CN220075854U - High-speed full-automatic printing machine - Google Patents

Abstract

The utility model provides a high-speed full-automatic printing machine, which solves the problems that the conveying device of most printing machines only has the function of conveying printing materials for the printing machines, is inconvenient for automatically adjusting the pressure applied to the printing materials in the conveying process, can cause deformation of the printing materials when the pressure is too large, and can cause unstable conveying of the printing materials when the pressure is too small. The printing machine comprises a bottom plate, wherein the bottom plate extends along the left-right direction, a printing machine main body is fixedly arranged at the right end of the bottom plate, a second side plate extending along the left-right direction is fixedly arranged on the bottom plate, a rubber roller is rotatably arranged on the second side plate, a winding drum is fixedly arranged on the rubber roller, a rolled printing stock is arranged on the winding drum, a first side plate extending along the left-right direction is fixedly arranged on the bottom plate, and automatic adjusting members are arranged on the first side plate and the second side plate. The utility model can automatically adjust the pressure of the rolled printing stock in the conveying process and prevent the printing stock from deforming or unstable conveying in the conveying process.

Description

High-speed full-automatic printing machine

Technical Field

The utility model relates to the technical field of full-automatic printers, in particular to a high-speed full-automatic printer.

Background

The printer is a machine for printing characters and images, and the modern printer generally consists of mechanisms such as plate filling, inking, embossing, paper feeding and the like, and the working principle of the printer is as follows: the characters and images to be printed are made into printing plates, the printing plates are arranged on a printer, then ink is coated on places where the characters and images are arranged on the printing plates by a manual or printing machine, and then the printing plates are directly or indirectly transferred onto paper or other printing stock, so that the same printed matter as the printing plates is copied, and the utility model and development of the printing plates play an important role in spreading human civilization and culture.

However, most conveying devices of printers only have the function of conveying printing stock for the printers, so that the pressure of the printing stock in the conveying process is inconvenient to automatically adjust, the printing stock can be deformed when the pressure is too large, and the conveying of the printing stock is unstable when the pressure is too small.

Disclosure of Invention

In order to solve the problems that in the background technology, most conveying devices of printers only have the function of conveying printing stock for the printers, the pressure of the printing stock in the conveying process is inconvenient to automatically adjust, the printing stock is deformed when the pressure is too high, and the conveying of the printing stock is unstable when the pressure is too low, the utility model provides a high-speed full-automatic printer.

The technical scheme of the utility model is as follows: a high-speed full-automatic printer comprises a bottom plate;

the bottom plate extends along the left-right direction, the right end of the bottom plate is fixedly provided with a printing machine main body, the bottom plate is fixedly provided with a second side plate extending along the left-right direction, the second side plate is rotationally provided with a rubber roller, a winding drum is fixedly arranged on the rubber roller, and a rolled printing stock is arranged on the winding drum;

a first side plate extending along the left-right direction is fixedly arranged on the bottom plate, and automatic adjusting members are arranged on the first side plate and the second side plate;

the automatic adjusting component comprises grooves which are arranged on the first side plate and the second side plate and are transparent in the front-back direction, the grooves extend in the up-down direction, the top ends of the grooves are of an opening structure, guide cylinders are fixedly arranged in the grooves, the opposite sides of the two guide cylinders are of the opening structure, and a bearing seat is arranged in the guide cylinders in a sliding mode;

the guide cylinder is internally provided with a pressure spring which is positioned at the bottom of the bearing seat;

the bearing seat is internally and fixedly provided with a ball bearing, the ball bearing is internally and fixedly provided with a rotating shaft, the rotating shaft is fixedly provided with a first rotating roller, and a coiled printing stock is wound on the top peripheral surface of the first rotating roller;

the automatic adjusting component is used for adjusting and buffering the pressure of the rolled printing material to the first rotating roller when the rolled printing material is conveyed.

Preferably, the guide cylinder is internally provided with a guide sliding block in a sliding manner, the bearing seat is fixedly arranged on the guide sliding block, and the top end of the pressure spring is fixedly arranged at the bottom of the guide sliding block.

Preferably, a guide column extending in the up-down direction is fixedly arranged in the guide cylinder, and the pressure spring is sleeved on the peripheral surface of the guide column;

the guide slide block is provided with a through groove hole from top to bottom, and the guide slide block is sleeved on the guide column through the groove hole in a sliding manner.

Preferably, a second rotating roller is rotatably arranged between the first side plate and the second side plate, the second rotating roller is positioned at the upper right side of the rubber roller, and the coiled printing stock is wound on the circumferential surface of the bottom of the second rotating roller.

Preferably, a first cleaning roller is rotatably arranged between the first side plate and the second side plate, the first cleaning roller is positioned at the lower right side of the second rotating roller, and the rolled printing stock at the bottom of the second rotating roller is positioned at the top of the first cleaning roller.

Preferably, a third rotating roller is rotatably arranged between the first side plate and the second side plate, the third rotating roller is positioned at the upper right side of the second rotating roller, and the rolled printing stock is wound on the top peripheral surface of the third rotating roller.

Preferably, a second cleaning roller is rotatably arranged between the first side plate and the second side plate, the second cleaning roller is positioned at the upper right side of the third rotating roller, and the rolled printing stock at the top of the third rotating roller is positioned at the bottom of the second cleaning roller.

Preferably, the two ends of the second rotating roller and the third rotating roller are fixedly provided with first tensioning wheels, the two ends of the first cleaning roller and the second cleaning roller are fixedly provided with second tensioning wheels, and belts are arranged on the adjacent first tensioning wheels and second tensioning wheels in a transmission mode.

The utility model has the advantages that: the roll-shaped printing stock bypasses the first rotating roller in the conveying process, simultaneously applies a downward force to the first rotating roller, drives bearing seats at two ends of the first rotating roller to slide downwards along the inner wall of the guide cylinder, and presses the pressure spring to elastically deform while the bearing seats slide downwards.

When the pressure that the roll-shaped printing stock received is too big, the dynamics that the roll-shaped printing stock applyed to first rotating roller grow, and the roll-shaped printing stock drives first rotating roller and moves down, and the conveying angle of roll-shaped printing stock reduces, and then shortens the conveying distance of roll-shaped printing stock, alleviates the pressure that the roll-shaped printing stock received, can lead to the deformation when preventing that the pressure is too big.

When the pressure that the roll-shaped printing stock received is too little, pressure spring's elasticity is greater than the spring that the roll-shaped printing stock applyed first rotating roller, and pressure spring passes through the bearing frame and drives first rotating roller and roll-shaped printing stock and upwards remove, and the conveying angle of roll-shaped printing stock increases, and then increases the conveying distance of roll-shaped printing stock, improves the pressure that the roll-shaped printing stock received, prevents that the pressure from being too little can lead to carrying unstably.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of a high-speed full-automatic printing press according to the present utility model;

FIG. 2 is a cross-sectional view of the guide cylinder of the present utility model;

fig. 3 is a schematic structural view of a rolled printing material according to the present utility model.

In the figure: 1. a bottom plate; 101. a first side plate; 102. a second side plate; 2. a printer body; 3. a rubber roller; 4. a reel; 401. a roll-like printing material; 5. a guide cylinder; 6. a guide slide block; 7. a pressure spring; 8. a bearing seat; 9. a first rotating roller; 10. a guide post; 11. a second rotating roller; 111. a third rotating roller; 12. a first cleaning roller; 121. a second cleaning roller; 13. a first tensioning wheel; 14. a second tensioning wheel; 15. a belt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without any inventive effort, are intended to be within the scope of the utility model.

Example 1: a high-speed full-automatic printing machine, as shown in figures 1 and 2, comprises a bottom plate 1; the right end of the bottom plate 1 is fixedly provided with a printer main body 2, the bottom plate 1 extends along the left-right direction, the bottom plate 1 is fixedly provided with a second side plate 102 extending along the left-right direction, the second side plate 102 is rotatably provided with a rubber roller 3, the rubber roller 3 is fixedly provided with a winding drum 4, and the winding drum 4 is provided with a rolled printing stock 401; a first side plate 101 extending in the left-right direction is fixedly provided on the bottom plate 1.

The first side plate 101 and the second side plate 102 are respectively provided with an automatic adjusting component, the automatic adjusting component comprises grooves which are arranged on the first side plate 101 and the second side plate and are transparent in front and back, the grooves extend along the up-down direction, the top ends of the grooves are of an opening structure, guide cylinders 5 are fixedly arranged in the grooves, the opposite sides of the two guide cylinders 5 are of an opening structure, and a bearing seat 8 is arranged in the guide cylinders 5 in a sliding manner; a pressure spring 7 is arranged in the guide cylinder 5, and the pressure spring 7 is positioned at the bottom of the bearing seat 8; a ball bearing is fixedly arranged in the bearing seat 8, a rotating shaft is fixedly arranged in the ball bearing, a first rotating roller 9 is fixedly arranged on the rotating shaft, and a coiled printing stock 401 is wound on the top peripheral surface of the first rotating roller 9; the automatic regulating member serves to regulate and buffer the pressure that the roll-shaped substrate 401 brings to the first rotating roller 9 when being conveyed.

As shown in fig. 2, a guide slide block 6 is slidably arranged in the guide cylinder 5, a bearing seat 8 is fixedly arranged on the guide slide block 6, and the top end of a pressure spring 7 is fixedly arranged at the bottom of the guide slide block 6; a guide column 10 extending in the vertical direction is fixedly arranged in the guide cylinder 5, and a pressure spring 7 is sleeved on the peripheral surface of the guide column 10; the guide slide block 6 is provided with a through groove hole from top to bottom, and the guide slide block 6 is sleeved on the guide post 10 through the groove hole in a sliding manner.

The guide post 10 can guide the bearing housing 8 and the first rotating roller 9 to move vertically in the up-down direction by the guide slider 6, and can also prevent the pressure spring 7 from being displaced.

As shown in fig. 1 and 3, a second rotating roller 11 is rotatably disposed between the first side plate 101 and the second side plate 102, the second rotating roller 11 is located at the upper right side of the glue roller 3, and a rolled printing material 401 is wound around the bottom peripheral surface of the second rotating roller 11.

A first cleaning roller 12 is rotatably arranged between the first side plate 101 and the second side plate 102, the first cleaning roller 12 is positioned at the right lower part of the second rotating roller 11, and a rolled printing material 401 at the bottom of the second rotating roller 11 is positioned at the top of the first cleaning roller 12.

The surface of the first cleaning roller 12 is uniformly provided with bristles, and the lower side surface of the rolled printing stock 401 can be cleaned while the rolled printing stock 401 passes through between the second rotating roller 11 and the first cleaning roller 12.

As shown in fig. 1 and 3, a third rotating roller 111 is rotatably provided between the first side plate 101 and the second side plate 102, the third rotating roller 111 is located at the upper right side of the second rotating roller 11, and a roll-shaped printing material 401 is wound around the top peripheral surface of the third rotating roller 111.

A second cleaning roller 121 is rotatably disposed between the first side plate 101 and the second side plate 102, the second cleaning roller 121 is disposed at an upper right side of the third rotating roller 111, and a roll-shaped printing material 401 on top of the third rotating roller 111 is disposed at a bottom of the second cleaning roller 121.

The second cleaning roller 121 has bristles on its surface, and the rolled printing stock 401 can be cleaned while being transported between the third rotating roller 111 and the second cleaning roller 121.

As shown in fig. 1 and 3, the two ends of the second rotating roller 11 and the third rotating roller 111 are fixedly provided with a first tensioning wheel 13, the two ends of the first cleaning roller 12 and the second cleaning roller 121 are fixedly provided with a second tensioning wheel 14, and belts 15 are arranged on the adjacent first tensioning wheel 13 and second tensioning wheel 14 in a transmission manner.

When the rolled printing material 401 sequentially passes through the second rotating roller 11 and the third rotating roller 111 to be conveyed, the second rotating roller 11 and the third rotating roller 111 are driven to rotate, and meanwhile, the first tensioning wheel 13 and the belt 15 drive the second tensioning wheel 14, the first cleaning roller 12 and the second cleaning roller 121 to rotate, so that the cleaning capability of the first cleaning roller 12 and the second cleaning roller 121 on the upper side and the lower side of the rolled printing material 401 can be improved.

Working principle: the rolled printing material 401 bypasses the first rotating roller 11 in the conveying process, simultaneously applies a downward force to the first rotating roller 11, drives the bearing blocks 8 at two ends of the first rotating roller 11 to slide downwards along the inner wall of the guide cylinder 5, and presses the pressure spring 7 to elastically deform while the bearing blocks 8 slide downwards.

When the pressure applied to the rolled printing material 401 is too large, the force applied by the rolled printing material 401 to the first rotating roller 11 is increased, the rolled printing material 401 drives the first rotating roller 11 to move downwards, the conveying angle of the rolled printing material 401 is reduced, the conveying distance of the rolled printing material 401 is further shortened, the pressure applied to the rolled printing material 401 is relieved, and deformation caused by the too large pressure is prevented.

When the pressure applied to the rolled printing material 401 is too small, the elastic force of the pressure spring 7 is larger than the elastic force applied to the first rotating roller 11 by the rolled printing material 401, the pressure spring 7 drives the first rotating roller 11 and the rolled printing material 401 to move upwards through the bearing seat, the conveying angle of the rolled printing material 401 is increased, the conveying distance of the rolled printing material 401 is further increased, the pressure applied to the rolled printing material 401 is improved, and unstable conveying caused by too small pressure is prevented.

When the rolled printing material 401 sequentially passes through the second rotating roller 11 and the third rotating roller 111 for conveying, the second rotating roller 11 and the third rotating roller 111 are driven to rotate, and meanwhile, the first tensioning wheel 13 and the belt 15 drive the second tensioning wheel 14, the first cleaning roller 12 and the second cleaning roller 121 to rotate so as to clean the upper side surface and the lower side surface of the rolled printing material 401.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. A high-speed full-automatic printing machine, characterized in that: comprises a bottom plate (1);

the bottom plate (1) extends along the left-right direction, the right end of the bottom plate (1) is fixedly provided with a printing machine main body (2), the bottom plate (1) is fixedly provided with a second side plate (102) extending along the left-right direction, the second side plate (102) is rotationally provided with a rubber roller (3), the rubber roller (3) is fixedly provided with a winding drum (4), and the winding drum (4) is provided with a rolled printing object (401);

a first side plate (101) extending along the left-right direction is fixedly arranged on the bottom plate (1), and automatic adjusting components are arranged on the first side plate (101) and the second side plate (102);

the automatic adjusting component comprises grooves which are arranged on the first side plate (101) and the second side plate and are transparent in front and back, the grooves extend in the up-down direction, the top ends of the grooves are of an opening structure, guide cylinders (5) are fixedly arranged in the grooves, one side, opposite to the two guide cylinders (5), of each guide cylinder is of an opening structure, and a bearing seat (8) is arranged in the guide cylinders (5) in a sliding mode;

a pressure spring (7) is arranged in the guide cylinder (5), and the pressure spring (7) is positioned at the bottom of the bearing seat (8);

a ball bearing is fixedly arranged in the bearing seat (8), a rotating shaft is fixedly arranged in the ball bearing, a first rotating roller (9) is fixedly arranged on the rotating shaft, and a coiled printing material (401) is wound on the top peripheral surface of the first rotating roller (9);

the automatic adjusting member is used for adjusting and buffering the pressure of the rolled printing material (401) brought to the first rotating roller (9) during conveying.

2. A high speed full automatic printing press according to claim 1, wherein: the guide cylinder (5) is internally provided with a guide slide block (6) in a sliding manner, the bearing seat (8) is fixedly arranged on the guide slide block (6), and the top end of the pressure spring (7) is fixedly arranged at the bottom of the guide slide block (6).

3. A high speed full automatic printing press according to claim 2, wherein: a guide column (10) extending in the vertical direction is fixedly arranged in the guide cylinder (5), and a pressure spring (7) is sleeved on the outer peripheral surface of the guide column (10);

the guide slide block (6) is provided with a through groove hole from top to bottom, and the guide slide block (6) is sleeved on the guide column (10) through the groove hole in a sliding way.

4. A high speed full automatic printing press according to claim 1, wherein: a second rotating roller (11) is rotatably arranged between the first side plate (101) and the second side plate (102), the second rotating roller (11) is positioned at the upper right side of the rubber roller (3), and a rolled printing material (401) is wound on the bottom peripheral surface of the second rotating roller (11).

5. The high-speed full-automatic printing machine according to claim 4, wherein: a first cleaning roller (12) is rotatably arranged between the first side plate (101) and the second side plate (102), the first cleaning roller (12) is positioned at the lower right side of the second rotating roller (11), and a rolled printing stock (401) at the bottom of the second rotating roller (11) is positioned at the top of the first cleaning roller (12).

6. A high speed full automatic printing press according to claim 1, wherein: a third rotating roller (111) is rotatably arranged between the first side plate (101) and the second side plate (102), the third rotating roller (111) is positioned at the upper right side of the second rotating roller (11), and a rolled printing object (401) is wound on the top peripheral surface of the third rotating roller (111).

7. A high speed full automatic printing press according to any of claims 1 to 6, wherein: a second cleaning roller (121) is rotatably arranged between the first side plate (101) and the second side plate (102), the second cleaning roller (121) is positioned at the upper right side of the third rotating roller (111), and a rolled printing stock (401) at the top of the third rotating roller (111) is positioned at the bottom of the second cleaning roller (121).

8. The high-speed full-automatic printing machine according to claim 7, wherein: the first tensioning wheels (13) are fixedly arranged at the two ends of the second rotating roller (11) and the third rotating roller (111), the second tensioning wheels (14) are fixedly arranged at the two ends of the first cleaning roller (12) and the second cleaning roller (121), and belts (15) are arranged on the adjacent first tensioning wheels (13) and second tensioning wheels (14) in a transmission mode.