CN110040553B - Paging device - Google Patents

Abstract

The invention discloses a paging device which comprises a frame, a positioning roller, a distance adjusting mechanism, a moving roller, a main conveying belt, a first diversion belt, a first clamping belt, a second clamping belt, a third clamping belt, a driving roller, a swinging mechanism, a diversion roller and a control system, wherein the positioning roller, the conveying roller, the moving roller, the driving roller, the diversion roller and the guiding roller are all rotatably arranged on the frame, the position of the second clamping belt is adjusted through a first driving component, a moving block and the moving roller, and the control system is electrically connected with the positioning roller, the first driving component and the second driving component and controls the transmission of the main conveying belt, the first clamping belt and the second clamping belt; the paper stack is alternately split under the action of a main conveying belt, a first guide belt, a second guide belt, a first clamping and conveying belt, a second clamping and conveying belt, a third clamping and conveying belt and a control system, and is further conveyed to different glue brushing stations; the invention has reasonable and compact structure, stable and reliable operation and improved production efficiency.

Description

Paging device

Technical Field

The present invention relates to a printing bookbinding apparatus, and more particularly, to a sorting apparatus for sorting a stack of sheets.

Background

In the printing and binding process, printed paper stacks are bound into books by brushing glue, and the printing speed of front-end pages is high, the subsequent binding process by brushing glue is slow, and the prior equipment only has one station for brushing glue, so that the subsequent binding process can not fully digest the front-end printed matter, the whole production line can not exert the maximum productivity, and the production efficiency is reduced. Therefore, a paging device is needed to be designed to shunt the front-end printed matter, distribute the paper stack to a plurality of brushing stations for brushing, and solve the problem that the back-end brushing binding process and the front-end printing process in the existing device are partially matched.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the paging equipment, so that printed matters conveyed from the front end can be fully digested in the subsequent binding process, and the problem of limited productivity of the prior equipment is solved.

In order to achieve the above object, the present invention adopts a technical scheme that a paging device includes:

A frame;

the positioning rollers are at least two and are respectively a first positioning roller and a second positioning roller, and the first positioning roller and the second positioning roller are both rotatably arranged on the frame;

The distance adjusting mechanism comprises a first driving component and a moving block, wherein the driving component is arranged on the frame, the moving block is movably connected with the frame, and the moving block is in driving connection with the first driving component;

the first moving rollers and the second moving rollers are fixedly arranged on the moving block;

The first clamping belt is wound on the first positioning roller, the second positioning roller, the conveying roller, the first moving roller and the second moving roller, and the first clamping belt is in transmission connection with the first positioning roller, the second positioning roller, the conveying roller, the first moving roller and the second moving roller;

A second pinch belt cooperating with the first pinch belt;

A third pinch belt in operative engagement with the second pinch belt and in cooperation with the first pinch belt, the third pinch belt partially encircling the second positioning roller;

A main conveyor belt;

The swinging mechanism comprises a second driving assembly and a swinging roller, the second driving assembly is in driving connection with the swinging roller, a first guide belt is wound on the swinging roller and is in transmission connection with the swinging roller, the swinging roller is positioned above the main conveying belt, and the first guide belt is matched with the main conveying belt;

the guide rollers are rotatably arranged on the frame, at least two guide rollers are respectively a first guide roller and a second guide roller, second guide belts are wound on the first guide roller and the second guide roller, and the second guide belts are matched with the main conveying belt; and

And the control system is electrically connected with the positioning roller, the first driving assembly and the second driving assembly and controls the transmission of the main conveying belt, the first clamping belt and the second clamping belt.

In an embodiment of the present invention, the first driving assembly includes a first cylinder, a first swing rod and a pull rod, the first cylinder is rotationally connected with the first swing rod, the first cylinder is fixedly arranged on the frame, and the first swing rod is rotationally arranged on the frame; one end of the pull rod is rotationally connected with the first swing rod, and the other end of the pull rod is hinged with the moving block.

In an embodiment of the present invention, a paper supporting plate is disposed on the moving block, and is fixedly connected to an end of the moving block, which is far away from the pull rod, and extends to the main conveying belt; and the paper supporting plate is provided with an empty avoiding groove, and the first clamping and conveying belt passes through the empty avoiding groove.

In an embodiment of the invention, the second driving assembly includes a second cylinder and a second swing rod, the second cylinder is rotationally connected with the second swing rod, the second cylinder is fixedly arranged on the frame, and the second swing rod is rotationally arranged on the frame.

In an embodiment of the present invention, the swing roller includes a first swing roller and a second swing roller, the first swing roller is rotatably connected with the frame, and the second swing roller is rotatably connected with the second swing lever; the first diversion belt is wound on the first swing roller and the second swing roller, and the first diversion belt is in transmission connection with the first swing roller and the second swing roller.

In an embodiment of the present invention, the third pinch belt is looped around at least three rollers, which are a first guide roller, a second guide roller and a third guide roller, the second guide roller is suspended above the second positioning roller, the first guide roller and the second guide roller are respectively located at two sides of the second positioning roller, and a portion of the third pinch belt located between the first guide roller and the third guide roller is looped around the second positioning roller and is in transmission fit with the first pinch belt.

In an embodiment of the present invention, the apparatus further includes a driving roller rotatably disposed on the frame, the main conveyor belt is wound around the surface of the driving roller, and the swing roller is located above the driving roller.

In an embodiment of the present invention, the horizontal height of the second moving roller is located between the first positioning roller and the first moving roller, and the first pinch belt sequentially bypasses the first moving roller, the second moving roller and the first positioning roller; the first moving roller and the second moving roller are opposite in steering, and the first moving roller and the first positioning roller are identical in steering.

In an embodiment of the present invention, a sliding rail is disposed on the rack, and the moving block is slidably connected with the sliding rail.

In an embodiment of the present invention, tensioning mechanisms are respectively disposed on the main conveyor belt, the first guide belt, the first pinch belt, and the third pinch belt.

The technical scheme has the following beneficial effects:

The adjustment to the second clamp belt position is realized through first drive assembly, movable block and movable roller, and when swing mechanism's pendulum roller pendulum was away from main conveyer belt, the paper stack on the main conveyer belt can be shifted to between first clamp belt and the second clamp belt through the movable block smoothly, and the cooperation of rethread third clamp belt and first clamp belt conveys the paper stack to the brush gluey station that is located second positioning roller department. When the swing roller of the swing mechanism presses the main conveying belt, the paper stack is conveyed to the other glue brushing station along the main conveying belt under the action of the first guide belt and the second guide belt. The paper stack is alternately split under the action of the main conveying belt, the first guide belt, the second guide belt, the first clamping and conveying belt, the second clamping and conveying belt, the third clamping and conveying belt and the control system, and the paper stack is further conveyed to different glue brushing stations for corresponding post-treatment.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a top view of an embodiment of the present invention;

FIG. 3 is a side view of an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a glue brushing station according to an embodiment of the invention.

Reference numerals illustrate: the machine frame 100, the first pinch belt 201, the second pinch belt 202, the conveying roller 71, the pinch roller 72, the lower press roller 721, the guide roller 720, the first tension roller 51, the first positioning roller 81, the second positioning roller 82, the moving block 9, the paper supporting plate 90, the first moving roller 91, the second moving roller 92, the sliding rail 93, the empty slot 901, the first cylinder 31, the pull rod 33, the first outer swing link 321, and the first inner swing link 322; the third pinch belt 203, the first guide roller 731, the second guide roller 732, and the third guide roller 733; the first guide belt 101, the second guide belt 102, the main conveying belt 111, the driving roller 1, the first swinging roller 11, the second swinging roller 12, the second outer swinging rod 41, the second inner swinging rod 42, the second air cylinder 32, the swinging rod rotating shaft 4, the first guide roller 61, the second guide roller 62, the first glue brushing station 1a and the second glue brushing station 2a.

Detailed Description

The invention is further described below with reference to the examples and figures 1 to 4.

A sorting apparatus includes a frame 100, a registration roller, a distance adjusting mechanism, a moving roller, a main conveyor belt 111, a first guide belt 101, a first pinch belt 201, a second pinch belt 202, a third pinch belt 203, a drive roller 11, a swinging mechanism, a guide roller, and a control system. The control system is electrically connected with the positioning roller, the first driving assembly and the second driving assembly, and controls the transmission of the main conveyor belt 111, the first pinch belt 201 and the second pinch belt 202 through the control system.

At least two positioning rollers, in this embodiment, a first positioning roller 81 and a second positioning roller 82, where the first positioning roller and the second positioning roller 82 are both rotatably disposed on the frame 100; the plurality of conveying rollers 71 are rotatably disposed on the frame 100. The first pinch belt 201 is wound around the first positioning roller and the second positioning roller 82, and the conveying distance of the first pinch belt 201 is further changed by the moving roller. A second pinch belt 202 is arranged above the first pinch belt 201, and the first pinch belt 201 is in transmission fit with the second pinch belt 202 and is used for conveying paper stacks. The third pinch belt 203 is located at the transfer end of the second pinch belt 202 and is in operative engagement with the second pinch belt 202. The third pinch belt 203 is wound around at least three rollers, namely a first guide roller 731, a second guide roller 732 and a third guide roller 733, the second guide roller 732 is suspended above the second positioning roller 82, the first guide roller 731 and the third guide roller 733 are respectively located at two sides of the second positioning roller 82, and a part of the third pinch belt 203 located between the first guide roller 731 and the third guide roller 733 is wound around the second positioning roller 82 and is in transmission fit with the first pinch belt 201.

In this embodiment, there are two moving rollers, namely, the first moving roller 91 and the second moving roller 92, and in other embodiments, more than two moving rollers may be selected. The distance adjusting mechanism comprises a first driving assembly and a moving block 9, wherein the driving assembly is arranged on a frame 100, a sliding block is arranged on the moving block 9, a sliding rail 93 is arranged on the frame 100, and the moving block 9 is connected with the frame 100 in a sliding manner through the sliding block. The moving block 9 is in driving connection with a first driving assembly, and the first moving roller 91 and the second moving roller 92 are fixedly arranged on the moving block 9. Thus, the first pinch belt 201 is looped around and in driving connection with the first positioning roller 81, the second positioning roller 82, the conveying roller 71, the first moving roller 91 and the second moving roller 92, wherein the conveying roller 71 is rotatably disposed on the frame 100, so that the first pinch belt 201 and the second pinch belt 202 pinch the stack of paper.

The first driving assembly comprises a first air cylinder 31, a first swing rod and a pull rod 33, wherein the first air cylinder 31 is fixedly arranged on the frame 100, and the action of the first air cylinder 31 is controlled by a control system. The first swing rod further comprises a first inner swing rod 322 and a first outer swing rod 321, the first inner swing rod 322 and the first outer swing rod 321 are respectively positioned on the inner side and the outer side of the side wall, and the first inner swing rod 322 and the first outer swing rod 321 are rotatably installed on the frame 100 through a first swing rod rotating shaft 4. The first cylinder 31 is rotatably connected with the first outer swing rod 321, a first proximity switch (not shown) is arranged beside the first outer swing rod 321, and an induction signal is sent to a control system through the first proximity switch, and the control system controls the first cylinder 31 to act. One end of the pull rod 33 is rotatably connected with the first inner swing rod 322, and the other end of the pull rod 33 is hinged with the moving block 9. The pull rod 33 is driven to move by the rotation of the first inner swing rod 322.

The second moving roller 92 has a horizontal height between the first positioning roller 81 and the first moving roller 91, and the first pinch belt 201 sequentially bypasses the first moving roller 91, the second moving roller 92, and the first positioning roller 81; the first moving roller 91 is turned opposite to the second moving roller 92, and the first moving roller 91 is turned the same as the first positioning roller 81. Thus, when the moving block 9 reciprocates back and forth under the action of the tension rod 33, the first moving roller 91 and the second moving roller 92 on the moving block 9 reciprocate back and forth, so that the positions of the first moving roller 91 and the second moving roller 92 relative to the first positioning roller 81 change, and since the first moving roller 91 and the second moving roller 92 are synchronously moved, the length of the first pinch belt 201 from the first positioning roller 81 to the first moving roller 91 is unchanged, and the distance of the first pinch belt 201 from the driving roller 1 decreases, that is, the effective conveying distance of the first pinch belt 201 becomes long, and therefore, this process can be defined as that the first pinch belt 201 achieves equidistant expansion and contraction.

A driving roller 1 is provided on the frame 100, the driving roller 1 is rotatably mounted on the frame 100, and the main conveyor belt 111 is wound around the driving roller 1. The swing mechanism is arranged above the driving roller 1 and comprises a second driving assembly and a swing roller, the second driving assembly comprises a second air cylinder 32 and a second swing rod, the second air cylinder 32 is fixedly arranged on the frame 100, and the action of the second air cylinder 32 is controlled through the control system. The second swing rod is rotatably mounted on the frame 100 through a second swing rod rotating shaft 4, and the second swing rod rotating shaft 4 is rotatably arranged on the frame 100. The second swing rod further comprises a second inner swing rod 42 and a second outer swing rod 41, the second inner swing rod 42 and the second outer swing rod 41 are respectively positioned on the inner side and the outer side of the side wall, and the second inner swing rod 42 and the second outer swing rod 41 are fixedly connected with the second swing rod rotating shaft 4. A second proximity switch (not shown) is provided beside the second outer swing rod 41, and an induction signal is sent to a control system through the second proximity switch, and the control system controls the second cylinder 32 to act.

The swing rollers further comprise a first swing roller 11 and a second swing roller 12, the first swing roller 11 and the second swing roller 12 are located above the driving roller 1, the first swing roller 11 and the second swing roller 12 are rotatably connected with the driving roller 1, and the first swing roller 11 and the second swing roller 12 are connected through a second inner swing rod 42. The first swing roller 11 is rotatably mounted on the frame 100, the first swing roller 11 is coaxial with the second swing rod rotating shaft 4, the second swing roller 12 is rotatably connected to the second inner swing rod 42, and the second swing roller 12 can swing up and down relative to the driving roller 1. The first diversion belt 101 is wound on the first swing roller 11 and the second swing roller 12, and the first diversion belt 101 is in transmission connection with both the first swing roller 11 and the second swing roller 12.

At least two guide rollers are rotatably disposed on the frame 100, in this embodiment, the two guide rollers are a first guide roller 61 and a second guide roller 62, a second guide belt 102 is wound on the first guide roller 61 and the second guide roller 62, the second guide belt 102 is matched with the main conveying belt 111, and meanwhile, when the second swing roller 12 is located on the surface of the driving roller 1, the second guide belt 102 is in process connection with the first guide belt 101, that is, the second guide belt 102 is located at the transmission end of the first guide belt 101. When the second swing roller 12 swings away from the surface of the driving roller 1, the second guide belt 102 is disconnected from the first guide belt 101 in the process, that is, the tail end of the second guide belt 102 is separated from the head end of the first guide belt 101, so that the stack of sheets cannot be continuously transported along the main conveyor 111.

In order to better transfer the stack to the first and second pinch belts 201, 202, the present embodiment further comprises a paper supporting plate 90, said paper supporting plate 90 being fixedly arranged on the end of the moving block 9 remote from the pull rod 33, extending towards the driving roller 1. The paper supporting plate 90 is provided with a plurality of empty avoiding grooves 901, the empty avoiding grooves 901 are partially exposed by the first movable roller 91, and a first pinch belt 201 wound on the periphery of the first movable roller 91 passes through the empty avoiding grooves 901 and is erected above the paper supporting plate 90. In order to secure the conveyance smoothness, the first pinch belt 201 erected above the paper supporting plate 90 may be set in a horizontal state. When the moving roller approaches the driving roller 1, the stack of sheets output from between the main conveyor belt 111 and the first guide belt 101 is transferred onto the sheet supporting plate 90 in a proper position, and the sheet supporting plate 90 receives the stack of sheets and then continues to move forward under the conveyance of the first pinch belt 201 and the second pinch belt 202.

The first clamping and conveying belt 201 comprises a plurality of first narrow belts, the paper supporting plate 90 provided with a plurality of empty avoidance grooves 901 is in a zigzag structure, as shown in fig. 2, one first narrow belt is distributed at each empty avoidance groove 901, and the light and stable transmission performance is improved. In order to make the stack smoothly transferred onto the first pinch belt 201, the length of the void-avoidance groove 901 should not be too long, and the length of the void-avoidance groove 901 is preferably smaller than the width of the stack, so that the stack can be smoothly transferred onto the first pinch belt 201. The second pinch belt 202 is wound around a plurality of pinch rollers 72, and the pinch rollers 72 are rotatably disposed on the frame 100. The pinch roller 72 includes a guide roller 720, the guide roller 720 being located at the beginning of the second pinch belt 202. The second pinch belt 202 includes a plurality of second narrow belts, and the second narrow belts are sleeved on the guide roller 720 at equal intervals and are in transmission fit with the corresponding first narrow belts. In order to smoothly enter between the first pinch belt 201 and the second pinch belt 202, the start end of the second pinch belt 202 is lifted by an angle, as shown in fig. 1, a lower pressing roller 721 is disposed above the paper supporting plate 90, the lower pressing roller 721 presses the second pinch belt 202 onto the first pinch belt 201, and an included angle is formed between the second pinch belt 202 wound on the lower pressing roller 721 and the guide roller 720 and the first pinch belt 201 by the lower pressing roller 721, and the included angle is greater than 10 ° and less than or equal to 20 °. The pressing amplitude of the pressing roller 721 can be controlled by a swinging rod.

In this embodiment, the frame 100 includes two opposite side walls, and the positioning roller, the conveying roller 71, the moving roller, the pinch roller 72, the driving roller 1, the guiding roller and the guiding roller 720 are rotatably mounted on the two side walls through bearings. In this embodiment, the plurality of conveying rollers 71 are located on the same horizontal plane, which is advantageous for smooth conveyance of the sheet bundle. The distance between the upper and lower endless belts of the endless first pinch belt 201 is smaller than or equal to the outer diameter of the second positioning roller 82, thereby making the overall structure more rational and compact. In order to tension the first pinch belt 201, a first tension roller 51 is further included at the second positioning roller 82, and the first tension roller 51 cooperates with the first pinch belt 201 to tightly wrap the first pinch belt 201 on the second positioning roller 82. Tensioning mechanisms are also respectively arranged on the main conveying belt, the first guide belt and the third clamping conveying belt.

The sheet bundle located between the main conveyor belt 111 and the first guide flow changes in the conveyance path as the second swing roller 12 swings up and down. When the second swing roller 12 is not swung up and is clung to the surface of the driving roller 11, that is, when the first guide belt 101 is clung to the main conveyor belt 111 wound around the driving roller 11, the stack of sheets is then transferred between the second guide belt 102 and the main conveyor belt 111 via the first guide belt 101, so as to move to the first glue station 1a located at the driving roller 1 in driving engagement of the main conveyor belt 111 and the second guide belt 102. When the second swing roller 12 swings up and is separated from the surface of the driving roller 11 under the control of the second inner swing lever 42, that is, when the first guide belt 101 wound around the second swing roller 12 is separated from the main conveyor belt 111 wound around the driving roller 1, the procedure between the first guide belt 101 and the second guide belt 102 is disconnected, the stack of paper cannot smoothly pass between the second guide belt 102 and the main conveyor belt 111, and at this time, the moving block 9 is driven by the first driving component to lean against the driving roller 1, the stack of paper is moved onto the paper supporting plate 90, and then the third clamping belt 203 and the second clamping belt 202 are respectively matched with the transmission of the first clamping belt 201, and the stack of paper moves forward to the second glue brushing station 2a located at the second positioning roller 82. When the second swing roller 12 is reset and pressed down on the surface of the driving roller 1, the paper stack conveyed by the main conveying belt 111 and the first guide belt 101 is then conveyed by the second guide belt 102 continuously along the main conveying belt 111, so that the paper stack is split.

The invention has reasonable and compact structure and stable and reliable operation, and the back end glue brushing process is better matched with the front end printing process by splitting the paper stack, thereby improving the production efficiency of the whole production line.

The above-described embodiments are only for illustrating the present invention, not for limiting the present invention, and any substitutions and modifications without inventive effort, which are within the scope of the inventive concept and claims, fall within the scope of the patent claims.

Claims (10)

1. A paging device, comprising:

A frame;

the positioning rollers are at least two and are respectively a first positioning roller and a second positioning roller, and the first positioning roller and the second positioning roller are both rotatably arranged on the frame;

The distance adjusting mechanism comprises a first driving component and a moving block, wherein the driving component is arranged on the frame, the moving block is movably connected with the frame, and the moving block is in driving connection with the first driving component;

the first moving rollers and the second moving rollers are fixedly arranged on the moving block;

the first clamping belt is wound on the first positioning roller, the second positioning roller, the first moving roller and the second moving roller, and the first clamping belt is in transmission connection with the first positioning roller, the second positioning roller, the first moving roller and the second moving roller;

A second pinch belt cooperating with the first pinch belt;

A third pinch belt in operative engagement with the second pinch belt and in cooperation with the first pinch belt, the third pinch belt partially encircling the second positioning roller;

A main conveyor belt;

The swinging mechanism comprises a second driving assembly and a swinging roller, the second driving assembly is in driving connection with the swinging roller, a first guide belt is wound on the swinging roller and is in transmission connection with the swinging roller, the swinging roller is positioned above the main conveying belt, and the first guide belt is matched with the main conveying belt;

the guide rollers are rotatably arranged on the frame, at least two guide rollers are respectively a first guide roller and a second guide roller, second guide belts are wound on the first guide roller and the second guide roller, and the second guide belts are matched with the main conveying belt; and

And the control system is electrically connected with the positioning roller, the first driving assembly and the second driving assembly and controls the transmission of the main conveying belt, the first clamping belt and the second clamping belt.

2. The paging device as claimed in claim 1, wherein the first driving assembly comprises a first cylinder, a first swing rod and a pull rod, the first cylinder is rotatably connected with the first swing rod, the first cylinder is fixedly arranged on the frame, and the first swing rod is rotatably arranged on the frame; one end of the pull rod is rotationally connected with the first swing rod, and the other end of the pull rod is hinged with the moving block.

3. The paging device as claimed in claim 2, wherein the moving block is provided with a paper supporting plate fixedly connected to an end of the moving block away from the pull rod, the paper supporting plate extending toward the main conveyor belt; and the paper supporting plate is provided with an empty avoiding groove, and the first clamping and conveying belt passes through the empty avoiding groove.

4. The paging device of claim 1, wherein the second driving assembly comprises a second cylinder and a second swing rod, the second cylinder is rotatably connected with the second swing rod, the second cylinder is fixedly arranged on the frame, and the second swing rod is rotatably arranged on the frame.

5. The paging device of claim 4, wherein the swing roller comprises a first swing roller and a second swing roller, the first swing roller is rotatably connected with the frame, and the second swing roller is rotatably connected with the second swing lever; the first diversion belt is wound on the first swing roller and the second swing roller, and the first diversion belt is in transmission connection with the first swing roller and the second swing roller.

6. The sorting apparatus of claim 1, wherein the third pinch belt is looped around at least three rollers, a first guide roller, a second guide roller, and a third guide roller, the second guide roller is suspended above the second positioning roller, the first guide roller and the third guide roller are located at two sides of the second positioning roller, and a portion of the third pinch belt located between the first guide roller and the third guide roller is looped around the second positioning roller and is in driving engagement with the first pinch belt.

7. The sorting apparatus of claim 1, further comprising a drive roller rotatably disposed on the frame, the main conveyor belt being wound around a surface of the drive roller, the swing roller being located above the drive roller.

8. The sorting apparatus of claim 1, wherein a horizontal height of the second moving roller is located between the first positioning roller and the first moving roller, the first pinch belt sequentially bypassing the first moving roller, the second moving roller, the first positioning roller; the first moving roller and the second moving roller are opposite in steering, and the first moving roller and the first positioning roller are identical in steering.

9. The paging device as claimed in claim 1, wherein a slide rail is provided on the frame, and the moving block is slidably connected to the slide rail.

10. The paging device as claimed in any one of claims 1 to 9, wherein tensioning means are provided on the main conveyor belt, the first guide belt, the first pinch belt and the third pinch belt, respectively.