CN110884244A

CN110884244A - Bottle printing machine with air suction device

Info

Publication number: CN110884244A
Application number: CN201911332510.8A
Authority: CN
Inventors: 沈锦强
Original assignee: Shanghai Rui Zi Packaging Material Ltd By Share Ltd
Current assignee: Shanghai Rui Zi Packaging Material Ltd By Share Ltd
Priority date: 2019-12-22
Filing date: 2019-12-22
Publication date: 2020-03-17

Abstract

The invention relates to a bottle printing machine with a suction device, which comprises a lifting mechanism, a sliding mechanism, a bottle fixing mechanism and a printing mechanism connected with the lifting mechanism, wherein a lifting servo module is connected with the lifting sliding module, the lifting mechanism comprises a bearing column and a lifting servo module, the lifting sliding module comprises an upper sliding plate and a lower sliding plate, an upper sliding plate and a lower sliding plate are fixed at the bottom of the first upper sliding plate and the lower sliding plate, the upper sliding plate and the lower sliding plate are arranged on the front surface of the bearing column, the back parts of the upper sliding plate and the lower sliding plate are respectively provided with a sliding block, the bearing column is provided with a vertical sliding groove matched with the sliding block, the first upper sliding plate and the lower sliding plate are provided with a first bracket, the first bracket is fixedly arranged on the first bracket, the sliding mechanism is fixed at the bottom of the upper sliding plate and the lower sliding plate of the second, and the corresponding position of the bottle body fixing mechanism is provided. Compared with the prior art, the invention has the advantages of rapid and automatic dust removal, residual powder removal, low breakage rate and the like.

Description

Bottle printing machine with air suction device

Technical Field

The invention relates to the field of bottle body processing equipment, in particular to a bottle body printing machine with an air suction device.

Background

With the increasing requirements of product packaging technology, the cosmetic bottle is mostly processed by painting or printing patterns and characters. The prior art is generally obtained by adopting a mode of applique on a bottle body and then sintering, and has more complex process and higher cost.

The silk screen printing is that silk fabric, synthetic fiber fabric or metal screen is stretched on a screen frame, and a screen printing plate is manufactured by adopting a manual paint film engraving or photochemical plate making method. In the prior art, a technology of partially adopting a screen printing mode to realize surface treatment of a bottle body to be processed does not disclose a specific printing mode, and the conventional screen printing method in the prior art is manual operation printing and has low efficiency. Part screen printing equipment adapts to the position of printing mechanism through carrying out the adjustment in position to the bottle, and operating time is longer, and appears damaged or shift when the anchor clamps of adjusting the bottle position, then produces very big influence to the printing effect of bottle, and then influences the processing yield.

In addition, treat that the processing bottle has the dust more or less, and spill over the incomplete powder easily after the printing, these dust and incomplete powder not only can pollute operational environment, still can influence staff's health, influence the quality of printed matter simultaneously, after one process printing is accomplished, peculiar smell also appears easily in the product that just prints, is difficult to dry after going on the printing.

Disclosure of Invention

The present invention aims to overcome the above-mentioned drawbacks of the prior art and to provide a bottle printing machine with a suction device.

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

a bottle printing machine with a suction device comprises a lifting mechanism, a sliding mechanism, a bottle fixing mechanism and a printing mechanism connected with the lifting mechanism, wherein the lifting mechanism comprises a bearing column, a lifting servo module, a lifting sliding module, a first bracket and a second bracket, the lifting servo module is connected with the lifting sliding module, the lifting sliding module comprises a first upper sliding plate, a first lower sliding plate, a second upper sliding plate and a second lower sliding plate, the second upper sliding plate and the second lower sliding plate are fixed at the bottom of the first upper sliding plate and the first lower sliding plate, the first upper sliding plate and the second upper sliding plate are arranged on the front surface of the bearing column, the back parts of the first upper sliding plate and the second lower sliding plate are respectively provided with a sliding block, the bearing column is provided with a vertical sliding groove matched with the sliding block, the first bracket is arranged on the first upper sliding plate and the lower sliding plate, the printing mechanism is fixed on the first, the second bracket is connected with the sliding mechanism, and the corresponding position of the bottle body fixing mechanism is provided with an air suction device.

Preferably, the air suction device comprises an air suction cover and an air suction machine matched with the air suction cover, an opening of the air suction cover is arranged corresponding to the bottle body fixing mechanism, the air suction cover is connected with the air suction machine through a corrugated pipe, an infrared induction device is arranged on the inner wall of the air suction cover, and the infrared induction device is connected with the air suction machine.

Preferably, printing mechanism include printing mount, telescopic cylinder, press brush and feeding brush, telescopic cylinder locate printing mount top, one side of printing mount fix on first bracket, the opposite side is equipped with the spout, the spout connect upper and lower telescopic bracket, upper and lower telescopic bracket and telescopic cylinder be connected, feeding brush is connected to upper and lower telescopic bracket's bottom, press the bottom that the printing mount was located to the brush, press brush, feeding brush and locate the slide mechanism top.

Preferably, slide mechanism include optical axis, third slider and net frame station, the optical axis fix on the optical axis base, the optical axis base fix the bottom at the second bracket, the third slider cover establish on the optical axis, the net frame station is connected to the third slider, the net frame station is located under pressing down brush, the material loading brush, servo motor is connected to the third slider, telescopic cylinder, servo motor connect same control switch.

Preferably, the bottle fixing mechanism comprises a bottle fixing frame, a height adjusting module and a rotating motor, the height adjusting module comprises a lifting servo motor, a lifting support and a fixing base, the lifting support is arranged on the fixing base and connected with the lifting servo motor, the bottle fixing frame is arranged on the lifting support, the rotating motor is fixed at the end part of the lifting support, and a rotating shaft of the rotating motor is arranged corresponding to a bottle mouth of a bottle to be processed on the bottle fixing frame.

Preferably, the end of the rotating shaft of the rotating motor is provided with a first cylinder fixing block for abutting against the edge of the bottle mouth of the bottle body to be processed, the central position of the end of the first cylinder fixing block is provided with a second cylinder fixing block for being inserted into the bottle mouth of the bottle body to be processed, the outer diameter of the first cylinder fixing block is larger than that of the second cylinder fixing block, and the outer diameter and the size of the second cylinder fixing block are matched with the size and the size of the bottle mouth of the bottle body to be processed.

Preferably, the range that the outer diameter of the first cylinder fixed block is greater than the outer diameter of the second cylinder fixed block is 1.5-2 cm, and the length of the second cylinder fixed block is 1-1.2 cm.

Preferably, the lifting servo motor and the rotating motor are connected with the same controller.

Preferably, when the telescopic cylinder is in a compressed state, the feeding brush is higher than a horizontal plane where the pressing brush is located, and when the telescopic cylinder is in an extended state, the feeding brush extends out and is arranged on the same horizontal plane with the pressing brush.

The printing method of the printing machine comprises the following steps:

1) setting control time of a controller connected with a lifting servo motor and a rotating motor and control time of a control switch connected with a telescopic cylinder and the servo motor;

2) a processing worker holds the bottle body to be processed by hand, before the bottle body to be processed is placed into the bottle body fixing frame, the bottle body to be processed passes through the position of the opening range of the air suction cover, the infrared sensing device senses the movement of the bottle body, and then the air suction machine is controlled to suck air, so that the dust removal operation of the bottle body to be processed is realized;

3) the bottle body to be processed after dust removal is arranged on the bottle body fixing frame, the second cylinder fixing block extends into the bottle mouth, the first cylinder fixing block props against the edge of the bottle mouth, simultaneously, the lifting servo motor and the rotating motor are started, the lifting bracket falls down to separate the bottle body from the bottle body fixing frame, meanwhile, the rotating motor drives the second cylindrical fixed block to rotate to drive the bottle body to rotate, meanwhile, the pressing brush and the feeding brush fall down through the lifting mechanism and cling to the screen frame station, the third sliding block is driven by the servo motor, then the screen frame station is driven to move left and right, the feeding brush moves downwards through the telescopic cylinder, the screen frame station moves left or right to push the printing materials to the position below the pressing brush, the feeding brush then returns to the position higher than the pressing brush, the pressing brush presses the screen frame station, then the screen frame station prints materials on the bottle body, and the bottle body completes the printing of each bottle wall through self-rotation;

4) taking down the printed bottle body to be processed, lifting the lifting support, pulling up the pressing brush and the feeding brush by the lifting mechanism, moving the screen frame station in opposite directions through the slide block, resetting each mechanism, and waiting for the next printing of the bottle body to be processed;

5) the printed bottle body to be processed passes through the corresponding position of the air suction cover again, the infrared sensing device of the air suction cover senses the movement of the bottle body, and then the air suction machine is controlled to suck air, and the printing residual powder on the surface of the bottle body is removed;

6) and keeping the operating frequency of each cylinder and each motor for the following operations of dust removal, printing and residual powder removal of each bottle body to be processed.

Compared with the prior art, the invention has the following advantages:

the printing machine is provided with the air suction device, the air suction device comprises an infrared sensing device capable of sensing the movement of the bottle body, and the infrared sensing device senses the bottle body and then sucks air into the bottle body, so that dust is quickly and automatically removed, residual powder is removed, the quality of printed matters is improved, and the influence on the health of workers is reduced;

the printing machine utilizes the printing mechanism to adjust up and down, and is combined with the sliding mechanism to print, the bottle body to be processed is rotated by the rotating motor to be matched with the printing mechanism to complete the printing of the bottle body, the problem of damage or displacement caused by the fact that the position of the bottle body is adjusted by the clamp in the prior art is solved, and the damage rate of printing processing is reduced;

thirdly, the sliding mechanism drives the screen frame station to move left and right, the feeding hairbrush starts to move up and down through the telescopic cylinder, the feeding hairbrush pushes printing materials on the screen frame station to the position below the pressing hairbrush, the pressing hairbrush presses the screen frame station downwards, the materials are printed on the bottle body by the screen frame station, the bottle body rotates by the action of the rotating motor, the printing requirements of all bottle walls can be met, the dismounting or the reprocessing is not needed, the whole printing process is accelerated, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic view of a bottle printer with a suction device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a bottle printer with a suction device at another angle according to an embodiment of the present invention;

FIG. 3 is a rear view of the structure of FIG. 2;

FIG. 4 is a schematic view showing a connection relationship between a first cylinder fixing block and a second cylinder fixing block of the bottle printing machine with the air suction device according to the embodiment of the present invention;

the reference numbers in the figures indicate:

1. bearing post, 2, first bracket, 3, second bracket, 4, vertical sliding tray, 5, first upper and lower sliding plate, 6, second upper and lower sliding plate, 7, printing mount, 8, telescopic cylinder, 9, press the brush, 10, the material loading brush, 11, the spout, 12, upper and lower telescopic bracket, 13, the optical axis, 14, the third slider, 15, the screen frame station, 16, the optical axis base, 17, the cover of breathing in, 18, the aspirator, 19, the bellows, 20, the bottle mount, 21, the lifting support, 22, unable adjustment base, 23, rotating electrical machines, 24, the rotation axis, 25, first cylinder fixed block, 26, second cylinder fixed block, 27, wait to process the bottle.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

Examples

The invention relates to a bottle printing machine with an air suction device, which comprises a lifting mechanism, a sliding mechanism, a printing mechanism, a bottle fixing mechanism and the air suction device.

The lifting mechanism comprises a bearing column 1, a lifting servo module, a lifting sliding module, a first bracket 2 and a second bracket 3. The bearing column 1 is provided with two parallel vertical sliding grooves 4, the lifting servo module is connected with the lifting sliding module, the lifting sliding module comprises a first upper sliding plate 5, a second upper sliding plate 6 and a second lower sliding plate 6, the first upper sliding plate 5 and the second upper sliding plate 6 are vertically arranged on the front surface of the bearing column 1, and the second upper sliding plate 6 and the second lower sliding plate 6 are fixed at the bottom of the first upper sliding plate 5 and the bottom of the first lower sliding plate 5. The back of the first up-down sliding plate 5 is provided with two first sliding blocks, the size and the position of each first sliding block are matched with the vertical sliding groove 4, and the first sliding blocks are arranged in the vertical sliding grooves 4 and can move up and down in the sliding grooves through the driving of the lifting servo module. The first upper and lower sliding plates 5 have a first carriage 2 mounted on the front surface thereof, and the first carriage 2 is fixed with a printing mechanism. The back of the second up-down sliding plate 6 is also provided with two second sliding blocks, the size and the position of the second sliding blocks are matched with the vertical sliding groove 4, and the second sliding blocks are arranged in the vertical sliding groove 4 and can move up and down in the sliding groove through the driving of the lifting servo module. The second upper and lower sliding plates 6 are provided with a second bracket 3 on the front surface, and the second bracket 3 is connected with the sliding mechanism. The lifting servo module adopts a servo motor.

The printing mechanism comprises a printing fixing frame 7, a telescopic cylinder 8 and a brush. One side of printing mount 7 is fixed on first bracket 2, and printing mount 7 top is located to telescopic cylinder 8, sets up two brushes on the printing mount 7, and a brush is used for pressing, and another brush is used for the material loading. Specifically, the method comprises the following steps: the press brush 9 is fixed at the bottom edge of the print holder 7. The other side of the printing fixing frame 7 is provided with a sliding chute 11, an upper telescopic bracket 12 and a lower telescopic bracket 12 are arranged on the sliding chute 11, the upper telescopic bracket 12 and the lower telescopic bracket 12 are connected with a telescopic cylinder 8, and the bottom of the upper telescopic bracket 12 and the lower telescopic bracket 12 are connected with an upper feeding brush 10. When the telescopic cylinder 8 is in a compressed state, the feeding brush 10 is higher than the horizontal plane where the pressing brush 9 is located, and when the telescopic cylinder 8 is in an extended state, the feeding brush 10 extends out and is arranged on the same horizontal plane as the pressing brush 9. The printing fixing frame 7 moves up and down through the first bracket 2 of the lifting mechanism, the telescopic cylinder 8 drives the upper telescopic support 12 and the lower telescopic support 12 to move, and then the feeding brush 10 is driven to move up and down.

The sliding mechanism comprises an optical axis 13, a third sliding block 14 and a screen frame station 15, the optical axis 13 is fixed on an optical axis base 16, the optical axis base 16 is fixed at the bottom of the second bracket 3, the third sliding block 14 is sleeved on the optical axis 13, the other end of the third sliding block 14 is connected with the screen frame station 15, and the screen frame station 15 is arranged under the pressing brush 9 and the feeding brush 10. The third slider 14 is driven by a servo motor. The telescopic cylinder 8 and the servo motor are simultaneously started by connecting the same control switch.

The air suction device comprises an air suction cover 17 and an air suction machine 18 which is arranged at the rear side of the bearing column 1 and is matched with the air suction cover 17 for use, and the air suction cover 17 is connected with the air suction machine 18 through a corrugated pipe 19. An infrared induction device is arranged on the inner wall of the air suction cover 17 and is connected with an air suction machine 18. The infrared sensor device may preferably employ an infrared sensor.

The bottle fixing mechanism comprises a bottle fixing frame 20, a height adjusting module and a rotating motor 23, wherein the height adjusting module comprises a lifting servo motor, a lifting support 21 and a fixing base 22. The lifting support 21 is arranged on the fixed base 22 and is connected with a lifting servo motor. The bottle body fixing frame 20 is arranged on the lifting support 21. The end part of the lifting support 21 is fixed with the rotating motor 23, the rotating shaft 24 of the rotating motor 23 is connected with the first cylinder fixing block 25, the center of the end part of the first cylinder fixing block 25 is provided with the second cylinder fixing block 26, and the outer diameter of the first cylinder fixing block 25 is larger than that of the second cylinder fixing block 26 by 1.5-2 cm. The outer diameter and size of the second cylinder fixing block 26 should match the size and size of the bottle mouth of the bottle 27 to be processed. The length of the second cylinder fixing block 26 is 1-1.2 cm. The second cylinder fixed block 26 can be inserted into the bottle mouth to be processed, the first cylinder fixed block 25 abuts against the edge of the bottle mouth, the rotating motor 23 provides power for the first cylinder fixed block 25 to rotate, and the second cylinder fixed block 26 rotates along with the first cylinder fixed block 25 to further drive the bottle body to be processed to rotate. The opening of the air suction cover 17 corresponds to the position of the bottle body fixing frame 20. The lifting servo motor and the rotating motor 23 are controlled by the same controller, and the two are started simultaneously.

The working principle of the invention is as follows:

the printing material is placed on the printing table of the frame station 15. Before the bottle 27 to be processed is held by a processing person and put into the bottle fixing frame 20, the infrared sensing device of the air suction hood 17 senses the movement of the bottle, and then the air suction machine 18 is controlled to suck air, so that dust on the surface of the bottle is sucked away. When the bottle is placed on the bottle fixing frame 20, the second cylinder fixing block 26 extends into the bottle opening, the first cylinder fixing block 25 abuts against the edge of the bottle opening, the lifting servo motor and the rotating motor 23 are started simultaneously, the lifting support 21 falls down to enable the bottle to be separated from the bottle fixing frame 20, and meanwhile, the rotating motor 23 rotates to drive the second cylinder fixing block 26 to rotate so as to drive the bottle to rotate. Meanwhile, the pressing brush 9 and the feeding brush 10 sink to be close to the screen frame station 15 through the lifting mechanism. The third slider 14 is driven by servo motor, and then drives the horizontal movement of screen frame station 15, the material loading brush 10 starts up through telescopic cylinder 8 and begins up-and-down motion, material loading brush 10 at first moves down, move right or left because of screen frame station 15 and make material loading brush 10 push away to press down brush 10 below with the printing material, material loading brush 9 returns the position that is higher than pressing brush 10 afterwards, press down screen frame station 15 simultaneously according to the hair, and then make screen frame station 15 print the material on the body of bottle, the body of bottle can accomplish the printing of each bottle wall through the rotation. After the completion, the lifting bracket 21 is lifted, the lifting mechanism pulls up the pressing brush 9 and the feeding brush 10, and the frame work station 15 moves in the opposite direction through the third slide block 14 to prepare for the printing of the next bottle 27 to be processed.

And taking down the printed bottle body, passing the bottle body through the corresponding position of the air suction cover 17 again, and enabling the infrared sensing device of the air suction cover 17 to sense the movement of the bottle body so as to control the air suction machine 18 to suck air and suck away the printing residual powder on the surface of the bottle body. The operating frequency of each cylinder and motor is maintained for the subsequent dust removal and printing operations of each bottle 27 to be processed.

The printing machine is provided with the air suction device, and the infrared sensing device senses the bottle body and then sucks air into the bottle body, so that dust is quickly and automatically removed, residual powder is removed, the quality of printed matters is improved, and the influence on the health of workers is reduced. Utilize printing mechanism to adjust from top to bottom, combine slide mechanism to print, wait to process the bottle and cooperate the printing of printing mechanism completion body through the rotating electrical machines rotation, avoided utilizing anchor clamps to adjust the damage or the aversion problem that the bottle position caused among the prior art, reduced the breakage rate of printing processing.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and those skilled in the art can easily conceive of various equivalent modifications or substitutions within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A bottle printing machine with a suction device is characterized by comprising a lifting mechanism, a sliding mechanism, a bottle fixing mechanism and a printing mechanism connected with the lifting mechanism, wherein the lifting mechanism comprises a bearing column (1), a lifting servo module, a lifting sliding module, a first bracket (2) and a second bracket (3), the lifting servo module is connected with the lifting sliding module, the lifting sliding module comprises a first upper sliding plate (5), a second upper sliding plate (6) and a second lower sliding plate (5), the second upper sliding plate (6) and the second upper sliding plate (5) are fixed at the bottom of the first upper sliding plate and the lower sliding plate (5), the first upper sliding plate and the second upper sliding plate (6) are arranged on the front surface of the bearing column (1), sliding blocks are respectively arranged at the back parts of the first upper sliding plate and the second lower sliding plate (6), and a vertical sliding groove (4) matched with the sliding, a first bracket (2) is arranged on the first upper and lower sliding plates (5), a printing mechanism is fixed on the first bracket (2), a second bracket (3) is arranged on the second upper and lower sliding plates (6), the second bracket (3) is connected with the sliding mechanism, and a suction device is arranged at the corresponding position of the bottle body fixing mechanism.

2. The bottle printing machine with the air suction device according to claim 1, wherein the air suction device comprises an air suction cover (17) and an air suction machine (18) matched with the air suction cover (17), an opening of the air suction cover (17) is arranged corresponding to the bottle fixing mechanism, the air suction cover (17) is connected with the air suction machine (18) through a corrugated pipe (19), an infrared sensing device is arranged on the inner wall of the air suction cover (17), and the infrared sensing device is connected with the air suction machine (18).

3. The bottle printing machine with the air suction device according to claim 1, wherein the printing mechanism comprises a printing fixing frame (7), a telescopic cylinder (8), a pressing brush (9) and a feeding brush (10), the telescopic cylinder (8) is arranged at the top of the printing fixing frame (7), one side of the printing fixing frame (7) is fixed on the first bracket (2), the other side of the printing fixing frame is provided with a sliding groove (11), the sliding groove (11) is connected with an upper telescopic bracket and a lower telescopic bracket (12), the upper telescopic bracket and the lower telescopic bracket (12) are connected with the telescopic cylinder (8), the bottom of the upper telescopic bracket and the lower telescopic bracket (12) is connected with the feeding brush (10), the pressing brush (9) is arranged at the bottom of the printing fixing frame (7), and the pressing brush (9) and the feeding brush (10) are arranged above the sliding mechanism.

4. The bottle printing machine with the air suction device according to claim 3, wherein the sliding mechanism comprises an optical axis (13), a third sliding block (14) and a screen frame station (15), the optical axis (13) is fixed on an optical axis base (16), the optical axis base (16) is fixed at the bottom of the second bracket (3), the third sliding block (14) is sleeved on the optical axis (13), the third sliding block (14) is connected with the screen frame station (15), the screen frame station (15) is arranged under the pressing brush (9) and the feeding brush (10), the third sliding block (14) is connected with a servo motor, and the telescopic cylinder (8) and the servo motor are connected with the same control switch.

5. The bottle printing machine with the air suction device according to claim 1, wherein the bottle fixing mechanism comprises a bottle fixing frame (20), a height adjusting module and a rotating motor (23), the height adjusting module comprises a lifting servo motor, a lifting support (21) and a fixing base (22), the lifting support (21) is arranged on the fixing base (22) and connected with the lifting servo motor, the bottle fixing frame (20) is arranged on the lifting support (21), the rotating motor (23) is fixed at the end part of the lifting support (21), and a rotating shaft (24) of the rotating motor (23) is arranged corresponding to a bottle opening of a bottle (27) to be processed on the bottle fixing frame (20).

6. The bottle printing machine with the air suction device according to claim 5, wherein a first cylinder fixing block (25) for abutting against the edge of the bottle mouth of the bottle body (27) to be processed is arranged at the end of the rotating shaft (24) of the rotating motor (23), a second cylinder fixing block (26) for being inserted into the bottle mouth of the bottle body (27) to be processed is arranged at the central position of the end of the first cylinder fixing block (25), the outer diameter of the first cylinder fixing block (25) is larger than that of the second cylinder fixing block (26), and the outer diameter and the size of the second cylinder fixing block (26) are matched with the size and the size of the bottle mouth of the bottle body (27) to be processed.

7. The bottle printing machine with the air suction device as claimed in claim 6, wherein the range that the outer diameter of the first cylinder fixing block (25) is larger than that of the second cylinder fixing block (26) is 1.5-2 cm, and the length of the second cylinder fixing block (26) is 1-1.2 cm.

8. The bottle printing machine with suction device as in claim 6, wherein said lifting servo motor and said rotating motor (23) are connected to the same controller.

9. The bottle printing machine with the air suction device according to claim 3, wherein when the telescopic cylinder (8) is in the compressed state, the feeding brush (10) is higher than the horizontal plane where the pressing brush (9) is located, and when the telescopic cylinder (8) is in the extended state, the feeding brush (10) is extended and is located on the same horizontal plane as the pressing brush (9).

10. The bottle printing machine with the air suction device according to any one of claims 1 to 9, wherein the printing method of the printing machine comprises the following steps: