CN220361773U - Cleaning device for glass substrate - Google Patents

Cleaning device for glass substrate Download PDF

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Publication number
CN220361773U
CN220361773U CN202321926048.6U CN202321926048U CN220361773U CN 220361773 U CN220361773 U CN 220361773U CN 202321926048 U CN202321926048 U CN 202321926048U CN 220361773 U CN220361773 U CN 220361773U
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China
Prior art keywords
glass substrate
dust removing
frame
supports
cleaning
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CN202321926048.6U
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Chinese (zh)
Inventor
余燕青
高庚
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U Great Optoelectronics Technology Co ltd
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U Great Optoelectronics Technology Co ltd
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Abstract

The utility model discloses a cleaning device for a glass substrate, and relates to the technical field of cleaning devices, comprising a frame, a first dust removing mechanism, a transmission mechanism, a cleaning mechanism and a second dust removing mechanism; the frame is provided with a feeding level and a discharging level; the conveying mechanism is used for conveying the glass substrate from the feeding position to the discharging position; the first dust removing mechanism is arranged at the feeding position and is used for primarily removing dust on the glass substrate; the cleaning mechanism comprises a driving module and a plasma cleaner, the driving module is arranged on the frame, the plasma cleaner is arranged on the driving module, and the driving module is used for driving the plasma cleaner to move above the transmission mechanism; the second dust removing mechanism is arranged at the feeding position and is used for removing dust again on the glass substrate; the utility model achieves the effect of non-contact cleaning, can avoid glass scratch, and the plasma cleaner can also improve the surface activity of the glass, thereby increasing the adhesive force of the glue on the surface of the glass.

Description

Cleaning device for glass substrate
Technical Field
The utility model relates to the technical field of cleaning devices, in particular to a cleaning device for a glass substrate.
Background
The glass cleaner is a special device for cleaning the surface of glass before the deep processing technology. Existing glass cleaners typically use a water spray structure and a brush structure to clean the glass.
For example, a glass cleaner structure with the patent number of CN201720467022. X discloses a rotary rod and a conveyor belt, wherein the conveyor belt is driven by the rotary rod to rotate clockwise, a cleaning cavity is arranged above the conveyor belt, a vibration brush dust collector, a cleaning liquid nozzle, a cleaning roller brush and a wiper blade are sequentially arranged in the cleaning cavity from front to back, at least two groups of cleaning roller brushes are arranged, a high-pressure water spray nozzle is arranged above the cleaning roller brushes, and the wiper blade is axially connected to the cavity wall of the cleaning cavity and is pressed on the conveyor belt through a compressed spring; specifically, water is sprayed out through the cleaning fluid nozzle and is matched with the cleaning roller brush to clean the glass surface, however, the carding on the surface of the cleaning roller brush easily scrapes the glass surface, water stains are easy to exist on the glass surface after the cleaning is finished, and the cleaning effect is not good.
Disclosure of Invention
The utility model discloses a cleaning device for a glass substrate, which aims to solve the technical problems that glass is easy to scratch and the cleaning effect is poor during cleaning.
In order to solve the technical problems, the utility model provides the following optimization technical scheme:
the cleaning device for the glass substrate comprises a frame, a first dust removing mechanism, a transmission mechanism, a cleaning mechanism and a second dust removing mechanism, wherein the first dust removing mechanism, the transmission mechanism, the cleaning mechanism and the second dust removing mechanism are all arranged on the frame; the frame is provided with a feeding level and a discharging level;
the conveying mechanism is used for conveying the glass substrate from the feeding position to the discharging position;
the first dust removing mechanism is arranged at the feeding position and is used for primarily removing dust on the glass substrate;
the cleaning mechanism comprises a driving module and a plasma cleaner, the driving module is arranged on the rack, the plasma cleaner is arranged on the driving module, and the driving module is used for driving the plasma cleaner to move above the transmission mechanism;
the second dust removing mechanism is arranged at the feeding position and is used for removing dust again on the glass substrate.
Further, the transmission mechanism comprises a bearing chassis and a plurality of rollers, the rollers are arranged on the bearing chassis, the bearing chassis is used for driving the rollers to rotate, and the rollers partially protrude out of the upper surface of the bearing chassis.
Further, the bearing underframe comprises a motor, two base materials and a plurality of cross beams, wherein the motor and the two base materials are fixed on the frame, the plurality of cross beams are rotationally connected between the two base materials, and an output shaft of the motor is in transmission connection with the plurality of cross beams through a belt; and a plurality of rollers are fixed on each cross beam.
Further, the first dust removing mechanism comprises a first air knife, a first exhaust hood and two first supports, the first supports are fixed on the frame, the two first supports are located on two sides of the transmission mechanism respectively, the first exhaust hood is fixed on the two first supports, the first air knife is connected to the first exhaust hood, the first air knife is communicated with the first exhaust hood, and the first air knife is located above the transmission mechanism.
Further, the driving module comprises an X-axis driving assembly and a Y-axis adjusting assembly, the X-axis driving assembly is arranged on the frame, the Y-axis adjusting assembly is arranged on the X-axis driving assembly, and the Y-axis adjusting assembly is connected with the plasma cleaner.
Further, the Y-axis adjusting assembly comprises an adjusting seat, a screw rod and a vertical sliding rod, the adjusting seat is arranged on the X-axis driving assembly and comprises two clamping strips, one ends of the two clamping strips are connected, an opening is formed at the other end of the two clamping strips, a vertical through hole is formed between the two clamping strips, and one ends, close to the opening, of the two clamping strips are respectively provided with a transverse straight hole and a transverse screw hole; the vertical sliding rod passes through the vertical through hole in a clearance fit manner, and the screw rod locks the vertical through hole through the transverse straight hole and the transverse screw hole; the vertical sliding rod is connected with the plasma cleaner.
Further, a hand wheel is arranged at the top end of the vertical sliding rod.
Further, the X-axis driving assembly is provided with a sliding rail, and the plasma cleaner is connected to the sliding rail in a sliding manner through a sliding seat.
Further, the number of the plasma cleaners is multiple, and the plasma cleaners are connected to the vertical sliding rod side by side.
Further, the second dust removing mechanism comprises a second air knife, a second air draft cover and two second supports, the second supports are fixed on the frame, the two second supports are respectively located on two sides of the transmission mechanism, the second air draft cover is fixed on the two second supports, the second air knife is connected to the second air draft cover, the second air knife is communicated with the second air draft cover, and the second air knife is located above the transmission mechanism.
Compared with the prior art, the utility model has the following beneficial effects:
according to the glass substrate cleaning device disclosed by the utility model, the glass substrate is subjected to preliminary dust removal treatment through the first dust removal mechanism, the plasma cleaner in the cleaning mechanism cleans the glass surface, the cleaning effect is good, the non-contact cleaning effect is achieved, the glass is prevented from being scratched, the plasma cleaner can also improve the surface activity of the glass, the adhesive force of glue on the glass surface is increased, the glass substrate is subjected to secondary dust removal through the second dust removal mechanism after the cleaning is finished, and the dust-free state before and after the cleaning is ensured.
Drawings
Fig. 1 is a schematic overall structure of the present utility model.
Fig. 2 is a schematic structural view of a first dust removing mechanism/a second dust removing mechanism of the present utility model.
Fig. 3 is a schematic structural view of the transmission mechanism of the present utility model.
Fig. 4 is a schematic structural view of the cleaning mechanism of the present utility model.
Fig. 5 is a schematic view of the structure of the Y-axis adjustment assembly of the present utility model.
Fig. 6 is a schematic structural view of the adjusting seat of the present utility model.
In the figure: 100. a frame; 200. a first dust removing mechanism; 210. a first air knife; 220. a first exhaust hood; 230. a first bracket; 300. a transmission mechanism; 310. a load-bearing chassis; 311. a substrate; 312. a cross beam; 320. a roller; 400. a cleaning mechanism; 410. an X-axis driving assembly; 420. a Y-axis adjustment assembly; 421. an adjusting seat; 421.1, clamping strips; 421.2, openings; 421.3, vertical vias; 421.4, transverse straight holes; 421.5, transverse screw holes; 422. a screw; 423. a vertical slide bar; 424. a hand wheel; 430. a plasma cleaner; 500. a second dust removing mechanism; 510. a second air knife; 520. a second exhaust hood; 530. a second bracket; 600. a glass substrate.
Detailed Description
For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present application based on the embodiments herein.
Referring to fig. 1 to 6, a cleaning apparatus for a glass substrate includes a frame 100, a first dust removing mechanism 200, a transfer mechanism 300, a cleaning mechanism 400, and a second dust removing mechanism 500, the first dust removing mechanism 200, the transfer mechanism 300, the cleaning mechanism 400, and the second dust removing mechanism 500 being disposed on the frame 100; the frame 100 is provided with an inlet material level and an outlet material level; the conveying mechanism 300 is used for conveying the glass substrate 600 from the feeding position to the discharging position; the first dust removing mechanism 200 is disposed at the material inlet position, and is used for primarily removing dust on the glass substrate 600, so as to reduce dust on the surface of the glass substrate 600, and facilitate subsequent plasma cleaning of the glass substrate 600; the cleaning mechanism 400 comprises a driving module and a plasma cleaner 430, the driving module is arranged on the frame 100, the plasma cleaner 430 is arranged on the driving module, the driving module is used for driving the plasma cleaner 430 to move above the transmission mechanism 300, the plasma cleaner 430 is positioned above the transmission mechanism 300 and is used for performing plasma cleaning on the glass substrate 600 on the transmission mechanism 300, a non-contact cleaning effect is achieved, glass scraping can be avoided, the plasma cleaner 430 can also improve the surface activity of glass, and accordingly the adhesive force of glue on the surface of the glass is increased; the second dust removing mechanism 500 is disposed at the material inlet position, and is used for removing dust from the glass substrate 600 again, so as to reduce dust on the surface of the glass substrate 600 again, and facilitate working treatment of the next station when the glass substrate 600 enters the next station.
In this utility model, the conveying mechanism 300 includes a carrier chassis 310 and a plurality of rollers 320, the plurality of rollers 320 are disposed on the carrier chassis 310, the carrier chassis 310 is used for driving the rollers 320 to rotate, the rollers 320 partially protrude from the upper surface of the carrier chassis 310, the glass substrate 600 enters the loading position from the previous station and moves to the carrier chassis 310, and because the rollers 320 partially protrude from the upper surface of the carrier chassis 310, the bottom surface of the glass substrate 600 contacts with the rollers 320, and the rollers 320 rotate to drive the glass substrate 600 to translate on the carrier chassis 310.
In the present utility model, the carrying chassis 310 includes a motor, two base materials 311 and a plurality of beams 312, the motor and the two base materials 311 are both fixed on the frame 100, the plurality of beams 312 are both rotatably connected between the two base materials 311, and an output shaft of the motor is in transmission connection with the plurality of beams 312 through a belt; a plurality of the rollers 320 are fixed to each of the cross members 312. The motor is used to drive the beam 312 to rotate, thereby rotating the roller 320 on the beam 312 to achieve the conveying function.
In this embodiment, the first dust removing mechanism 200 includes a first air knife 210, a first air suction hood 220, and two first brackets 230, where the first brackets 230 are fixed on the frame 100, the two first brackets 230 are respectively located at two sides of the transmission mechanism 300, the first air suction hood 220 is fixed on the two first brackets 230, the first air knife 210 is connected to the first air suction hood 220, the first air knife 210 is communicated with the first air suction hood 220, the first air suction hood 220 is connected with an external fan, and the first air knife 210 is located above the transmission mechanism 300; the first air knife 210 is provided with a plurality of knife edges, and the wind generated by the operation of the fan can perform the wind cutting function by the knife edges, thereby performing the dust removing function on the glass substrate 600.
In this embodiment, the driving module includes an X-axis driving assembly 410 and a Y-axis adjusting assembly 420, the X-axis driving assembly 410 is disposed on the frame 100, the Y-axis adjusting assembly 420 is disposed on the X-axis driving assembly 410, the X-axis driving assembly 410 drives the Y-axis adjusting assembly 420 to move in an X-axis direction, specifically, the X-axis direction is a transverse direction of the transmission mechanism 300, the Y-axis adjusting assembly 420 is connected to the plasma cleaner 430, and the Y-axis adjusting assembly 420 is used for adjusting a height of the plasma cleaner 430.
The X-axis driving assembly 410 is a conventional motor and screw structure.
In this way, the Y-axis adjusting assembly 420 includes an adjusting seat 421, a screw 422 and a vertical sliding rod 423, the adjusting seat 421 is disposed on the X-axis driving assembly 410, the adjusting seat 421 includes two clamping bars 421.1, one ends of the two clamping bars 421.1 are connected, an opening 421.2 is formed at the other end, a vertical through hole 421.3 is formed between the two clamping bars 421.1, and one ends of the two clamping bars 421.1, which are close to the opening 421.2, are respectively provided with a transverse straight hole 421.4 and a transverse screw hole 421.5; the vertical sliding rod 423 is in clearance fit through the vertical through hole 421.3, and the screw 422 locks the vertical through hole 421.3 through the transverse straight hole 421.4 and the transverse screw hole 421.5; the vertical slide bar 423 is connected to the plasma cleaner 430. The screw 422 is manually unscrewed so that the vertical sliding rod 423 can be vertically moved in the vertical through hole 421.3, the distance between the plasma cleaner 430 and the glass substrate 600 is confirmed according to the thickness of the glass substrate 600, the vertical sliding rod 423 is adjusted to a certain height, and then the screw 422 is tightened so that the vertical sliding rod 423 is locked in the vertical through hole 421.3.
In this way, the top end of the vertical sliding rod 423 is provided with a hand wheel 424, so that the hand wheel 424 can be conveniently held to move the vertical sliding rod 423.
In the mode of the present utility model, the X-axis driving assembly 410 is provided with a sliding rail, and the plasma cleaner 430 is slidably connected to the sliding rail through a sliding seat; the plasma cleaner 430 is driven to move up and down in the up and down moving process of the vertical slide bar 423, and the slide bar has a stabilizing and guiding function for the movement of the plasma cleaner 430.
In the embodiment of the present utility model, the number of the plasma cleaners 430 is plural, and the plurality of plasma cleaners 430 are connected to the vertical sliding rod 423 in parallel.
In this way, the second dust removing mechanism 500 includes a second air knife 510, a second air suction cover 520, and two second supports 530, where the second supports 530 are fixed on the frame 100, the two second supports 530 are respectively located at two sides of the transmission mechanism 300, the second air suction cover 520 is fixed on the two second supports 530, the second air knife 510 is connected to the second air suction cover 520, the second air knife 510 is communicated with the second air suction cover 520, the second air suction cover 520 is connected to an external fan, and the second air knife 510 is located above the transmission mechanism 300; the second air knife 510 is provided with a plurality of knife edges, and the wind generated by the operation of the fan can perform the wind cutting function by the knife edges, thereby performing the dust removing function on the glass substrate 600.
Additionally, the present utility model is further provided with a cover (not shown in the drawings) for covering the first dust removing mechanism 200, the conveying mechanism 300, the cleaning mechanism 400, and the second dust removing mechanism 500.
The foregoing is only a specific embodiment of the utility model to enable those skilled in the art to understand or practice the utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The cleaning device for the glass substrate is characterized by comprising a frame, a first dust removing mechanism, a transmission mechanism, a cleaning mechanism and a second dust removing mechanism, wherein the first dust removing mechanism, the transmission mechanism, the cleaning mechanism and the second dust removing mechanism are all arranged on the frame; the frame is provided with a feeding level and a discharging level;
the conveying mechanism is used for conveying the glass substrate from the feeding position to the discharging position;
the first dust removing mechanism is arranged at the feeding position and is used for primarily removing dust on the glass substrate;
the cleaning mechanism comprises a driving module and a plasma cleaner, the driving module is arranged on the rack, the plasma cleaner is arranged on the driving module, and the driving module is used for driving the plasma cleaner to move above the transmission mechanism;
the second dust removing mechanism is arranged at the feeding position and is used for removing dust again on the glass substrate.
2. The glass substrate cleaning device according to claim 1, wherein the conveying mechanism comprises a carrying chassis and a plurality of rollers, the plurality of rollers are arranged on the carrying chassis, the carrying chassis is used for driving the rollers to rotate, and the rollers partially protrude out of the upper surface of the carrying chassis.
3. The glass substrate cleaning device according to claim 2, wherein the bearing chassis comprises a motor, two base materials and a plurality of cross beams, the motor and the two base materials are fixed on the frame, the plurality of cross beams are rotatably connected between the two base materials, and an output shaft of the motor is in transmission connection with the plurality of cross beams through a belt; and a plurality of rollers are fixed on each cross beam.
4. The glass substrate cleaning device according to claim 1, wherein the first dust removing mechanism comprises a first air knife, a first air suction cover and two first supports, the first supports are fixed on the frame, the two first supports are respectively located on two sides of the transmission mechanism, the first air suction cover is fixed on the two first supports, the first air knife is connected to the first air suction cover, the first air knife is communicated with the first air suction cover, and the first air knife is located above the transmission mechanism.
5. The apparatus according to claim 1, wherein the driving module comprises an X-axis driving assembly and a Y-axis adjusting assembly, the X-axis driving assembly is disposed on the frame, the Y-axis adjusting assembly is disposed on the X-axis driving assembly, and the Y-axis adjusting assembly is connected to the plasma cleaner.
6. The device for cleaning a glass substrate according to claim 5, wherein the Y-axis adjusting assembly comprises an adjusting seat, a screw rod and a vertical sliding rod, the adjusting seat is arranged on the X-axis driving assembly, the adjusting seat comprises two clamping strips, one ends of the two clamping strips are connected, an opening is formed at the other end of the two clamping strips, a vertical through hole is formed between the two clamping strips, and a transverse straight hole and a transverse screw hole are respectively formed at one end, close to the opening, of the two clamping strips; the vertical sliding rod passes through the vertical through hole in a clearance fit manner, and the screw rod locks the vertical through hole through the transverse straight hole and the transverse screw hole; the vertical sliding rod is connected with the plasma cleaner.
7. The glass substrate cleaning device according to claim 6, wherein a hand wheel is arranged at the top end of the vertical sliding rod.
8. The apparatus according to claim 5, wherein the X-axis driving assembly is provided with a slide rail, and the plasma cleaner is slidably connected to the slide rail through a slide.
9. The apparatus according to claim 6, wherein the number of the plasma cleaners is plural, and the plural plasma cleaners are connected to the vertical slide bar side by side.
10. The glass substrate cleaning device according to claim 1, wherein the second dust removing mechanism comprises a second air knife, a second air suction cover and two second supports, the second supports are fixed on the frame, the two second supports are respectively located at two sides of the transmission mechanism, the second air suction cover is fixed on the two second supports, the second air knife is connected to the second air suction cover, the second air knife is communicated with the second air suction cover, and the second air knife is located above the transmission mechanism.
CN202321926048.6U 2023-07-21 2023-07-21 Cleaning device for glass substrate Active CN220361773U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321926048.6U CN220361773U (en) 2023-07-21 2023-07-21 Cleaning device for glass substrate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321926048.6U CN220361773U (en) 2023-07-21 2023-07-21 Cleaning device for glass substrate

Publications (1)

Publication Number Publication Date
CN220361773U true CN220361773U (en) 2024-01-19

Family

ID=89520306

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321926048.6U Active CN220361773U (en) 2023-07-21 2023-07-21 Cleaning device for glass substrate

Country Status (1)

Country Link
CN (1) CN220361773U (en)

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