CN209987521U - Silk screen printing equipment - Google Patents

Silk screen printing equipment Download PDF

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Publication number
CN209987521U
CN209987521U CN201821970530.9U CN201821970530U CN209987521U CN 209987521 U CN209987521 U CN 209987521U CN 201821970530 U CN201821970530 U CN 201821970530U CN 209987521 U CN209987521 U CN 209987521U
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CN
China
Prior art keywords
screen printing
taking
glass
piece
silk
Prior art date
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Active
Application number
CN201821970530.9U
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Chinese (zh)
Inventor
逯正旺
李婷
赵学军
钟红学
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KAIMAO TECHNOLOGY (SHENZHEN) Co Ltd
Original Assignee
KAIMAO TECHNOLOGY (SHENZHEN) Co Ltd
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Application filed by KAIMAO TECHNOLOGY (SHENZHEN) Co Ltd filed Critical KAIMAO TECHNOLOGY (SHENZHEN) Co Ltd
Priority to CN201821970530.9U priority Critical patent/CN209987521U/en
Application granted granted Critical
Publication of CN209987521U publication Critical patent/CN209987521U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to the technical field of machinery, and provides a screen printing device, which comprises a feeding mechanism, a material taking mechanism, a screen printing mechanism, a dust removing mechanism and a bracket; the feeding mechanism is arranged on one side of the support and used for conveying the glass to a set position, and the support provides support for the material taking mechanism, the dust removing mechanism and the screen printing mechanism; the material taking mechanism comprises a material taking guide rail, a first material taking assembly, a second material taking assembly and a connecting piece, wherein the material taking guide rail is arranged on the support, the connecting piece is connected with the material taking guide rail in a sliding mode, and the first material taking assembly and the second material taking assembly are connected with the connecting piece; the dust removal mechanism is used for removing dust on the surface of the glass, and the screen printing mechanism is used for screen printing the glass; the first material taking assembly and the second material taking assembly can move together along with the connecting piece relative to the material taking guide rail so as to remove dust and screen print the grabbed glass.

Description

Silk screen printing equipment
[ technical field ] A method for producing a semiconductor device
The utility model relates to the technical field of machinery, a silk screen printing equipment is provided.
[ background of the invention ]
The glass silk-screen printing is a procedure of glass processing, generally manual silk-screen printing, and the silk-screen printing by the method not only consumes a large amount of manpower, but also has low working efficiency.
The current silk screen printing field also has some automatic silk screen printing equipment, and these automatic silk screen printing equipment have also only replaced manual operation, and work efficiency does not obviously promote, will go on in the dust-free workshop moreover to prevent that the dust from falling on glass, influencing the silk screen printing effect.
[ Utility model ] content
For overcoming the problem that prior art exists, the utility model provides a silk screen printing equipment.
The utility model provides a screen printing device, which comprises a feeding mechanism, a material taking mechanism, a screen printing mechanism, a dust removing mechanism and a bracket; the feeding mechanism is arranged on one side of the support and used for conveying the glass to a set position, and the support provides support for the material taking mechanism, the dust removing mechanism and the screen printing mechanism;
the material taking mechanism comprises a material taking guide rail, a first material taking assembly, a second material taking assembly and a connecting piece, wherein the material taking guide rail is arranged on the support, the connecting piece is connected with the material taking guide rail in a sliding mode, and the first material taking assembly and the second material taking assembly are connected with the connecting piece;
the dust removal mechanism is used for removing dust on the surface of the glass, and the screen printing mechanism is used for screen printing the glass;
the first material taking assembly and the second material taking assembly can move together along with the connecting piece relative to the material taking guide rail so as to remove dust and screen print the grabbed glass.
Preferably, the first material taking assembly comprises a first material taking frame, the second material taking assembly comprises a second material taking frame, and the first material taking frame and the second material taking frame are connected with the connecting piece and can move synchronously along with the connecting piece relative to the material taking guide rail.
Preferably, the first material taking assembly further comprises a first air cylinder and a first material taking part, the first air cylinder is arranged on the first material taking frame and connected with the first material taking part, and the first material taking part can be driven to move in a direction vertical to the ground relative to the first material taking frame so as to grab the glass;
the second material taking assembly further comprises a second air cylinder, a second material taking part, a third air cylinder and a third material taking part, the second air cylinder is arranged on the second material taking frame and connected with the second material taking part, and the second material taking part can be driven to move in the direction vertical to the ground relative to the second material taking frame so as to grab the glass;
the third cylinder is arranged on the second material taking frame and connected with the third material taking piece, and can drive the third material taking piece to move in a direction vertical to the ground relative to the second material taking frame so as to grab the glass; the first material taking part, the second material taking part and the third material taking part are arranged on the same straight line, so that the accuracy of grabbing glass by the first material taking part, the second material taking part and the third material taking part is improved.
Preferably, the silk-screen mechanism comprises a silk-screen table, a second hydraulic cylinder, a third hydraulic cylinder, a connecting column, a silk-screen guide rail and a silk-screen component, the connecting column is connected with the bracket, the silk-screen table is in sliding connection with the connecting column, the second hydraulic cylinder is arranged on the silk-screen table, is connected with the bracket and can drive the silk-screen table to move in the direction vertical to the ground relative to the bracket;
the silk screen printing guide rail is arranged on the silk screen printing table, the silk screen printing component is connected with the silk screen printing guide rail in a sliding mode, and the third hydraulic cylinder is arranged on the silk screen printing table and can drive the silk screen printing component to move on the silk screen printing guide rail relative to the silk screen printing table so as to complete the silk screen printing action of the glass.
Preferably, the screen printing assembly comprises a first screen printing part, a fourth cylinder, a second screen printing part, a fifth cylinder and a screen printing frame;
the fourth cylinder and the fifth cylinder are both arranged on the screen printing frame, the fourth cylinder is connected with the first screen printing piece and can drive the first screen printing piece to move so as to finish screen printing action on glass, and the fifth cylinder is connected with the second screen printing piece and can drive the second screen printing piece to move so as to finish action of uniformly smearing screen printing ink.
Preferably, the silk-screen printing mechanism further comprises a silk-screen printing seat, and the silk-screen printing seat is arranged on the bracket and used for placing glass to be subjected to silk-screen printing;
the screen printing table is provided with an opening, and the opening can be used for accommodating a screen printing seat, so that the screen printing component can perform screen printing operation on glass; and a screen printing position for placing glass is arranged on the screen printing seat, so that the glass cannot deviate in the screen printing process.
Preferably, the dust removal mechanism comprises a base, a dust removal part and a fifth hydraulic cylinder, the base is arranged on the support and used for placing glass, the dust removal part is connected with the base in a rolling mode, and the fifth hydraulic cylinder is arranged on the support and used for driving the dust removal part to roll on the base to complete dust removal work on the glass which is not subjected to silk printing.
Preferably, the base is provided with a dust removal position and a waiting position, the dust removal position is used for placing glass to be subjected to silk screen printing, and the waiting position is used for placing glass to be subjected to silk screen printing.
Preferably, the feeding mechanism comprises a feeding table and a loading box, wherein the feeding table is arranged on one side of the bracket and can convey the loading box to a set position to prepare for first dust removal of the glass.
Preferably, the loading box comprises a first workpiece position and a second workpiece position, the first workpiece position and the second workpiece position are arranged on the loading box in parallel and are uniformly divided into a plurality of grooves, and each groove can be used for placing a piece of glass.
Compared with the prior art, the utility model discloses a silk screen printing equipment has following advantage:
1. the first material taking assembly and the second material taking assembly are driven to move synchronously through the connecting piece, and the first material taking assembly and the second material taking assembly are matched with each other to grab glass, so that the efficiency of glass silk screen printing is improved.
2. Before silk screen printing, dust removal mechanism can remove dust to glass to sweep the dust on the glass, make the silk screen printing effect better.
[ description of the drawings ]
Fig. 1 is a schematic view of the three-dimensional structure of the screen printing device of the present invention.
Fig. 2 is the perspective structure schematic diagram of the feeding mechanism of the screen printing device of the present invention.
Fig. 3A is the utility model discloses screen printing equipment's extracting mechanism spatial structure sketch map.
Figure 3B is the enlarged view of the B part of the material taking mechanism of the screen printing device.
Fig. 4 is the utility model discloses silk screen printing mechanism spatial structure sketch map of silk screen printing equipment.
Fig. 5 is the utility model discloses silk screen printing subassembly spatial structure sketch map of silk screen printing equipment.
Fig. 6 is the utility model discloses screen printing equipment's dust removal mechanism spatial structure sketch map.
Fig. 7 is the utility model discloses the extracting mechanism work flow schematic diagram of silk screen printing equipment.
Description of reference numerals: 1. screen printing equipment; 11. a feeding mechanism; 21. a material taking mechanism; 31. a screen printing mechanism; 41. a dust removal mechanism; 51. a support; 111. a feeding table; 112. a cartridge; 212. a first hydraulic cylinder; 213. a material taking guide rail; 214. a first take-off assembly; 215. a second take-off assembly; 216. a connecting member; 311. a screen printing station; 312. a second hydraulic cylinder; 313. a third hydraulic cylinder; 314. screen printing a guide rail; 315. a screen printing component; 316. connecting columns; 317. a screen printing base; 411. a base; 412. a dust removal member; 413. a fifth hydraulic cylinder; 1121. a first workpiece position; 1122. a second workpiece position; 2140. a first material taking frame; 2141. a first cylinder; 2142. a first material taking part; 2150. a second material taking frame; 2151. a second cylinder; 2152. a second material taking part; 2153. a third cylinder; 2154. a third material taking part; 3111. an opening; 3151. a first screen print; 3152. a fourth cylinder; 3153. a second screen print; 3154. a fifth cylinder; 3155. a screen printing frame; 3171. a screen printing position; 4111. a dust removal position; 4112. a wait bit; 4121. a chute; 4113. a slide rail.
[ detailed description ] embodiments
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 the 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.
Referring to fig. 1, the screen printing apparatus 1 of the present invention includes a feeding mechanism 11, a material taking mechanism 21, a screen printing mechanism 31, a dust removing mechanism 41 and a support 51, wherein the feeding mechanism 11 is disposed on one side of the support 51 for conveying glass to a set position, and the material taking mechanism 21 is disposed on the support 51 and can move relative to the support 51 for grabbing glass. The silk screen printing mechanism 31 is arranged on the bracket 51 and used for silk screen printing on glass, and the dust removal mechanism 41 is arranged on the bracket 51 and used for removing dust on the surface of the glass. The support 51 provides support for the material taking mechanism 21, the dust removing mechanism 41 and the screen printing mechanism 31.
Specifically, after the feeding mechanism 11 conveys the glass to the set position, the material taking mechanism 21 grabs the glass to the dust removing mechanism 41 for dust removing operation, after the dust removing operation is completed, the material taking mechanism 21 grabs the glass to the screen printing mechanism 31 for screen printing, after the screen printing is completed, the material taking mechanism 21 grabs the glass to the feeding mechanism 11, and the feeding mechanism 11 sends out the glass.
It can be understood that the material taking mechanism can take the mode of sucking disc absorption or manipulator grabbing etc.
Referring to fig. 2, the feeding mechanism 11 includes a feeding table 111 and a cartridge 112, the feeding table 111 is disposed at one side of the frame 51 and can convey the cartridge 112 to a predetermined position to prepare for screen printing of glass.
Specifically, the charging box 112 includes a first workpiece position 1121 and a second workpiece position 1122, the first workpiece position 1121 and the second workpiece position 1122 are disposed in parallel on the charging box 112 and are uniformly divided into a plurality of grooves, each groove can be used for placing a piece of glass, and the charging box 112 uses the first workpiece position 1121 and the second workpiece position 1122 to classify the glass subjected to screen printing and the glass prepared for screen printing. Before the feeding table 111 conveys the cartridge 112 to the set position, the glass is placed in the first work positions 1121 for screen printing, and the glass is not placed in the second work positions 1122. When the feeding table 111 conveys the charging box 112 to a set position, the material taking mechanism 21 takes the glass in the first workpiece position 1121 for dust removal and silk screen printing operations, after the dust removal and silk screen printing operations are completed, the material taking mechanism 21 puts the glass into the second workpiece position 1122, then the feeding table 111 drives the charging box 112 to move by a distance of one groove, and the above-mentioned process is repeated again. The feeding table 111 is used to drive the material loading box 112 to move, and the material loading box is matched with the material taking mechanism 21, so that the glass in the first workpiece position 1121 is taken out for dust removal and screen printing, and then is placed into the second workpiece position 1122 until all the glass in the first workpiece position 1121 of the material loading box 112 is subjected to dust removal, and is placed into the second workpiece position 1122. The whole process from feeding to dust removal of the silk screen printing equipment 1 does not need manual operation, and full-automatic silk screen printing is realized.
It is understood that the feeding table 111 carries the magazine 112 to move intermittently, i.e., the process from the taking out of the glass from the first work position 1121 to the putting of the glass into the second work position 1122 by the taking-out mechanism 21, and the feeding table 111 is in a stationary state.
Referring to fig. 3, the material taking mechanism 21 includes a connecting member 216, a material taking guide rail 213, a first material taking assembly 214 and a second material taking assembly 215, the material taking guide rail 213 is connected to the bracket 51, the connecting member 216 is slidably connected to the material taking guide rail 213, and the first material taking assembly 214 and the second material taking assembly 215 are disposed on the connecting member 216 and can move on the material taking guide rail 213 along with the connecting member 216 to complete the material taking action.
It will be appreciated that the first take-off assembly 214 and the second take-off assembly 215 move synchronously with the linkage 216 to achieve simultaneous glass pick-up and glass placement.
The material taking mechanism 21 further comprises a first hydraulic cylinder 212, the first hydraulic cylinder 212 is disposed on the bracket 51 and connected to the connecting member 216, and the first hydraulic cylinder 212 can drive the connecting member 216 to move on the material taking guide 213 so as to drive the first material taking assembly 214 and the second material taking assembly 215 to synchronously move relative to the material taking guide 213, thereby completing the material taking action. Get the material through the cooperation of first material subassembly 214 and second material subassembly 215, can improve the work efficiency who gets the material greatly.
Specifically, the first material taking assembly 214 includes a first material taking frame 2140, a first air cylinder 2141 and a first material taking piece 2142, the first material taking frame 2140 is connected with the connecting piece 216, the connecting piece 216 can drive the first material taking frame 2140 to move synchronously when moving on the material taking guide rail 213, the first air cylinder 2141 is arranged on the first material taking frame 2140 and connected with the first material taking piece 2142, and can drive the first material taking piece 2142 to move in a direction perpendicular to the ground relative to the first material taking frame 2140 so as to grasp the glass;
the second material taking assembly 215 comprises a second material taking frame 2150, a second air cylinder 2151, a second material taking piece 2152, a third air cylinder 2153 and a third material taking piece 2154, the second material taking frame 2150 is connected with the connecting piece 216, the connecting piece 216 can drive the second material taking frame 2150 to move synchronously when moving on the material taking guide rail 213, the second air cylinder 2151 is arranged on the second material taking frame 2150 and connected with the second material taking piece 2152, and the second material taking piece 2152 can be driven to move in a direction vertical to the ground relative to the second material taking frame 2150 so as to take glass;
the third cylinder 2153 is disposed on the second material taking frame 2150 and connected to the third material taking member 2154, and drives the third material taking member 2154 to move in a direction perpendicular to the ground with respect to the second material taking member 2152, thereby gripping the glass. The first material taking piece 2142, the second material taking piece 2152 and the third material taking piece 2154 are arranged on the same straight line, so that the accuracy of the material taking mechanism 21 in grabbing glass is improved, and manual operation is replaced. Referring to fig. 4-5, the screen printing mechanism 31 includes a screen printing stage 311, a second hydraulic cylinder 312, a third hydraulic cylinder 313, a screen printing guide 314, a connection column 316, and a screen printing assembly 315.
The connecting column 316 is connected with the bracket 51, the screen printing table 311 is connected with the connecting column 316 in a sliding manner, and the second hydraulic cylinder 312 is arranged on the screen printing table 311, is connected with the bracket 51 and can drive the screen printing table 311 to move in the vertical and ground directions relative to the bracket 51. The silk screen guide rail 314 is arranged on the silk screen table 311, the silk screen component 315 is connected with the silk screen guide rail 314 in a sliding mode, and the third hydraulic cylinder 313 is arranged on the silk screen table 311, is connected with the silk screen component 315 and can drive the silk screen component 315 to move relative to the silk screen table to complete the silk screen action of the glass.
Further, the silk-screen printing mechanism 31 further comprises a silk-screen printing seat 317, wherein the silk-screen printing seat 317 is arranged on the support 51 and used for placing glass to be silk-screen printed.
Specifically, the screen printing component 315 includes a first screen printing part 3151, a fourth cylinder 3152, a second screen printing part 3153, a fifth cylinder 3154 and a screen printing frame 3155, the screen printing frame 3155 is slidably connected to the screen printing guide rail 314, the third cylinder 313 is connected to the screen printing frame 3155 and can drive the screen printing frame 3155 to move relative to the screen printing table 311, the fourth cylinder 3152 and the fifth cylinder 3154 are both disposed on the screen printing frame 3155, the fourth cylinder 3152 is connected to the first screen printing part 3151, and the fifth cylinder 3154 is connected to the second screen printing part 3153; the third hydraulic cylinder 313 drives the screen printing frame 3155 to move on the screen printing guide rail 314, the fourth cylinder 3152 drives the first screen printing part 3151 to move to complete the screen printing action of the glass, and the fifth cylinder 3154 drives the second screen printing part 3153 to move to complete the action of uniformly smearing the screen printing ink, so that the screen printing quality of the glass screen printing is improved.
Further, an opening 3111 is arranged on the screen printing table 311, and the opening 3111 can accommodate the screen printing base 317, so that the screen printing component 315 can perform screen printing on glass; the silk-screen seat 317 is provided with a silk-screen position 3171 for placing glass, so that the glass cannot deviate in the silk-screen process, and the smooth operation of silk-screen work is ensured.
Referring to fig. 6, the dust removing mechanism 41 includes a base 411, a dust removing member 412 and a fifth hydraulic cylinder 413, the base 411 is disposed on the bracket 51 and used for placing glass, the dust removing member 412 is slidably connected to the base 411, and the fifth hydraulic cylinder 413 is disposed on the bracket 51 and used for driving the dust removing member 412 to slide on the base 411 to complete the dust removing operation of the glass.
Specifically, the dust removing member 412 is provided with a sliding groove 4121, the base 411 is provided with a sliding rail 4113 matched with the sliding groove 4121, the fifth hydraulic cylinder 413 drives the dust removing member 412 to move, and the dust removing member 412 is matched with the sliding rail 4113 through the sliding groove 4121, so that the guide and the limit of the dust removing member 412 during moving are realized.
Further, the base 411 is provided with a dust removal position 4111 and a waiting position 4112 side by side, the glass to be subjected to dust removal is subjected to dust removal operation on the dust removal position 4111, and the glass after silk printing is subjected to grabbing by the first material taking member 2142 on the waiting position 4112. Through the cooperation of dust removal position 4111 and waiting position 4112, the working efficiency of the material taking assembly is improved.
Referring to fig. 7, the first material taking frame 2140 and the second material taking frame 2150 are fixedly connected to the connecting member 216 and move together with the connecting member 216 relative to the material taking guide rail, so as to drive the first material taking member 2142, the second material taking member 2152 and the third material taking member 2154 to move together.
When the first material taking member 2142 moves to the position of the second workpiece position 1122, the second material taking member 2152 is located at the position corresponding to the dust removing position 4111, and grabs the glass in the dust removing position 4111 after the dust removing operation is completed.
Then, the first material taking member 2142 continues to move to the first workpiece position 1121, and grabs the glass from the first workpiece position 1121. After the glass is taken out from the first workpiece position 1121, the first material taking member 2142 continues to move to the dust removal position 4111, the glass grabbed from the first workpiece position 1121 is placed into the dust removal position 4111 for dust removal, meanwhile, the third material taking member 2154 synchronously moves to a position corresponding to the screen printing mechanism 31 along with the first material taking member 2142, and the glass grabbed after screen printing in the screen printing mechanism 31 is completed.
After the third material taking member 2154 grabs the glass in the screen printing mechanism 31, the first material taking member 2142, the second material taking member 2152 and the third material taking member 2154 continue to move synchronously, so that the second material taking member 2152 moves to a position corresponding to the screen printing mechanism 31, the first material taking member 2142 moves to a position corresponding to the waiting position 4112, the second material taking member 2152 puts the glass which has finished the first dust removal operation from the dust removal position 4111 into the screen printing mechanism 31, the first material taking member 2142 grabs the glass which has finished the screen printing operation in the waiting position 4112, and the second material taking member 2152 puts the glass which has finished the dust removal operation into the screen printing mechanism 31 for screen printing operation.
Finally, the first material taking member 2142, the second material taking member 2152, and the third material taking member 2154 synchronously move in the reverse direction, so that the first material taking member 2142 moves to the second work position 1122, and the glass grabbed from the waiting position 4112 is placed into the second work position 1122 and transported away by the feeding table 111. The third material taking member 2154 grabs the glass that is finished with the screen printing operation in the screen printing mechanism 31 and puts the glass into the waiting position 4112 to wait for the first material taking member 2142 to grab.
Through the circulation operation of the steps, the whole process that the glass is taken out of the feeding mechanism 11, enters the dust removing position 4111 for dust removal, then enters the silk screen printing mechanism 31 for silk screen printing, then enters the waiting position 4112 for waiting, and finally enters the second workpiece position 1122 and is conveyed away by the feeding table 111 is completed. Utilize the connecting piece to drive first material subassembly and the synchronous motion of second material subassembly of getting, mutually support and snatch glass to improve the efficiency of glass silk screen printing.
Compared with the prior art, the utility model discloses a silk screen printing equipment has following advantage:
1. the first material taking assembly and the second material taking assembly are driven to move synchronously through the connecting piece, and the first material taking assembly and the second material taking assembly are matched with each other to grab glass, so that the efficiency of glass silk screen printing is improved.
2. Before silk screen printing, dust removal mechanism can remove dust to glass to sweep the dust on the glass, make the silk screen printing effect better.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and all modifications, equivalents and improvements made within the principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a silk screen printing equipment for silk screen printing glass, its characterized in that: the screen printing equipment comprises a feeding mechanism, a material taking mechanism, a screen printing mechanism, a dust removing mechanism and a bracket; the feeding mechanism is arranged on one side of the support and used for conveying the glass to a set position, and the support provides support for the material taking mechanism, the dust removing mechanism and the screen printing mechanism;
the material taking mechanism comprises a material taking guide rail, a first material taking assembly, a second material taking assembly and a connecting piece, wherein the material taking guide rail is arranged on the support, the connecting piece is connected with the material taking guide rail in a sliding mode, and the first material taking assembly and the second material taking assembly are connected with the connecting piece;
the dust removal mechanism is used for removing dust on the surface of the glass, and the screen printing mechanism is used for screen printing the glass;
the first material taking assembly and the second material taking assembly can move together along with the connecting piece relative to the material taking guide rail so as to remove dust and screen print the grabbed glass.
2. The screen printing apparatus of claim 1, wherein: the first material taking assembly comprises a first material taking frame, the second material taking assembly comprises a second material taking frame, and the first material taking frame and the second material taking frame are connected with the connecting piece and can move synchronously along with the connecting piece relative to the material taking guide rail.
3. The screen printing apparatus of claim 2, wherein: the first material taking assembly further comprises a first air cylinder and a first material taking part, the first air cylinder is arranged on the first material taking frame and connected with the first material taking part, and the first material taking part can be driven to move in a direction vertical to the ground relative to the first material taking frame so as to grab the glass;
the second material taking assembly further comprises a second air cylinder, a second material taking part, a third air cylinder and a third material taking part, the second air cylinder is arranged on the second material taking frame and connected with the second material taking part, and the second material taking part can be driven to move in the direction vertical to the ground relative to the second material taking frame so as to grab the glass;
the third cylinder is arranged on the second material taking frame and connected with the third material taking piece, and can drive the third material taking piece to move in a direction vertical to the ground relative to the second material taking frame so as to grab the glass; the first material taking part, the second material taking part and the third material taking part are arranged on the same straight line, so that the accuracy of grabbing glass by the first material taking part, the second material taking part and the third material taking part is improved.
4. The screen printing apparatus of claim 1, wherein: the screen printing mechanism comprises a screen printing table, a second hydraulic cylinder, a third hydraulic cylinder, a connecting column, a screen printing guide rail and a screen printing component, the connecting column is connected with the bracket, the screen printing table is in sliding connection with the connecting column, the second hydraulic cylinder is arranged on the screen printing table and is connected with the bracket and can drive the screen printing table to move in the direction vertical to the ground relative to the bracket;
the silk screen printing guide rail is arranged on the silk screen printing table, the silk screen printing component is connected with the silk screen printing guide rail in a sliding mode, and the third hydraulic cylinder is arranged on the silk screen printing table and can drive the silk screen printing component to move on the silk screen printing guide rail relative to the silk screen printing table so as to complete the silk screen printing action of the glass.
5. The screen printing apparatus of claim 4, wherein: the screen printing component comprises a first screen printing piece, a fourth cylinder, a second screen printing piece, a fifth cylinder and a screen printing frame;
the screen printing frame is connected with the screen printing guide rail in a sliding mode, the third hydraulic cylinder is connected with the screen printing frame and can drive the screen printing frame to move relative to the screen printing table, the fourth cylinder and the fifth cylinder are arranged on the screen printing frame, the fourth cylinder is connected with the first screen printing piece and can drive the first screen printing piece to move so as to finish screen printing action on glass, and the fifth cylinder is connected with the second screen printing piece and can drive the second screen printing piece to move so as to finish action of smearing screen printing ink uniformly.
6. The screen printing apparatus of claim 4, wherein: the silk-screen printing mechanism also comprises a silk-screen printing seat, and the silk-screen printing seat is arranged on the bracket and is used for placing glass to be subjected to silk-screen printing;
the screen printing table is provided with an opening, and the opening can be used for accommodating a screen printing seat, so that the screen printing component can perform screen printing operation on glass; and a screen printing position for placing glass is arranged on the screen printing seat, so that the glass cannot deviate in the screen printing process.
7. The screen printing apparatus of claim 1, wherein: the dust removal mechanism comprises a base, a dust removal piece and a fifth hydraulic cylinder, the base is arranged on the support and used for placing glass, the dust removal piece is connected with the base in a sliding mode, and the fifth hydraulic cylinder is arranged on the support and used for driving the dust removal piece to move on the base to complete dust removal work on the glass.
8. The screen printing apparatus of claim 7, wherein: the base is provided with a dust removal position and a waiting position, the dust removal position is used for placing glass to be subjected to silk screen printing, and the waiting position is used for placing glass to be subjected to silk screen printing.
9. The screen printing apparatus of claim 1, wherein: the feeding mechanism comprises a feeding table and a charging box, wherein the feeding table is arranged on one side of the support and can convey the charging box to a set position to prepare for first dust removal of glass.
10. The screen printing apparatus of claim 9, wherein: the loading box comprises a first workpiece position and a second workpiece position, the first workpiece position and the second workpiece position are arranged on the loading box in parallel and are evenly divided into a plurality of grooves, and a piece of glass can be placed in each groove.
CN201821970530.9U 2018-11-27 2018-11-27 Silk screen printing equipment Active CN209987521U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201821970530.9U CN209987521U (en) 2018-11-27 2018-11-27 Silk screen printing equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201821970530.9U CN209987521U (en) 2018-11-27 2018-11-27 Silk screen printing equipment

Publications (1)

Publication Number Publication Date
CN209987521U true CN209987521U (en) 2020-01-24

Family

ID=69286958

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201821970530.9U Active CN209987521U (en) 2018-11-27 2018-11-27 Silk screen printing equipment

Country Status (1)

Country Link
CN (1) CN209987521U (en)

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