CN210876019U - Production line of nano transparent heat-insulating glass coating equipment - Google Patents
Production line of nano transparent heat-insulating glass coating equipment Download PDFInfo
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- CN210876019U CN210876019U CN201921413565.7U CN201921413565U CN210876019U CN 210876019 U CN210876019 U CN 210876019U CN 201921413565 U CN201921413565 U CN 201921413565U CN 210876019 U CN210876019 U CN 210876019U
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Abstract
The production line of the nano transparent heat-insulating glass coating equipment comprises a cleaning device, a coating device and a drying device which are sequentially arranged, wherein the cleaning device comprises a first rack, and a first roller assembly line is arranged on the first rack; a water pipe and a brush roller are sequentially arranged above the front part of the roller assembly line, and a spray head is connected below the water pipe; a water suction roller is rotatably connected above the rear part of the roller assembly line; the coating device comprises a second rack, and a belt production line is arranged on the second rack; the second machining device is provided with a coating roller and a feeding roller; a feeding pipe is arranged on one side of the feeding roller; the drying device comprises a third rack, and a second roller assembly line is arranged on the third rack; and a heating pipe is arranged on the rod assembly line II. Compared with the prior art, the utility model discloses a transparent thermal-insulated glass coating equipment production line of nanometer will wash, application and dry and combine at same production line, realize automated production, improved production efficiency.
Description
Technical Field
The utility model relates to a glass application production technical field specifically indicates a transparent thermal-insulated glass coating equipment production line of nanometer.
Background
The surface of the nano transparent heat-insulating glass needs to be coated during production, and the production steps of cleaning, coating and drying are separated during the production at present, so that the nano transparent heat-insulating glass is not beneficial to automatic production.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to above-mentioned prior art not enough, and provide a transparent thermal-insulated glass coating equipment production line of nanometer.
In order to solve the technical problem, the utility model discloses a technical scheme is:
the production line of the nano transparent heat-insulating glass coating equipment comprises a cleaning device, a coating device and a drying device which are sequentially arranged, wherein the cleaning device comprises a first rack, and a first roller assembly line is arranged on the first rack; a water pipe and a brush roller are sequentially arranged above the front part of the roller assembly line, and a spray head is connected below the water pipe; a water suction roller is rotatably connected above the rear part of the roller assembly line; the coating device comprises a second rack, and a belt production line is arranged on the second rack; two sides of the machine frame II are connected with support frames, and a coating roller and a feeding roller are connected between the support frames; a feeding pipe is arranged on one side of the feeding roller and is connected with a peristaltic pump; the drying device comprises a third rack, and a second roller assembly line is arranged on the third rack; and a third housing is connected to the second rod assembly line, and a plurality of heating pipes are arranged in the third housing side by side.
Furthermore, an unpowered roller feeding line is connected to the first upper support of the rack and is arranged at the inlet end of the roller assembly line; the roller assembly line I is connected with a first housing, and the water pipe, the brush roller and the water suction roller are all arranged in the first housing; the water pipe is supplied with water by an external water pump; a cross beam at the bottom of the rack I is provided with a motor, the output end of the motor is connected with a driving wheel through a belt, and the driving wheel is connected with a driving gear through a shaft; the shaft is connected to the bottom of the rack through a support frame; the driving gear is connected with the brush roller through a chain; and a first driving motor is arranged at the tail part of the first roller assembly line and drives the first roller assembly line to work.
Furthermore, a fan is arranged on one side of the first rack, and an air outlet of the fan is communicated into the first shell on the side face of the water suction roller through a hose.
Further, a fixed seat and a compression roller device are connected to the belt production line, and the fixed seat is connected with a second housing in a turning manner; the coating roller and the feeding roller are both arranged in the second housing; the feeding roller is positioned above the coating roller, and a spiral groove is formed in the feeding roller; the compression roller device is arranged at the inlet of the coating roller and comprises a compression roller, an adjusting screw rod and a rotating handle; two ends of the compression roller are connected through an adjusting bracket; the adjusting screw rod penetrates through the upper part of the adjusting bracket; the rotating handle is connected to the upper end of the adjusting screw rod.
Furthermore, a second driving motor is arranged at the tail of the belt assembly line and drives the belt assembly line to work.
Furthermore, a third driving motor is arranged at the tail of the second roller assembly line, and the third driving motor drives the second roller assembly line to work.
Compared with the prior art, the utility model discloses a transparent thermal-insulated glass coating equipment production line of nanometer will wash, application and dry and combine at same production line, realize automated production, improved production efficiency.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
FIG. 2 is a schematic structural view of the cleaning device of the present invention;
fig. 3 is a schematic structural view of the coating apparatus of the present invention;
FIG. 4 is a schematic structural view of the drying apparatus of the present invention;
the coating machine comprises a cleaning device 1, a cleaning device 2, a coating device 3, a drying device 111, a first machine frame 112, a first roller assembly line 113, a first driving motor 114, a water pipe 115, a brush roller 116, a spray head 117, a water suction roller 118, a powerless roller feeding line 119, a first housing 120, a motor 121, a driving wheel 122, a driving gear 123, a fan 211, a second machine frame 212, a belt assembly line 213, a second driving motor 214, a support frame 215, a coating roller 216, a feeding roller 217, a feeding pipe 218, a peristaltic pump 219, a fixed seat 220, a second housing 221, a pressing roller 222, an adjusting screw rod 223, a rotating handle 224, an adjusting support 311, a third machine frame 312, a second roller assembly line 313, a third driving motor 314, a third housing 315 and a heating pipe.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below.
As shown in fig. 1 to 4, the production line of the nano transparent heat-insulating glass coating equipment comprises a cleaning device 1, a coating device 2 and a drying device 3 which are sequentially arranged, wherein the cleaning device 1 comprises a first rack 111, and a first roller assembly line 112 is arranged on the first rack 111; the tail part of the roller assembly line I112 is provided with a driving motor I113, and the driving motor I113 drives the roller assembly line I112 to work; a water pipe 114 and a brush roller 115 are sequentially arranged above the front part of the roller assembly line I112, a spray head 116 is connected below the water pipe 114, and the water pipe 114 is supplied with water by an external water pump; the outer side of the brush roller 115 is wrapped with a brush for cleaning dust on the surface of glass; a water suction roller 117 is rotatably connected above the rear part of the roller assembly line I111, and the outer side of the water suction roller 117 is wrapped with collodion cotton; an unpowered roller feeding line 118 is supported and connected to the first rack 111, and the unpowered roller feeding line 118 is arranged at the inlet end of the first roller assembly line 111; the first roller assembly line 112 is connected with a first housing 119, and the water pipe 114, the brush roller 115 and the water suction roller 117 are all arranged in the first housing 119; a motor 120 is arranged on a cross beam at the bottom of the first rack 111, the output end of the motor 120 is connected with a driving wheel 121 through a belt, and the driving wheel 121 is connected with a driving gear 122 through a shaft; the shaft is connected to the bottom of the first rack 111 through a support frame; the drive gear 122 is connected to the brush roller 115 by a chain.
And a fan 123 is arranged on one side of the first frame 111, and an air outlet of the fan 123 leads into a first housing 119 on the side surface of the suction roll 117 through a hose.
The coating device 2 comprises a second machine frame 211, and a belt production line 212 is arranged on the second machine frame 211; a second driving motor 213 is arranged at the tail of the belt assembly line 212, and the second driving motor 213 drives the belt assembly line 212 to work; two sides of the machining center II 211 are connected with support frames 214, and a coating roller 215 and a feeding roller 216 are connected between the support frames 214; a feeding pipe 217 is arranged on one side of the feeding roller 216, a peristaltic pump 218 is connected to the feeding pipe 217, and the coating is extracted from the outside by arranging the peristaltic pump 218.
The belt production line 212 is connected with a fixed seat 219 and a press roller device, and the fixed seat 219 is connected with a second housing 220 in a turning manner; the coating roller 215 and the feeding roller 216 are both arranged in the second casing 220; the feeding roller 216 is positioned above the paint roller 215, and the feeding roller 216 is provided with spiral grooves, so that the paint can be uniformly scattered on the paint roller 215; the compression roller device is arranged at the inlet of the coating roller 215, and comprises a compression roller 221, an adjusting screw 222 and a rotating handle 223; the two ends of the pressing roller 221 are connected through an adjusting bracket 224; the adjusting screw 222 is arranged above the adjusting bracket 224 in a penetrating way; the rotating handle 223 is connected to the upper end of the adjusting screw 222.
The drying device 3 comprises a third rack 311, and a second roller assembly line 312 is arranged on the third rack 311; a driving motor III 313 is arranged at the tail part of the roller assembly line II 312, and the driving motor III 313 drives the roller assembly line II 312 to work; and a third housing 314 is connected to the second roller assembly line 312, and a plurality of heating pipes 315 are arranged in the third housing 314 side by side.
The working principle is as follows: the glass enters the cleaning device 1 through the unpowered roller feeding line 118, the brush roller 115 cleans the surface of the glass after the spray head 116 sprays water, the cleaned glass is continuously conveyed through the roller assembly line I112, and the blower 123 and the water suction roller 117 clean and dry the water drops on the surface of the glass; then the glass enters a coating device 2, the distance between a press roller 221 and a belt production line 212 is adjusted, the glass is stably conveyed, and the surface of the glass is coated by a coating roller 215; the coated glass enters a drying device 3 for drying.
The present invention is not limited to the above-described embodiments, and those skilled in the art can make modifications or changes without departing from the spirit of the present invention.
Claims (6)
1. The production line of the nano transparent heat-insulating glass coating equipment is characterized in that: the roller coating device comprises a cleaning device, a coating device and a drying device which are sequentially arranged, wherein the cleaning device comprises a first rack, and a first roller assembly line is arranged on the first rack; a water pipe and a brush roller are sequentially arranged above the front part of the roller assembly line, and a spray head is connected below the water pipe; a water suction roller is rotatably connected above the rear part of the roller assembly line; the coating device comprises a second rack, and a belt production line is arranged on the second rack; two sides of the machine frame II are connected with support frames, and a coating roller and a feeding roller are connected between the support frames; a feeding pipe is arranged on one side of the feeding roller and is connected with a peristaltic pump; the drying device comprises a third rack, and a second roller assembly line is arranged on the third rack; and a third housing is connected to the second roller assembly line, and a plurality of heating pipes are arranged in the third housing side by side.
2. The production line of the nano transparent heat-insulating glass coating device according to claim 1, characterized in that: an unpowered roller feeding line is connected to an upper support of the first frame and is arranged at an inlet end of a roller assembly line; the roller assembly line I is connected with a first housing, and the water pipe, the brush roller and the water suction roller are all arranged in the first housing; the water pipe is supplied with water by an external water pump; a cross beam at the bottom of the rack I is provided with a motor, the output end of the motor is connected with a driving wheel through a belt, and the driving wheel is connected with a driving gear through a shaft; the shaft is connected to the bottom of the rack through a support frame; the driving gear is connected with the brush roller through a chain; and a first driving motor is arranged at the tail part of the first roller assembly line and drives the first roller assembly line to work.
3. The production line of the nano transparent heat-insulating glass coating device according to claim 1, characterized in that: and a fan is arranged on one side of the first rack, and an air outlet of the fan is communicated into the first shell on the side surface of the water suction roller through a hose.
4. The production line of the nano transparent heat-insulating glass coating device according to claim 1, characterized in that: the belt assembly line is connected with a fixed seat and a compression roller device, and the fixed seat is connected with a second housing in a turning manner; the coating roller and the feeding roller are both arranged in the second housing; the feeding roller is positioned above the coating roller, and a spiral groove is formed in the feeding roller; the compression roller device is arranged at the inlet of the coating roller and comprises a compression roller, an adjusting screw rod and a rotating handle; two ends of the compression roller are connected through an adjusting bracket; the adjusting screw rod penetrates through the upper part of the adjusting bracket; the rotating handle is connected to the upper end of the adjusting screw rod.
5. The production line of the nano transparent heat-insulating glass coating device according to claim 1, characterized in that: and a second driving motor is arranged at the tail part of the belt assembly line and drives the belt assembly line to work.
6. The production line of the nano transparent heat-insulating glass coating device according to claim 1, characterized in that: and a third driving motor is arranged at the tail part of the second roller assembly line and drives the second roller assembly line to work.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921413565.7U CN210876019U (en) | 2019-08-28 | 2019-08-28 | Production line of nano transparent heat-insulating glass coating equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921413565.7U CN210876019U (en) | 2019-08-28 | 2019-08-28 | Production line of nano transparent heat-insulating glass coating equipment |
Publications (1)
Publication Number | Publication Date |
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CN210876019U true CN210876019U (en) | 2020-06-30 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201921413565.7U Active CN210876019U (en) | 2019-08-28 | 2019-08-28 | Production line of nano transparent heat-insulating glass coating equipment |
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CN (1) | CN210876019U (en) |
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2019
- 2019-08-28 CN CN201921413565.7U patent/CN210876019U/en active Active
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