CN108116030B - Novel PCB silk screen printing machine - Google Patents

Abstract

The invention discloses a novel PCB screen printer, which comprises a frame, a first screen printing table, a second screen printing table, a first workbench, a second workbench, a first driving device for driving the first workbench to horizontally move and a second driving device for driving the second workbench to horizontally move, wherein the first screen printing table and the second screen printing table are arranged at the upper end of the frame side by side and are driven by a lifting mechanism to vertically move.

Description

Novel PCB silk screen printing machine

Technical Field

The invention relates to the technical field of PCB silk-screen printers, in particular to a novel PCB silk-screen printer with more than two silk-screen nets.

Background

The principle of screen printing is that during printing, ink is transferred to a printing stock through meshes of an image-text part by extruding a scraping plate to form an image-text which is the same as an original, and the screen printing technology can be applied to PCB printing. The existing PCB screen printing machine is usually only provided with one screen printing net, the screen printing process is usually carried out for hole plugging printing firstly, and then board surface printing is carried out on the front side and the back side of the PCB, wherein hole plugging and front side and back side printing are respectively required to be completed on different screen printing machines, namely, the screen printing process of the PCB is at least required to be completed on three pieces of equipment, and each process is required to be carried out to the next process manually, so that the production efficiency is low, errors are easy to occur, and the product quality is affected.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a novel PCB screen printing machine with more than two screen printing nets, which greatly improves the production efficiency and saves the manpower.

In order to realize the functional requirements of the scheme, the invention adopts the following technical scheme:

the utility model provides a novel PCB silk screen printing machine, includes the frame, locates first silk screen printing platform, second silk screen printing platform, first workstation, second workstation, the first drive arrangement of the first workstation horizontal migration of drive and the second drive arrangement of the second workstation horizontal migration of frame, first silk screen printing platform and second silk screen printing platform are located the frame upper end side by side and are driven by elevating system and reciprocate, be equipped with the detachable silk screen on first silk screen printing platform and the second silk screen printing platform respectively, first workstation and second workstation are located the below of first silk screen printing platform and second silk screen printing platform, first workstation or second workstation are followed horizontal migration between first silk screen printing platform and the second silk screen printing platform in order to accomplish at least twice silk screen printing.

Preferably, the first workbench is arranged below the second workbench in parallel, and positioning templates for fixing the PCBs are respectively arranged on the first workbench and the second workbench.

Preferably, a first positioning mechanism for positioning the first workbench is arranged below the first silk-screen printing table, and a second positioning mechanism for positioning the first workbench and a third positioning mechanism for positioning the second workbench are arranged below the second silk-screen printing table.

Preferably, the first positioning mechanism comprises a first electromagnet and a positioning buffer column, and the first electromagnet and the positioning buffer column are arranged towards one side of the first workbench.

Preferably, the second positioning mechanism comprises a second electromagnet, a first positioning pin driven by the second electromagnet and a first pin seat corresponding to the first positioning pin, a first positioning block is arranged at the bottom of the first workbench, and a first positioning hole matched with the first positioning pin is formed in the first positioning block.

Preferably, the third positioning mechanism comprises a third electromagnet, a second positioning pin driven by the third electromagnet and a second pin seat corresponding to the second positioning pin, a second positioning block is arranged on the second workbench, and a second positioning hole matched with the second positioning pin is formed in the second positioning block.

Preferably, the second positioning mechanism and the third positioning mechanism are driven to lift by a lifting driving device.

Preferably, a position sensor is further arranged on the frame, and the second positioning mechanism and the third positioning mechanism are controlled by the position sensor.

The invention has the beneficial effects that: according to the PCB screen printing machine, at least two screen printing nets can be arranged, the first workbench and the second workbench are respectively driven to horizontally move through the first driving device and the second driving device, so that the first workbench and the second workbench are matched to move a PCB to be printed to the corresponding screen printing net positions for printing, the first workbench or the second workbench horizontally moves between the first screen printing platform and the second screen printing platform to finish two screen printing, at least two printing can be finished by one upper plate on one workbench surface, screen printing processes of different screen printing nets can be connected, one-time positioning of the PCB can be realized on a single screen printing machine for multiple printing, complicated process steps realized on different screen printing machines are not needed, the operation is convenient and quick, and the production efficiency is greatly improved.

Drawings

The following describes the embodiments of the present invention further with reference to the drawings.

Fig. 1 is a schematic perspective view of a PCB screen printer according to the present invention;

FIG. 2 is a schematic side view of a PCB screen printer of the present invention;

FIG. 3 is a schematic view of the first, second and third positioning mechanisms according to the present invention;

FIG. 4 is a schematic view of a cross-sectional structure of the PCB screen printer in FIG. 1 in the A-A direction;

FIG. 5 is a schematic view showing a sectional structure in the B-B direction of the PCB screen printer of FIG. 1;

fig. 6 is an enlarged schematic view of the structure at a in fig. 5.

Detailed Description

Referring to fig. 1-2, the novel PCB screen printing machine provided by the invention comprises a frame 10, a first workbench 1, a second workbench 2, a first screen printing table 3, a second screen printing table 4, a first driving device for driving the first workbench 1 to horizontally move and a second driving device for driving the second workbench 2 to horizontally move, wherein the first screen printing table 3 and the second screen printing table 4 are arranged at the upper end of the frame 10 side by side and are driven by a lifting mechanism to vertically move, a detachable screen printing net is respectively arranged on the first screen printing table 3 and the second screen printing table 4, the first workbench 1 and the second workbench 2 are positioned below the first screen printing table 3 and the second screen printing table 4 and move along the connecting line direction of the first screen printing table 3 and the second screen printing table 4, and the first workbench 1 or the second workbench 2 horizontally moves between the first screen printing table 3 and the second screen printing table 4 so as to finish at least twice screen printing. The first workbench 1 and the second workbench 2 are respectively driven to horizontally move by the first driving device and the second driving device, so that the first workbench 1 and the second workbench 2 are matched to move the PCB to be printed to the corresponding screen printing positions for printing, at least two times of printing can be finished by one-time upper plate on one workbench surface, the screen printing processes of different screen printing nets can be connected, one-time positioning of the PCB can be realized on a single screen printing machine for multiple times of printing, complicated process steps realized on different screen printing machines are not needed, the operation is convenient and quick, and the production efficiency is greatly improved.

In the embodiment, the first workbench 1 is arranged below the second workbench 2 in parallel, and positioning templates for fixing the PCB are respectively arranged on the first workbench 1 and the second workbench 2, wherein the first silk-screen table 3 is used for hole plugging printing, and the second silk-screen table 4 is used for front and back printing of the PCB. When the workbench works, the first workbench 1 and the second workbench 2 can synchronously move, are arranged in parallel up and down, and are not affected by each other.

The specific silk-screen printing flow of the embodiment is that the first workbench 1 drives the PCB to move to the position of the first silk-screen printing table 3 for hole-plugging printing firstly, then the PCB is moved to the position of the second silk-screen printing table 4 for front-face printing, then the PCB is turned over and moved to the second workbench 2, the second workbench 2 drives the PCB to move to the second silk-screen printing table 4 for back-face printing, the two workbench can move simultaneously, the operation is simple and convenient, the hole plugging and front-face printing of the PCB can be completed by a single silk-screen printing machine, compared with the traditional silk-screen printing process requiring three silk-screen printing machines for completion, the labor cost is saved, and the production efficiency is improved.

In this embodiment, the first driving means includes a first guide rail 5 and a first driving screw that drives the first table 1 to move along the first guide rail 5. The second driving device comprises a second guide rail 6 and a second driving screw, and the second driving screw drives the second workbench 2 to move along the second guide rail 6. The first guide rail 5 and the second guide rail 6 comprise a left guide rail and a right guide rail, and the first workbench 1 and the second workbench 2 are respectively connected with the left guide rail and the right guide rail through sliding blocks.

Specifically, a first positioning mechanism 7 for positioning the first workbench 1 is arranged below the first silk-screen printing table 3, and a second positioning mechanism 8 for positioning the first workbench 1 and a third positioning mechanism 9 for positioning the second workbench 2 are arranged below the second silk-screen printing table 4. Considering that the hole plugging printing is only needed to print once, the first positioning mechanism 7 only needs to position the first workbench 1, and the second workbench 2 does not need to move to the position of the first silk-screen table 3 in the silk-screen process. In the position of the second screen printing table 4, a second positioning mechanism 8 is used for positioning the first table 1, and a third positioning mechanism 9 is used for positioning the second table 2. Of course, the first positioning mechanism 7 can be improved according to the printing requirements of different PCBs, and the second workbench 2 can be moved to the position of the first screen printing table 3 through the second guide rail 6, so that the first positioning mechanism 7 can also position the second workbench 2.

In this embodiment, the first positioning mechanism 7 is disposed near the end of the first guide rail 5, specifically, the first positioning mechanism 7 includes a first electromagnet 71 and a positioning buffer post 72, the first electromagnet 71 and the positioning buffer post 72 are disposed towards one side of the first workbench 1, when the first workbench 1 moves below the first screen printing table 3, the first workbench 1 is stopped by first pushing against the first workbench 1 through the positioning buffer post 72, and then the first workbench 1 is sucked for positioning through the first electromagnet 71, so that the positioning structure is stable and accurate.

Referring to fig. 3-6, in this embodiment, the second positioning mechanism 8 includes a second electromagnet 81, a first positioning pin 82 driven by the second electromagnet 81, and a first pin seat 83 corresponding to the first positioning pin 82, the bottom of the first table 1 is provided with a first positioning block 11, and the first positioning block 11 is provided with a first positioning hole 12 matching with the first positioning pin 82. Specifically, the second electromagnet 81 is spaced from the first pin seat 83 by a distance that exactly matches the first positioning block 11, so that the first positioning block 11 can be accurately positioned therebetween. The second positioning mechanism 8 is arranged below the first workbench 1, the second positioning mechanism 8 is driven to lift by a lifting cylinder, a position sensor is arranged near the position of the first guide rail 5, when the first workbench 1 moves below the second screen printing table 4, the second electromagnet 81 and the first pin seat 83 are lifted and correspond to the first positioning block 11 at the bottom of the first workbench 1, then the second electromagnet 81 drives the first positioning pin 82 to be inserted into the first positioning hole 12 of the first positioning block 11, the insertion end of the first positioning pin 82 is positioned on the first pin seat 83, and thus the structure is firmer and more stable, and the positioning is more accurate. In order to make the positioning more accurate, the embodiment provides left and right second positioning mechanisms 8. When the position sensor detects that the first workbench 1 moves below the second silk-screen printing table 4, the output control lifting cylinder lifts the second electromagnet 81 and the first pin seat 83, and then the second electromagnet 81 starts to drive the first positioning pin 82 to work.

In this embodiment, the third positioning mechanism 9 includes a third electromagnet 91, a second positioning pin 92 driven by the third electromagnet 91, and a second pin seat 93 corresponding to the second positioning pin 92, the second positioning block 21 is provided on the second table 2, and the second positioning block 21 is provided with a second positioning hole 22 matching the second positioning pin 92. Specifically, the third electromagnet 91 is spaced from the second pin seat 93 by a distance that exactly matches the second positioning block 21, so that the second positioning block 21 can be accurately positioned therebetween. The third positioning mechanism 9 is arranged on the side edge of the second guide rail 6, the second positioning block 21 is arranged on one side of the second workbench 2 corresponding to the third positioning mechanism 9, the third positioning mechanism 9 is driven to lift by a lifting cylinder, a position sensor is arranged near the position of the second guide rail 6, when the second workbench 2 moves to the lower part of the second screen printing table 4, the third electromagnet 91 and the second pin seat 93 lift and correspond to the second positioning block 21 on the second workbench 2, then the third electromagnet 91 drives the second positioning pin 92 to be inserted into the second positioning hole 22 of the second positioning block 21, and the insertion end of the second positioning pin 92 is positioned on the second pin seat 93, so that the structure is firmer and more stable, and the positioning is more accurate. In order to make the positioning more accurate, the embodiment provides left and right third positioning mechanisms 9. When the position sensor detects that the second workbench 2 moves below the second silk-screen printing table 4, the output control lifting cylinder lifts the third electromagnet 91 and the second pin seat 93, and then the third electromagnet 91 starts to drive the second positioning pin 92 to work.

In addition, the first silk-screen printing table 3 and the second silk-screen printing table 4 are driven by the driving air cylinders 20 to lift up and down, and specifically, each silk-screen printing table is driven by at least four driving air cylinders 20.

As described above, the present invention is not limited to the above embodiments, but is merely a typical example, and the present invention should be construed as being limited to the scope of the present invention as long as the same technical means are adopted to achieve the practical effects of the present invention.

Claims (2)

1. A novel PCB silk screen printing machine is characterized in that: the device comprises a frame, a first silk-screen table, a second silk-screen table, a first workbench, a second workbench, a first driving device for driving the first workbench to horizontally move and a second driving device for driving the second workbench to horizontally move, wherein the first silk-screen table and the second silk-screen table are arranged at the upper end of the frame side by side and are driven by a lifting mechanism to vertically move, detachable silk-screen nets are respectively arranged on the first silk-screen table and the second silk-screen table, the first workbench and the second workbench are positioned below the first silk-screen table and the second silk-screen table, and the first workbench or the second workbench horizontally moves between the first silk-screen table and the second silk-screen table along so as to finish at least two times of printing on one workbench surface at one time;

the first positioning mechanism comprises a first electromagnet and a positioning buffer column, and the first electromagnet and the positioning buffer column are arranged towards one side of the first workbench; the second positioning mechanism comprises a second electromagnet, a first positioning pin driven by the second electromagnet and a first pin seat corresponding to the first positioning pin, a first positioning block is arranged at the bottom of the first workbench, and a first positioning hole matched with the first positioning pin is formed in the first positioning block; the third positioning mechanism comprises a third electromagnet, a second positioning pin driven by the third electromagnet and a second pin seat corresponding to the second positioning pin, a second positioning block is arranged on the second workbench, and a second positioning hole matched with the second positioning pin is formed in the second positioning block; and the frame is also provided with a position sensor, and the second positioning mechanism and the third positioning mechanism are controlled by the position sensor.

2. The novel PCB screen printer of claim 1, wherein: the first workbench is arranged below the second workbench in parallel, and positioning templates for fixing the PCB are respectively arranged on the first workbench and the second workbench.