CN118046269A

CN118046269A - Gravure roller grinding device

Info

Publication number: CN118046269A
Application number: CN202410436986.0A
Authority: CN
Inventors: 于永胜; 张云雷; 樊革有; 吴殿异; 刘鹏飞
Original assignee: Zibo Yuncheng Plate Making Co ltd
Current assignee: Zibo Yuncheng Plate Making Co ltd
Priority date: 2024-04-12
Filing date: 2024-04-12
Publication date: 2024-05-17
Anticipated expiration: 2044-04-12
Also published as: CN118046269B

Abstract

The application provides a gravure plate roller polishing device, which belongs to the technical field of gravure printing, and comprises: the sliding table is connected to the workbench in a sliding manner, a bearing plate is connected to the inside of the sliding table in a rotating manner, a rotating source is arranged at the bottom of the sliding table, and a first linear driver is arranged inside the workbench; the number of the reciprocating screw rods is two, the execution ends of the reciprocating screw rods are respectively and slidably connected with a grinding machine, and the two reciprocating screw rods are respectively and rotatably connected to the workbench; the switching mechanism is arranged inside the workbench; the positioning mechanism is arranged between the workbench and the sliding table; according to the application, a vertical polishing mode can be adopted, so that scraps generated after polishing fall off as far as possible under the action of gravity and the centrifugal force generated by autorotation of the gravure plate roller, and meanwhile, the two polishing machines alternately polish the gravure plate roller in a unidirectional polishing track, so that the probability of scraping the scraps on the layout of the gravure plate roller is reduced on the premise of ensuring the polishing continuity.

Description

Gravure roller grinding device

Technical Field

The application relates to the technical field of gravure printing, in particular to a gravure plate roller polishing device.

Background

In intaglio printing, patterns or characters are engraved on the plate surface of the intaglio roller, and ink is filled in the indentations, so that the ink can be transferred to a printing material through the intaglio roller to form a printing effect in the actual printing process. Because the surface of the gravure roller can generate irregular burrs when patterns are engraved by electroplating, the layout of the gravure roller needs to be polished and polished in order to ensure the use effect of the gravure roller during printing.

With reference to publication number CN116408696a, publication date 2023, 7, 11, chinese patent application document named fine grinding mechanism for surface of gravure roll, the outer surface of the gravure roll is effectively ground and polished by means of revolution of the grinding block around the gravure roll during rotation grinding.

With reference to the above technical scheme, in the process of polishing, the gravure roll is generally assembled on the workbench in a horizontal state, and scraps generated after polishing are likely to be attached to the layout of the gravure roll, and when the grinding wheel carries out subsequent reciprocating polishing on the layout of the gravure roll, the risk of scraping the scraps exists on the layout of the gravure roll.

Disclosure of Invention

In view of the above, the application provides a polishing device for a gravure roll, which adopts a vertical polishing mode, so that scraps generated after polishing fall off as much as possible under the action of gravity and centrifugal force generated by autorotation of the gravure roll, and simultaneously, two polishing machines alternately polish the gravure roll in a unidirectional polishing track, and the probability of scraping the scraps when the layout of the gravure roll moves in a reciprocating polishing track due to the polishing machines is reduced on the premise of ensuring the continuity of polishing work.

In order to solve the technical problems, the application provides a gravure roll polishing device, comprising: the sliding table is connected to the workbench in a sliding manner, the inside of the sliding table is rotationally connected with a bearing plate, a rotating source for driving the bearing plate to rotate is arranged at the bottom of the sliding table, and a first linear driver for driving the sliding table to move is arranged inside the working table; the number of the reciprocating screw rods is two, the execution ends of the reciprocating screw rods are respectively and slidably connected with a grinding machine which can be close to or far away from the gravure roller, and the two reciprocating screw rods are respectively and rotatably connected on the workbench and are used for enabling one of the two grinding machines to be in an opposite state when the other one of the two grinding machines ascends or descends; a switching mechanism arranged inside the workbench and used for enabling the ascending polisher to be in a state of being far away from the gravure roller and enabling the descending polisher to be in a state of being close to the gravure roller; the positioning mechanism is arranged between the workbench and the sliding table and is used for fixing the gravure roller positioned on the bearing plate in a vertical state.

By adopting the technical scheme, when the gravure roller is arranged above the bearing plate, the positioning mechanism operates to fix the gravure roller on the bearing plate in a vertical state. Then the rotation source operates to drive the bearing plate and the gravure plate roller fixed above the bearing plate to rotate together, and meanwhile, the first linear driver operates to drive the sliding table to move until the gravure plate roller contacts with the polisher in an operating state to carry out polishing work. In the polishing process, the driving source operates to drive the reciprocating screw on one side to rotate, and the two reciprocating screws can synchronously rotate under the transmission action of the belt, so that the polishing machine can vertically lift and polish different axial points of the gravure roller. And because the initial state of two polishing machines is in one and is located at the top and the bottom of workstation, through the cooperation of shifter, ascending polishing machine opportunity is in the state of keeping away from the gravure roller, and the state that descends polishing machine then is in being close to the gravure roller for the gravure roller can only take place the contact with the polishing machine of descending and accomplish polishing work.

By adopting the vertical polishing mode, scraps generated after polishing fall off as much as possible under the action of gravity and the centrifugal force generated by autorotation of the gravure plate roller, and simultaneously two polishing machines alternately polish the gravure plate roller by unidirectional polishing tracks, so that the probability that the layout of the gravure plate roller is scraped by scraps when the polishing machines move in a reciprocating polishing track is reduced on the premise of ensuring the continuity of polishing work.

Optionally, the guiding groove inside the workstation is offered including two symmetries to the switching mechanism, and the guiding groove all sets up to rectangular frame form, all is provided with the protruding round pin that can insert adjacent guiding groove on every polisher, is provided with first magnet on the workstation, and two equal fixedly connected with in polisher bottoms can be because of the suction effect is close to the second magnet of first magnet, two equal fixedly connected with in polisher top with can keep away from the third magnet of first magnet because of the repulsion effect.

Through adopting above-mentioned technical scheme, the protruding round pin that sets up on the polisher takes place the in-process of position change along the guide way, when the polisher reached the top of guide way, because of the repulsion effect that produces between first magnet and the third magnet, the polishing opportunity removes to the vertical cell body department that is close to gravure roll one side on the guide way. On the contrary, when the polisher reaches the bottom of the guide groove, the polisher can move to the vertical groove body on one side of the guide groove far away from the gravure roller due to the suction effect generated between the first magnet and the second magnet.

Optionally, the positioning mechanism includes a first cylinder fixedly connected to the top of the workbench, and a conical pressing block for pressing the gravure roller is arranged at the execution end of the first cylinder.

Optionally, sliding connection has a plurality of tight blocks that prop up that can regard the loading board as the benchmark from inside to outside downward slant displacement on the loading board, and the loading board is inside to be provided with a plurality of elastic component that prop up tight block one-to-one and can make to prop up tight block reset.

Through adopting above-mentioned technical scheme, when the gravure roller was placed in the loading board top, first cylinder operation made the toper briquetting move down, until the toper briquetting compresses tightly the gravure roller with vertical state and fixes on the loading board. In the process, the supporting block can be contacted with the gravure roller before the bearing plate, and the supporting block can obliquely move downwards against the elastic potential energy of the elastic piece after being stressed along with the pressure of the conical pressing block on the gravure roller until the supporting block is propped against the gravure roller from the inside.

The effective fixing of the gravure roller is completed through the mode that the top is pressed downwards and the bottom is outwards braced, so that the follow-up polishing work can be stably carried out, and the probability that the polishing precision is influenced due to the fact that the gravure roller is subjected to position deviation in the polishing process is reduced.

Optionally, a feeding mechanism is arranged on the workbench and is used for automatically transferring the gravure roller at the waiting station at the bottom of the workbench onto the bearing plate.

Optionally, feed mechanism includes sliding connection at the second cylinder at workstation top, and the workstation top is provided with the second linear drive ware that is used for driving second cylinder slip, and second cylinder execution end is provided with electric chuck.

Through adopting above-mentioned technical scheme, after the gravure roll is transferred to the waiting station of workstation bottom by outside transfer equipment, the second cylinder stretches downwards and makes the electric chuck be close to and pick up the gravure roll, then the shrink of second cylinder makes the gravure roll by the hoist, and the second linear drive operation makes the second cylinder slide, until the gravure roll is located directly over the loading board, then second cylinder and electric chuck cooperate again can shift the gravure roll to on the loading board.

When carrying out gravure roller work of polishing, can carry out automatic feeding function to the gravure roller for whole process of polishing possesses better continuity, reduces manual intervention and latency, thereby improves production efficiency.

In summary, compared with the prior art, the application has at least one of the following beneficial technical effects:

1. By adopting the vertical polishing mode, scraps generated after polishing fall off as much as possible under the action of gravity and the centrifugal force generated by autorotation of the gravure plate roller, and simultaneously two polishing machines alternately polish the gravure plate roller by unidirectional polishing tracks, so that the probability that the layout of the gravure plate roller is scraped by scraps when the polishing machines move in a reciprocating polishing track is reduced on the premise of ensuring the continuity of polishing work.

2. The effective fixing of the gravure roller is completed through the mode that the top is pressed downwards and the bottom is outwards braced, so that the follow-up polishing work can be stably carried out, and the probability that the polishing precision is influenced due to the fact that the gravure roller is subjected to position deviation in the polishing process is reduced.

3. When carrying out gravure roller work of polishing, can carry out automatic feeding function to the gravure roller for whole process of polishing possesses better continuity, reduces manual intervention and latency, thereby improves production efficiency.

Drawings

FIG. 1 is a schematic view of a gravure roll grinding apparatus of the present application;

FIG. 2 is a cross-sectional view of a slip of the present application;

FIG. 3 is a cross-sectional view of a table of the present application;

FIG. 4 is an enlarged view of a portion of the area A of FIG. 3 in accordance with the present application;

fig. 5 is an enlarged view of a portion of the area B of fig. 3 in accordance with the present application.

Reference numerals illustrate: 1. a work table; 2. a sliding table; 21. a carrying plate; 22. a rotating source; 23. a first linear drive; 3. a reciprocating screw; 31. a grinding machine; 32. a driving source; 4. a switching mechanism; 41. a guide groove; 42. a protruding pin; 43. a first magnet; 44. a second magnet; 45. a third magnet; 5. a positioning mechanism; 51. a first cylinder; 52. a conical pressing block; 6. a tightening block; 61. an elastic member; 7. a feeding mechanism; 71. a second cylinder; 72. a second linear driver; 73. an electric chuck.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to fig. 1 to fig. 4 of the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the application, fall within the scope of protection of the application.

Referring to fig. 1,2 and 3, the present embodiment provides an intaglio roller polishing device, which includes a sliding table 2 slidingly connected to a working table 1, a bearing plate 21 is rotationally connected inside the sliding table 2, a rotation source 22 for driving the bearing plate 21 to rotate is provided at the bottom of the sliding table 2, and a first linear driver 23 for driving the sliding table 2 to move is provided inside the working table 1; the workbench 1 is rotationally connected with two reciprocating screw rods 3, the execution ends of the two reciprocating screw rods 3 are both in sliding connection with a grinding machine 31 which can be close to or far away from the gravure roller, and when any one of the two grinding machines 31 ascends or descends, the other one is in a state opposite to the one, and the workbench 1 is fixedly connected with a driving source 32 which can drive the two reciprocating screw rods 3 to rotate simultaneously; a switching mechanism 4 is arranged in the workbench 1 and is used for enabling the ascending polisher 31 to be in a state of being far away from the gravure roll and enabling the descending polisher 31 to be in a state of being close to the gravure roll; a positioning mechanism 5 is provided between the table 1 and the slide table 2 for fixing the gravure roll on the carrier plate 21 in a vertical state.

The positioning mechanism 5 operates to fix the gravure roll in a vertical state on the carrier plate 21 when the gravure roll is placed above the carrier plate 21. Then, the rotation source 22 operates to drive the carrier plate 21 and the gravure roll fixed above it to rotate together, and the first linear driver 23 operates to drive the slide table 2 to move until the gravure roll contacts with the polisher 31 in an operating state to perform polishing work.

In the polishing process, the driving source 32 operates to drive the reciprocating screw rods 3 on one side to rotate, and the two reciprocating screw rods 3 can synchronously rotate under the transmission action of the belt, so that the polishing machine 31 can vertically lift to polish different axial points of the gravure roller. And because the initial state of two grinding machines 31 is in that one is located at the top of the workbench 1 and the other is located at the bottom of the workbench 1, through the cooperation of the switching mechanism 4, the ascending grinding machine 31 is in a state of being far away from the gravure roll, and the descending grinding machine 31 is in a state of being close to the gravure roll, so that the gravure roll can only be contacted with the descending grinding machine 31 to finish grinding work.

By adopting the vertical polishing mode, scraps generated after polishing fall off as much as possible under the action of gravity and the centrifugal force generated by autorotation of the gravure plate roller, and simultaneously, the two polishing machines 31 alternately polish the gravure plate roller by unidirectional polishing tracks, so that the probability of scraping the scraps when the layout of the gravure plate roller moves in the reciprocating polishing tracks due to the polishing machines 31 is reduced on the premise of ensuring the polishing continuity.

Referring to fig. 3,4 and 5, the switching mechanism 4 includes two symmetrically arranged guide grooves 41 inside the workbench 1, the guide grooves 41 are all rectangular frame-shaped, protruding pins 42 capable of being inserted into adjacent guide grooves 41 are arranged on each grinding machine 31, a first magnet 43 is arranged on the workbench 1, second magnets 44 capable of being close to the first magnet 43 due to attractive force are fixedly connected to the bottoms of the two grinding machines 31, and third magnets 45 capable of being far away from the first magnet 43 due to repulsive force are fixedly connected to the tops of the two grinding machines 31.

In the process that the protruding pin 42 provided on the grinding machine 31 is changed in position along the guide groove 41, when the grinding machine 31 reaches the top of the guide groove 41, the grinding machine 31 moves to the vertical groove body on the side of the guide groove 41 close to the gravure roll due to the repulsive force generated between the first magnet 43 and the third magnet 45. In contrast, when the grinding machine 31 reaches the bottom of the guide groove 41, the grinding machine 31 moves to the vertical groove body on the side of the guide groove 41 away from the gravure roll due to the suction force generated between the first magnet 43 and the second magnet 44.

Referring to fig. 1, the positioning mechanism 5 includes a first cylinder 51 fixedly connected to the top of the table 1, and a tapered press block 52 for pressing the gravure roll is provided at an execution end of the first cylinder 51.

Referring to fig. 2, a plurality of tightening blocks 6 capable of being displaced obliquely from inside to outside and from outside to below with reference to the carrier plate 21 are slidably connected to the carrier plate 21, and a plurality of elastic members 61 which are in one-to-one correspondence with the tightening blocks 6 and are capable of resetting the tightening blocks 6 are provided inside the carrier plate 21.

When the gravure roll is placed above the carrier plate 21, the first cylinder 51 operates to move the tapered press block 52 downward until the tapered press block 52 presses and fixes the gravure roll in a vertical state on the carrier plate 21. In this process, the tightening block 6 can contact with the gravure roll before the carrier plate 21, and as the tapered press block 52 presses the gravure roll, the tightening block 6 will move obliquely downward against the elastic potential energy of the elastic member 61 after being stressed until the tightening block 6 abuts against the gravure roll from the inside.

Referring to fig. 1 and 2, a loading mechanism 7 is provided on the table 1 for automatically transferring the gravure roll at the waiting station at the bottom of the table 1 onto the carrier plate 21.

Referring to fig. 1 and 2, the feeding mechanism 7 includes a second cylinder 71 slidably connected to the top of the table 1, a second linear driver 72 for driving the second cylinder 71 to slide is disposed on the top of the table 1, and an electric chuck 73 is disposed at the execution end of the second cylinder 71.

After the gravure roll is transferred to the waiting station at the bottom of the table 1 by the external transfer device, the second air cylinder 71 is extended downward to approach the electric chuck 73 and pick up the gravure roll, then the second air cylinder 71 is contracted to lift the gravure roll, the second linear actuator 72 is operated to slide the second air cylinder 71 until the gravure roll is positioned right above the carrier plate 21, and then the second air cylinder 71 and the electric chuck 73 are mated again to transfer the gravure roll onto the carrier plate 21.

The embodiment of the application provides an intaglio roller polishing device, which is implemented by the following principle:

The first cylinder 51 is then operated to move the conical press block 52 downward until the conical press block 52 presses and fixes the gravure roll in a vertical state on the carrier plate 21. In this process, the tightening block 6 can contact with the gravure roll before the carrier plate 21, and as the tapered press block 52 presses the gravure roll, the tightening block 6 will move obliquely downward against the elastic potential energy of the elastic member 61 after being stressed until the tightening block 6 abuts against the gravure roll from the inside.

Then, the rotation source 22 operates to drive the carrier plate 21 and the gravure roll fixed above it to rotate together, and the first linear driver 23 operates to drive the slide table 2 to move until the gravure roll contacts with the polisher 31 in an operating state to perform polishing work.

In the polishing process, the driving source 32 operates to drive the reciprocating screw rods 3 on one side to rotate, and the two reciprocating screw rods 3 can synchronously rotate under the transmission action of the belt, so that the polishing machine 31 can vertically lift to polish different axial points of the gravure roller. And since the initial states of the two polishing machines 31 are positioned one at the top of the table 1 and the other at the bottom of the table 1, in the process that the protruding pins 42 provided on the polishing machines 31 are changed in position along the guide grooves 41, when the polishing machines 31 reach the top of the guide grooves 41, the polishing machines 31 move to the vertical groove body on the side of the guide grooves 41 close to the gravure roll due to the repulsive force generated between the first magnets 43 and the third magnets 45. In contrast, when the grinding machine 31 reaches the bottom of the guide groove 41, the grinding machine 31 moves to the vertical groove body on the side of the guide groove 41 away from the gravure roll due to the suction force generated between the first magnet 43 and the second magnet 44.

Finally, the raised grinding machine 31 is far away from the gravure roll, and the lowered grinding machine 31 is close to the gravure roll, so that the gravure roll can only contact with the lowered grinding machine 31 to finish the grinding work.

Furthermore, it should be noted that, in the description of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application can be understood by those skilled in the art according to the specific circumstances.

While the foregoing is directed to the preferred embodiments of the present application, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present application, and such modifications and adaptations are intended to be comprehended within the scope of the present application.

Claims

1. An intaglio roller grinding device, comprising:

the sliding table (2) is connected to the workbench (1) in a sliding manner, the bearing plate (21) is connected to the sliding table in a rotating manner, a rotating source (22) for driving the bearing plate (21) to rotate is arranged at the bottom of the sliding table (2), and a first linear driver (23) for driving the sliding table (2) to move is arranged in the sliding table (1);

The number of the reciprocating screw rods (3) is two, the execution ends of the reciprocating screw rods are respectively and slidably connected with a grinding machine (31) which can be close to or far away from the gravure roller, the two reciprocating screw rods (3) are respectively and rotatably connected on the workbench (1), and when any one of the two grinding machines (31) ascends or descends, the other one is in a state opposite to the other one;

a switching mechanism (4) which is provided inside the table (1) and which is used for enabling the rising polisher (31) to be in a state of being far away from the gravure roller and enabling the falling polisher (31) to be in a state of being close to the gravure roller;

and the positioning mechanism (5) is arranged between the workbench (1) and the sliding table (2) and is used for fixing the gravure roller positioned on the bearing plate (21) in a vertical state.

2. The gravure roll grinding device of claim 1 wherein: the switching mechanism (4) comprises two guide grooves (41) symmetrically formed in the workbench (1), the guide grooves (41) are all rectangular frame-shaped, protruding pins (42) capable of being inserted into the adjacent guide grooves (41) are arranged on each grinding machine (31), a first magnet (43) is arranged on the workbench (1), second magnets (44) which are close to the first magnets (43) due to attractive force are fixedly connected to the bottoms of the two grinding machines (31), and third magnets (45) which are far away from the first magnets (43) due to repulsive force are fixedly connected to the tops of the two grinding machines (31).

3. The gravure roll grinding device of claim 1 wherein: the positioning mechanism (5) comprises a first air cylinder (51) fixedly connected to the top of the workbench (1), and a conical pressing block (52) used for pressing the gravure roller is arranged at the execution end of the first air cylinder (51).

4. The gravure roll grinding device of claim 1 wherein: the bearing plate (21) is connected with a plurality of tightening blocks (6) which can be obliquely displaced from inside to outside to below by taking the bearing plate (21) as a reference in a sliding manner, and a plurality of elastic pieces (61) which are in one-to-one correspondence with the tightening blocks (6) and can reset the tightening blocks (6) are arranged in the bearing plate (21).

5. The gravure roll grinding device of claim 1 wherein: the feeding mechanism (7) is arranged on the workbench (1) and used for automatically transferring the gravure roller at the waiting station at the bottom of the workbench (1) onto the bearing plate (21).

6. The gravure roll grinding device of claim 5 wherein: the feeding mechanism (7) comprises a second air cylinder (71) which is slidably connected to the top of the workbench (1), a second linear driver (72) for driving the second air cylinder (71) to slide is arranged at the top of the workbench (1), and an electric chuck (73) is arranged at the execution end of the second air cylinder (71).