CN112404080A - Double-sided steam cleaning mechanism for glass screen - Google Patents

Abstract

The invention relates to the technical field of cleaning mechanisms, in particular to a double-sided steam cleaning mechanism for a glass screen, which comprises the glass screen, linear steam spray heads, a cleaning area non-contact automatic transmission line and a waste water and waste gas guide pipe, wherein the two linear steam spray heads are symmetrically arranged on the upper surface and the lower surface of the glass screen, each linear steam spray head comprises a first linear steam spray head and a second linear steam spray head, when the glass screen is conveyed to pass through the spray heads through the transmission line, the first linear steam spray heads and the second linear steam spray heads simultaneously spray high-temperature and high-pressure steam to clean the glass screen, the waste water and waste gas guide pipe is arranged on one side of the automatic transmission line, the automatic transmission line is arranged from right to left, the automatic transmission line penetrates between the two groups of linear steam spray heads, and waste gas generated in the cleaning process is collected by the waste water, the high-cleanliness and high-efficiency cleaning of the glass screen is realized.

Description

Double-sided steam cleaning mechanism for glass screen

Technical Field

The invention relates to the technical field of cleaning mechanisms, in particular to a double-sided steam cleaning mechanism for a glass screen.

Background

The 3C industry has increasingly large demand on small-size glass screens and increasingly high requirements on the cleaning process of the glass screens, and as an important link in the manufacturing process of the glass screens, the cleaning process has great influence on the subsequent processes of the glass screens; the cleaning process of the traditional glass screen adopts ultrasonic waves to clean, a batch of glass screens are placed in a cleaning tank added with chemical agents, then an ultrasonic generator is started to enable micro bubbles in liquid in the tank to keep vibrating under the action of sound waves, so that adsorption of dirt and the surface of glass is damaged, fatigue damage of a dirt layer is caused, and the dirt layer is peeled off, and therefore larger particles and conventional stains on the surface of the glass can be cleaned up through the ultrasonic waves.

When the adsorption affinity of filth is stronger, like fine particle and special oil stain, the granule granularity is littleer, and the adsorption efficiency is stronger, and ultrasonic cleaning effect is relatively poor this moment, and the water stain is also remained easily on the glass screen surface after the washing, causes the secondary pollution of glass screen. A large amount of chemical agents are added into the cleaning tank during ultrasonic cleaning, cleaning liquid needs to be replaced after a certain number of glass screens are cleaned, a large amount of waste water is generated, and cost is increased.

Disclosure of Invention

In view of the above situation, in order to overcome the defects of the prior art, the present invention provides a double-sided steam cleaning mechanism for a glass screen, which adopts high-temperature and high-pressure steam to simultaneously inject air to the upper surface and the lower surface of the glass screen, so as to achieve the effect of high-cleanliness cleaning, and simultaneously collect waste water and waste gas, thereby ensuring no secondary pollution.

The technical purpose of the invention is realized by the following technical scheme:

the utility model provides a two-sided vapour wiper mechanism for glass screen, includes glass screen, linear vapor nozzle, washs regional non-contact automatic transmission line and waste water waste gas air duct, two linear vapor nozzle symmetrical arrangement is on two surfaces about the glass screen, linear vapor nozzle includes first linear vapor nozzle and second linear vapor nozzle, when glass screen warp transmission line is carried through the shower nozzle, first linear vapor nozzle and second linear vapor nozzle spout high temperature high pressure steam simultaneously, and then wash the glass screen, waste water waste gas air duct locates one side of automatic transmission line, automatic transmission line sets up from the right side to the left side, and automatic transmission line passes between two sets of linear vapor nozzle, and the waste gas that produces in the cleaning process is discharged after being collected by waste water waste gas air duct, realizes the high-efficient washing of high cleanliness of glass screen.

Furthermore, the linear steam nozzle comprises a steam generator, a high-temperature and high-pressure resistant air guide hose and a linear steam nozzle, one end of the high-temperature and high-pressure resistant hose is connected to the linear steam nozzle, the steam generator is installed at the other end of the high-temperature and high-pressure resistant hose, high-temperature and high-pressure steam generated by the steam generator is conveyed to the linear steam nozzle through the high-temperature and high-pressure resistant air guide hose, and is uniformly sprayed out through a nozzle on the linear steam nozzle to generate linear steam flow, so that the glass screen is uniformly cleaned.

Furthermore, two rows of independent rubber guide wheels are adopted by the automatic transmission line, each rubber guide wheel comprises a first guide wheel and a second guide wheel, the first guide wheel and the second guide wheel are installed on the edges of the two sides of the glass screen and only contact the narrow edge area of the glass screen, the center area of the glass screen is not contacted, pollution to the center area is avoided, the rubber guide wheels can freely rotate, and scratches on the edge of the glass screen are avoided.

Further, waste water waste gas air duct is located the afterbody of automatic transmission line, the hole has been seted up to the tip of waste water waste gas air duct, the connection vacuum aspiration system of afterbody of waste water waste gas air duct can promote the glass screen and move forward during the washing, collects the steam flow of vapor shower nozzle spun simultaneously and discharges outside the equipment, prevents to cause secondary pollution to the glass screen.

Further, the bottom fixed mounting that automatic transmission line one end was kept away from to waste water waste gas air duct has the moving table, the bottom of moving table is equipped with the base, and moving table sliding connection is on the base.

In conclusion, the invention has the following beneficial effects:

the glass screen is cleaned by adopting high-temperature high-pressure steam, and the glass screen can be uniformly cleaned by the steam through the linear spray head, so that the glass screen is ensured to be cleaned with high cleanliness;

secondly, the automatic transmission line realizes the edge contact and transmission of the glass screen, avoids the pollution to the central area and ensures the cleaning effect;

thirdly, the waste water and waste gas guide pipe collects most of waste water and waste gas generated in the cleaning process, centralized treatment is realized, and secondary pollution to the glass screen is avoided;

fourth, this wiper mechanism formula device as an organic whole, compact structure is convenient for integrate to automatic production line, realizes automatic the washing.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, and are not to be considered limiting of the invention, in which:

FIG. 1 is a schematic view of a dual-sided steam cleaner mechanism according to the present invention;

FIG. 2 is a top plan view of a vapor nozzle according to the present invention;

FIG. 3 is a schematic view of a steam generator connected to a steam header by a conduit according to the present invention;

FIG. 4 is a schematic view of the structure of an automatic transmission line according to the present invention;

fig. 5 is a side view of an exhaust waste water airway according to the present invention.

In the figure, 1, a glass screen; 10. a first linear vapor nozzle; 10A, a spray head; 10B, a connecting pipe; 11. a steam generator; 12. a high temperature and high pressure resistant hose; 13. a second linear vapor nozzle; 20. a first guide wheel; 21. a second guide wheel; 30. a waste water and waste gas air duct; 30A, holes; 31. and (4) moving the workbench.

Detailed Description

The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of the embodiments, which is to be read in connection with the accompanying drawings of fig. 1 to 5. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1: the utility model provides a two-sided vapour wiper mechanism for glass screen, as shown in fig. 1 to 5, including glass screen 1, linear vapor nozzle, wash regional non-contact automatic transmission line and waste water waste gas air duct 30, two linear vapor nozzle symmetrical arrangement are on two surfaces about glass screen 1, linear vapor nozzle includes first linear vapor nozzle 10 and second linear vapor nozzle 13, when glass screen 1 carries through the shower nozzle through the transmission line, first linear vapor nozzle 10 and second linear vapor nozzle 13 spout high temperature high pressure steam simultaneously, and then wash glass screen 1.

The first steam nozzle 10 and the second steam nozzle 13 have the same structure, and are composed of a nozzle 10A at the head and a connecting pipe 10B connected with the nozzle 10A.

Waste water waste gas air duct 30 locates one side of automatic transmission line, and automatic transmission line sets up from right side to left side, and the automatic transmission line passes between two sets of linear vapor nozzle, and the waste gas that produces in the cleaning process is discharged after being collected by waste water waste gas air duct 30, realizes the high-efficient washing of high cleanliness factor of glass screen 1.

The linear steam nozzle comprises a steam generator 11, a high-temperature and high-pressure resistant air guide hose and a linear steam nozzle, one end of the high-temperature and high-pressure resistant hose 12 is connected to the linear steam nozzle, the steam generator is installed at the other end of the high-temperature and high-pressure resistant hose 12, high-temperature and high-pressure steam generated by the steam generator 11 is conveyed to the linear steam nozzle through the high-temperature and high-pressure resistant air guide hose, and is uniformly sprayed out through a nozzle on the linear steam nozzle to generate linear steam flow, so that the glass screen 1 is uniformly cleaned.

Two rows of independent rubber guide wheels are adopted by the automatic transmission line, each rubber guide wheel comprises a first guide wheel 20 and a second guide wheel 21, the first guide wheels 20 and the second guide wheels 21 are installed on the edges of the two sides of the glass screen 1 and only contact the narrow edge area of the glass screen 1, the center area of the glass screen 1 is not contacted, pollution to the center area is avoided, the rubber guide wheels can rotate freely, and scratches on the edge of the glass screen 1 are avoided.

Waste water waste gas air duct 30 is located the afterbody of automatic transmission line, and hole 30A has been seted up to waste water waste gas air duct 30's tip, and waste water waste gas air duct 30's end connection vacuum aspiration system can promote glass screen 1 and move forward during the washing, collects the steam flow of vapor nozzle spun simultaneously and discharges outside the equipment, prevents to cause secondary pollution to glass screen 1.

The bottom fixed mounting that waste water waste gas air duct 30 kept away from automatic transmission line one end has travelling table 31, and travelling table 31's bottom is equipped with the base, and travelling table 31 sliding connection is on the base.

When the mechanism operates, the steam generator 11 is started, high-temperature and high-pressure steam generated at the moment is sprayed out through the first steam nozzle 10 and the second steam nozzle 13, the steam temperature can be adjusted within the range of 100-300 ℃, the temperature and the pressure of the steam generated by the steam generator are adjusted according to the cleaning effect, the upper nozzle and the lower nozzle are respectively used for cleaning the upper surface and the lower surface of the glass screen 11, the nozzles of the first steam nozzle 10 and the second steam nozzle 13 are in a straight line shape, and the whole breadth of the glass screen 11 can be cleaned.

The automatic transmission line comprises an upper group of first guide wheels 20 and a lower group of second guide wheels 21, the first guide wheels 20 are used for supporting the glass screen 11, the glass screen 11 can move towards the right side conveniently, the glass screen 11 can shake up and down due to the fact that high-pressure steam sprayed by the second steam spray head 13 can cause the glass screen 11 to shake up and down, the second guide wheels 21 are used for limiting the glass screen 11 to shake up and down when being located near the second steam spray head 13, the first guide wheels 20 are composed of two rows of independent guide wheels, and the guide wheels are not connected with each other, so that a shielding object is not arranged below the glass screen 11 when the glass screen 11 is transmitted, and the movement of the waste water and waste gas guide tube 30 used.

Waste water waste gas air duct 30's tip has two rows of holes 30A, waste water waste gas air duct 30 has two effects, firstly, promote glass screen 1 to the motion of right side under the drive of travelling table 31, so that first vapour shower nozzle 10 and second vapour shower nozzle 13 wash whole glass screen 1, secondly collect the waste water waste gas on two upper and lower surfaces of glass screen 11 simultaneously, when high temperature high pressure vapour promotes the spot and removes to 1 rear of glass screen, be collected by waste water waste gas air duct 30, avoid secondary pollution, travelling table 31's speed can be adjusted according to the cleaning performance and set for.

When the glass screen 11 is cleaned, firstly, the steam generator 11 is started, the first steam nozzle 10 and the second steam nozzle 13 spray high-temperature and high-pressure steam, the glass screen 1 is placed on the left side of the automatic transmission line and is positioned at the front end of the waste water and waste gas guide pipe 30, when the control system detects that the glass screen 11 is placed at a proper position, the movable workbench 31 pushes the glass screen 11 to move towards the right side at a constant speed through the waste water and waste gas guide pipe 30, when the glass screen 1 passes through the positions of the first steam nozzle 10 and the second steam nozzle 13, the high-temperature steam sprayed from the upper side and the lower side clean stains on the surface of the glass screen 1, and meanwhile, the waste water and waste gas containing the stains are collected by the waste water and waste gas guide pipe 30; after the glass screen 11 completely passes through the first steam nozzle 10 and the second steam nozzle 13, the cleaning operation is completed, and the movable worktable 31 drives the air duct 30 to return to the initial position and prepare for the next cleaning cycle.

While the invention has been described in further detail with reference to specific embodiments thereof, it is not intended that the invention be limited to the specific embodiments thereof; for those skilled in the art to which the present invention pertains and related technologies, the extension, operation method and data replacement should fall within the protection scope of the present invention based on the technical solution of the present invention.

Claims (5)

1. The utility model provides a two-sided vapour wiper mechanism for glass screen, includes glass screen (1), linear vapor nozzle, washs regional non-contact automatic transmission line and waste water waste gas air duct (30), its characterized in that: two linear vapor nozzle symmetrical arrangement is on two surfaces about glass screen (1), linear vapor nozzle includes first linear vapor nozzle (10) and second linear vapor nozzle (13), when glass screen (1) warp transmission line carries through the shower nozzle, first linear vapor nozzle (10) and second linear vapor nozzle (13) blowout high temperature high pressure steam simultaneously, and then wash glass screen (1), one side of automatic transmission line is located in waste water waste gas air duct (30), automatic transmission line sets up from the right side to the left side, and automatic transmission line passes between two sets of linear vapor nozzle, and the waste gas that produces in the cleaning process is discharged after being collected by waste water waste gas air duct (30), realizes the high-efficient washing of high cleanliness of glass screen (1).

2. A double-sided vapor cleaning mechanism for a glass screen as defined in claim 1 wherein: the linear steam nozzle comprises a steam generator (11), a high-temperature and high-pressure resistant air guide hose and a linear steam nozzle body, one end of the high-temperature and high-pressure resistant hose (12) is connected to the linear steam nozzle body, the steam generator is installed at the other end of the high-temperature and high-pressure resistant hose (12), high-temperature and high-pressure steam generated by the steam generator (11) is conveyed to the linear steam nozzle body through the high-temperature and high-pressure resistant air guide hose, and is uniformly sprayed out through a nozzle on the linear steam nozzle body to generate linear steam flow, so that the glass screen (1) is uniformly cleaned.

3. A double-sided vapor cleaning mechanism for a glass screen as defined in claim 2, wherein: automatic transmission line adopts two rows of independent rubber guide wheels, the rubber guide wheel includes first guide wheel (20), second guide wheel (21), install at glass screen (1) both sides edge first guide wheel (20), second guide wheel (21), and only contact the narrower region in glass screen (1) edge, contactless glass screen (1) central area avoids polluting the central area production, but the rubber guide wheel free rotation avoids producing the mar to glass screen (1) edge.

4. A double-sided vapor-cleaning mechanism for a glass screen as defined in claim 3, wherein: waste water waste gas air duct (30) are located the afterbody of automatic transmission line, hole (30A) have been seted up to the tip of waste water waste gas air duct (30), the connection-after vacuum suction system of waste water waste gas air duct (30) can promote glass screen (1) and move forward during the washing, collects vapor stream with steam spray head spun simultaneously and discharges outside the equipment, prevents to cause secondary pollution to glass screen (1).

5. A double-sided vapor-cleaning mechanism for glass screens as defined in claim 4 wherein: the bottom fixed mounting that automatic transmission line one end was kept away from in waste water waste gas air duct (30) has travelling table (31), the bottom of travelling table (31) is equipped with the base, and travelling table (31) sliding connection is on the base.

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