CN113910754A

CN113910754A - Glass substrate screen printing machine for LCD display touch control integrated machine

Info

Publication number: CN113910754A
Application number: CN202111104187.6A
Authority: CN
Inventors: 陈志宗
Original assignee: Individual
Current assignee: Beijing Weirui Xinyuan Technology Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2022-01-11
Anticipated expiration: 2041-09-22
Also published as: CN113910754B

Abstract

The invention relates to the field of touch control integrated machines, in particular to a glass substrate screen printing machine for an LCD display touch control integrated machine. The technical problems of the invention are as follows: a glass substrate screen printing machine for an LCD display touch control all-in-one machine is provided. The technical implementation scheme of the invention is as follows: a glass substrate screen printing machine for an LCD display touch control integrated machine comprises a bottom plate component, a support rod and the like; the lower part of the bottom plate component is connected with four supporting rods. The invention realizes the limitation of the glass substrate, conveys the limited glass substrate to a designated position, then prints the frame glue on the upper surface of the glass substrate, protects the front and rear arc parts of the glass substrate to prevent the frame glue from flowing to the middle part of the glass substrate, removes and collects the redundant frame glue, improves the transmittance of the glass substrate, avoids wasting a large amount of frame glue and greatly reduces the production cost.

Description

Glass substrate screen printing machine for LCD display touch control integrated machine

Technical Field

The invention relates to the field of touch control integrated machines, in particular to a glass substrate screen printing machine for an LCD display touch control integrated machine.

Background

At present, in the fields such as industrial instrument, medical instrument and household electrical appliances, many occasions need simple human-computer interaction, among the prior art, realize through the form of adding a resistance-type or capacitive touch screen on LCD's LCD screen, and simultaneously, for the display effect who improves the touch screen, will need the touch screen to set up to the curved screen, at this in-process, need to carry out printing frame to the glass substrate and glue, and then very easily lead to frame to glue and flow to the middle part of glass substrate from the border arc department of glass substrate, and then very big reduction glass substrate's transmissivity, and a large amount of frame glue has been wasted, with great increase manufacturing cost.

In summary, a glass substrate screen printing machine for an LCD display and touch integrated machine needs to be developed to overcome the above problems.

Disclosure of Invention

In order to overcome the defects that in the prior art, in the fields of industrial instruments, medical instruments, household appliances and the like, a plurality of occasions need simple human-computer interaction, the touch screen is realized by adding a resistance-type or capacitance-type touch screen on a liquid crystal screen of a liquid crystal display, and meanwhile, in order to improve the display effect of the touch screen, the touch screen is set to be a curved screen, in the process, frame glue needs to be printed on a glass substrate, so that the frame glue is easy to flow from an arc-shaped part at the edge of the glass substrate to the middle part of the glass substrate, the transmittance of the glass substrate is greatly reduced, a large amount of frame glue is wasted, and the production cost is greatly increased, the technical problem of the invention is as follows: a glass substrate screen printing machine for an LCD display touch control all-in-one machine is provided.

The technical implementation scheme of the invention is as follows: a glass substrate screen printing machine for an LCD display touch control integrated machine comprises a bottom plate assembly, a supporting rod, an anti-slip pad, a first supporting column, a supporting frame, a supporting table, a bearing plate, a screen printing unit and a glue removing unit; the lower part of the bottom plate component is connected with four supporting rods; the lower parts of the four support rods are respectively connected with an anti-skid pad; the left side of the upper part of the bottom plate component is connected with four first supporting columns; the right side of the upper part of the bottom plate component is connected with a supporting frame; the upper part of the supporting frame is connected with a glue removing unit; a supporting table is connected to the rear side of the middle part above the bottom plate component; the upper part of the support table is connected with a screen printing unit; the upper part of the support table is connected with a bearing plate; the upper part of the bearing plate is connected with a silk-screen unit; a screen printing unit is arranged on the rear side in the upper part of the bottom plate component; the right side of the upper part of the bottom plate component is connected with a glue removing unit; the silk screen printing unit prints the frame glue on the upper surface of the glass substrate, and meanwhile, the glue removing unit protects the glass substrate and removes the frame glue printed by the silk screen printing unit.

As an improvement of the above scheme, the device further comprises a feeding unit, wherein the feeding unit comprises a first fixing plate, a first fixing frame, a second fixing plate, a cylinder, a pushing plate, a first round rod, a first sliding block, a second sliding block, a first compression spring, a second compression spring, a third sliding block, a second round rod, a fourth sliding block, a support, a first electric sliding rail, a sixth sliding block and a conveying plate; the upper parts of the two first supporting columns on the left side are fixedly connected with a first fixing plate; the upper parts of the two first supporting columns on the right side are fixedly connected with a second fixing plate; a first fixing frame is welded in the middle of the upper parts of the first fixing plate and the second fixing plate; the middle part in the first fixing frame is fixedly connected with a cylinder; a pushing plate is fixedly connected to the middle part below the air cylinder; a first sliding block is connected inside the front side of the first fixing plate in a sliding manner; a second sliding block is connected inside the front side of the second fixed plate in a sliding manner; a first round rod is welded between the opposite surfaces of the first sliding block and the second sliding block; a third sliding block is connected inside the rear side of the second fixing plate in a sliding manner; a first compression spring is welded between the opposite surfaces of the third sliding block and the second sliding block; a fourth sliding block is connected inside the rear side of the first fixing plate in a sliding manner; a second compression spring is welded between the opposite surfaces of the fourth sliding block and the first sliding block; a second round rod is welded between the opposite surfaces of the fourth sliding block and the third sliding block; a bracket is fixedly connected to the middle part of the left side above the bottom plate component; a first electric slide rail is fixedly connected above the bracket; the right side of the first electric sliding rail is connected with a sixth sliding block in a sliding manner; a conveying plate is fixedly connected above the sixth sliding block.

As an improvement of the above scheme, the screen printing unit includes a first motor, a first lead screw, a first transmission wheel, a second lead screw, a second fixing frame, a first connecting rod, a first fixing block, a second connecting rod, a second fixing block, a printing plate, a second electric slide rail, a fifth slide block, a third fixing plate, a first printing block and a second printing block; a first motor is fixedly connected to the left side above the bearing plate; a first screw rod is rotatably connected between the opposite surfaces of the bearing plate and the left side of the support table; the middle part below the first motor is fixedly connected with a first screw rod; a first driving wheel is fixedly connected to the middle upper part of the outer ring surface of the first screw rod; a second screw rod is rotatably connected between the opposite surfaces of the bearing plate and the right side of the support table; a second driving wheel is fixedly connected to the middle upper part of the second screw rod; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the middle parts of the first screw rod and the second screw rod are respectively screwed with a second fixing frame; two first connecting rods are fixedly connected to the lower part of the right side of the second fixing frame; the lower parts of the two first connecting rods are fixedly connected with first fixed blocks; two second connecting rods are fixedly connected to the lower part of the left side of the second fixing frame; the lower parts of the two second connecting rods are fixedly connected with second fixed blocks; a printing plate is welded between the opposite surfaces of the first fixed block and the second fixed block; a second electric slide rail is connected with the rear side bolt in the second fixing frame; the front side of the second electric slide rail is connected with a fifth slide block in a sliding way; a third fixing plate is fixedly connected to the lower part of the front side of the fifth sliding block; a first printing block is fixedly connected to the inner part of the front side below the third fixing plate through a spring; a second printing block is fixedly connected to the inner portion of the rear side below the third fixing plate through a spring.

As an improvement of the above scheme, the glue removing unit comprises a second motor, a third screw rod, a sliding plate, a first limit rod, a second limit rod, a polished rod, a third transmission wheel, a fourth transmission wheel, a first transmission shaft, a first straight gear, a first hairbrush, a second straight gear, a first sliding sleeve, a fourth fixing plate, a third straight gear, an electric push rod, a fifth transmission wheel, a sixth transmission wheel, a second transmission shaft, a second hairbrush, a fifth straight gear, a sixth straight gear and a second sliding sleeve; a second motor is fixedly connected to the right front side of the supporting frame; the right front side of the supporting frame is rotatably connected with a third screw rod; the left end part of the third screw rod is rotatably connected with the bottom plate assembly; the left side of the second motor is fixedly connected with a third screw rod; a polish rod is fixedly connected to the lower part of the left rear side of the support frame; the left side of the outer ring surface of the polish rod is fixedly connected with a bottom plate component; the left side of the outer ring surface of the polished rod is connected with a sliding plate in a sliding way; the left side of the third screw rod is connected with a sliding plate in a screwing way; the front part of the left side of the sliding plate is rotatably connected with a first limiting rod; the rear part of the left side of the sliding plate is rotatably connected with a second limiting rod; a third driving wheel is fixedly connected to the right side of the outer ring surface of the third screw rod; a first transmission shaft is fixedly connected to the upper part of the left rear side of the support frame; a fourth driving wheel is fixedly connected to the right side of the outer ring surface of the first driving shaft; the fourth driving wheel is connected with the third driving wheel through a belt in a driving way; the left end of the first transmission shaft is rotatably connected with the bottom plate component; a first straight gear is fixedly connected to the left side of the outer ring surface of the first transmission shaft; a first brush is fixedly connected to the left end of the outer ring surface of the first transmission shaft; two electric push rods are fixedly connected to the middle part of the right side of the supporting part in the middle part above the bottom plate component; the right side end parts of the two electric push rods are fixedly connected with a fourth fixing plate; the middle part of the rear side of the fourth fixing plate is rotatably connected with a second straight gear; the right side of the middle part of the outer ring surface of the second straight gear is in transmission connection with a first sliding sleeve; the left side of the outer ring surface of the first sliding sleeve is in transmission connection with a second limiting rod; the second straight gear is meshed with the first straight gear; the rear side of the supporting part in the middle part above the bottom plate assembly is rotationally connected with a third straight gear through a rotating shaft; the third straight gear is meshed with the first straight gear; a fifth driving wheel is fixedly connected to the middle part of the supporting part in the middle part above the bottom plate component through a rotating shaft; the front side of the supporting part in the middle part above the bottom plate assembly is rotatably connected with a second transmission shaft; a sixth driving wheel is fixedly connected to the middle of the left side of the outer ring surface of the second driving shaft; the sixth driving wheel is connected with the fifth driving wheel through a belt in a driving way; a second brush is fixedly connected to the left end part of the outer ring surface of the second transmission shaft; a fifth straight gear is fixedly connected to the right end part of the outer ring surface of the second transmission shaft; a sixth straight gear is rotatably connected to the middle part of the front side of the fourth fixing plate; the right side of the middle part of the outer ring surface of the sixth straight gear is in transmission connection with a second sliding sleeve; the sixth spur gear is meshed with the fifth spur gear; the left side of the outer ring surface of the second sliding sleeve is in transmission connection with a first limiting rod.

As an improvement of the scheme, the front side and the rear side of the pushing plate are both arc-shaped.

As an improvement of the scheme, the front side and the rear side of the conveying plate are both arranged to be concave arc-shaped.

As an improvement of the scheme, an elastic piece is arranged at the joint of the third fixing plate and the first printing block.

As an improvement of the scheme, an elastic piece is arranged at the joint of the third fixing plate and the second printing block.

As the improvement of the scheme, a convex strip is arranged at the joint of the first sliding sleeve and the second straight gear, and a corresponding groove is formed in the second straight gear.

As an improvement of the above scheme, a convex strip is arranged at the joint of the second sliding sleeve and the sixth straight gear, and a corresponding groove is formed in the sixth straight gear.

The invention has the beneficial effects that: 1. in order to solve the problem that in the field of industrial instruments, medical instruments, household appliances and the like, simple human-computer interaction is needed in many occasions, in the prior art, the simple human-computer interaction is realized by adding a resistance-type or capacitance-type touch screen on a liquid crystal screen of a liquid crystal display, meanwhile, in order to improve the display effect of the touch screen, the touch screen is required to be set as a curved screen, in the process, frame glue needs to be printed on a glass substrate, the frame glue is easy to flow to the middle of the glass substrate from an arc-shaped edge of the glass substrate, the transmittance of the glass substrate is greatly reduced, a large amount of frame glue is wasted, and the production cost is greatly increased.

2. The invention sets a feeding unit, a silk screen unit and a glue removing unit, when in use, firstly, a glass substrate silk screen printing machine for an LCD display touch control all-in-one machine is placed at a position to be used, four support rods and four anti-skid pads are kept horizontal, then an external power supply is controlled to be started through an external control screen, firstly, a worker places arc-shaped glass substrates at the front side and the rear side in the feeding unit on a bottom plate assembly, then, the feeding unit on a first support column is utilized to limit the glass substrates, the limited glass substrates are conveyed to the silk screen printing unit connected with a support table and a bearing plate, then, the silk screen printing unit is utilized to print frame glue on the upper surface of the glass substrates, meanwhile, in order to prevent the frame glue from flowing to the middle part of the glass substrates, then, the glue removing unit on the support frame is utilized to protect the glass substrates, then, the glue removing unit is utilized to remove the redundant frame glue, and finally, the materials are taken out by workers and collected.

3. The invention realizes the limitation of the glass substrate, conveys the limited glass substrate to a designated position, then prints the frame glue on the upper surface of the glass substrate, protects the front and rear arc parts of the glass substrate to prevent the frame glue from flowing to the middle part of the glass substrate, removes and collects the redundant frame glue, improves the transmittance of the glass substrate, avoids wasting a large amount of frame glue and greatly reduces the production cost.

Drawings

FIG. 1 shows a first perspective view of the present invention;

FIG. 2 shows a second perspective view of the present invention;

FIG. 3 shows a third perspective view of the present invention;

FIG. 4 shows a schematic perspective view of a feed unit of the present invention;

FIG. 5 shows a schematic partial perspective view of a feed unit of the present invention;

FIG. 6 shows a schematic perspective view of a screen printing unit according to the present invention;

FIG. 7 shows a schematic view of a first partial three-dimensional structure of a screen printing unit according to the present invention;

FIG. 8 shows a second partial perspective view of a screen printing unit according to the present invention;

FIG. 9 shows an enlarged view of area B of a screen printing unit of the present invention;

FIG. 10 shows a schematic perspective view of a glue removing unit according to the present invention;

FIG. 11 shows a first partial perspective view of the glue removal unit of the present invention;

FIG. 12 shows a second partial perspective view of the glue removing unit of the present invention;

FIG. 13 is a schematic view showing a third partial perspective structure of the glue removing unit of the present invention;

fig. 14 shows a schematic perspective view of a fourth partial structure of the glue removing unit of the present invention.

Number designation in the figures: 1. a bottom plate component, 2, a support rod, 3, a non-slip mat, 4, a first support column, 5, a support frame, 6, a support table, 7, a bearing plate, 201, a first fixing plate, 202, a first fixing frame, 203, a second fixing plate, 204, a cylinder, 205, a pushing plate, 206, a first round bar, 207, a first slider, 208, a second slider, 209, a first compression spring, 210, a second compression spring, 211, a third slider, 212, a second round bar, 213, a fourth slider, 214, a bracket, 215, a first electric slide rail, 216, a sixth slider, 217, a transmission plate, 301, a first motor, 302, a first screw rod, 303, a first transmission wheel, 304, a second transmission wheel, 305, a second screw rod, 306, a second fixing frame, 307, a first connecting rod, 308, a first fixing block, 309, a second connecting rod, 310, a second fixing block, 311, a printing plate, 312, a second electric slide rail, 313, a printing plate, a second fixing block, a second sliding rail, a second sliding block, a second sliding rail, a third sliding block, a fourth, A fifth slider, 314, a third fixing plate, 315, a first printing block, 316, a second printing block, 401, a second motor, 402, a third screw rod, 403, a sliding plate, 404, a first limit rod, 405, a second limit rod, 406, a polish rod, 407, a third transmission wheel, 408, a fourth transmission wheel, 409, a first transmission shaft, 410, a first straight gear, 411, a first brush, 412, a second straight gear, 413, a first sliding sleeve, 414, a fourth fixing plate, 415, a third straight gear, 416, an electric push rod, 417, a fifth transmission wheel, 418, a sixth transmission wheel, 421, a second transmission shaft, 420, a second brush, a straight gear, 422, a sixth straight gear, 423, and a second sliding sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

A glass substrate screen printing machine for an LCD display touch control integrated machine is shown in figures 1-3 and comprises a bottom plate component 1, a support rod 2, an anti-slip pad 3, a first support column 4, a support frame 5, a support table 6, a bearing plate 7, a screen printing unit and a glue removing unit; the lower part of the bottom plate component 1 is connected with four supporting rods 2; the lower parts of the four support rods 2 are respectively connected with an anti-skid pad 3; the left side of the upper part of the bottom plate component 1 is connected with four first supporting columns 4; the right side of the upper part of the bottom plate component 1 is connected with a supporting frame 5; the upper part of the support frame 5 is connected with a glue removing unit; a supporting table 6 is connected to the rear side of the middle part above the bottom plate component 1; the upper part of the support table 6 is connected with a screen printing unit; the upper part of the support table 6 is connected with a bearing plate 7; the upper part of the bearing plate 7 is connected with a silk-screen unit; a screen printing unit is arranged on the rear side of the upper part of the bottom plate component 1; the right side of the upper part of the bottom plate component 1 is connected with a glue removing unit; the silk screen printing unit prints the frame glue on the upper surface of the glass substrate, and meanwhile, the glue removing unit protects the glass substrate and removes the frame glue printed by the silk screen printing unit.

The working principle is as follows: when in use, firstly, a glass substrate screen printing machine for an LCD display touch control all-in-one machine is placed at a position to be used, so that four support rods 2 and four anti-slip pads 3 are kept horizontal, then an external power supply is controlled to be started through an external control screen, firstly, a worker places arc-shaped glass substrates at the front side and the rear side in a feeding unit on a bottom plate component 1, then, the feeding unit on a first support column 4 is used for limiting the glass substrates, the limited glass substrates are conveyed to a screen printing unit connected to a support table 6 and a bearing plate 7, then, frame glue is printed on the upper surface of the glass substrates through the screen printing unit, meanwhile, in order to prevent the frame glue from flowing to the middle part of the glass substrates, then, the glass substrates are protected through a glue removing unit on a support frame 5, then, the surplus frame glue is removed through the glue removing unit, and finally, the glass substrates are taken out and collected by the worker, the invention realizes the limitation of the glass substrate, conveys the limited glass substrate to a designated position, then prints the frame glue on the upper surface of the glass substrate, protects the front and rear arc parts of the glass substrate to prevent the frame glue from flowing to the middle part of the glass substrate, removes and collects the redundant frame glue, improves the transmittance of the glass substrate, avoids wasting a large amount of frame glue and greatly reduces the production cost.

As shown in fig. 4-5, the device further comprises a feeding unit, wherein the feeding unit comprises a first fixing plate 201, a first fixing frame 202, a second fixing plate 203, an air cylinder 204, a pushing plate 205, a first round rod 206, a first slider 207, a second slider 208, a first compression spring 209, a second compression spring 210, a third slider 211, a second round rod 212, a fourth slider 213, a bracket 214, a first electric slide rail 215, a sixth slider 216 and a transmission plate 217; the upper parts of the two left first supporting columns 4 are fixedly connected with a first fixing plate 201; the upper parts of the two first supporting columns 4 on the right side are fixedly connected with a second fixing plate 203; a first fixing frame 202 is welded in the middle of the upper parts of the first fixing plate 201 and the second fixing plate 203; the middle part in the first fixing frame 202 is fixedly connected with an air cylinder 204; a pushing plate 205 is fixedly connected to the middle part below the air cylinder 204; a first sliding block 207 is connected to the front inner side of the first fixing plate 201 in a sliding manner; a second sliding block 208 is connected to the inner part of the front side of the second fixing plate 203 in a sliding manner; a first round rod 206 is welded between the opposite surfaces of the first sliding block 207 and the second sliding block 208; a third sliding block 211 is connected to the rear inner part of the second fixing plate 203 in a sliding manner; a first compression spring 209 is welded between the opposite surfaces of the third slider 211 and the second slider 208; a fourth sliding block 213 is connected to the rear inner part of the first fixing plate 201 in a sliding manner; a second compression spring 210 is welded between the opposite surfaces of the fourth sliding block 213 and the first sliding block 207; a second round rod 212 is welded between the opposite surfaces of the fourth slider 213 and the third slider 211; a bracket 214 is fixedly connected to the middle part of the left side above the bottom plate component 1; a first electric slide rail 215 is fixedly connected above the bracket 214; a sixth sliding block 216 is connected to the right side of the first electric sliding rail 215 in a sliding manner; a transmission plate 217 is fixedly connected above the sixth sliding block 216.

Firstly, a worker places arc-shaped glass substrates on the front side and the rear side on a first round rod 206 and a second round rod 212, supports the arc-shaped glass substrates through the first round rod 206 and the second round rod 212, then limits the arc-shaped glass substrates through a conveying plate 217, conveys the limited glass substrates into a silk-screen printing unit, a first electric slide rail 215 on a support 214 is started to drive the conveying plate 217 to slide to the position right below the first round rod 206 and the second round rod 212 through a sixth slide block 216, then, an air cylinder 204 on a first fixing frame 202 is started to drive a pushing plate 205 to move downwards, further extrudes the glass substrates, further the glass substrates extrude the first round rod 206 and the second round rod 212 to move and expand oppositely, further the first round rod 206 moves to drive the first slide block 207 to move in a first fixing plate 201, simultaneously the second slide block 208 moves in the second fixing plate 203, the second round rod 212 moves to drive the third slider 211 and the fourth slider 213 to move, so that the first compression spring 209 and the second compression spring 210 are stretched, the glass substrate is smoothly moved to the conveying plate 217, then the conveying plate 217 slides to the screen printing unit according to the same working principle, the feeding unit realizes limiting of the glass substrate, and the limited glass substrate is conveyed to the screen printing unit.

As shown in fig. 6-9, the screen printing unit includes a first motor 301, a first lead screw 302, a first driving wheel 303, a second driving wheel 304, a second lead screw 305, a second fixing frame 306, a first connecting rod 307, a first fixing block 308, a second connecting rod 309, a second fixing block 310, a printing plate 311, a second electric slide rail 312, a fifth slide block 313, a third fixing plate 314, a first printing block 315, and a second printing block 316; a first motor 301 is fixedly connected to the left side above the bearing plate 7; a first screw rod 302 is rotatably connected between the left opposite surfaces of the bearing plate 7 and the support table 6; the middle part below the first motor 301 is fixedly connected with a first screw rod 302; a first driving wheel 303 is fixedly connected to the middle upper part of the outer annular surface of the first screw rod 302; a second screw rod 305 is rotatably connected between the opposite surfaces of the bearing plate 7 and the right side of the support table 6; a second driving wheel 304 is fixedly connected to the middle upper part of the second screw rod 305; the outer ring surface of the second transmission wheel 304 is in transmission connection with the first transmission wheel 303 through a belt; the middle parts of the first screw rod 302 and the second screw rod 305 are both screwed with a second fixed mount 306; two first connecting rods 307 are fixedly connected to the lower part of the right side of the second fixing frame 306; the lower parts of the two first connecting rods 307 are fixedly connected with first fixed blocks 308; two second connecting rods 309 are fixedly connected to the lower part of the left side of the second fixing frame 306; the lower parts of the two second connecting rods 309 are fixedly connected with second fixed blocks 310; a printing plate 311 is welded between the opposite surfaces of the first fixed block 308 and the second fixed block 310; a second electric slide rail 312 is connected to the rear side bolt in the second fixing frame 306; a fifth sliding block 313 is connected to the front side of the second electric sliding rail 312 in a sliding manner; a third fixing plate 314 is fixedly connected to the lower part of the front side of the fifth sliding block 313; a first printing block 315 is fixedly connected to the inner part of the front side below the third fixing plate 314 through a spring; a second printing block 316 is fixed to the rear side of the lower part of the third fixing plate 314 by a spring.

Then, the glass substrate after being limited is conveyed to the right below the printing plate 311 by the feeding unit, then frame-sealing glue is printed on the upper surface of the glass substrate, the first motor 301 is started to drive the first lead screw 302 to rotate, further the first driving wheel 303 is driven to drive the second driving wheel 304 to rotate, further the second lead screw 305 is driven to rotate, at this time, the first lead screw 302 and the second lead screw 305 simultaneously rotate to drive the second fixing frame 306 to move downwards, further all components connected with the second fixing frame 306 are driven to move downwards, further the two first connecting rods 307 are driven to drive the first fixing block 308 to move downwards, simultaneously the two second connecting rods 309 are driven to drive the second fixing block 310 to move downwards, further the first fixing block 308 and the second fixing block 310 simultaneously move downwards to drive the printing plate 311 to move downwards to be close to the upper surface of the glass substrate, then the frame-sealing glue is printed on the glass substrate by the first printing block 315 and the second printing block 316, the second electric slide rail 312 is started to drive the third fixing plate 314 to move through the fifth slide block 313, so that the first printing block 315 and the second printing block 316 are driven to move, the frame glue is printed on the glass substrate, meanwhile, the glass substrate is protected by the glue removing unit, the frame glue is prevented from flowing to the middle of the glass substrate, and the frame glue is printed on the upper surface of the glass substrate by the screen printing unit.

According to fig. 10-14, the glue removing unit comprises a second motor 401, a third screw 402, a sliding plate 403, a first limit rod 404, a second limit rod 405, a polish rod 406, a third transmission wheel 407, a fourth transmission wheel 408, a first transmission shaft 409, a first straight gear 410, a first hairbrush 411, a second straight gear 412, a first sliding sleeve 413, a fourth fixing plate 414, a third straight gear 415, an electric push rod 416, a fifth transmission wheel 417, a sixth transmission wheel 418, a second transmission shaft 419, a second hairbrush 420, a fifth straight gear 421, a sixth straight gear 422 and a second sliding sleeve 423; a second motor 401 is fixedly connected to the right front side of the support frame 5; the right front side of the support frame 5 is rotatably connected with a third screw rod 402; the left end part of the third screw rod 402 is rotatably connected with the bottom plate assembly 1; the left side of the second motor 401 is fixedly connected with a third screw rod 402; a polish rod 406 is fixedly connected to the lower part of the left rear side of the support frame 5; the left side of the outer ring surface of the polish rod 406 is fixedly connected with the bottom plate component 1; a sliding plate 403 is connected to the left side of the outer annular surface of the polish rod 406 in a sliding manner; the left side of the third screw rod 402 is rotatably connected with a sliding plate 403; the front part of the left side of the sliding plate 403 is rotatably connected with a first limiting rod 404; the rear part of the left side of the sliding plate 403 is rotatably connected with a second limiting rod 405; a third driving wheel 407 is fixedly connected to the right side of the outer ring surface of the third screw rod 402; a first transmission shaft 409 is fixedly connected to the upper part of the left rear side of the support frame 5; a fourth driving wheel 408 is fixedly connected to the right side of the outer ring surface of the first driving shaft 409; the fourth driving wheel 408 is connected with a third driving wheel 407 through belt transmission; the left end of the first transmission shaft 409 is rotatably connected with the bottom plate component 1; a first straight gear 410 is fixedly connected to the left side of the outer ring surface of the first transmission shaft 409; a first brush 411 is fixedly connected to the left end of the outer ring surface of the first transmission shaft 409; two electric push rods 416 are fixedly connected to the middle part of the right side of the supporting part in the middle part above the bottom plate component 1; the right end parts of the two electric push rods 416 are fixedly connected with a fourth fixing plate 414; a second spur gear 412 is rotatably connected to the middle of the rear side of the fourth fixing plate 414; the right side of the middle part of the outer ring surface of the second straight gear 412 is in transmission connection with a first sliding sleeve 413; the left side of the outer annular surface of the first sliding sleeve 413 is in transmission connection with a second limiting rod 405; the second spur gear 412 engages the first spur gear 410; the rear side of the supporting part in the middle part above the bottom plate component 1 is rotationally connected with a third straight gear 415 through a rotating shaft; the third spur gear 415 meshes with the first spur gear 410; a fifth driving wheel 417 is fixedly connected to the middle part of the supporting part at the middle part above the bottom plate component 1 through a rotating shaft; a second transmission shaft 419 is rotatably connected to the front side of the supporting part in the middle part above the bottom plate assembly 1; a sixth driving wheel 418 is fixedly connected to the middle of the left side of the outer ring surface of the second driving shaft 419; the sixth driving wheel 418 is connected with a fifth driving wheel 417 through belt transmission; a second brush 420 is fixedly connected to the left end of the outer ring surface of the second transmission shaft 419; a fifth straight gear 421 is fixedly connected to the right end of the outer ring surface of the second transmission shaft 419; a sixth straight gear 422 is rotatably connected to the middle part of the front side of the fourth fixing plate 414; the right side of the middle part of the outer ring surface of the sixth straight gear 422 is in transmission connection with a second sliding sleeve 423; the sixth spur gear 422 meshes with the fifth spur gear 421; the left side of the outer annular surface of the second sliding sleeve 423 is in transmission connection with the first limiting rod 404.

Then, while printing frame glue on the upper surface of the glass substrate by the screen printing unit, the front and rear arc-shaped portions of the glass substrate are protected by the first and second limiting

rods

404 and 405, and the redundant frame glue is removed and collected on the outer annular surfaces of the first and second limiting

rods

404 and 405, and the frame glue of the first and second limiting

rods

404 and 405 is removed, at this time, the first and second limiting

rods

404 and 405 are respectively located on the upper surfaces of the front and rear arc-shaped portions of the glass substrate, then, the second motor 401 is started to drive the third transmission wheel 407 to rotate through the third screw 402, and further drive the fourth transmission wheel 408 to drive the first transmission shaft 409 to rotate, and further drive the first straight gear 410 to rotate, at this time, the first straight gear 410 rotates to drive the second straight gear 412 on the fourth fixing plate 414 to rotate, and further drive the first sliding sleeve 413 to drive the second limiting rod 405 to rotate, meanwhile, the first spur gear 410 rotates to drive the third spur gear 415 to rotate reversely, so as to drive the fifth transmission wheel 417 to rotate through the rotating shaft, so as to drive the sixth transmission wheel 418 to drive the second transmission shaft 419 to rotate, so as to drive the fifth spur gear 421 to drive the sixth spur gear 422 to rotate, so as to drive the second sliding sleeve 423 to drive the first limiting rod 404 to rotate, at this time, the second limiting rod 405 and the first limiting rod 404 rotate reversely, so as to protect the front and rear arc-shaped parts of the glass substrate, and remove and collect the redundant frame glue on the outer annular surfaces of the first limiting rod 404 and the second limiting rod 405, at the same time, the frame glue on the outer annular surfaces of the first limiting rod 404 and the second limiting rod 405 is removed, at this time, the third screw 402 rotates to drive the sliding plate 403 to slide along the polish rod 406, so as to drive all components connected with the sliding plate 403 to slide, so as to drive the first limiting rod 404 and the second limiting rod 405 to move, meanwhile, the first driving shaft 409 rotates to drive the first brush 411 to rotate, the second driving shaft 419 rotates to drive the second brush 420 to rotate, thereby removing the frame glue on the outer ring surface of the first limiting rod 404 and the second limiting rod 405, then, after the frame glue on the outer circumferential surfaces of the first limiting rod 404 and the second limiting rod 405 is removed, then the first limiting rod 404 and the second limiting rod 405 are controlled to stop rotating, at this time, the two electric push rods 416 are started to drive the fourth fixing plate 414 to move, thereby driving the second spur gear 412 and the sixth spur gear 422 to move, and further disconnecting the second spur gear 412 from the first spur gear 410, disconnecting the sixth spur gear 422 from the fifth spur gear 421, and then make first gag lever post 404 and second gag lever post 405 stop rotating, remove the unit of gluing and realized protecting the front and back side arc position of glass substrate to get rid of the collection with unnecessary frame gum, and get rid of the frame gum after the collection.

Both the front side and the rear side of the push plate 205 are provided in an arc shape.

The push plate 205 can be moved downward to press the upper surface of the glass substrate, thereby preventing the glass substrate from being scratched.

Both the front side and the rear side of the transfer plate 217 are configured as concave arcs.

The conveying plate 217 can limit the glass substrate, so that the glass substrate is stable.

An elastic member is disposed at a connection of the third fixing plate 314 and the first printing block 315.

The first printing block 315 can slide in the third fixing plate 314 after being pressed during printing, so that the first printing block 315 can be always attached to the upper surface of the glass substrate.

An elastic member is disposed at a connection portion of the third fixing plate 314 and the second printing block 316.

The second printing block 316 can slide in the third fixing plate 314 after being pressed during printing, so that the second printing block 316 can be always attached to the upper surface of the glass substrate.

A convex strip is arranged at the joint of the first sliding sleeve 413 and the second straight gear 412, and a corresponding groove is arranged in the second straight gear 412.

The second spur gear 412 can be made to slide on the first sliding sleeve 413 and to transmit the motion.

A convex strip is arranged at the joint of the second sliding sleeve 423 and the sixth straight gear 422, and a corresponding groove is arranged in the sixth straight gear 422.

The sixth spur gear 422 can be made to slide on the second sliding sleeve 423 and to transmit power.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A glass substrate screen printing machine for an LCD display touch control integrated machine comprises a bottom plate assembly, a supporting rod, a first support column, a supporting frame and a supporting table; the lower part of the bottom plate component is connected with four supporting rods; the left side of the upper part of the bottom plate component is connected with four first supporting columns; the right side of the upper part of the bottom plate component is connected with a supporting frame; a supporting table is connected to the rear side of the middle part above the bottom plate component; the method is characterized in that: the screen printing device also comprises a screen printing unit and a glue removing unit; a screen printing unit is arranged on the rear side in the upper part of the bottom plate component; the right side of the upper part of the bottom plate component is connected with a glue removing unit; the upper part of the supporting frame is connected with a glue removing unit; the upper part of the support table is connected with a screen printing unit; the silk screen printing unit prints the frame glue on the upper surface of the glass substrate, and meanwhile, the glue removing unit protects the glass substrate and removes the frame glue printed by the silk screen printing unit.

2. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 1, wherein: the glue removing unit comprises a second motor, a third screw rod, a sliding plate, a first limiting rod, a second limiting rod, a polished rod, a third transmission wheel, a fourth transmission wheel, a first transmission shaft, a first straight gear, a first hairbrush, a second straight gear, a first sliding sleeve, a fourth fixing plate, a third straight gear, an electric push rod, a fifth transmission wheel, a sixth transmission wheel, a second transmission shaft, a second hairbrush, a fifth straight gear, a sixth straight gear and a second sliding sleeve; a second motor is fixedly connected to the right front side of the supporting frame; the right front side of the supporting frame is rotatably connected with a third screw rod; the left end part of the third screw rod is rotatably connected with the bottom plate assembly; the left side of the second motor is fixedly connected with a third screw rod; a polish rod is fixedly connected to the lower part of the left rear side of the support frame; the left side of the outer ring surface of the polish rod is fixedly connected with a bottom plate component; the left side of the outer ring surface of the polished rod is connected with a sliding plate in a sliding way; the left side of the third screw rod is connected with a sliding plate in a screwing way; the front part of the left side of the sliding plate is rotatably connected with a first limiting rod; the rear part of the left side of the sliding plate is rotatably connected with a second limiting rod; a third driving wheel is fixedly connected to the right side of the outer ring surface of the third screw rod; a first transmission shaft is fixedly connected to the upper part of the left rear side of the support frame; a fourth driving wheel is fixedly connected to the right side of the outer ring surface of the first driving shaft; the fourth driving wheel is connected with the third driving wheel through a belt in a driving way; the left end of the first transmission shaft is rotatably connected with the bottom plate component; a first straight gear is fixedly connected to the left side of the outer ring surface of the first transmission shaft; a first brush is fixedly connected to the left end of the outer ring surface of the first transmission shaft; two electric push rods are fixedly connected to the middle part of the right side of the supporting part in the middle part above the bottom plate component; the right side end parts of the two electric push rods are fixedly connected with a fourth fixing plate; the middle part of the rear side of the fourth fixing plate is rotatably connected with a second straight gear; the right side of the middle part of the outer ring surface of the second straight gear is in transmission connection with a first sliding sleeve; the left side of the outer ring surface of the first sliding sleeve is in transmission connection with a second limiting rod; the second straight gear is meshed with the first straight gear; the rear side of the supporting part in the middle part above the bottom plate assembly is rotationally connected with a third straight gear through a rotating shaft; the third straight gear is meshed with the first straight gear; a fifth driving wheel is fixedly connected to the middle part of the supporting part in the middle part above the bottom plate component through a rotating shaft; the front side of the supporting part in the middle part above the bottom plate assembly is rotatably connected with a second transmission shaft; a sixth driving wheel is fixedly connected to the middle of the left side of the outer ring surface of the second driving shaft; the sixth driving wheel is connected with the fifth driving wheel through a belt in a driving way; a second brush is fixedly connected to the left end part of the outer ring surface of the second transmission shaft; a fifth straight gear is fixedly connected to the right end part of the outer ring surface of the second transmission shaft; a sixth straight gear is rotatably connected to the middle part of the front side of the fourth fixing plate; the right side of the middle part of the outer ring surface of the sixth straight gear is in transmission connection with a second sliding sleeve; the sixth spur gear is meshed with the fifth spur gear; the left side of the outer ring surface of the second sliding sleeve is in transmission connection with a first limiting rod.

3. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 2, characterized in that: the screen printing unit comprises a first motor, a first screw rod, a first transmission wheel, a second screw rod, a second fixing frame, a first connecting rod, a first fixing block, a second connecting rod, a second fixing block, a printing plate, a second electric slide rail, a fifth slide block, a third fixing plate, a first printing block and a second printing block; a first motor is fixedly connected to the left side above the bearing plate; a first screw rod is rotatably connected between the opposite surfaces of the bearing plate and the left side of the support table; the middle part below the first motor is fixedly connected with a first screw rod; a first driving wheel is fixedly connected to the middle upper part of the outer ring surface of the first screw rod; a second screw rod is rotatably connected between the opposite surfaces of the bearing plate and the right side of the support table; a second driving wheel is fixedly connected to the middle upper part of the second screw rod; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the middle parts of the first screw rod and the second screw rod are respectively screwed with a second fixing frame; two first connecting rods are fixedly connected to the lower part of the right side of the second fixing frame; the lower parts of the two first connecting rods are fixedly connected with first fixed blocks; two second connecting rods are fixedly connected to the lower part of the left side of the second fixing frame; the lower parts of the two second connecting rods are fixedly connected with second fixed blocks; a printing plate is welded between the opposite surfaces of the first fixed block and the second fixed block; a second electric slide rail is connected with the rear side bolt in the second fixing frame; the front side of the second electric slide rail is connected with a fifth slide block in a sliding way; a third fixing plate is fixedly connected to the lower part of the front side of the fifth sliding block; a first printing block is fixedly connected to the inner part of the front side below the third fixing plate through a spring; a second printing block is fixedly connected to the inner portion of the rear side below the third fixing plate through a spring.

4. The glass substrate screen printing machine for the LCD display touch control all-in-one machine according to any one of claims 1 to 3, characterized in that: the left side of the upper part of the bottom plate component is connected with the feeding unit; the feeding unit comprises a first fixing plate, a first fixing frame, a second fixing plate, a cylinder, a pushing plate, a first round rod, a first sliding block, a second sliding block, a first compression spring, a second compression spring, a third sliding block, a second round rod, a fourth sliding block, a support, a first electric sliding rail, a sixth sliding block and a conveying plate; the upper parts of the two first supporting columns on the left side are fixedly connected with a first fixing plate; the upper parts of the two first supporting columns on the right side are fixedly connected with a second fixing plate; a first fixing frame is welded in the middle of the upper parts of the first fixing plate and the second fixing plate; the middle part in the first fixing frame is fixedly connected with a cylinder; a pushing plate is fixedly connected to the middle part below the air cylinder; a first sliding block is connected inside the front side of the first fixing plate in a sliding manner; a second sliding block is connected inside the front side of the second fixed plate in a sliding manner; a first round rod is welded between the opposite surfaces of the first sliding block and the second sliding block; a third sliding block is connected inside the rear side of the second fixing plate in a sliding manner; a first compression spring is welded between the opposite surfaces of the third sliding block and the second sliding block; a fourth sliding block is connected inside the rear side of the first fixing plate in a sliding manner; a second compression spring is welded between the opposite surfaces of the fourth sliding block and the first sliding block; a second round rod is welded between the opposite surfaces of the fourth sliding block and the third sliding block; a bracket is fixedly connected to the middle part of the left side above the bottom plate component; a first electric slide rail is fixedly connected above the bracket; the right side of the first electric sliding rail is connected with a sixth sliding block in a sliding manner; a conveying plate is fixedly connected above the sixth sliding block.

5. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 4, wherein: the front side and the rear side of the pushing plate are both arc-shaped.

6. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 4, wherein: the front side and the rear side of the conveying plate are both arranged to be concave arcs.

7. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 3, wherein: an elastic part is arranged at the joint of the third fixing plate and the first printing block.

8. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 3, wherein: an elastic piece is arranged at the joint of the third fixing plate and the second printing block.

9. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 2, characterized in that: a convex strip is arranged at the joint of the first sliding sleeve and the second straight gear, and a corresponding groove is formed in the second straight gear.

10. The glass substrate screen printing machine for the LCD display and touch integrated machine according to claim 2, characterized in that: a convex strip is arranged at the joint of the second sliding sleeve and the sixth straight gear, and a corresponding groove is formed in the sixth straight gear.