CN213613201U - Deep cleaning mechanism of vacuum glass production line - Google Patents

Abstract

The utility model discloses a deep wiper mechanism of vacuum glass production line, including feeding fagging, running roller and sealing door, the right side of feeding fagging is connected with the purge chamber, and the top of purge chamber is provided with the shower nozzle, the heating resistor silk is installed on the inside top of drying chamber, and the left end of heating resistor silk is provided with the blowing pipe, the top of blowing pipe is connected with the air pump, the below of purge chamber and drying chamber all is provided with the bilge pit, and the left side of drying chamber installs ejection of compact fagging, the running roller is installed respectively in the front side of ejection of compact fagging and feeding fagging, and the below of running roller is provided with defeated material gyro wheel, the rear side of defeated material gyro wheel is connected with driving motor, sealing door installs in the front side of purge chamber, the discharge gate has. The deep cleaning mechanism of the vacuum glass production line can automatically clean vacuum glass, and improves the cleaning speed and the cleaning effectiveness by forming a cleaning mode in a pipeline mode.

Description

Deep cleaning mechanism of vacuum glass production line

Technical Field

The utility model relates to a production line glass cleaning device technical field specifically is a deep wiper mechanism of vacuum glass production line.

Background

The vacuum glass is a novel glass deep processing product and is developed based on the principle of a vacuum flask. The structure of the vacuum glass is similar to that of hollow glass, the difference is that the gas in the cavity of the vacuum glass is very thin and almost close to vacuum, and after the vacuum glass is produced, the vacuum glass needs to be cleaned so as to ensure the cleanness and transparency of the glass surface, and with the further development of modern industry, more and more processing procedures move towards automation or semi-automation, which leads to the due improvement of the industrial development, so the cleaning of the vacuum glass tends to further develop in production line.

Vacuum glass cleaning mechanism on the market is single washing usually to vacuum glass's washing, is not convenient for carry out the continuity of production line ization and washs, and this will make abluent efficiency become very low to abluent degree of automation is not high, needs artifical intervention more, increases too much problem to workman's intensity of labour, for this reason, we propose the deep wiper mechanism of vacuum glass production line.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a deep wiper mechanism of vacuum glass production line to the vacuum glass wiper mechanism who proposes in solving above-mentioned background art is single washing usually to vacuum glass's washing, is not convenient for carry out the continuity of production line ization and washs, and this will make abluent efficiency become very low, and abluent degree of automation is not high, needs artificial intervention more, increases too much problem to workman's intensity of labour.

In order to achieve the above object, the utility model provides a following technical scheme: a deep cleaning mechanism of a vacuum glass production line comprises a feeding supporting plate, a roller and a sealing door, wherein the right side of the feeding supporting plate is connected with a cleaning chamber, a spray head is arranged above the cleaning chamber, a water tank is connected above the spray head, a pressurizing water pump is arranged above the water tank, a feed inlet is formed in the outer wall of the left side of the cleaning chamber, a drying chamber is arranged in the cleaning chamber, a heating resistance wire is arranged at the top end of the inside of the drying chamber, a blowing pipe is arranged at the left end of the heating resistance wire, an air pump is connected above the blowing pipe, sewage grooves are formed below the cleaning chamber and the drying chamber, a discharging supporting plate is arranged at the left side of the drying chamber, the roller is respectively arranged at the front sides of the discharging supporting plate and the feeding supporting plate, a conveying roller is arranged below the roller, the rear side of the conveying roller is connected with a driving motor, the, and a discharge hole is formed in the outer wall of the left side of the drying chamber.

Preferably, the running roller and defeated material gyro wheel all constitute rotating-structure with between feeding fagging and the ejection of compact fagging, and the feeding fagging and the ejection of compact fagging and the contained angle between the vertical axis is 5-10.

Preferably, the nozzle is communicated with the water tank through a pressurized water pump, and the nozzle penetrates through the inner wall of the top end of the cleaning chamber.

Preferably, the heating resistance wire is in a corrugated structure, and the heating resistance wire is fixedly connected with the drying chamber.

Preferably, a communication structure is formed between the air pump and the blowpipe, and the blowpipe penetrates through the inner wall of the drying chamber.

Preferably, a sealing structure is formed between the sealing door and the cleaning chamber, and the sealing door is made of glass.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the deep cleaning mechanism of the vacuum glass production line is provided with the roller and the material conveying roller, so that the vacuum glass can be conveniently conveyed and conveyed, a streamline form is formed for a glass cleaning mode, manual intervention in a cleaning process is reduced, an automation mode is improved, the cleaning continuity of the cleaning mechanism can be increased, the production efficiency is improved, the stability of the vacuum glass in the conveying and cleaning processes can be improved by utilizing the inclined structures of the feeding supporting plate and the discharging supporting plate, and the glass falling and damage caused by shaking can be avoided;

2. the vacuum glass cleaning device is characterized in that the spray head is arranged, when the vacuum glass passes through the cleaning chamber, water in the water tank can be sprayed on the vacuum glass through the spray head through the pressurizing water pump, so that the purpose of cleaning is achieved, the glass is cleaned in the flowing process, impurities can conveniently flow into the sewage tank along with water flow from top to bottom, the cleaning can be conveniently and cleanly carried out, the heating resistance wire is arranged, the purpose of drying the residual moisture on the surface of the cleaned vacuum glass through heat generated by electrifying the heating resistance wire is achieved, the surface is prevented from being stained with dust again due to the residual moisture, and the cleaning effectiveness is improved;

3. set up the blowing pipe, be convenient for after glass washs, earlier air-dry through blowing with remaining moisture on the vacuum glass before heating resistor silk heating and drying, so not only can increase the speed of follow-up stoving, and can reduce the energy resource consumption of stoving, reduce cost, the effect that sets up the sealing door can avoid rivers spill outside belt cleaning device, cause the pollution, and utilize the sealing door can be after wasing the completion, wash and the maintenance effect to the inside of purge chamber, and can be at abluent in-process, observe abluent effect through the glass window on the sealing door.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of a right-side view structure of the discharging supporting plate of the present invention;

fig. 3 is a schematic view of the appearance structure of the present invention.

In the figure: 1. feeding a supporting plate; 2. a roller; 3. a material conveying roller; 4. a cleaning chamber; 5. a spray head; 6. a water tank; 7. a pressurized water pump; 8. a feed inlet; 9. a drying chamber; 10. heating resistance wires; 11. an air pump; 12. a blowpipe; 13. a sewage tank; 14. a discharging supporting plate; 15. a drive motor; 16. a sealing door; 17. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a deep cleaning mechanism of a vacuum glass production line comprises a feeding supporting plate 1, a roller 2, a conveying roller 3, a cleaning chamber 4, a spray head 5, a water tank 6, a pressurizing water pump 7, a feed inlet 8, a drying chamber 9, a heating resistance wire 10, an air pump 11, a blowing pipe 12, a sewage tank 13, a discharge supporting plate 14, a driving motor 15, a sealing door 16 and a discharge port 17, wherein the right side of the feeding supporting plate 1 is connected with the cleaning chamber 4, the spray head 5 is arranged above the cleaning chamber 4, the water tank 6 is connected above the spray head 5, the pressurizing water pump 7 is arranged above the water tank 6, the feed inlet 8 is arranged on the outer wall of the left side of the cleaning chamber 4, the drying chamber 9 is arranged in the cleaning chamber 4, the heating resistance wire 10 is arranged at the top end inside the drying chamber 9, the blowing pipe 12 is arranged at the left end of the heating resistance wire 10, the air pump 11 is connected above the blowing pipe 12, a discharging supporting plate 14 is installed on the left side of the drying chamber 9, rollers 2 are installed on the front sides of the discharging supporting plate 14 and the feeding supporting plate 1, a material conveying roller 3 is arranged below the rollers 2, a driving motor 15 is connected to the rear side of the material conveying roller 3, a sealing door 16 is installed on the front side of the cleaning chamber 4, and a discharging port 17 is formed in the outer wall of the left side of the drying chamber 9;

the roller 2, the material conveying roller 3, the feeding supporting plate 1 and the discharging supporting plate 14 form a rotating structure, the included angle between the feeding supporting plate 1 and the discharging supporting plate 14 and the vertical axis is 5-10 degrees, the roller 2 and the material conveying roller 3 are arranged, vacuum glass can be conveniently conveyed and conveyed, a streamline form is formed in a glass cleaning mode, manual intervention in the cleaning process is reduced, the automation mode is improved, the cleaning continuity of a cleaning mechanism can be increased, the production efficiency is improved, the stability of the vacuum glass in the conveying and cleaning process can be increased by utilizing the inclined structures of the feeding supporting plate 1 and the discharging supporting plate 14, the glass falling caused by shaking is avoided, the damage is caused, the spray head 5 forms a communicating structure through the pressurized water pump 7 and the water tank 6, and the spray head 5 is communicated with the inner wall at the top end of the cleaning chamber 4, the spray head 5 is arranged, so that water in the water tank 6 can be sprayed on the vacuum glass through the spray head 5 by the pressurized water pump 7 when the vacuum glass passes through the cleaning chamber 4, the purpose of cleaning is achieved, the glass is cleaned in the flowing process, impurities can conveniently flow into the sewage tank 13 from top to bottom along with water flow, and the cleaning is more clean;

the structure of the heating resistance wire 10 is a corrugated structure, the connection mode between the heating resistance wire 10 and the drying chamber 9 is fixed connection, the heating resistance wire 10 is arranged for drying the residual moisture on the surface of the cleaned vacuum glass by utilizing the heat generated by electrifying the heating resistance wire 10, the surface is prevented from being stained with dust again due to the residual moisture, the cleaning effectiveness is increased, a communicating structure is formed between the air pump 11 and the blowpipe 12, the blowpipe 12 penetrates through the inner wall of the drying chamber 9, the blowpipe 12 is arranged, so that after the glass is cleaned, the residual moisture on the vacuum glass is dried by blowing air before the heating resistance wire 10 is heated and dried, the subsequent drying speed can be increased, the energy consumption of drying can be reduced, the cost is reduced, and a sealing structure is formed between the sealing door 16 and the cleaning chamber 4, and the material of sealing door 16 is the glass material, and the effect that sets up sealing door 16 can avoid rivers spill outside belt cleaning device, causes the pollution, utilizes sealing door 16 can be after the washing is accomplished in addition, washs and maintains the effect to the inside of purge chamber 4, can be in abluent in-process moreover, observes abluent effect through the glass window on sealing door 16.

The working principle is as follows: for the deep cleaning mechanism of the vacuum glass production line, firstly, a driving motor 15 is started, the driving motor 15 is used for driving a material conveying roller 3 to rotate, then the vacuum glass to be cleaned is vertically placed on a feeding supporting plate 1, the surface of the vacuum glass is supported by a roller 2, the lower end of the vacuum glass is placed on the material conveying roller 3, the vacuum glass can be conveyed due to the friction between the rotation of the material conveying roller 3 and the vacuum glass, when the glass is conveyed into a cleaning chamber 4 through a feeding port 8, a pressure water pump 7 is firstly used for pumping cleaning water in a water tank 6 by the pressure water pump 7 and is sprayed out at a high speed through a spray head 5 to clean the vacuum glass, after cleaning, the glass is conveyed to a drying chamber 9, when the glass passes below a blowing pipe 12, air is pumped into the blowing pipe 12 by an air pump 11 and is sprayed out at a high speed, air-dry to the moisture on the glass, then when the heating resistor silk 10 is regional, can dry the moisture on the glass again through the heat that the heating of heating resistor silk 10 produced, and at washing and air-dry in-process, wash water return top-down and flow into in the sewage tank 13 and store and flow out, then glass flows out drying chamber 9 from discharge gate 17, and convey away under the conveying of running roller 2 and defeated material gyro wheel 3 on ejection of compact fagging 14, and can open sealing door 16 after the washing and clean the inside of purge chamber 4, accomplish the use of the deep wiper mechanism of whole vacuum glass production line like this.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a deep wiper mechanism of vacuum glass production line, includes feeding fagging (1), running roller (2) and sealing door (16), its characterized in that: the cleaning device is characterized in that a cleaning chamber (4) is connected to the right side of the feeding supporting plate (1), a spray head (5) is arranged above the cleaning chamber (4), a water tank (6) is connected above the spray head (5), a pressure water pump (7) is arranged above the water tank (6), a feed inlet (8) is formed in the outer wall of the left side of the cleaning chamber (4), a drying chamber (9) is arranged above the cleaning chamber (4), a heating resistance wire (10) is installed at the top end of the inside of the drying chamber (9), a blowing pipe (12) is arranged at the left end of the heating resistance wire (10), an air pump (11) is connected above the blowing pipe (12), sewage grooves (13) are formed below the cleaning chamber (4) and the drying chamber (9), a discharging supporting plate (14) is installed on the left side of the drying chamber (9), rollers (2) are respectively installed on the front sides of the discharging supporting plate (14) and the, and the below of running roller (2) is provided with defeated material gyro wheel (3), the rear side of defeated material gyro wheel (3) is connected with driving motor (15), install in the front side of purge chamber (4) sealing door (16), discharge gate (17) have been seted up to the left side outer wall of drying chamber (9).

2. The deep cleaning mechanism for vacuum glass production line according to claim 1, characterized in that: running roller (2) and defeated material gyro wheel (3) all constitute rotational structure with between feeding fagging (1) and ejection of compact fagging (14), and the contained angle between feeding fagging (1) and ejection of compact fagging (14) and the vertical axis is 5-10.

3. The deep cleaning mechanism for vacuum glass production line according to claim 1, characterized in that: the spray head (5) forms a communicating structure with the water tank (6) through the pressurizing water pump (7), and the spray head (5) penetrates through the inner wall of the top end of the cleaning chamber (4).

4. The deep cleaning mechanism for vacuum glass production line according to claim 1, characterized in that: the heating resistance wire (10) is in a corrugated structure, and the heating resistance wire (10) is fixedly connected with the drying chamber (9).

5. The deep cleaning mechanism for vacuum glass production line according to claim 1, characterized in that: a communicating structure is formed between the air pump (11) and the blowpipe (12), and the blowpipe (12) penetrates through the inner wall of the drying chamber (9).

6. The deep cleaning mechanism for vacuum glass production line according to claim 1, characterized in that: and a sealing structure is formed between the sealing door (16) and the cleaning chamber (4), and the sealing door (16) is made of glass.

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