CN216330902U

CN216330902U - Take self-cleaning's spout seal mechanism

Info

Publication number: CN216330902U
Application number: CN202122768567.1U
Authority: CN
Inventors: 王策鑫
Original assignee: Guangdong Arojet Ink Jet Technology Co ltd
Current assignee: Guangdong Arojet Ink Jet Technology Co ltd
Priority date: 2021-11-12
Filing date: 2021-11-12
Publication date: 2022-04-19
Anticipated expiration: 2031-11-12

Abstract

The utility model provides a jet printing mechanism with automatic cleaning function, which comprises a support frame and an ink jet mechanism arranged on the support frame; the ink-jet mechanism is arranged on the support frame in a manner of moving left and right through a linear slide rail; the ink-jet mechanism comprises a first X-axis driving device, an ink-jet device and a cleaning device; the first X-axis driving device is used for driving the ink-jet device and the cleaning device to move synchronously; the ink-jet device is provided with an ink-jet head; a scraping blade is arranged on the cleaning device; the cleaning device cleans the ink jet head by the blade; this practicality is through setting up cleaning device in inkjet mechanism for along with inkjet device's motion, cleaning device can clean the ink gun at any time, has saved the labour and has increased production efficiency.

Description

Take self-cleaning's spout seal mechanism

Technical Field

The utility model relates to the technical field of ink jet equipment, in particular to a jet printing mechanism with automatic cleaning function.

Background

In the ink jet process, the ink jet device usually has dirt such as residual ink or dust adhered to the ink jet head, and if the ink jet head is not cleaned properly, the ink jet head is blocked, and the ink jet quality is affected.

Currently, most ink jet equipment generally cleans an ink jet head through the following two cleaning modes, 1. a specific cleaning area is arranged, when the ink jet head needs to be cleaned, the ink jet head needs to be moved to the cleaning area, the moving speed of a spray head is slow in the moving process, and if the platform of the ink jet equipment moves farther, the processing efficiency of the ink jet equipment is influenced, and the production time is wasted; 2. the ink gun is cleaned manually by using a wiping cloth or a scraping head, when the ink gun of the ink jet equipment needs cleaning, a common manual cleaning spray head is limited by the space position where the ink gun is installed, the cleaning of the position with smaller space takes time, the production time is wasted, and the labor is increased, so that the improvement is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a jet printing mechanism with automatic cleaning to solve the problems mentioned in the background technology.

In order to achieve the above purpose, the utility model provides the following technical scheme:

a jet printing mechanism with automatic cleaning function comprises a support frame and an ink jet mechanism arranged on the support frame; the ink-jet mechanism is arranged on the support frame in a manner of moving left and right through a linear slide rail; the ink-jet mechanism comprises a first X-axis driving device, an ink-jet device and a cleaning device; the first X-axis driving device is used for driving the ink-jet device and the cleaning device to move synchronously; the ink-jet device is provided with an ink-jet head; a scraping blade is arranged on the cleaning device; the cleaning device cleans the inkjet head by the blade.

The utility model is further described, the support frame is also provided with a rack; the rack is fixed above the support frame.

Further to the present invention, the ink jet mechanism further comprises a first mounting bracket; the first mounting rack is mounted on the support frame in a manner of moving left and right through a linear slide rail; the first X-axis driving device is fixed on the first mounting frame and is in driving connection with the rack; the ink jet device is arranged on the first mounting rack in a manner of moving up and down through the slide rail pair; the cleaning device is fixed on the first mounting frame.

Further describing the present invention, the cleaning apparatus further includes a second mounting bracket, a Y-axis driving apparatus, and a cleaning assembly; the second mounting frame is fixed on the first mounting frame; the Y-axis driving device is fixed on the second mounting rack and is in driving connection with the cleaning assembly; the cleaning assembly comprises a third mounting frame, a second X-axis driving device, an ink recovery box and a mounting block; the ink recovery box is fixed at the front end of the third mounting rack; the ink recovery box is in driving connection with the Y-axis driving device; the second X-axis driving device is fixed on the third mounting frame and is in driving connection with the rear end of the mounting block; the front end of the mounting block is arranged in the ink recovery box; the scraping blade is arranged at the front end of the mounting block and is higher than the ink recovery box.

For further description of the present invention, the inkjet apparatus further comprises a fourth mounting frame and a Z-axis driving device; the fourth mounting rack is mounted on the first mounting rack in a manner of being capable of moving up and down through the slide rail pair; the Z-axis driving device is installed on the fourth mounting frame, and a power output end of the Z-axis driving device is connected with the first mounting frame; the inkjet head is installed below the mounting bracket.

In a further description of the present invention, the cleaning device, the first mounting frame and the ink-jet device are respectively provided with a stroke sensor.

The utility model has the beneficial effects that:

according to the jet printing mechanism with the automatic cleaning function, the cleaning device is arranged in the ink jet mechanism, so that the cleaning device can clean the ink jet head at any time along with the movement of the ink jet device, the labor force is saved, and the production efficiency is improved compared with the conventional mode that the ink jet head is cleaned by moving to a set cleaning area or manually.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall elevational view of the present invention;

FIG. 3 is a left side view of the utility model as a whole;

FIG. 4 is a bottom plan view of the present invention as a whole;

FIG. 5 is a block diagram of a first X-axis drive, an ink jet device and a first mounting frame of the present invention;

FIG. 6 is a block diagram of the cleaning device of the present invention;

FIG. 7 is a block diagram of the cleaning assembly of the present invention;

fig. 8 is a partial structural view of the cleaning device of the present invention.

Reference numerals:

1. a support frame; 11. a rack; 2. an ink jet mechanism; 21. a first X-axis drive; 22. an ink jet device; 221. an ink jet head; 222. a fourth mounting bracket; b1, a protection plate; 223. a Z-axis drive device; 23. a cleaning device; 231. a second mounting bracket; 232. a Y-axis drive device; 233. a cleaning assembly; a1, a doctor blade;

a2, a third mounting rack; a3, a second X-axis driving device; a4, ink recovery box; a41, a through hole; a5, mounting blocks; 24. a first mounting bracket; 3. a travel sensor.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 5, an automatic cleaning mechanism on an inkjet head 221 includes a support frame 1, and an inkjet mechanism 2 mounted on the support frame 1; the ink-jet mechanism 2 is arranged on the support frame 1 in a way of moving left and right through a linear slide rail; the ink ejection mechanism 2 includes a first X-axis drive device 21, an ink ejection device 22, and a cleaning device 23; the first X-axis driving device 21 is used for driving the ink jet device 22 and the cleaning device 23 to move synchronously; the cleaning device 23 is arranged on the ink jet mechanism 2, and the first X-axis driving device 21 drives the ink jet device 22 and the cleaning device 23 to synchronously move, so that the cleaning device 23 cleans the ink jet head 221 at any time and any place, and the ink jet head 221 does not need to be moved to a cleaning area or cleaned manually, thereby increasing the processing efficiency and facilitating the cleaning of the ink jet head 221; the inkjet device 22 is provided with an inkjet head 221; the cleaning device 23 is provided with a scraping blade A1; the cleaning device 23 cleans the inkjet head 221 by the blade a 1; the support frame 1 is also provided with a rack 11; the rack 11 is fixed above the support frame 1; the ink ejection mechanism 2 further includes a first mounting bracket 24; the first mounting rack 24 is installed on the support frame 1 in a manner of moving left and right through a linear slide rail; the first X-axis driving device 21 is fixed on the first mounting frame 24 and is in driving connection with the rack 11; the power output end of the first X-axis driving device 21 is provided with a gear which is connected with the rack 11, so that the first X-axis driving device 21 drives the gear to drive the ink-jet device 22 and the cleaning device 23 to synchronously move when the gear is driven, and the stability of movement is improved by the driving mode of the gear and the rack 11; the ink jet device 22 is mounted on the first mounting frame 24 by a slide rail pair in a manner of moving up and down; the cleaning device 23 is fixed on the first mounting frame 24; the inkjet device 22 further includes a fourth mount 222 and a Z-axis drive 223; the fourth mounting bracket 222 is mounted on the first mounting bracket 24 by a slide rail pair in a manner of moving up and down; the Z-axis driving device 223 is arranged on the fourth mounting frame 222, and the power output end is connected with the first mounting frame 24; the inkjet head 221 is mounted below the fourth mounting bracket 222, and a protection plate B1 is disposed on the fourth mounting bracket 222, so that when the inkjet device 22 does not operate, the protection plate B1 can protect the inkjet head 221 from contamination.

As shown in fig. 1 to 8, the cleaning device 23 further includes a second mounting frame 231, a Y-axis driving device 232, and a cleaning assembly 233; the second mounting frame 231 is fixed to the first mounting frame 24; the Y-axis driving device 232 is fixed on the second mounting frame 231 and is in driving connection with the cleaning assembly 233; the cleaning assembly 233 includes a third mounting bracket a2, a second X-axis drive A3, an ink recovery cartridge a4, and a mounting block a 5; the ink recovery box A4 is fixed at the front end of the third mounting rack A2; the ink recovery box A4 is in driving connection with the Y-axis driving device 232; the ink recovery box A4 is arranged to recover the residual ink on the ink jet head 221, and is provided with a through hole A41, and the ink in the ink recovery box is recovered through a through hole A41; the second X-axis driving device A3 is fixed on the third mounting bracket A2 and is in driving connection with the rear end of the mounting block A5; the second X-axis driving device A3 adopts a lead screw driving device; the screw rod driving device comprises a driving motor, a screw rod and a screw rod seat, the driving motor is fixed on the third mounting frame A2, and the screw rod is arranged on the third mounting frame A2 and is connected with the power output end of the driving motor; the screw rod seat is arranged on the screw rod and is in driving connection with the rear end of the mounting block A5, when the automatic cleaning device works actually, the driving motor moves to drive the screw rod to rotate, so that the screw rod seat moves left and right, the screw rod seat moves left and right to drive the mounting block A5 to move left and right, and the mounting block A5 moves to drive the scraping blade A1 to move so as to clean the ink gun 221; the front end of the mounting block A5 is arranged in the ink recovery box A4; the scraping blade A1 is arranged at the front end of the mounting block A5 and is higher than the ink recovery box A4; the cleaning device 23, the first mounting frame 24 and the ink jet device 22 are respectively provided with a stroke sensor 3; the stroke sensor 3 can ensure the accuracy of the up-and-down movement of the ink-jet mechanism 2, the left-and-right movement of the ink-jet device 22 and the cleaning device 23 and the left-and-right movement of the scraping blade A1 in the cleaning device 23; in practical operation, when the inkjet head 221 is cleaned, the Z-axis driving device 223 drives the fourth mounting bracket 222 to move upwards, so that the inkjet device 22 moves upwards, and after the inkjet head 221 rises to a position higher than the cleaning device 23, the Y-axis driving device 232 drives the cleaning assembly 233 to move forwards, so that the ink recovery box a4 moves below the inkjet head 221, the inkjet device 22 controls the inkjet head 221 to perform an ink squeezing operation, so that the residual ink in the inkjet head 221 flows into the ink recovery box a4, and is recovered and utilized by the ink recovery box a4, after the ink squeezing is completed, the mounting block a5 is driven to move left and right by the second X-axis driving device A3, so that the blade a1 is driven to move left and right, so that the inkjet head 221 is cleaned, after the cleaning assembly 233 is driven to move backwards to the original position by the Y-axis driving device 232, and the fourth mounting bracket 222 is driven to move downwards by the Z-axis driving device 223, therefore, the ink jet device 22 moves downwards, the first X-axis driving device 21 drives the code spraying mechanism to move left and right, and code spraying work is continued.

Compared with the prior art, the cleaning device 23 is arranged in the ink jet mechanism 2, so that the cleaning device 23 can clean the ink jet head 221 at any time along with the movement of the ink jet device 22, the labor force is saved, and the production efficiency is increased.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention still fall within the technical scope of the present invention.

Claims

1. The utility model provides a take self-cleaning's spout seal mechanism which characterized in that: comprises a support frame and an ink-jet mechanism arranged on the support frame; the ink-jet mechanism is arranged on the support frame in a manner of moving left and right through a linear slide rail; the ink-jet mechanism comprises a first X-axis driving device, an ink-jet device and a cleaning device; the first X-axis driving device is used for driving the ink-jet device and the cleaning device to move synchronously; the ink-jet device is provided with an ink-jet head; a scraping blade is arranged on the cleaning device; the cleaning device cleans the inkjet head by the blade.

2. The jet printing mechanism with automatic cleaning function of claim 1, wherein: the support frame is also provided with a rack; the rack is fixed above the support frame.

3. The jet printing mechanism with automatic cleaning function of claim 2, wherein: the ink jetting mechanism further comprises a first mounting bracket; the first mounting rack is mounted on the support frame in a manner of moving left and right through a linear slide rail; the first X-axis driving device is fixed on the first mounting frame and is in driving connection with the rack; the ink jet device is arranged on the first mounting rack in a manner of moving up and down through the slide rail pair; the cleaning device is fixed on the first mounting frame.

4. The jet printing mechanism with automatic cleaning function of claim 3, wherein: the cleaning device also comprises a second mounting frame, a Y-axis driving device and a cleaning assembly; the second mounting frame is fixed on the first mounting frame; the Y-axis driving device is fixed on the second mounting rack and is in driving connection with the cleaning assembly; the cleaning assembly comprises a third mounting frame, a second X-axis driving device, an ink recovery box and a mounting block; the ink recovery box is fixed at the front end of the third mounting rack; the ink recovery box is in driving connection with the Y-axis driving device; the second X-axis driving device is fixed on the third mounting frame and is in driving connection with the rear end of the mounting block; the front end of the mounting block is arranged in the ink recovery box; the scraping blade is arranged at the front end of the mounting block and is higher than the ink recovery box.

5. The jet printing mechanism with automatic cleaning function of claim 1, wherein: the ink-jet device also comprises a fourth mounting frame and a Z-axis driving device; the fourth mounting rack is mounted on the first mounting rack in a manner of being capable of moving up and down through the slide rail pair; the Z-axis driving device is installed on the fourth mounting frame, and a power output end of the Z-axis driving device is connected with the first mounting frame; the inkjet head is installed below the mounting bracket.

6. The jet printing mechanism with automatic cleaning function of claim 1, wherein: and stroke sensors are respectively arranged on the cleaning device, the first mounting frame and the ink jet device.