CN214027711U

CN214027711U - Automatic silk screen printing gluing machine of straight line

Info

Publication number: CN214027711U
Application number: CN202022930648.2U
Authority: CN
Inventors: 廖义辉; 廖肖生; 刘顺成
Original assignee: Dongguan Limo Automation Equipment Co ltd
Current assignee: Dongguan Limo Automation Equipment Co ltd
Priority date: 2020-12-07
Filing date: 2020-12-07
Publication date: 2021-08-24
Anticipated expiration: 2030-12-07

Abstract

A linear automatic screen printing gluing machine, comprising: the automatic feeding and transplanting machine comprises a rack, a feeding and transplanting assembly, a turntable assembly, a printing assembly, a discharging and transferring assembly, a control assembly and a power supply. The linear automatic silk-screen printing gluing machine provided by the application ensures high-precision printing of products, and completes a complex production process automatically, thereby greatly improving the product quality and reducing the production cost; the control parameters can be set at will according to the needs, and the method is rapid, convenient and accurate.

Description

Automatic silk screen printing gluing machine of straight line

Technical Field

The utility model relates to a technical field of silk screen printing rubberizing equipment especially relates to an automatic silk screen printing rubberizing machine of straight line.

Background

In the production and manufacturing process, the product is usually required to be subjected to silk-screen printing, and at present, the product is usually subjected to silk-screen printing manually. However, the manual silk-screen printing operation process is complex, the operation difficulty is high, the quantity and the uniformity of the brush glue are difficult to control, and the quality requirement cannot be ensured, so that the production efficiency is low, the quality is unstable, and the production cost is high.

It can be seen that the prior art has at least the following disadvantages: the manual silk-screen printing operation process is complex, the operation difficulty is high, the quantity and the uniformity of brushing glue are difficult to control, and the quality requirement cannot be guaranteed, so that the production efficiency is low, the quality is unstable, and the production cost is high.

Therefore, it is necessary to provide a technical means to solve the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide an automatic silk screen printing gluing machine of straight line to it is complicated to use artifical silk screen printing operation technology among the solution prior art, and the operation degree of difficulty is great, and the volume and the degree of consistency of hardly controlling the brush glue, and can't guarantee the requirement for quality, will cause the production efficiency low like this, and the quality is very unstable, problem that manufacturing cost is high.

The utility model discloses a realize like this, a sharp automatic silk screen printing gluing machine, include:

the frame is used for mounting each part;

the loading and transplanting assembly is used for conveying the products to the turntable assembly; the feeding and transplanting assembly is arranged on the rack;

the rotary disc assembly is used for rotating the products conveyed by the feeding and transplanting assembly; the turntable assembly is arranged on the rack;

the printing assembly is used for carrying out silk-screen printing on the products conveyed by the rotary disc assembly; the printing assembly is arranged on the frame;

the discharging transfer component is used for outputting the products conveyed by the turntable component; the discharging transfer component is arranged on the rack;

the control assembly is used for controlling each part; the control assembly is arranged on the rack and is respectively connected with the feeding transplanting assembly, the turntable assembly, the printing assembly and the discharging transferring assembly;

the power supply is used for supplying power to all parts; the power supply is arranged on the rack and is respectively connected with the feeding transplanting assembly, the turntable assembly, the printing assembly, the discharging transferring assembly and the control assembly.

Preferably, the loading and transplanting assembly comprises: the feeding device comprises a feeding support, a horizontal guide rail, a material plate, a vertical guide rail, a material sucking cylinder, a suction nozzle, a material receiving placing seat, a material receiving inductor, a horizontal feeding cylinder, a vertical feeding motor, a synchronous belt and a vertical lead screw, wherein the feeding support is arranged on the frame, the horizontal guide rail is arranged on the feeding support along the horizontal direction, the material plate is supported on the horizontal guide rail, the vertical guide rail is arranged on the feeding support along the vertical direction, the first end of the vertical guide rail is connected with the material plate, the material sucking cylinder is arranged on the feeding support and is connected with the suction nozzle, the material receiving placing seat is arranged on the material plate, the material receiving inductor is arranged on the material receiving placing seat, the horizontal feeding cylinder is arranged on the material plate and is connected with the material plate, and the vertical feeding motor is connected with the second end of the vertical guide rail, the first end of the vertical direction screw rod is connected with the vertical direction feeding motor through the synchronous belt, and the second end of the vertical direction screw rod is connected with the material plate.

Preferably, the turntable assembly comprises: the jig plate is arranged on the rotary disc, the center rotary joint penetrates through the divider, the first end of the center rotary joint is connected with the servo motor, the second end of the center rotary joint is connected with the rotary disc, and the center rotary joint penetrates through the divider.

Preferably, the printing assembly comprises: the screen printing device comprises a screen printing support, an X-axis driving module, an X-axis driving servo motor, a Y-axis driving module, a glue brushing support, a glue brushing cylinder, a glue scraping knife and a screen printing plate, wherein the screen printing support is arranged on the rack, the Y-axis driving module is arranged on the screen printing support, the X-axis driving module is arranged on the Y-axis driving module, the glue brushing support is arranged on the X-axis driving module, the X-axis driving servo motor is arranged on the screen printing support and is connected with the X-axis driving module, the Y-axis driving servo motor is arranged on the screen printing support and is connected with the Y-axis driving module, the glue brushing cylinder is arranged on the glue brushing support and is connected with the glue scraping knife, and the screen printing plate is connected with the glue brushing support and is opposite to the glue scraping knife.

Preferably, the discharging transfer assembly comprises: the ejection of compact moves and carries support, absorption cylinder, absorption mouth and ejection of compact inductor, wherein, the ejection of compact moves and carries the support set up in the frame, absorb the cylinder set up in the ejection of compact moves and carries on the support, and with the absorption mouth is connected, the ejection of compact inductor set up in the ejection of compact moves and carries on the support.

Preferably, the control assembly comprises: the control touch screen is arranged on the rack and is respectively connected with the feeding transplanting assembly, the turntable assembly, the printing assembly and the discharging transplanting assembly.

Preferably, the method further comprises the following steps: the safety protection cover, the safety protection cover set up in the frame, the subassembly is transplanted in the material loading the carousel subassembly the printing module with the ejection of compact moves and carries the subassembly set up in inside the safety protection cover, the control assembly with the safety protection cover is connected.

Preferably, the method further comprises the following steps: the three-color warning lamp, the three-color warning lamp set up in on the safety protection cover, and with the control assembly connects.

Preferably, the method further comprises the following steps: the emergency stop box is arranged on the safety protection cover and is connected with the control component.

The linear automatic silk-screen printing gluing machine provided by the application ensures high-precision printing of products, and completes a complex production process automatically, thereby greatly improving the product quality and reducing the production cost; the control parameters can be set at will according to the needs, and the method is rapid, convenient and accurate.

Drawings

Fig. 1 is a schematic view of an overall structure of a linear automatic screen printing gluing machine according to an embodiment of the present invention;

fig. 2 is a schematic view of an internal structure of a linear automatic screen printing gluing machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a feeding and transplanting assembly in the linear automatic screen printing gluing machine according to the embodiment of the present invention;

fig. 4 is a schematic structural view of a transfer plate assembly of a linear automatic screen printing gumming machine according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a printing assembly in a linear automatic screen printing gluing machine according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a discharging transfer assembly in the linear automatic screen printing gluing machine according to the embodiment of the present invention.

Detailed Description

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

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

Referring to fig. 1-6, in an embodiment of the present application, the present application provides a linear automatic screen printing gluing machine, including: the rack 100, the loading and transplanting assembly 200, the turntable assembly 300, the printing assembly 400, the discharging and transferring assembly 500, the control assembly 600 and a power supply (not shown), and the parts are described in detail below.

Referring to fig. 1-6, in an embodiment of the present application, a linear automatic screen printing glue applicator provided by the present application includes:

a frame 100 for mounting various parts;

a loading and transplanting assembly 200 for conveying the products onto the turntable assembly 300; the feeding and transplanting assembly 200 is arranged on the rack 100;

a turntable assembly 300 for rotating the products conveyed by the feeding and transplanting assembly 200; the turntable assembly 300 is disposed on the rack 100;

the printing assembly 400 is used for performing silk-screen printing on the products conveyed by the turntable assembly 300; the printing assembly 400 is disposed on the frame 100;

the discharging and transferring assembly 500 is used for outputting the products conveyed by the turntable assembly 300; the discharging transfer assembly 500 is arranged on the rack 100;

a control assembly 600 for controlling the components; the control assembly 600 is disposed on the rack 100 and is respectively connected to the feeding and transplanting assembly 200, the turntable assembly 300, the printing assembly 400 and the discharging and transferring assembly 500;

the power supply is used for supplying power to all parts; the power supply is arranged on the rack 100 and is respectively connected with the feeding transplanting assembly 200, the turntable assembly 300, the printing assembly 400, the discharging transplanting assembly 500 and the control assembly 600.

When the linear automatic silk-screen gluing machine is used, an operator sets parameters on the control assembly 600, then places products into the designated position of the loading and transplanting assembly 200 to be sucked by the loading and transplanting assembly 200, and the loading and transplanting assembly 200 acts to suck the products of the loading and transplanting assembly 200 to the preset station of the turntable assembly 300 for positioning; after the product is positioned, the turntable assembly 300 rotates to the printing assembly 400 of the next vacant position, and the printing assembly 400 performs silk-screen printing on the product; after the silk screen printing is finished, the turntable assembly 300 rotates to the next vacant position for the subsequent use of the customer; finally, the turntable assembly 300 is rotated to the next discharging and transferring assembly 500, and the discharging and transferring assembly 500 outputs the product.

Referring to fig. 1-6, in the embodiment of the present application, the loading and transplanting assembly 200 includes: a feeding support 201, a horizontal guide rail 202, a material plate 203, a vertical guide rail 204, a material suction cylinder 205, a suction nozzle 206, a material receiving placement seat 207, a material receiving sensor 208, a horizontal feed cylinder 209, a vertical feed motor 210, a synchronous belt 211 and a vertical screw 212, wherein the feeding support 201 is arranged on the frame 100, the horizontal guide rail 202 is arranged on the feeding support 201 along the horizontal direction, the material plate 203 is supported on the horizontal guide rail 202, the vertical guide rail 204 is arranged on the feeding support 201 along the vertical direction, and a first end is connected with the material plate 203, the material suction cylinder 205 is arranged on the feeding support 201 and connected with the suction nozzle 206, the material receiving placement seat 207 is arranged on the material plate 203, the material receiving sensor 208 is arranged on the material receiving placement seat 207, the horizontal feed cylinder 209 is arranged on the material plate 203, and is connected to the material plate 203, the vertical direction feeding motor 210 is connected to the second end of the vertical direction guide rail 204, the first end of the vertical direction screw 212 is connected to the vertical direction feeding motor 210 through the timing belt 211, and the second end is connected to the material plate 203.

The work flow of the feeding and transplanting assembly 200 is as follows: an operator places products in the incoming material placing seat 207, the incoming material sensor 208 can detect that the products are placed in place in the incoming material placing seat 207, the vertical direction feeding motor 210 drives the synchronous belt 211 to rotate, the synchronous belt 211 drives the vertical direction lead screw 212 to rotate, the vertical direction lead screw 212 drives the material plate 203 to move upwards along the vertical direction guide rail 204, the horizontal direction feeding cylinder 209 controls the material plate 203 to move horizontally along the horizontal direction guide rail 202 until the products are located below the suction nozzle 206, then the suction cylinder 205 controls the suction nozzle 206 to suck the products tightly, and then the horizontal direction feeding cylinder 209 and the vertical direction feeding motor 210 control the suction nozzle 206 to move to the turntable assembly 300.

Referring to fig. 1-6, in the embodiment of the present application, the turntable assembly 300 includes: the jig plate assembly comprises a servo motor 301, a turntable 302, a jig plate 303, a central rotating joint 304 and a divider 305, wherein the divider 305 is arranged on the rack 100, the servo motor 301 is connected with the divider 305, the turntable 302 is supported on the divider 305, the central rotating joint 304 penetrates through the divider 305, a first end of the central rotating joint is connected with the servo motor 301, a second end of the central rotating joint is connected with the turntable 302, and the jig plate 303 is arranged on the turntable 302.

The workflow of the turntable assembly 300 is as follows: the suction nozzle 206 delivers the product onto the jig plate 303, the servo motor 301 controls the central rotary joint 304 to drive the divider 305 and the turntable 302 to rotate, and the jig plate 303 also rotates.

Referring to fig. 1-6, in the embodiment of the present application, the printing element 400 includes: a screen printing support 401, an X-axis driving module 402, an X-axis driving servo motor 403, a Y-axis driving servo motor 404, a Y-axis driving module 405, a glue brushing support 406, a glue brushing cylinder 407, a glue scraping knife 408 and a screen 409, wherein the screen printing support 401 is arranged on the frame 100, the Y-axis driving module 405 is arranged on the screen printing support 401, the X-axis driving module 402 is arranged on the Y-axis driving module 405, the glue brushing support 406 is arranged on the X-axis driving module 402, the X-axis driving servo motor 403 is arranged on the screen printing support 401 and is connected with the X-axis driving module 402, the Y-axis driving servo motor 404 is arranged on the screen printing support 401 and is connected with the Y-axis driving module 405, the glue brushing cylinder 407 is arranged on the glue brushing support 406 and is connected with the glue scraping knife 408, the screen 409 is connected with the glue brushing support 406, and is opposite the doctor blade 408.

The workflow of the printing assembly 400 is: the turntable 302 moves the product to a position right above the screen 409, the Y-axis driving servo motor 404 controls the X-axis driving module 402 to move along the Y-axis driving module 405, the X-axis driving servo motor 403 controls the glue brushing support 406 to move along the X-axis driving module 402 until the glue scraping knife 408 moves onto the screen 409, and then the glue brushing cylinder 407 controls the glue scraping knife 408 to print the product in the screen 409.

Referring to fig. 1-6, in the embodiment of the present application, the discharging transfer assembly 500 includes: ejection of compact moves and carries support 501, absorption cylinder 502, absorption mouth 503 and ejection of compact inductor 504, wherein, ejection of compact moves and carries support 501 set up in on the frame 100, absorption cylinder 502 set up in ejection of compact moves and carries on support 501 on, and with absorption mouth 503 is connected, ejection of compact inductor 504 set up in ejection of compact moves and carries on support 501.

The work flow of the discharging transfer assembly 500 is as follows: when the turntable 302 rotates the product to the suction nozzle 503, the discharge sensor 504 can sense that the product is in place, and then the suction cylinder 502 controls the suction nozzle 503 to suck the product.

Referring to fig. 1-6, in the embodiment of the present application, the control assembly 600 includes: the control touch screen 601 is arranged on the rack 100 and is respectively connected with the feeding transplanting assembly 200, the turntable assembly 300, the printing assembly 400 and the discharging transplanting assembly 500.

Referring to fig. 1-6, in an embodiment of the present application, the linear automatic silk-screen gluing machine further includes: safety protection cover 701, safety protection cover 701 set up in on the frame 100, the subassembly 200 is transplanted in the material loading carousel subassembly 300 the printing module 400 with the ejection of compact move the subassembly 500 set up in inside the safety protection cover 701, control assembly 600 with safety protection cover 701 is connected. When the integrity of safety shield 701 is broken, control assembly 600 controls the various components to cease operation.

Referring to fig. 1-6, in an embodiment of the present application, the linear automatic silk-screen gluing machine further includes: three-colour warning light 702, three-colour warning light 702 set up in on the safety protection cover 701, and with control assembly 600 connects. The tri-color warning light 702 can display different colors according to the operating status of the control assembly 600.

Referring to fig. 1-6, in an embodiment of the present application, the linear automatic silk-screen gluing machine further includes: the emergency stop box 703 is disposed on the safety protection cover 701, and is connected to the control component 600. When the crash box 703 is clicked, the control assembly 600 controls the parts to stop working.

The above description is only for the preferred embodiment of the present invention, and the structure is not limited to the above-mentioned shape, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a straight line automatic silk screen printing gluing machine which characterized in that includes:

the frame is used for mounting each part;

2. The linear automatic screen printing gluing machine according to claim 1, wherein the loading and transplanting assembly comprises: the feeding device comprises a feeding support, a horizontal guide rail, a material plate, a vertical guide rail, a material sucking cylinder, a suction nozzle, a material receiving placing seat, a material receiving inductor, a horizontal feeding cylinder, a vertical feeding motor, a synchronous belt and a vertical lead screw, wherein the feeding support is arranged on the frame, the horizontal guide rail is arranged on the feeding support along the horizontal direction, the material plate is supported on the horizontal guide rail, the vertical guide rail is arranged on the feeding support along the vertical direction, the first end of the vertical guide rail is connected with the material plate, the material sucking cylinder is arranged on the feeding support and is connected with the suction nozzle, the material receiving placing seat is arranged on the material plate, the material receiving inductor is arranged on the material receiving placing seat, the horizontal feeding cylinder is arranged on the material plate and is connected with the material plate, and the vertical feeding motor is connected with the second end of the vertical guide rail, the first end of the vertical direction screw rod is connected with the vertical direction feeding motor through the synchronous belt, and the second end of the vertical direction screw rod is connected with the material plate.

3. The linear automatic screen printing glue applicator of claim 1, wherein the turntable assembly comprises: the jig plate is arranged on the rotary disc, the center rotary joint penetrates through the divider, the first end of the center rotary joint is connected with the servo motor, the second end of the center rotary joint is connected with the rotary disc, and the center rotary joint penetrates through the divider.

4. The linear automatic screen printing glue applicator of claim 1, wherein the printing assembly comprises: the screen printing device comprises a screen printing support, an X-axis driving module, an X-axis driving servo motor, a Y-axis driving module, a glue brushing support, a glue brushing cylinder, a glue scraping knife and a screen printing plate, wherein the screen printing support is arranged on the rack, the Y-axis driving module is arranged on the screen printing support, the X-axis driving module is arranged on the Y-axis driving module, the glue brushing support is arranged on the X-axis driving module, the X-axis driving servo motor is arranged on the screen printing support and is connected with the X-axis driving module, the Y-axis driving servo motor is arranged on the screen printing support and is connected with the Y-axis driving module, the glue brushing cylinder is arranged on the glue brushing support and is connected with the glue scraping knife, and the screen printing plate is connected with the glue brushing support and is opposite to the glue scraping knife.

5. The linear automatic screen printing gluing machine according to claim 1, wherein the discharge transfer assembly comprises: the ejection of compact moves and carries support, absorption cylinder, absorption mouth and ejection of compact inductor, wherein, the ejection of compact moves and carries the support set up in the frame, absorb the cylinder set up in the ejection of compact moves and carries on the support, and with the absorption mouth is connected, the ejection of compact inductor set up in the ejection of compact moves and carries on the support.

6. The linear automatic screen printing glue applicator according to claim 1, characterized in that said control assembly comprises: the control touch screen is arranged on the rack and is respectively connected with the feeding transplanting assembly, the turntable assembly, the printing assembly and the discharging transplanting assembly.

7. The linear automatic screen printing gluing machine according to claim 1, further comprising: the safety protection cover, the safety protection cover set up in the frame, the subassembly is transplanted in the material loading the carousel subassembly the printing module with the ejection of compact moves and carries the subassembly set up in inside the safety protection cover, the control assembly with the safety protection cover is connected.

8. The linear automatic screen printing gluing machine according to claim 7, further comprising: the three-color warning lamp, the three-color warning lamp set up in on the safety protection cover, and with the control assembly connects.

9. The linear automatic screen printing gluing machine according to claim 7, further comprising: the emergency stop box is arranged on the safety protection cover and is connected with the control component.