CN210680037U

CN210680037U - Automatic change screen printing device

Info

Publication number: CN210680037U
Application number: CN201921214986.7U
Authority: CN
Inventors: 金子光
Original assignee: Zhijiang Xinhua Printing Co Ltd
Current assignee: Zhijiang Xinhua Printing Co Ltd
Priority date: 2019-07-30
Filing date: 2019-07-30
Publication date: 2020-06-05
Anticipated expiration: 2029-07-30

Abstract

The utility model provides an automatic change screen printing device, includes the workstation seat, workstation seat middle part be equipped with the fluting, the fluting both sides are equipped with a silk screen board brace table respectively, be equipped with the silk screen board in the silk screen board brace table, the fluting top is equipped with door type frame, be equipped with in the door type frame along workstation seat direction of delivery's bar opening, be equipped with in the bar opening can gliding first slider, the bottom of first slider is equipped with the dead lever, the lower extreme of dead lever is equipped with the scraper blade. By adopting the structure, automatic screen printing operation can be realized, and the screen plate can be replaced more quickly and conveniently for the printing operation needing double-sided printing.

Description

Automatic change screen printing device

Technical Field

The utility model relates to a lithography apparatus field, especially an automatic change screen printing device.

Background

The silk screen printing refers to that a silk screen is used as a plate base, and a silk screen printing plate with pictures and texts is manufactured by a photosensitive plate making method. The screen printing is composed of five major elements, namely a screen printing plate, a scraper, ink, a printing table and a printing stock. The basic principle that the meshes of the image-text part and the non-image-text part of the screen printing plate are permeable to ink and impermeable to ink is utilized to print. When printing, ink is poured into one end of the screen printing plate, a scraper plate is used for applying a certain pressure to the ink position on the screen printing plate, meanwhile, the scraper plate moves towards the other end of the screen printing plate at a constant speed, and the ink is extruded onto a printing stock from meshes of the image-text part by the scraper plate in the moving process.

The existing screen printing mode generally depends on manual feeding and scraping, the labor intensity is high, the printing efficiency is low, and meanwhile, due to the fact that the shape of a hollow area on a screen plate is fixed, the screen plate needs to be replaced manually and repeatedly for printing stocks needing double-sided printing, and the efficiency of printing operation is further reduced.

Disclosure of Invention

The utility model aims to solve the technical problem that an automatic change screen printing device is provided, can realize automatic screen printing operation to the printing operation that needs two-sided printing, it is more swift convenient to change the silk screen board.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides an automatic change screen printing device, includes the workstation seat, workstation seat middle part be equipped with the fluting, the fluting both sides are equipped with a silk screen board brace table respectively, be equipped with the silk screen board in the silk screen board brace table, the fluting top is equipped with door type frame, be equipped with in the door type frame along workstation seat direction of delivery's bar opening, be equipped with in the bar opening can gliding first slider, the bottom of first slider is equipped with the dead lever, the lower extreme of dead lever is equipped with the scraper blade.

In the preferred scheme, the two sides of the top surface of the workbench are provided with side baffles, the side baffles form fractures on the two sides of the slot, and the top surfaces of the workbench at the two ends of the slot are provided with conveying rollers.

In the preferred scheme, the wire mesh plate supporting platform is supported and fixed through the supporting legs, and the top surface of the wire mesh plate supporting platform is flush with the bottom surface of the groove.

In a preferred scheme, the wire mesh plate comprises frames positioned at two sides of the wire mesh plate, wherein one frame is provided with a handle.

In the preferred scheme, one end of the door-shaped frame is provided with an L-shaped supporting plate, a motor is arranged on the supporting plate, a threaded rod along the transmission direction of the working table seat is arranged in the strip-shaped opening, and one end of the threaded rod penetrates through the door-shaped frame and is connected with a rotating shaft of the motor through a coupling;

the threaded rod passes through the first sliding block and is in threaded connection with the first sliding block.

In the preferred scheme, door type frame top be equipped with the dyestuff jar, be equipped with the dyestuff export on the dyestuff jar lateral wall, wear to be equipped with the dyestuff output tube on the door type frame top surface, connect through connecting hose between dyestuff output tube and the dyestuff export, be equipped with the dyestuff valve on the dyestuff export.

In the preferred scheme, the lower end of the fixed rod is provided with a U-shaped frame, the U-shaped frame is provided with a horizontal fixed shaft, the fixed shaft penetrates through the scraper plate, and a torsion spring is arranged between the fixed shaft and the scraper plate.

In the preferred scheme, printing stock fixing mechanisms are further respectively arranged on the side edge baffle plates at two ends of the door-shaped frame, each printing stock fixing mechanism comprises two vertical plates which are oppositely arranged, vertical guide grooves are formed in opposite surfaces of the two vertical plates, second sliding blocks are arranged in the guide grooves, and fixing compression rollers are arranged between the two second sliding blocks in each printing stock fixing mechanism.

In a preferable scheme, a compression spring is arranged between the top surface of the second sliding block and the top surface of the guide groove.

The utility model provides an automatic change screen printing device through adopting above-mentioned structure, has following beneficial effect:

(1) the automatic operation of the screen printing operation is realized, and the efficiency of the screen printing operation is improved;

(2) the method realizes a more efficient and rapid screen plate replacing mode and improves the double-sided printing efficiency;

(3) the stability of the printing stock in the printing process is guaranteed, and the printing quality is improved.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the door-shaped frame structure of the present invention.

Fig. 3 is a schematic view of the scraper structure of the present invention.

Fig. 4 is a schematic view of the structure of the wire mesh plate of the present invention.

Fig. 5 is a schematic structural view of the printing material fixing mechanism of the present invention.

In the figure: the printing material dyeing machine comprises a workbench base 1, a side baffle 101, a slot 102, a screen plate supporting table 2, supporting legs 3, a screen plate 4, a frame 401, a handle 402, a door-shaped frame 5, a strip-shaped opening 501, a threaded rod 502, a first sliding block 6, a fixing rod 601, a dye tank 7, a dye output pipe 701, a dye outlet 702, a connecting hose 703, a U-shaped frame 8, a scraper 9, a fixing shaft 10, a torsion spring 11, a supporting plate 12, a motor 13, a printing material fixing mechanism 14, a vertical plate 141, a guide groove 142, a second sliding block 143, a compression spring 144, a conveying roller 15 and a fixing compression roller 16.

Detailed Description

As shown in fig. 1-5, an automatic screen printing device comprises a working table base 1, wherein a slot 102 is formed in the middle of the working table base 1, a screen plate supporting table 2 is respectively arranged on two sides of the slot 102, a screen plate 4 is arranged in the screen plate supporting table 2, a door-shaped frame 5 is arranged above the slot 102, a bar-shaped opening 501 is formed in the door-shaped frame 5 along the conveying direction of the working table base 1, a first sliding block 6 capable of sliding is arranged in the bar-shaped opening 501, a fixing rod 601 is arranged at the bottom of the first sliding block 6, and a scraper 9 is arranged at the lower end of the fixing rod 601.

In a preferred scheme, side baffles 101 are arranged on two sides of the top surface of the workbench base 1, a fracture is formed on two sides of the slot 102 by the side baffles 101, and conveying rollers 15 are arranged on the top surfaces of the workbench bases 1 at two ends of the slot 102.

By adopting the structure, the purpose of automatic transmission of the printing stock is realized.

In a preferred scheme, the wire mesh plate support platform 2 is supported and fixed through the support legs 3, and the top surface of the wire mesh plate support platform 2 is flush with the bottom surface of the slot 102.

In a preferred embodiment, the wire mesh plate 4 includes frames 401 located at two sides of the wire mesh plate 4, wherein a handle 402 is provided on one of the frames 401.

The screen plate 4 is manually pushed by the handle 402 to replace the screen plate 4.

In a preferable scheme, one end of the door-shaped frame 5 is provided with an L-shaped supporting plate 12, the supporting plate 12 is provided with a motor 13, a threaded rod 502 along the transmission direction of the working table base 1 is arranged in the strip-shaped opening 501, and one end of the threaded rod 502 penetrates through the door-shaped frame 5 and is connected with a rotating shaft of the motor 13 through a coupling;

the threaded rod 502 is arranged by penetrating through the first sliding block 6, and the threaded rod 502 is in threaded connection with the first sliding block 6.

With the above structure, the first slider 6 is moved in the bar-shaped opening 501 by starting the motor 12, so that the purpose of scraping and printing is achieved.

In the preferred scheme, a dye tank 7 is arranged at the top of the door-shaped frame 5, a dye outlet 702 is arranged on the side wall of the dye tank 7, a dye output pipe 701 penetrates through the top surface of the door-shaped frame 5, the dye output pipe 701 is connected with the dye outlet 702 through a connecting hose 703, and a dye valve is arranged on the dye outlet 702.

In a preferable scheme, a U-shaped frame 8 is arranged at the lower end of the fixing rod 601, a horizontal fixing shaft 10 is arranged on the U-shaped frame 8, the fixing shaft 10 penetrates through the scraper 9, and a torsion spring 11 is arranged between the fixing shaft 10 and the scraper 9.

By adopting the structure, the scraper blade 9 is tightly attached to the screen plate 4, so that the printing quality is improved.

In a preferable scheme, the side edge blocking plates 101 at two ends of the gate-type frame 5 are further provided with printing material fixing mechanisms 14 respectively, each printing material fixing mechanism 14 comprises two vertical plates 141 arranged oppositely, vertical guide grooves 142 are arranged on opposite surfaces of the two vertical plates 141, second sliding blocks 143 are arranged in the guide grooves 142, and a fixing press roller 16 is arranged between the two second sliding blocks 143 in each printing material fixing mechanism 14.

The printing stock fixing mechanism 14 can ensure the stability of the printing stock in the printing process and avoid the condition that the sliding of the printing stock causes the blurring of printed patterns or characters.

In a preferred embodiment, a compression spring 144 is disposed between the top surface of the second sliding block 143 and the top surface of the guide groove 142.

The compression spring 144 is provided to ensure that the fixed pressure roller 16 is always pressed down against the substrate.

By adopting the structure, the automatic screen printing operation is realized, and the efficiency of the screen printing operation is improved; the method realizes a more efficient and rapid screen plate replacing mode and improves the double-sided printing efficiency; the stability of the printing stock in the printing process is guaranteed, and the printing quality is improved.

Claims

1. The utility model provides an automatic change screen printing device, includes workstation seat (1), characterized by: working table seat (1) middle part be equipped with fluting (102), fluting (102) both sides are equipped with a silk screen board brace table (2) respectively, be equipped with silk screen board (4) in silk screen board brace table (2), fluting (102) top is equipped with door type frame (5), be equipped with on door type frame (5) along bar opening (501) of working table seat (1) direction of delivery, be equipped with in bar opening (501) and can gliding first slider (6), the bottom of first slider (6) is equipped with dead lever (601), the lower extreme of dead lever (601) is equipped with scraper blade (9).

2. An automated screen printing apparatus according to claim 1, wherein: the side baffle plate (101) is arranged on two sides of the top surface of the working table base (1), a fracture is formed on two sides of the slot (102) by the side baffle plate (101), and conveying rollers (15) are arranged on the top surfaces of the working table bases (1) at two ends of the slot (102).

3. An automated screen printing apparatus according to claim 1, wherein: the wire mesh plate supporting platform (2) is supported and fixed through the supporting legs (3), and the top surface of the wire mesh plate supporting platform (2) is flush with the bottom surface of the groove (102).

4. An automated screen printing apparatus according to claim 1, wherein: the wire mesh plate (4) comprises frames (401) positioned at two sides of the wire mesh plate (4), wherein one frame (401) is provided with a handle (402).

5. An automated screen printing apparatus according to claim 1, wherein: an L-shaped supporting plate (12) is arranged at one end of the door-shaped frame (5), a motor (13) is arranged on the supporting plate (12), a threaded rod (502) along the transmission direction of the working table seat (1) is arranged in the strip-shaped opening (501), and one end of the threaded rod (502) penetrates through the door-shaped frame (5) and is connected with a rotating shaft of the motor (13) through a coupler;

the threaded rod (502) passes through the first sliding block (6) and is in threaded connection with the first sliding block (6).

6. An automated screen printing apparatus according to claim 1, wherein: door type frame (5) top be equipped with dye jar (7), be equipped with dyestuff export (702) on dye jar (7) lateral wall, wear to be equipped with dyestuff output tube (701) on door type frame (5) top surface, be connected through coupling hose (703) between dyestuff output tube (701) and the dyestuff export (702), be equipped with the dyestuff valve on dyestuff export (702).

7. An automated screen printing apparatus according to claim 1, wherein: the lower end of the fixed rod (601) is provided with a U-shaped frame (8), the U-shaped frame (8) is provided with a horizontal fixed shaft (10), the fixed shaft (10) penetrates through the scraper (9), and a torsion spring (11) is arranged between the fixed shaft (10) and the scraper (9).

8. An automated screen printing apparatus according to claim 1, wherein: the printing material fixing mechanism is characterized in that side edge baffle plates (101) at two ends of the door-shaped frame (5) are respectively provided with a printing material fixing mechanism (14), each single printing material fixing mechanism (14) comprises two vertical plates (141) which are oppositely arranged, vertical guide grooves (142) are formed in opposite surfaces of the two vertical plates (141), second sliding blocks (143) are arranged in the guide grooves (142), and fixing compression rollers (16) are arranged between the two second sliding blocks (143) in each single printing material fixing mechanism (14).

9. An automated screen printing apparatus according to claim 8, wherein: and a compression spring (144) is arranged between the top surface of the second sliding block (143) and the top surface of the guide groove (142).