CN116834422A - Paper products processing apparatus for producing - Google Patents

Abstract

The application relates to the technical field of paper product processing, in particular to a paper product processing production device. The technical problems are as follows: the paper sheets in the paper core are in a vertical state, and the cutter transversely moves to drive the paper sheets at the cutting end of the honeycomb paper board to deviate, so that the cut surface of the cut honeycomb paper board is uneven. The technical proposal is as follows: a paper product processing and producing device comprises a conveying belt, bonding equipment, a workbench and the like; an adhesive device is arranged behind the conveyor belt; a workbench is arranged behind the bonding equipment. When cutting, the paired paper cutters or material cutters can be changed into a staggered state from a state of being overlapped together, and when in crossing, the two paper cutters or material cutters can cut off the paper core.

Description

Paper products processing apparatus for producing

Technical Field

The application relates to the technical field of paper product processing, in particular to a paper product processing production device.

Background

When the honeycomb paperboard is processed, the paper core is stretched towards two sides, then the paper core is adhered with the upper and lower layers of paper, and then the two sides and the head of the paperboard are cut;

the current cutting mode is to cut the honeycomb paperboard by transversely moving the cutter, and the paper sheets in the paper core are in a vertical state, so that the cutter can drive the paper sheets at the cutting position of the honeycomb paperboard to deviate in the transverse moving process of the cutter, and the cut surface of the cut honeycomb paperboard is uneven; in addition, when in cutting, the cutting position cannot be kept in a tight state, so that the cutter is very easy to drive paper sheets at the cutting end of the honeycomb paper board to deviate in the transverse moving process of the cutter;

after the two sides of the paper board are cut, the paper cores are honeycomb-shaped, so that the two sides of the paper board are sunken after the paper cores are cut, and workers can squeeze the upper layer or the lower layer of paper along the sunken parts when carrying and assembling.

Disclosure of Invention

In order to overcome the defect that paper sheets in paper cores are in a vertical state, and paper sheets at the cutting ends of honeycomb paper boards are offset due to the fact that a cutter moves transversely, the cut surfaces of the cut honeycomb paper boards are uneven, the application provides a paper product processing and producing device.

The technical proposal is as follows: a paper product processing and producing device comprises a conveying belt, bonding equipment and a workbench; an adhesive device is arranged behind the conveyor belt; a workbench is arranged behind the bonding equipment; the paper cutting machine also comprises a power assembly, a driving assembly, a paper cutting knife, a paper jam block, a separating assembly and a clamping system; the conveying belt is connected with a power assembly; the power assembly is connected with two driving assemblies which are symmetrically arranged left and right; the power assembly drives the two driving assemblies to move forwards and backwards and lift; the two driving components are respectively connected with two paper cutters; two paper cutters on the same driving component are symmetrically distributed and are clung together; each paper cutter is provided with a dry paper cutting area; each paper cutter is fixedly connected with a card paper block; the rear parts of the two driving components are respectively connected with a separating component for separating paper cores; the workbench is connected with a clamping system.

As an improvement of the scheme, the right driving component comprises an electric sliding rail and a sliding block; the right part of the connecting plate is detachably connected with an electric sliding rail; the electric sliding rail is connected with two sliding blocks in a sliding way; two sliders are fixedly connected with a paper cutter respectively.

As an improvement of the scheme, the right separating assembly comprises a second fixing block, a first spring, a first paper separating block and a first paper pressing block; the rear part of the electric sliding rail is fixedly connected with a second fixing block respectively; the second fixed block is fixedly connected with a plurality of first springs; the plurality of first springs are fixedly connected with a first paper dividing block; the left part of the first paper dividing block is rotationally connected with a first paper pressing block.

As an improvement of the scheme, the clamping system comprises a second guide rail, a second moving block, a discharging frame, a second spring, a second paper pressing block, a second push rod, a third fixed block, a third spring, a pressing plate, a cutting assembly and a feeding roller; two sides of the workbench are fixedly connected with a second guide rail respectively; the two second guide rails are respectively connected with a second moving block in a sliding way; the two second moving blocks are fixedly connected with a discharging frame together; four second springs are fixedly connected to the left part and the right part of the discharging frame respectively; two second springs which are arranged at the front and rear sides of the four second springs at the right part and are at the same side are fixedly connected with a second paper pressing block; two second springs at the front and rear sides of the four second springs at the left part are fixedly connected with another second paper pressing block; two second paper pressing blocks on the same side are distributed front and back, and a certain gap is formed in the middle; the left part and the right part of the discharging frame are fixedly connected with a plurality of second push rods respectively; a third fixed block is fixedly connected with a plurality of second push rods on the left side; the right side of the plurality of second push rods is fixedly connected with another third fixed block; the two third fixing blocks are connected with a blanking assembly together; the front part of the blanking component is connected with a plurality of third springs; the third spring is fixedly connected with a pressing plate; the rear part of the blanking component is connected with another pressing plate; the conveying roller for separating the paperboards is arranged at the rear part of the workbench, and the rotating speed of the conveying roller is faster than the moving speed of the paperboards.

As an improvement of the scheme, the blanking component comprises a fixing frame, a third push rod, a fourth fixing block, a fourth push rod, a blanking cutter and a paper cutting system; the two third fixing blocks are fixedly connected with a fixing frame together; the fixing frame is fixedly connected with at least three third push rods; the third push rod telescopic parts are fixedly connected with a fourth fixed block respectively; each fourth fixed block is fixedly connected with two fourth push rods with different telescopic directions; the front fourth push rod telescopic part is fixedly connected with a blanking cutter; the telescopic part of the fourth push rod at the rear part is fixedly connected with another blanking cutter; at least two third springs are fixedly connected to the front part of the fixing frame; the third spring is fixedly connected with a pressing plate; the rear part of the fixing frame is fixedly connected with another material pressing plate; the workbench is connected with a paper cutting system for wrapping paper of the upper and lower layers of the paper board.

As an improvement of the scheme, the paper cutting system comprises a second mounting frame, a first motor, a connecting rod, a circular cutter, a circular block, a glue outlet block, a paper pushing assembly, an anti-falling assembly and a filling assembly; two sides of the workbench are fixedly connected with a second mounting frame respectively; the upper part and the lower part of the two second mounting frames are respectively provided with a first motor; the four first motor output shafts are fixedly connected with a connecting rod respectively; the four connecting rods are fixedly connected with a circular cutter respectively, and the circular cutter above is closer to the middle of the workbench than the circular cutter below; two circular cutters at the lower part are fixedly connected with a circular block respectively; the two round cutters above are fixedly connected with a glue outlet block; the glue outlet block is provided with a plurality of glue outlet holes; the workbench is connected with a paper pushing assembly; the paper pushing component is positioned behind the paper cutting system; the workbench is connected with a filling assembly for filling the crushed paper into the concave area; the filling assembly is positioned between the paper pushing assembly and the second mounting frame; the workbench is connected with an anti-falling assembly; the anti-drop assembly is positioned behind the paper pushing assembly.

As an improvement of the scheme, the paper pushing assembly comprises a second paper dividing block, a first paper pushing block and a second paper pushing block; two sides of the workbench are detachably connected with second paper separating blocks respectively; the two second paper dividing blocks are fixedly connected with a first paper pushing block respectively; two sides of the workbench are fixedly connected with a second paper pushing block respectively; the second paper pushing block is positioned behind the first paper pushing block.

As an improvement of the scheme, the anti-falling assembly comprises a fifth fixed block, a telescopic rod, a fourth spring and a paper pushing wheel; a fifth fixed block is fixedly connected to two sides of the workbench respectively; the two fifth fixed blocks are fixedly connected with a telescopic rod respectively; the two telescopic rods are fixedly connected with a paper pushing wheel respectively; the front part of the paper pushing wheel is inclined downwards; the telescopic rod is sleeved with a fourth spring.

As an improvement of the scheme, the filling assembly comprises a sixth fixed block, a paper outlet machine and a glue outlet box; the two sides of the workbench are detachably connected with a sixth fixed block respectively; two sixth fixed blocks are respectively provided with a paper outlet, and the paper outlet is provided with a paper outlet; the front part of the sixth fixed block is provided with a first paper blocking block, and the rear part of the paper discharging machine is fixedly connected with a glue discharging box; the glue outlet box is provided with a plurality of glue outlets; the rear part of the glue outlet box is provided with a second paper blocking block.

As an improvement of the scheme, the glue outlet is in a backward inclined state.

The application has the following advantages: according to the paper cutting machine, the two sides of the paper core can be cut in advance, burrs are prevented from occurring on the two sides of the paper core, when the paper row is cut, the cutting position of the paper core is in a tight state through the two paper clamping blocks, and the cutter is prevented from driving paper sheets at the cutting position of the honeycomb paper board to deviate during cutting.

When cutting, the paired paper cutters or material cutters can be changed into a staggered state from a state of being overlapped together, and when in crossing, the two paper cutters or material cutters can cut off the paper core.

When the blanking knife is used for cutting, the upper layer paper is firstly cut in a horizontal state from top to bottom in a horizontal direction, then the paper core is cut in a vertical state from top to bottom in a longitudinal direction, the lower layer paper can be cut in a horizontal state cutting mode when the paper core is cut, the adaptation cutting can be carried out according to the bonding states of different layers of paper of the paper board, and burrs can be effectively avoided after the paper board is cut.

According to the application, the paper shreds are pushed into the concave parts on the two sides of the paper core of the paper board through the paper outlet machine, so that the concave areas are filled up, then the two sides of the paper board are wrapped, burrs on the two sides of the paper board can be effectively reduced, meanwhile, the two sides are wrapped up, the two sides are smoother when the paper board is assembled, the paper board can be assembled more conveniently, meanwhile, as the concave parts of the paper board are filled up, when a worker carries and assembles the paper board, the two sides of the paper board cannot be crushed due to the concave parts, and the quality of products can be greatly improved.

Drawings

FIG. 1 is a schematic diagram of a disclosed structure of a paper product processing and producing device of the present application;

FIG. 2 is a schematic illustration of the power assembly structure disclosed in the paper product manufacturing apparatus of the present application;

FIG. 3 is a schematic view of a portion of the structure of a power assembly disclosed in the paper product manufacturing apparatus of the present application;

FIG. 4 is a partial cross-sectional view of the drive assembly disclosed in the paper product manufacturing apparatus of the present application;

FIG. 5 is a partial cross-sectional view of a separator assembly disclosed in the paper product manufacturing apparatus of the present application;

FIG. 6 is a schematic diagram of a clamping system disclosed in the paper product processing and producing device of the present application;

FIG. 7 is a schematic view of a portion of a clamping system disclosed in the paper product manufacturing apparatus of the present application;

FIG. 8 is a cross-sectional view of a portion of the structure of a clamping system disclosed in the paper product manufacturing apparatus of the present application;

FIG. 9 is a partial cross-sectional view of a blanking assembly disclosed in the paper product manufacturing apparatus of the present application;

FIG. 10 is a schematic illustration of the packaging system disclosed in the paper product manufacturing apparatus of the present application;

FIG. 11 is a schematic view of a portion of the wrapping system disclosed in the paper product manufacturing apparatus of the present application;

FIG. 12 is a schematic view of a paper cutting system disclosed in the paper product manufacturing apparatus of the present application;

FIG. 13 is a schematic view of a paper pushing assembly disclosed in the paper product manufacturing apparatus of the present application;

FIG. 14 is a schematic illustration of the structure of a fill assembly disclosed in the paper product manufacturing apparatus of the present application;

FIG. 15 is a partial cross-sectional view of a filler assembly disclosed in the paper product manufacturing apparatus of the present application.

Reference numerals in the figures: 1-conveyer belt, 2-paper cutter, 3-card block, 4-bonding equipment, 5-workbench, 6-feeding roller, 101-first mounting rack, 102-first guide rail, 103-first moving block, 104-first fixed block, 105-first push rod, 106-connecting plate, 111-electric slide rail, 112-slide block, 121-second fixed block, 122-first spring, 123-first paper separating block, 124-first paper pressing block, 201-second guide rail, 202-second moving block, 203-discharging frame, 204-second spring, 205-second paper pressing block, 206-second push rod, 207-third fixed block, 208-third spring, 209-pressing plate, 211-fixing frame, 212-third push rod, 213-fourth fixing block, 214-fourth push rod, 215-blanking knife, 301-second fixing frame, 302-motor, 304-connecting rod, 305-circular cutter, 306-circular block, 308-glue outlet block, 311-second paper separating block, 312-first paper pushing block, 313-second paper pushing block, 321-fifth fixing block, 322-telescopic rod, 323-fourth spring, 324-paper pushing wheel, 401-sixth fixing block, 402-paper outlet machine, 403-glue outlet box, 2 a-paper cutting area, 308 a-glue outlet hole, 402 a-paper outlet, 402 b-first paper blocking block, 403 a-glue outlet and 403 b-second paper blocking block.

Detailed Description

The following describes the technical scheme with reference to specific embodiments, and it should be noted that: terms indicating orientations, such as up, down, left, right, etc., are used herein only with respect to the position of the illustrated structure in the corresponding drawings. The parts themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. The application is as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1

An apparatus for processing and producing paper products, example 1, as shown in fig. 1-5, comprises a conveyor belt 1, a bonding device 4 and a workbench 5; an adhesive device 4 is arranged behind the conveyor belt 1; a workbench 5 is arranged behind the bonding equipment 4;

the paper cutting machine also comprises a power assembly, a driving assembly, a paper cutting knife 2, a paper jam block 3, a separating assembly and a clamping system; the conveying belt 1 is connected with a power assembly; the power assembly is connected with two driving assemblies which are symmetrically arranged left and right; the power assembly drives the two driving assemblies to move forwards and backwards and lift; the two driving components are respectively connected with two paper cutters 2; the driving component is used for driving the paper cutter 2 to move in the front-back direction; the two paper cutters 2 on the same driving component are symmetrically distributed and are clung together; each paper cutter 2 is provided with a dry paper cutting area 2a; each paper cutter 2 is fixedly connected with a card paper block 3; the paperboard block 3 is made of silica gel and has elasticity; the rear parts of the two driving components are respectively connected with a separating component; the workbench 5 is connected with a clamping system.

The power assembly comprises a first mounting frame 101, a first guide rail 102, a first moving block 103, a first fixed block 104, a first push rod 105 and a connecting plate 106; the conveyor belt 1 is fixedly connected with a first mounting frame 101; the first mounting frame 101 is fixedly connected with two first guide rails 102; each of the two first guide rails 102 is slidably connected with a first moving block 103; two first moving blocks 103 are fixedly connected with a first fixed block 104 respectively; two first push rods 105 are fixedly connected to the two first fixing blocks 104 respectively; the telescopic parts of the four first push rods 105 are fixedly connected with a connecting plate 106.

The right driving component comprises an electric sliding rail 111 and a sliding block 112; an electric slide rail 111 is connected to the right part of the connecting plate 106 through bolts; the electric slide rail 111 is connected with two sliding blocks 112 in a sliding manner; two sliders 112 are each fixedly connected with a paper cutter 2.

The right separating assembly comprises a second fixing block 121, a first spring 122, a first paper separating block 123 and a first paper pressing block 124; the rear parts of the electric slide rails 111 are fixedly connected with second fixing blocks 121 respectively; the second fixing block 121 is fixedly connected with two first springs 122; the two first springs 122 are fixedly connected with a first paper dividing block 123; pushing the cut adhered paper to the outside through the first paper separation block 123; the left part of the first paper dividing block 123 is rotatably connected with a first paper pressing block 124; pressing the paper core by the first platen 124 can prevent the paper core from tilting at the time of separation.

The specific working steps are as follows:

the paper core stretching equipment is arranged in front of the conveying belt 1, when the paper core stretching equipment stretches the paper core, the paper core can be pushed to the conveying belt 1, so that the conveying belt 1 conveys the paper core, and when the paper core is conveyed to the lower part of the paper cutter 2 by the conveying belt 1, the two first push rods 105 are controlled to push the connecting plate 106 to drive the two driving assemblies and the paper cutter 2 to descend so as to cut paper boards; when the right driving assembly works, the connecting plate 106 drives the electric sliding rail 111 to descend firstly, the electric sliding rail 111 drives the sliding block 112 and the paper cutter 2 to descend the paper core concave position, paper sheets inside the paper core are located in the paper cutting area 2a, the paper cutter 2 descends to drive the paper jam block 3 to descend, the paper jam block 3 contacts with the paper core firstly in the descending process, after the paper jam block 3 is continuously descended, the paper jam block 3 is extruded to be opened at two sides, the paper core is pushed to two sides when the paper jam block 3 is opened, the paper core below the paper cutter 2 is in a tight state, and the paper core is in the tight state, so that the paper core is not deformed when being sheared; then left slider 112 drives left paper cutter 2 to move forward, and right slider 112 drives right paper cutter 2 to move backward, and two paper cutters 2 can be from the state that the coincidence is in the same place, become crisscross state, two paper cutters 2 can cut the refill when crossing, along with the intersection of two paper cutters 2, make the scraps of paper of refill cut, so not only can cut the scraps of paper in cutting paper district 2a, compare and cut off the refill with directly through the lateral shifting cutter at present, can prevent cutter lateral shifting in-process cutter can drive the scraps of paper skew of honeycomb cardboard cutting end, lead to the uneven problem of honeycomb cardboard cutting surface after the cutting, then first push rod 105 drives paper cutter 2 to rise to the normal position, slider 112 can also drive paper cutter 2 to come back to the normal position simultaneously.

It should be noted that, during the cutting process, the paper core is moving all the time, so when the paper cutter 2 descends, cuts and resets, the first guide rail 102 drives the first moving block 103 to drive the first fixing block 104 to drive the first mounting frame 101 to move backward along with the paper core synchronously, so as to prevent the paper cutter 2 from blocking the paper core, and when the paper cutter 2 moves back to the original position, the first guide rail 102 drives the first moving block 103 to move forward along with the paper cutter 2 to the original position.

When the electric slide rail 111 moves forward, the second fixing block 121 is driven to move forward with the first paper separating block 123, and at this time, the front part of the first paper separating block 123 pushes the paper core of the cut part outwards; whether the first paper separating block 123 ascends or descends, the first spring 122 is always in a compressed state, so that the first paper separating block 123 is always in contact with the conveying belt 1, the first paper separating block 123 can always separate paper cores, and meanwhile, the first paper pressing block 124 can press the paper cores in the separation position, so that the paper cores are prevented from being tilted in the separation process by the first paper separating block 123, and the paper cores are prevented from deforming; the conveyor belt 1 then moves with the cut cores into the bonding device 4, and the bonding device 4 bonds the upper and lower sheets with the cores, thereby obtaining a board.

Example 2

On the basis of the embodiment 1, as shown in fig. 6 to 9, the clamping system comprises a second guide rail 201, a second moving block 202, a discharging frame 203, a second spring 204, a second paper pressing block 205, a second push rod 206, a third fixed block 207, a third spring 208, a pressing plate 209, a cutting assembly and a feeding roller 6; two sides of the workbench 5 are fixedly connected with a second guide rail 201 respectively; two second guide rails 201 are slidably connected with a second moving block 202 respectively; the two second moving blocks 202 are fixedly connected with a discharging frame 203; four second springs 204 are fixedly connected to the left part and the right part of the discharging frame 203 respectively; two second springs 204 with the same front and rear sides of the four second springs 204 at the right part are fixedly connected with a second paper pressing block 205; two second springs 204 with the same front and rear sides of the four second springs 204 at the left part are fixedly connected with another second paper pressing block 205; the two second paper pressing blocks 205 on the same side are distributed in the front-back direction, a certain gap is formed in the middle of the second paper pressing blocks, and the gap is a cutting place; two second push rods 206 are fixedly connected to the left part and the right part of the discharging frame 203 respectively; the left two second push rods 206 are fixedly connected with a third fixed block 207; the two second push rods 206 on the right side are fixedly connected with another third fixing block 207; the two third fixing blocks 207 are commonly connected with a blanking component; the front part of the blanking assembly is connected with three third springs 208; the three third springs 208 are fixedly connected with a material pressing plate 209; the rear part of the blanking component is connected with another material pressing plate 209; the paperboards are clamped by descending the pressing plate 209, so that the paperboards are prevented from shifting during cutting, meanwhile, the pressing plate 209 can downwards extrude the second paper pressing block 205 to clamp the upper and lower layers of paper with excessive two sides, and therefore the condition that the excessive paper is in a tight state during cutting the paperboards is ensured, and cutting is facilitated; the material conveying roller 6 is installed at the rear of the workbench 5, the rotating speed of the material conveying roller 6 is faster than the moving speed of the paper board, when the paper board enters the material conveying roller 6, the moving speed of the cut paper board can be accelerated by the material conveying roller 6, and therefore the cut paper board and the paper board which is not cut are separated, and adhesion caused by the fact that the paper board is not cut is prevented.

The blanking component comprises a fixing frame 211, a third push rod 212, a fourth fixing block 213, a fourth push rod 214, a blanking cutter 215 and a paper cutting system; the two third fixing blocks 207 are fixedly connected with a fixing frame 211; the fixing frame 211 is fixedly connected with three third push rods 212; a fourth fixed block 213 is fixedly connected to the telescopic part of each third push rod 212; each fourth fixing block 213 is fixedly connected with two fourth push rods 214 with different telescopic parts facing different directions, the telescopic parts of the front three fourth push rods 214 face to the right, and the telescopic parts of the rear three fourth push rods 214 face to the left; the telescopic part of the front fourth push rod 214 is fixedly connected with a blanking cutter 215; the telescopic parts of the rear fourth push rods 214 are fixedly connected with another blanking cutter 215, and the two blanking cutters 215 are respectively pushed to move left and right by the fourth push rods 214 with different sides; three third springs 208 are fixedly connected to the front part of the fixing frame 211; the three third springs 208 are fixedly connected with a material pressing plate 209; the rear part of the fixing frame 211 is fixedly connected with another material pressing plate 209; the third fixing block 207 is pushed to ascend by the second push rod 206, so that the third fixing block 207 drives the fixing frame 211 to ascend, and accordingly drives the two pressing plates 209 to ascend, the third spring 208 can press the front pressing plate 209 to descend, and after the rear pressing plate 209 ascends, the front pressing plate 209 can clamp the paper board of the uncut part; the table 5 is connected with a paper cutting system for wrapping paper in the upper and lower layers of the paper board.

The specific working steps are as follows:

since the paper core is already cut before bonding, the paper of the upper and lower layers is wider in the left-right direction than the paper core during bonding, which results in a part of the paper of the upper and lower layers being more on both sides; when the bonded paper board is sent out by the bonding equipment 4 and then moves to the discharging frame 203, when the bonded paper board moves to the discharging frame 203, the part of the paper with the excessive paper on both sides of the upper paper layer of the paper board moves upwards from the second paper pressing block 205, and the part of the paper with the excessive paper on both sides of the lower paper layer of the paper board moves downwards from the second paper pressing block 205; when the paper board moves to a place where cutting is required, the second push rod 206 pushes the third fixing block 207 to descend, the third fixing block 207 descends to drive the fixing frame 211 to descend, the fixing frame 211 descends to drive the blanking plate 209 to descend to press the paper board, meanwhile, the second guide rail 201 drives the second moving block 202 to drive the discharging frame 203 to synchronously move backwards with the paper board, the discharging frame 203 drives the second push rod 206 to move backwards, the rear part of the discharging frame 203 supports the paper board to ensure that the paper board is in a horizontal state, meanwhile, the fixing frame 211 is controlled to descend to drive the third push rod 212 to descend, the third push rod 212 drives the fourth fixing block 213 to descend to drive the fourth push rod 214 to descend together, the blanking plate 215 descends to enable the lower part of the blanking plate 215 to contact with upper paper of the paper board, the second paper pressing block 205 is pressed to clamp upper paper of the paper board, the second paper pressing block 205 is pressed to descend, the second paper pressing block 205 is pressed to clamp the lower paper pressing surface of the second paper pressing block 205 and the lower paper pressing frame 205 is pressed to clamp the paper pressing surface of the paper board 203 to the two sides of the paper board, and the paper pressing frame 203 is pressed down to clamp the paper of the paper board.

After the upper and lower papers of the paper board and the two sides of the paper board are clamped, then the third push rod 212 pushes the fourth fixed block 213 to drive the fourth push rod 214 to descend, so as to drive the cutter 215 which are overlapped together to descend, the upper papers are cut down in the descending process of the two cutter 215 which are overlapped together, when the lower part of the cutter 215 cuts the lower papers of the paper board, the lower papers stop descending, at this time, a space such as a paper cutting area 2a is formed between the two cutters 215, paper sheets of the paper cores can be positioned in the paper cutting area 2a, then the fourth push rod 214 pushes the cutter 215 at the front and back to the right and left directions respectively, as shown in the state of fig. 9, the cutter 215 cuts the paper cores in the paper boards in a shearing mode, the lower parts of the cutter 215 cut open the lower papers of the paper boards when the cutter 215 moves, the upper parts of the paper boards are cut down, then the third push rod 212 drives the cutter 215 to drive the cutter 215 to cut the paper cores in the state of the paper cores in the right and the paper cores in the normal position, and the paper cores can be cut down in the same time, and the paper cores can be cut in the state when the paper cores are cut.

After cutting the paper board, controlling the second guide rail 201 to drive the second moving block 202 to drive the discharging frame 203 to move backwards for a certain distance, simultaneously, the second push rod 206 pushes the third fixed block 207 to lift to the original position, the third fixed block 207 lifts to drive the fixing frame 211 to lift together, so as to drive the material pressing plate 209 to lift, after lifting, the rear material pressing plate 209 leaves the upper surface of the paper board, the front material pressing plate 209 is pressed downwards by the third spring 208, so that the paper board of the uncut part is clamped, at the moment, the paper board is pushed into the feeding roller 6, the feeding roller 6 pushes the cut paper board to move backwards fast through clockwise rotation from the right-to-left view angle, the cut paper board moves fast, the cut paper board is separated from the cut paper board, and the cut paper board is prevented from influencing the subsequent operation of the cut paper board; the second push rod 206 then continues to push the third fixing block 207 upward, so that the front pressing plate 209 leaves the uncut cardboard; and then the second guide rail 201 drives the second moving block 202 to drive the discharging frame 203 to move forward to return to the original position for preparing for the next cutting.

Example 3

On the basis of the embodiment 2, as shown in fig. 10 to 15, the paper cutting system comprises a second mounting frame 301, a first motor 302, a connecting rod 304, a circular cutter 305, a circular block 306, a glue outlet block 308, a paper pushing component, an anti-falling component and a filling component; two sides of the workbench 5 are respectively connected with a second mounting rack 301 through bolts; the upper and lower parts of the two second mounting frames 301 are respectively provided with a first motor 302; the output shafts of the four first motors 302 are fixedly connected with a connecting rod 304 respectively; the four connecting rods 304 are fixedly connected with a circular cutter 305 respectively, and the upper circular cutter 305 is closer to the middle of the workbench 5 than the lower circular cutter 305, so that when cutting paper, the lower paper is longer than the upper paper, and the lower paper is more convenient to wrap; the lower two circular cutters 305 are fixedly connected with a circular block 306 respectively; the two circular cutters 305 above are fixedly connected with a glue outlet block 308; the glue outlet block 308 is provided with a plurality of glue outlet holes 308a; gluing the upper surface of the upper layer paper through the glue outlet 308a; the workbench 5 is connected with a paper pushing component; the paper pushing assembly firstly downwards rotates the upper paper to wrap the side surface of the paperboard, and then upwards rotates the lower paper to wrap the upper paper; the paper pushing component is positioned behind the paper cutting system; the workbench 5 is connected with a filling assembly; the filling assembly is located between the paper pushing assembly and the second mounting frame 301; the workbench 5 is connected with an anti-falling component; the anti-drop assembly is positioned behind the paper pushing assembly.

The paper pushing assembly comprises a second paper separating block 311, a first paper pushing block 312 and a second paper pushing block 313; two sides of the workbench 5 are respectively connected with a second paper separating block 311 through bolts; two second paper separating blocks 311 are fixedly connected with a first paper pushing block 312 respectively; two sides of the workbench 5 are fixedly connected with a second paper pushing block 313 respectively; the second paper pushing block 313 is positioned behind the first paper pushing block 312; the first paper pushing block 312 and the second paper pushing block 313 push and rotate the upper layer paper and the lower layer paper respectively to wrap the two sides of the paper board, so that the wrapping effect is achieved.

The anti-drop assembly comprises a fifth fixed block 321, a telescopic rod 322, a fourth spring 323 and a paper pushing wheel 324; a fifth fixed block 321 is fixedly connected to each side of the workbench 5; the two fifth fixing blocks 321 are fixedly connected with a telescopic rod 322 respectively; two telescopic rods 322 are fixedly connected with a paper pushing wheel 324 respectively; the front part of the paper pushing wheel 324 is inclined downwards, when the paper pushing wheel 324 is pushed by the paper board, the lower paper of the paper board can be pushed upwards by the reaction, so that the lower paper is more attached to the upper paper; the telescopic rod 322 is sleeved with a fourth spring 323.

The filling assembly comprises a sixth fixed block 401, a paper outlet machine 402 and a glue outlet box 403; a sixth fixing block 401 is connected to each of the two sides of the workbench 5 through bolts; two sixth fixing blocks 401 are respectively provided with a paper outlet 402, and the paper outlet 402 is provided with a paper outlet 402a; the crushed paper is filled in the concave part of the paper core through the paper outlet 402a; the front part of the sixth fixed block 401 is provided with a first paper blocking block 402b, and the rear part of the paper outlet machine 402 is fixedly connected with a glue outlet box 403; the glue outlet box 403 is provided with a plurality of glue outlets 403a, and the glue outlets 403a are in a backward inclined state, so that the situation that broken paper enters the glue outlets 403a to cause blockage can be effectively prevented; a second paper blocking block 403b is arranged at the rear part of the glue outlet box 403.

The specific working steps are as follows:

when the paper board moves to the front of the second mounting frame 301, the motor 302 is started to drive the connecting rod 304 to rotate clockwise from the front to the back, so as to drive the circular cutters 305 to rotate, when the paper on the upper and lower layers of the paper board moves to the positions of the two circular cutters 305, the paper on the upper layer of the paper board enters between the two circular cutters 305, and the paper on the lower layer of the paper board moves between the lower circular cutter 305 and the workbench 5, the two circular cutters 305 rotate to cut the paper of the upper and lower layers, after the paper of the upper and lower layers is cut, the paper of the upper layer of the paper board is consistent with the height of the paper board, and the lower circular cutter 305 is farther away from the paper board than the upper circular cutter 305, so the paper of the lower layer of the paper board after cutting is longer than the paper of the upper layer of the paper board; the circular block 306 can support the upper layer paper during cutting, when the upper circular cutter 305 cuts, the situation that the upper layer paper with a plurality of parts is not supported to cause poor cutting can be prevented, and the lower layer paper with a plurality of parts can be contacted with the workbench 5, so that the lower layer paper with a plurality of parts is conveniently cut during cutting, and the glue outlet block 308 can flow out glue from the glue outlet hole 308a when the upper layer paper with a plurality of parts is cut, so that the glue is smeared on the upper surface of the upper layer paper with a plurality of parts, and meanwhile, the circular cutter 305 can drive the glue outlet block 308 to rotate, so that the glue can be smeared uniformly during gluing.

When the paper board moves to the paper outlet machine 402, the middle paper core of the paper board is contacted with the paper outlet machine 402, because the paper core is honeycomb-shaped, the paper core is formed into concave areas on two sides of the cut paper core, when the concave parts on two sides of the paper core of the paper board move to the paper outlet machine 402, the paper outlet 402a can send out crushed paper, the crushed paper is pushed into the concave parts on two sides of the paper core of the paper board, so that the concave areas are filled, when the crushed paper is filled in the middle of two adjacent concave areas, the crushed paper possibly flows out of the concave areas of the paper board through the concave areas in front, so that the first paper blocking block 402b can block the two concave areas in front to prevent the crushed paper from flowing out, when the filled crushed paper is moved to the glue outlet box 403, the glue outlet 403a of the glue outlet box 403 can be solidified together, the extrusion resistance is increased, and when the crushed paper enters the glue outlet 403a, the crushed paper is prevented from flowing out of the second paper blocking block 403b when the crushed paper enters the glue outlet 403a, and the second paper blocking block is completely extruded out of the glue outlet box;

when the upper layer paper is moved to the front first paper pushing block 312, the upper layer paper is pressed downwards by the first paper pushing block 312, so that the upper layer paper wraps the paper board, and when the lower layer paper is moved to the second paper pushing block 313, the lower layer paper is rotated upwards according to the shape of the first paper pushing block 312, and the upper layer paper is wrapped; when the paper is moved to the paper pushing wheel 324, the fourth spring 323 can push the paper pushing wheel 324, so that the paper pushing wheel 324 extrudes the wrapped lower layer paper, the close fit of two layers of the paper with a plurality of parts is ensured, meanwhile, the paper board moves backwards, when the paper board moves to the paper pushing wheel 324, the paper pushing wheel 324 is driven to rotate, and when the paper pushing wheel 324 rotates, the front part of the paper pushing wheel 324 rotates upwards and pushes the wrapped lower layer paper upwards, so that the paper with the plurality of parts of the lower layer is prevented from sagging downwards; the cardboard is then pushed into the feed roll 6.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present application, and although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present application.

Claims (10)

1. A paper product processing and producing device comprises a conveying belt (1), bonding equipment (4) and a workbench (5); an adhesive device (4) is arranged behind the conveyer belt (1); a workbench (5) is arranged behind the bonding equipment (4); the paper cutting machine is characterized by further comprising a power assembly, a driving assembly, a paper cutting knife (2), a paper jam block (3), a separation assembly and a material clamping system; the conveying belt (1) is connected with a power assembly; the power assembly is connected with two driving assemblies which are symmetrically arranged left and right; the power assembly drives the two driving assemblies to move forwards and backwards and lift; the two driving components are respectively connected with two paper cutters (2); two paper cutters (2) on the same driving component are symmetrically distributed and are clung together; each paper cutter (2) is provided with a dry paper cutting area (2 a); each paper cutter (2) is fixedly connected with a card paper block (3); the rear parts of the two driving components are respectively connected with a separating component for separating paper cores; the workbench (5) is connected with a clamping system.

2. A paper product processing and manufacturing apparatus as claimed in claim 1, wherein the right drive assembly comprises an electrically powered slide rail (111) and a slider (112); an electric slide rail (111) is detachably connected to the right part of the connecting plate (106); the electric slide rail (111) is connected with two slide blocks (112) in a sliding way; two sliders (112) are fixedly connected with a paper cutter (2) respectively.

3. A paper product manufacturing apparatus as claimed in claim 2, characterized in that the right-hand separating assembly comprises a second fixed block (121), a first spring (122), a first separating block (123) and a first pressing block (124); the rear parts of the electric slide rails (111) are respectively fixedly connected with a second fixed block (121); the second fixed block (121) is fixedly connected with a plurality of first springs (122); the plurality of first springs (122) are fixedly connected with a first paper dividing block (123) together; the left part of the first paper dividing block (123) is rotatably connected with a first paper pressing block (124).

4. A paper product processing and manufacturing apparatus according to claim 3, characterized in that the clamping system comprises a second guide rail (201), a second moving block (202), a discharging frame (203), a second spring (204), a second paper pressing block (205), a second push rod (206), a third fixed block (207), a third spring (208), a pressing plate (209), a blanking assembly and a feeding roller (6); two sides of the workbench (5) are fixedly connected with a second guide rail (201) respectively; the two second guide rails (201) are respectively connected with a second moving block (202) in a sliding way; the two second moving blocks (202) are fixedly connected with a discharging frame (203) together; four second springs (204) are fixedly connected to the left part and the right part of the discharging frame (203) respectively; two second springs (204) which are arranged on the same side at the front and rear sides of the four second springs (204) at the right part are fixedly connected with a second paper pressing block (205) together; two second springs (204) which are arranged on the same side at the front and back of the left four second springs (204) are fixedly connected with another second paper pressing block (205) together; two second paper pressing blocks (205) on the same side are distributed front and back, and a certain gap is formed in the middle; a plurality of second push rods (206) are fixedly connected to the left part and the right part of the discharging frame (203) respectively; a third fixed block (207) is fixedly connected with a plurality of second push rods (206) on the left side; the right side of the plurality of second push rods (206) is fixedly connected with another third fixed block (207) together; the two third fixing blocks (207) are connected with a blanking assembly together; the front part of the blanking component is connected with a plurality of third springs (208); the third spring (208) is fixedly connected with a material pressing plate (209); the rear part of the blanking component is connected with another material pressing plate (209); the rear part of the workbench (5) is provided with a feeding roller (6) for separating the paperboards, and the rotation speed of the feeding roller (6) is faster than the moving speed of the paperboards.

5. The paper product processing and manufacturing device of claim 4, wherein the blanking assembly comprises a fixing frame (211), a third push rod (212), a fourth fixing block (213), a fourth push rod (214), a blanking knife (215) and a paper cutting system; the two third fixing blocks (207) are fixedly connected with a fixing frame (211) together; the fixing frame (211) is fixedly connected with at least three third push rods (212); a fourth fixed block (213) is fixedly connected to the telescopic parts of the third push rod (212); each fourth fixed block (213) is fixedly connected with two fourth push rods (214) with different expansion directions; a cutter (215) is fixedly connected with the telescopic part of the fourth push rod (214) in front; the telescopic part of the rear fourth push rod (214) is fixedly connected with another blanking knife (215) together; at least two third springs (208) are fixedly connected to the front part of the fixing frame (211); the third spring (208) is fixedly connected with a material pressing plate (209); the rear part of the fixing frame (211) is fixedly connected with another material pressing plate (209); the workbench (5) is connected with a paper cutting system for wrapping paper of the upper and lower layers of the paper board.

6. The paper product processing and manufacturing device according to claim 5, wherein the paper cutting system comprises a second mounting frame (301), a first motor (302), a connecting rod (304), a circular cutter (305), a circular block (306), a glue outlet block (308), a paper pushing component, an anti-falling component and a filling component; two sides of the workbench (5) are fixedly connected with a second mounting frame (301) respectively; the upper part and the lower part of the two second mounting frames (301) are respectively provided with a first motor (302); the output shafts of the four first motors (302) are fixedly connected with a connecting rod (304) respectively; the four connecting rods (304) are fixedly connected with a circular cutter (305) respectively, and the upper circular cutter (305) is closer to the middle of the workbench (5) than the lower circular cutter (305); two circular cutters (305) at the lower part are fixedly connected with a circular block (306) respectively; the two circular cutters (305) above are fixedly connected with glue outlet blocks (308); the glue outlet block (308) is provided with a plurality of glue outlet holes (308 a); the workbench (5) is connected with a paper pushing component; the paper pushing component is positioned behind the paper cutting system; the workbench (5) is connected with a filling component for filling the crushed paper into the concave area; the filling assembly is positioned between the paper pushing assembly and the second mounting frame (301); the workbench (5) is connected with an anti-falling component; the anti-drop assembly is positioned behind the paper pushing assembly.

7. A paper product processing and manufacturing apparatus as set forth in claim 6 wherein the paper pushing assembly comprises a second paper separating block (311), a first paper pushing block (312) and a second paper pushing block (313); two sides of the workbench (5) are detachably connected with second paper separating blocks (311); the two second paper separating blocks (311) are fixedly connected with a first paper pushing block (312) respectively; two sides of the workbench (5) are fixedly connected with a second paper pushing block (313) respectively; the second paper pushing block (313) is positioned behind the first paper pushing block (312).

8. The paper product processing and producing device according to claim 7, wherein the anti-falling assembly comprises a fifth fixed block (321), a telescopic rod (322), a fourth spring (323) and a paper pushing wheel (324); a fifth fixed block (321) is fixedly connected to two sides of the workbench (5); the two fifth fixing blocks (321) are fixedly connected with a telescopic rod (322) respectively; the two telescopic rods (322) are fixedly connected with a paper pushing wheel (324) respectively; the front part of the paper pushing wheel (324) is inclined downwards; a fourth spring (323) is sleeved outside the telescopic rod (322).

9. A paper product manufacturing apparatus as claimed in claim 8, wherein the filling assembly comprises a sixth fixed block (401), a paper dispenser (402), and a glue dispenser (403); a sixth fixed block (401) is detachably connected to two sides of the workbench (5); two sixth fixed blocks (401) are respectively provided with a paper outlet machine (402), and the paper outlet machine (402) is provided with a paper outlet (402 a); the front part of the sixth fixed block (401) is provided with a first paper blocking block (402 b), and the rear part of the paper outlet machine (402) is fixedly connected with a glue outlet box (403); the glue outlet box (403) is provided with a plurality of glue outlets (403 a); the rear part of the glue outlet box (403) is provided with a second paper blocking block (403 b).

10. A paper product processing and manufacturing apparatus as claimed in claim 9, characterized in that the glue outlet (403 a) is inclined rearwardly.