CN210590973U - A silk screen printing device for circuit board automatic production equipment - Google Patents

Abstract

The screen printing device for the automatic circuit board production equipment comprises a dust removal assembly and a material pushing assembly, wherein the dust removal assembly and the material pushing assembly are symmetrically arranged on two sides of the screen printing device; the screen printing device comprises a screen printing part, a guide part and a screen printing guide rail, wherein the guide part is assembled on the feeding table, the screen printing guide rail is assembled on the guide part, and the screen printing part is assembled on the screen printing guide rail; the dust removal component comprises a dust removal piece, a dust removal connecting rod and a dust removal connecting plate, the dust removal piece is connected to the dust removal connecting plate through the dust removal connecting rod, and the dust removal connecting plate is assembled on the guide piece; the material pushing assembly comprises a material pushing piece and a material pushing cylinder, the material pushing piece is connected to the material pushing cylinder, and the material pushing cylinder is connected to the feeding table. The dust removal component automatically removes dust attached to the substrate, and the silk screen printing piece carries out printing ink silk screen printing to the substrate, and consequently, the silk screen printing device can accomplish dust removal and printing ink silk screen printing automatically, improves production efficiency.

Description

A silk screen printing device for circuit board automatic production equipment

Technical Field

This reality is new belongs to circuit board technical field, concretely relates to silk screen printing device for circuit board automatic production equipment.

Background

The traditional circuit board production mostly adopts a subtractive method, and the process flow is as follows: inner layer-press film-exposure-development-etching-film-removing-plate-laminating-press-bonding-drilling-hole-forming-press film-exposure-development-copper-tin-plating-film-removing-etching-tin-removing-screen printing-surface process. Therefore, the subtractive method has the defects of complex process, high technical requirement, large occupied factory area and the like. Some manufacturers currently adopt an additive method to produce circuit boards, however, the existing circuit board production line applying the additive method mostly uses production line personnel to hold the substrate for dust removal before silk screen printing, and therefore, the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The main purpose of this reality is to provide a extracting device who is used for circuit board automatic production equipment that improves production efficiency.

In order to achieve the main purpose, the newly provided screen printing device for the automatic circuit board production equipment comprises a dust removal assembly and a material pushing assembly, wherein the dust removal assembly and the material pushing assembly are symmetrically arranged on two sides of the screen printing device; the screen printing device comprises a screen printing part, a guide part and a screen printing guide rail, wherein the guide part is assembled on the feeding table, the screen printing guide rail is assembled on the guide part, and the screen printing part is assembled on the screen printing guide rail; the dust removal component comprises a dust removal piece, a dust removal connecting rod and a dust removal connecting plate, the dust removal piece is connected to the dust removal connecting plate through the dust removal connecting rod, and the dust removal connecting plate is assembled on the guide piece; the material pushing assembly comprises a material pushing piece and a material pushing cylinder, the material pushing piece is connected to the material pushing cylinder, and the material pushing cylinder is connected to the feeding table.

According to the scheme, the dust removing component automatically removes dust attached to the substrate, and the silk-screen printing component performs ink silk-screen printing on the substrate, so that the silk-screen printing device can automatically complete dust removal and ink silk-screen printing, and production efficiency is improved.

Drawings

The present embodiment is further described with the aid of the accompanying drawings, but the embodiments in the drawings do not constitute any limitation to the present embodiment, and for those skilled in the art, other drawings may be obtained from the following drawings without inventive effort.

Fig. 1 is a structural diagram of an automatic circuit board production device to which an embodiment of the material taking device is applied.

Fig. 2 is a structural view of a feeding table of an embodiment of the automatic circuit board production equipment shown in fig. 1.

Fig. 3 is a structural diagram of a material taking device of the embodiment of the automatic circuit board production equipment shown in fig. 1.

Fig. 4 is a structural diagram of an embodiment of a screen printing device.

Fig. 5 is an exploded view of the pushing assembly of the embodiment of the screen printing device.

Fig. 6 is a structural diagram of a screen printing device according to an embodiment of the present invention after hiding parts.

Fig. 7 is a partial cross-sectional view of an embodiment of a screen printing apparatus according to the present invention.

Fig. 8 is a partially enlarged view of the structure shown in fig. 7.

Fig. 9 is a partial sectional view of a curing device of an embodiment of the automatic circuit board manufacturing apparatus shown in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present teachings and are not intended to limit the present teachings.

Referring to fig. 1 and 2, the automatic circuit board production equipment 100 using the screen printing device 6 of the embodiment includes a feeding table 1 and a spraying device 2, the spraying device 2 is arranged on the feeding table 1, a feeding member 3 is arranged on the feeding table 1, the automatic circuit board production equipment 100 further includes a material taking device 5, a screen printing device 6 and a curing device 7, the material taking device 5 is arranged on a feeding area 8 and a discharging area 9 of the feeding table 1, the screen printing device 6 and the curing device 7 are arranged between the feeding area 8 and the discharging area 9, and the spraying device 2 is arranged between the curing device 7 and the discharging area 9. The feeding pieces 3 are rotating wheels which are oppositely arranged into two rows. The feeding area 8 comprises a feeding placing area 10 and a feeding conveying area 11, and the feeding placing area 10 and the feeding conveying area 11 are respectively provided with a material taking device 5. The blanking area 9 comprises a blanking placing area 12 and a blanking conveying area 13, the blanking placing area 12 and the blanking conveying area 13 are respectively provided with a material taking device 5, and the feeding area 8 and the blanking area 9 are respectively provided with a control platform.

Referring to fig. 3, the material taking device 5 includes a material taking member 15, a material taking positioning frame 16 and a material taking guide rail 17, the material taking member 15 is assembled on the material taking positioning frame 16, and the material taking positioning frame 16 is assembled on the material taking guide rail 17. The material taking positioning rack 16 includes a first lever 18 and a second lever 19, the number of the first levers 18 being two, the number of the second levers 19 being two, the material taking member 15 being fitted to the first lever 18, the first lever 18 being detachably connected to the second lever 19. The material taking positioning frame 16 comprises a material taking air cylinder 20, a first connecting piece 21, a fixing plate 23, a second connecting piece 22 and a transmission rod 24, wherein the first connecting piece 21 is connected with the fixing plate 23 and the second rod 19, the fixing plate 23 is connected with the first connecting piece 21 and the second connecting piece 22, the second connecting piece 22 is connected with the fixing plate 23 and the transmission rod 24, the transmission rod 24 is connected with a piston rod of the material taking air cylinder 20, and the first connecting piece 21 and the second connecting piece 22 are arranged on two sides of the transmission rod 24. The material taking part 15 is a vacuum suction nozzle. Get material 15 fixed base plate, get material locating rack 16 and drive along getting material guide rail 17 and get material 15 and remove, the base plate is along getting material 15 synchronous motion, consequently, gets material 15 and can remove the base plate to the conveying district of circuit board automatic production equipment automatically, improves production efficiency.

Referring to fig. 4 and 5, the screen printing device 6 includes a dust removing assembly 25 and a material pushing assembly 26, the dust removing assembly 25 is symmetrically arranged on two sides of the screen printing device 6, and the material pushing assembly 26 is located in the screen printing device 6; the screen printing device 6 comprises a guide 27 and a screen printing guide rail 28, the guide 27 is assembled on the feeding table 1, and the screen printing guide rail 28 is assembled on the guide 27. The dust removing component 25 comprises a dust removing piece 29, a dust removing connecting rod 30 and a dust removing connecting plate 31, wherein the dust removing piece 29 is connected to the dust removing connecting plate 31 through the dust removing connecting rod 30, and the dust removing connecting plate 31 is assembled on the guide piece 27. The pushing assembly 26 comprises a pushing piece 32 and a pushing cylinder 46, the pushing piece 32 is connected to the pushing cylinder 46, and the pushing cylinder 46 is connected to the feeding table 1. The number of the pushing assemblies 26 is two, and the silk screen printing piece 33 is assembled on the silk screen printing guide rail 28. The silk-screen member 33 and the dust-removing member 29 can be moved vertically along the guide member 27 at the same time, and the silk-screen member 33 can be moved horizontally along the silk-screen guide rail 28.

Referring to fig. 5, the pushing assembly 26 further includes a pushing guide rail 47 and a pushing slider 48, and the pushing slider 48 is sleeved on the pushing guide rail 47. The first portion 49 of the ejector member 32 is fitted to the ejector slider 48. The second portion 50 of the pusher 32 abuts the piston of the pusher cylinder. The pushing assembly 26 comprises a connecting frame 51, the connecting frame 51 comprises a vertical plate 52, a first transverse plate 53 and a second transverse plate 54, and the vertical plate 52 is connected with the first transverse plate 53 and the second transverse plate 54. The pushing cylinder 46 is mounted on the bottom surface of the first horizontal plate 53, and the pushing rail 47 is mounted on the top surface of the first horizontal plate 53. The dust removing assembly 25 automatically removes dust attached to the substrate, and the silk-screen printing part 33 performs ink silk-screen printing on the substrate.

Referring to fig. 6 to 8, the screen printing device 6 includes a positioning assembly 57, a first object carrier 58 and a second object carrier 59, and a pushing assembly 26 and the positioning assembly 57 are disposed between the first object carrier 58 and the second object carrier 59. The positioning assembly 57 includes a positioning cylinder 60 and a positioning plate 61 connected to a piston rod of the positioning cylinder 60. The first luggage carrier 58 is arranged with a stop cylinder 62 and a stop plate 63, the stop plate 63 is connected to a piston rod of the stop cylinder 62. The screen printing device 6 further comprises an auxiliary cylinder 66, an auxiliary frame 64 and an auxiliary wheel 65, wherein the auxiliary cylinder 66, the auxiliary frame 64 and the auxiliary wheel 65 are respectively arranged at two ends of the first object carrier 58 and the second object carrier 59, a piston rod of the auxiliary cylinder 66 is connected to the auxiliary frame 64, and the auxiliary wheel 65 is assembled on the auxiliary frame 64. Each auxiliary wheel 65 is connected with a feeding member 3 through a conveyor belt 67, the base plate moves to the preset position of the first carrier frame 58 and the second carrier frame 59 along with the conveyor belt 67, the positioning plate 61 abuts against the base plate, the stop plate 63 and the stop cylinder 62 clamp the conveyor belt 67, the conveyor belt 67 stops conveying, the base plate is positioned on the first carrier frame 58 and the second carrier frame 59, and the silk-screen printing member 33 conducts ink silk-screen printing on the base plate. Therefore, the screen printing device 6 can automatically complete dust removal and ink screen printing, and production efficiency is improved. The pushing member 32 further includes a pushing portion 55, the pushing portion 55 is fixed to the first portion 49, the pushing portion 55 is a cylinder, and a limiting ring 56 is disposed on an outer wall of the pushing portion 55. After the screen printing process is completed, the PCB substrate is borne on the first portion 49, the pushing portion 55 abuts against the PCB substrate, the pushing cylinder 46 applies force to the second portion 50, the pushing piece 32 moves along with the pushing portion, the positioning plate 61 moves towards the feeding table 1, the stop plate 63 moves away from the stop cylinder 62, the conveyor belt 67 moves immediately, and the pushing portion 55 moves synchronously to convey the PCB substrate after the screen printing process is completed to a device for executing the next process.

Referring to fig. 9, the curing device 7 includes a lamp housing 34, an adjusting member 35 and a ventilating member 36, the lamp housing 34 is connected to the adjusting member 35, the lamp housing 34 and the adjusting member 35 are both located in the curing device 7, the ventilating member 36 is disposed on the top wall of the curing device 7, the ventilating member 36 is connected to an exhaust port 37 of the curing device 7 through a pipeline, the number of the curing device 7 is two, and the ventilating member 36 is an exhaust fan. The curing device 7 comprises dust-proof pieces 38, which dust-proof pieces 38 are arranged at the side walls of the curing device 7. The dust shield 38 is a dust louver. The solidifying device 7 comprises a connecting column 39 which is connected with the lampshade 34 and the positioning part 35, the positioning part 35 comprises a positioning groove 40 and a movable groove 41, the connecting column 39 is abutted against the groove wall of the positioning groove 40, and the positioning groove 40 is communicated with the movable groove 41. Each curing device 7 includes two lamp housings 34, and two positioning members 35 are disposed at both ends of each lamp housing 34. Two air ports 42 are provided inside the curing device 7, and the air ports 42 communicate with the exhaust port 37.

Referring to fig. 1 to 6, a user transports a plurality of substrates to the feeding placement area 10 by using a forklift, the material taking device 5 located in the feeding placement area 10 sucks one substrate 43, and the material taking device 5 located in the feeding transport area 11 places the substrate on the feeder 3. The feeder 3 transfers the substrate 43 to the carrying portion of the screen printing device 6, and the screen printing part 33 performs ink screen printing on the substrate 43. After the ink screen printing process is completed, the material pushing cylinder pushes the material pushing part 32, the substrate moves into the curing device 7 under the action of the material pushing part 32 and the material feeding part 3, and the curing device 7 carries out UV curing on the substrate. And (3) moving the substrate after the UV curing to the spraying device 2 under the action of the feeding piece 3, and automatically spraying copper powder on the copper powder line by the spraying device 2. Subsequently, the circuit board 45 is moved to the blanking conveying area 13, the material taking device 5 located in the blanking conveying area 13 sucks the circuit board 45, the material taking device 5 located in the blanking placing area 12 conveys the circuit board to the blanking placing area 12, and production line personnel recover copper powder remained on the surface copper layer of the circuit board, so that the circuit board is automatically produced by an additive method. The circuit board automatic production equipment 100 is used for realizing additive production of the circuit board, simplifying the production process flow and reducing the production cost, and the circuit board can be a single-layer PCB, a double-sided PCB or a multi-layer PCB.

Finally, it should be emphasized that the present disclosure is not limited to the above-described embodiments, but only to the preferred embodiments of the disclosure, and thus, the disclosure is not to be limited to the above-described embodiments, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the disclosure are all included in the scope of the disclosure.

Claims (10)

1. The utility model provides a silk screen printing device for circuit board automatic production equipment which characterized in that:

the screen printing device comprises a dust removal assembly and a material pushing assembly, the dust removal assembly is symmetrically arranged on two sides of the screen printing device, and the material pushing assembly is positioned in the screen printing device;

the screen printing device comprises a screen printing part, a guide part and a screen printing guide rail, wherein the guide part is assembled on the feeding table, the screen printing guide rail is assembled on the guide part, and the screen printing part is assembled on the screen printing guide rail;

the dust removal component comprises a dust removal piece, a dust removal connecting rod and a dust removal connecting plate, the dust removal piece is connected to the dust removal connecting plate through the dust removal connecting rod, and the dust removal connecting plate is assembled on the guide piece;

the material pushing assembly comprises a material pushing piece and a material pushing cylinder, the material pushing piece is connected to the material pushing cylinder, and the material pushing cylinder is connected to the feeding table.

2. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 1, wherein:

the material pushing assembly further comprises a material pushing guide rail and a material pushing sliding block, and the material pushing sliding block is sleeved on the material pushing guide rail.

3. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 2, wherein:

the first part of the pushing piece is assembled on the pushing sliding block.

4. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 3, wherein:

the second part of the pushing piece is abutted against the piston of the pushing cylinder.

5. The silk screen printing device for the automatic production equipment of the circuit board as claimed in claim 4, wherein:

the material pushing assembly comprises a connecting frame, the connecting frame comprises a vertical plate, a first transverse plate and a second transverse plate, and the vertical plate is connected with the first transverse plate and the second transverse plate.

6. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 5, wherein:

the material pushing cylinder is assembled on the bottom surface of the first transverse plate, and the material pushing guide rail is assembled on the top surface of the first transverse plate.

7. The screen printing device for the automatic production equipment of the circuit board according to any one of claims 1 to 5, characterized in that:

the silk-screen printing device further comprises a positioning assembly, a first object carrier and a second object carrier, and the pushing assembly and the positioning assembly are arranged between the first object carrier and the second object carrier.

8. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 7, wherein:

the positioning assembly comprises a positioning cylinder and a positioning plate, and the positioning plate is connected to a piston rod of the positioning cylinder.

9. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 7, wherein:

the first luggage carrier is provided with a stop cylinder and a stop plate, and the stop plate is connected with a piston rod of the stop cylinder.

10. The screen printing device for the automatic production equipment of the circuit board as claimed in claim 7, wherein:

the silk screen printing device further comprises an auxiliary cylinder, an auxiliary frame and auxiliary wheels, a piston rod of the auxiliary cylinder is connected to the auxiliary frame, and the auxiliary wheels are assembled on the auxiliary frame.

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