the pressing member 9 to descend for pressing, the first driving source drives the pressing member 9 to ascend and return to the initial position, and in the process of ascending the pressing member 9, the sliding frame 702 moves towards the initial position, the elastic force of the first elastic member 805 enables the assembling box 801 and the ratchet 803 to move towards the initial position, the pressing member 9 does not drive the ratchet 803 to rotate when ascending through the ratchet 803, and then when the first driving source drives the pressing member 9 to descend in advance, the ratchet 803 is clamped with the ratchet 804, the pressing member 9 is braked and cannot descend until the scraping plate 5 moves towards the waste chamber 3 again, and the reciprocating is performed, so that the pressing member 9 presses paper waste in the waste chamber 3 once while the scraping plate 5 pushes waste in the inclined conveying chamber 2.

As shown in fig. 1 to 5, as a preferred embodiment of the present invention, the ram 9 includes:

a top plate 901, the cross section of which is T-shaped, and which is fixedly connected to the ratchet bar 804, and the top plate 901 is connected to the output end of the first driving source; and

and a bottom plate 902 slidably mounted on the bottom of the top plate 901, wherein the top plate 901 and the bottom plate 902 are connected by a second elastic element 903.

In one aspect of this embodiment, the second elastic element 903 may be a spring as shown in fig. 5, and may also be replaced by another elastic element, such as a silica gel column, an elastic sheet, and the like, which is not limited in this embodiment.

In practical application of this embodiment, in an initial state, the distance between the top plate 901 and the bottom plate 902 is the largest; when the first driving source pre-drives the pressing member 9 to descend, the bottom plate 902 firstly contacts the waste in the waste chamber 3, then the pressing member 9 continues to descend to enable the second elastic member 903 to be extruded, the distance between the top plate 901 and the bottom plate 902 is reduced, the damage to the pressing member 9 caused by impact force generated when the pressing member 9 descends can be effectively reduced in the process, the shock absorption effect is achieved, and the waste in the waste chamber 3 can be fully extruded due to the twice pressurization of the top plate 901 and the bottom plate 902.

As shown in fig. 1 to 5, as a preferred embodiment of the present invention, the sticking members 10 are provided on the contact surfaces of the scraper 5 and the inner wall of the inclined transporting chamber 2 and on the contact surfaces of the bottom plate 902 and the inner wall of the waste chamber 3.

In one aspect of the present embodiment, the fastening member 10 may be a rubber pad, and may also be a telescopic claw elastically connected to the scraper 5 and the bottom plate 902, so as to effectively prevent waste paper from passing through the gaps between the scraper 5 and the inner wall of the inclined conveying chamber 2 and between the bottom plate 902 and the inner wall of the waste chamber 3, which is not limited herein.

As shown in fig. 1 to 6, as a preferred embodiment of the present invention, a conveying roller 11 for conveying the wastes is rotatably mounted on the inclined bottom plate of the inclined conveying chamber 2, and the conveying roller 11 is driven to rotate by a third driving source; the roller surface of the conveying roller 11 is made of a material which is not easy to adhere to the paper waste.

In one case of this embodiment, the inclined transport chamber 2 is provided at its bottom with a water tank 12 for wetting the roll surface of the transport rolls 11.

The third driving source may be a motor assembly, or a gear assembly or a belt pulley assembly driven by a motor, as long as the conveying roller 11 can rotate, and this embodiment is not specifically limited herein.

This embodiment is in the in-service use, conveying roller 11's setting can effectively promote the transport effect of plinth machine to paper waste, avoid paper waste to be detained in slope transport chamber 2, simultaneously, conveying roller 11's roll surface is rotatory when inside to water tank 12, the roll surface of conveying roller 11 can be stained with to water in the water tank 12, that is to say, the roll surface of conveying roller 11 is moist in the slope transport chamber 2, the paper waste with conveying roller 11's roll surface contact can be stained with water, the weight of paper waste has been increaseed, so set up and to avoid paper waste to fly upward the problem that leads to inconvenient collection effectively.

The working principle of the invention is as follows: the embodiment of the invention provides a book processing heat sealing machine with a waste material processing function, a driving assembly 6 drives a reciprocating assembly 7 to start, the reciprocating assembly 7 drives a scraper 5 to move on an inclined conveying chamber 2 towards a waste material chamber 3, paper waste materials remained in the inclined conveying chamber 2 are pushed into the waste material chamber 3, a braking assembly 8 is driven to brake a material pressing piece 9, a first driving source drives the material pressing piece 9 to ascend and descend, the paper waste materials entering the waste material chamber 3 can be subjected to material pressing treatment, and the problem that the collecting space in the waste material chamber 3 is wasted due to the hardness of the paper waste materials is effectively solved.

Although one embodiment of the present invention has been described in detail, the description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (8)

1. A hot-heading machine for book processing with waste disposal, comprising:

a cutting chamber (1), a waste chamber (3) and an inclined conveying chamber (2) connected between the cutting chamber and the waste chamber;

it is characterized by also comprising:

the scraping plate (5) is slidably arranged in the inclined conveying chamber (2) and driven by the reciprocating assembly (7) to slide in a reciprocating manner, and the scraping plate (5) is arranged in a manner of being attached to the inner wall of the inclined conveying chamber (2);

a drive assembly (6) for intermittently driving the reciprocating assembly (7);

the material pressing piece (9) is slidably arranged in the waste material chamber (3) and is driven by a first driving source to reciprocate; and

and when the scraper (5) slides towards the waste chamber (3), the scraper (5) drives the brake component (8) to release the brake on the material pressing piece (9), and the first driving source drives the material pressing piece (9) to ascend and descend.

2. A thermal jaw machine for book processing with waste disposal function according to claim 1, characterized in that said drive assembly (6) comprises:

the driving gear (601) is rotatably arranged on the inclined conveying chamber (2) and is driven to rotate by a second driving source, and a convex arc surface and a first tooth block are arranged at the edge of the driving gear (601);

the positioning column (602) is fixed at the joint of the convex cambered surface on the driving gear (601) and the first tooth block;

the driven gear (603) is rotatably mounted on the inclined conveying chamber (2), a second tooth block meshed with the first tooth block is arranged on the driven gear (603), a concave arc surface matched with the convex arc surface is arranged on the driven gear (603), and the driven gear (603) is linked with the reciprocating assembly (7); and

the push rod (604) is fixed on a central shaft of the driven gear (603), the positioning column (602) is arranged on a rotating path of the push rod (604), and the push rod (604) is arranged towards the circle center direction of the concave arc surface.

3. A thermal jaw machine for book processing with waste treatment function, according to claim 2, characterized in that said reciprocating assembly (7) comprises:

a half gear (701) coaxially and fixedly connected with the driven gear (603); and

the sliding frame (702) is installed on the inclined conveying chamber (2) in a sliding mode, saw-tooth convex blocks meshed with the half gear (701) are arranged on two sides of the inner wall of the sliding frame, and the sliding frame (702) is fixedly connected with the scraper (5).

4. A hot-heading machine for books with waste disposal function, according to claim 3, characterized by the fact that said braking assembly (8) comprises:

the assembling box (801) is in sliding fit with a sliding rail arranged on the waste chamber (3), and the end part, far away from the material pressing part (9), of the assembling box (801) is connected with the sliding rail through a first elastic part (805);

the first magnetic part (802) is arranged at the end part, close to the material pressing part (9), of the sliding frame (702);

the second magnetic piece (806) is arranged on the assembly box (801), and the second magnetic piece (806) and the first magnetic piece (802) are magnetically repelled;

a ratchet wheel (803) rotatably mounted in the assembly box (801); and

the ratchet bar (804) is fixed on the material pressing piece (9) and meshed with the ratchet wheel (803), and when the ratchet bar (804) is meshed with the ratchet wheel (803), the material pressing piece (9) cannot descend.

5. A hot-runner machine for book processing with waste disposal function, according to claim 4, characterized in that said presser (9) comprises:

the cross section of the top plate (901) is T-shaped, the top plate is fixedly connected with the ratchet bar (804), and the top plate (901) is connected with the output end of the first driving source; and

and the bottom plate (902) is slidably mounted at the bottom of the top plate (901), and the top plate (901) is connected with the bottom plate (902) through a second elastic element (903).

6. A thermal fastener for book processing with waste disposal function according to claim 5, characterized in that said scraper (5) is provided with a fastening element (10) on the contact surface with the inner wall of the inclined conveying chamber (2) and on the contact surface of the base plate (902) with the inner wall of the waste chamber (3).

7. A thermal fastener for book processing with waste disposal function according to claim 1, characterized in that a transport roller (11) for transporting waste is rotatably mounted on the inclined bottom plate of said inclined transport chamber (2), and the transport roller (11) is driven to rotate by a third driving source.

8. Hot-runner machine for book processing with waste disposal according to claim 7, characterized in that the inclined transport chamber (2) is provided at its bottom with a water tank (12) for moistening the roll surface of the transport rolls (11).

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