CN108209699B

CN108209699B - Glass dust removal cleaning system

Info

Publication number: CN108209699B
Application number: CN201810001464.2A
Authority: CN
Inventors: 程园园; 李俊才; 丁泽湖
Original assignee: Xuzhou Chengkai Intellectual Property Service Co Ltd
Current assignee: Xuzhou Luding Precision Manufacturing Industry Research Institute Co ltd
Priority date: 2018-01-02
Filing date: 2018-01-02
Publication date: 2020-08-07
Anticipated expiration: 2038-01-02
Also published as: CN108209699A

Abstract

The invention relates to the field of life, in particular to a glass dust removal cleaning system which comprises a first dust removal structure, a water collection structure, a second dust removal structure, a dehydration structure, a cleaning structure and a third dust removal structure; the first dust removal structure is used for cleaning glass; a water collecting structure for storing the cleaning liquid and a cleaning structure for controlling the coating amount of the cleaning liquid; a second dust removing structure for secondary dust removing and dewatering of the glass; and the third dust removing structure is matched with the second dust removing structure to realize simultaneous cleaning of two sides. The first dust removing structure is matched with the water collecting structure controlled by the cleaning structure to clean the glass product, so that the smearing of cleaning liquid is conveniently controlled, the cleaning at a higher position is convenient, and the cleaning effect is greatly improved; second dust removal structure and third dust removal structure adsorb each other, are convenient for carry out two-sided clearance to the glass of high-rise or the clearance of being not convenient for, have improved the clearance effect greatly, and the use of dehydration structure cooperation second dust removal structure is convenient for dewater second dust removal structure, has improved the convenient degree of use.

Description

Glass dust removal cleaning system

Technical Field

The invention relates to the field of life, in particular to a glass dust removal cleaning system.

Background

Along with the development of the society, the improvement of economic strength, the improvement of people's living standard, glass furniture and door and window are widely used in life, glass is a transparent, airtight material to have certain hardness, glass is chemical inertia in daily environment, also can not play a role with the biology, the aesthetic property of glass product is good, is widely used, the performance of dust removal cleaning device in the glass cleaning maintenance process has decided the efficiency and the effect of clearance.

However, in life, the glass is cleaned through the sponge pad when being dedusted, cleaning liquid is not convenient to paint in the cleaning process, the glass corners are not convenient to treat, the two sides of the glass cannot be cleaned simultaneously in the using process, the glass cleaning device is not suitable for high-rise buildings, and the glass is inconvenient to treat harder sundries in the glass. In view of this, the present invention provides a glass dust removal cleaning system, which has the following features:

(1) according to the glass dust removal cleaning system, the first dust removal structure is matched with the water collection structure controlled by the cleaning structure to clean glass products, so that the smearing of cleaning liquid is conveniently controlled, the glass products can be conveniently cleaned at a higher position, and the cleaning effect is greatly improved.

(2) According to the glass dust removal cleaning system, the second dust removal structure and the third dust removal structure are mutually adsorbed, so that double-sided cleaning of high-rise or inconvenient-to-clean glass is facilitated, the cleaning effect is greatly improved, the dehydration structure is matched with the second dust removal structure, so that the second dust removal structure is convenient to dehydrate, and the convenience in use is improved.

(3) According to the glass dust removal cleaning system, the third dust removal structure is convenient for processing hard sundries on glass, and the glass cleaning quality is greatly improved by matching with the first dust removal structure.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a glass dust removal cleaning system, wherein a first dust removal structure is matched with a water collection structure controlled by a cleaning structure to clean glass products, so that the smearing of cleaning liquid is conveniently controlled, the cleaning at a higher position is convenient, and the cleaning effect is greatly improved; the second dust removing structure and the third dust removing structure are mutually adsorbed, so that double-sided cleaning of high-rise or inconvenient-to-clean glass is facilitated, the cleaning effect is greatly improved, the dehydration structure is matched with the second dust removing structure to facilitate dehydration of the second dust removing structure, and the convenience in use is improved; the third dust removal structure is convenient for handle harder debris on the glass, cooperates simultaneously the use of first dust removal structure, has improved glass cleaning quality greatly.

The technical scheme adopted by the invention for solving the technical problems is as follows: a glass dust removal cleaning system comprises a first dust removal structure, a water collection structure, a second dust removal structure, a dehydration structure, a cleaning structure and a third dust removal structure; the third dust removing structure is arranged in the first dust removing structure; the first dust removing structure is connected with the cleaning structure; the cleaning structure is connected with the water collecting structure; one end of the water collecting structure, which deviates from the cleaning structure, is provided with the dewatering structure, and the top end of the dewatering structure is clamped with the second dust removing structure.

Specifically, the first dust removal structure comprises two scraping plates, a first spongy cushion and a first fixing frame, the first fixing frame is connected to the cleaning structure, the first spongy cushion is clamped with the first fixing frame, and the two scraping plates are symmetrically arranged on two longer sides of the first fixing frame; when in cleaning, the first sponge cushion is used for cleaning and scrubbing the glass, and simultaneously, the scraper blade is used for quickly removing sewage on the surface of the glass.

Specifically, the third dust removing structure comprises a brush and a second magnet, the brush is in threaded connection with the first fixing frame, the second magnet is arranged inside the brush, and the second magnet is embedded inside the brush; when stains on glass are inconvenient to clean, the brush is twisted, so that the bristles of the brush are higher than the surface of the first sponge cushion, and the cleaning effect is greatly improved by cleaning the brush.

Specifically, the water collecting structure comprises an anti-skid sleeve, an observation window and a water collecting barrel, the water collecting barrel is arranged at one end of the cleaning structure, which is far away from the first fixing frame, the side wall of the water collecting barrel is provided with the observation window, and the side wall of the water collecting barrel is provided with the anti-skid sleeve; when the cleaning water collecting device is used, the anti-skidding sleeve is held by a hand, the use comfort level is improved, cleaning liquid is added into the water collecting cylinder, and the observation window is convenient for observing the amount of the cleaning liquid in the water collecting cylinder.

Specifically, the cleaning structure comprises a sliding sleeve, a fixed grid, a driving spring, a sliding rod, a limiting pin, a reset spring, a sealing plug and a dropping hole, the sliding sleeve is slidably connected with the water collecting barrel, the fixed grid is arranged at the bottom end of the sliding sleeve, the sliding sleeve is in threaded connection with the first fixing frame, the driving spring and the sliding rod are arranged at one end, away from the first fixing frame, of the fixed grid, the sliding rod penetrates through the driving spring, the driving spring is connected to the water collecting barrel, the sealing plug is arranged at one end, away from the fixed grid, of the sliding rod, the dropping hole is formed in the water collecting barrel, the reset spring is embedded in the water collecting barrel, and the limiting pin penetrates through the sliding sleeve and extends to the reset spring; when the cleaning liquid is smeared, the limiting pin is pressed, the limiting pin is separated from the sliding sleeve, the sliding sleeve slides along the first fixing frame under the thrust of the reset spring, the sealing plug at one end of the sliding rod is separated from the water collecting barrel, the cleaning liquid flows from the drip hole, the cleaning liquid is smeared and cleaned on the glass surface through the adsorption of the first sponge mat, the sliding sleeve is pressed, the driving spring is contracted, the limiting pin limits the sliding sleeve, the drip hole is blocked by the sealing plug, and the cleaning quality and the cleaning efficiency are greatly improved.

Specifically, the cleaning structure comprises a sliding sleeve, a fixed grid, a driving spring, a sliding rod, a limiting pin, a reset spring, a sealing plug and a dropping hole, the sliding sleeve is slidably connected with the water collecting barrel, the fixed grid is arranged at the bottom end of the sliding sleeve, the sliding sleeve is in threaded connection with the first fixing frame, the sealing plug is arranged at one end, away from the first fixing frame, of the fixed grid, the sliding rod is slidably connected with the water collecting barrel is arranged at one end of the sealing plug, the sliding rod penetrates through the driving spring on the water collecting barrel, the dropping hole is formed in one surface, opposite to the sealing plug, of the water collecting barrel, the reset spring is embedded into the water collecting barrel, and the limiting pin penetrates through the sliding sleeve and extends to the reset spring; when the cleaning liquid is smeared, the limiting pin is pressed, the limiting pin is separated from the sliding sleeve, the sliding sleeve slides along the first fixing frame under the thrust of the reset spring, the sealing plug at one end of the sliding rod is separated from the water collecting barrel, the cleaning liquid flows from the drip hole, the cleaning liquid is smeared and cleaned on the glass surface through the adsorption of the first sponge mat, the sliding sleeve is pressed, the driving spring extends, the limiting pin limits the sliding sleeve, the sealing plug blocks the drip hole, and the cleaning quality and the cleaning efficiency are greatly improved.

Specifically, the dewatering structure comprises an end cover, a dewatering grid and a water collecting tank, the end cover is in threaded connection with the water collecting barrel, the dewatering grid is arranged inside the end cover, and the water collecting tank is enclosed between the dewatering grid and the end cover; the effectual washing liquid that has prevented of end cover flows, has improved the leakproofness of water collecting tank, it is right that the dewatering graticule mesh is convenient for the dehydration of second dust removal structure, the water catch bowl is convenient for collect sewage, improves cleaning quality, prevents the secondary operation.

Specifically, the second dust removing structure comprises a second fixing frame, a second spongy cushion and a first magnet, the second fixing frame is in threaded connection with the end cover, the second spongy cushion is clamped in the second fixing frame, and the first magnet is embedded into the second spongy cushion and extends to the second fixing frame; when the cleaning device is used, the second sponge mat is used for secondarily dewatering and cleaning the surface of glass, when the second sponge mat is dewatered, the second fixing frame is screwed to enable the second fixing frame to be separated from the end cover, the second sponge mat is placed in an inverted mode between the second fixing frame and the end cover, the second sponge mat is squeezed and dewatered through the dewatering grid net, the sewage is collected in the water collecting tank after being dewatered, when double-sided cleaning is achieved, the second dust removal structure is placed on the glass, the first magnet is adsorbed by the second magnet, the first magnet moves along with the second magnet, double-sided cleaning is achieved, and cleaning efficiency is greatly improved.

The invention has the beneficial effects that:

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of a glass dust-removing cleaning device according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of a connection structure between the first dust removing structure and the third dust removing structure shown in FIG. 1;

FIG. 3 is an exploded view of the second dust-removing structure and the dewatering structure shown in FIG. 1;

FIG. 4 is a schematic structural diagram of a cleaning structure of a first embodiment of the glass dust-removing cleaning device provided by the invention;

fig. 5 is a schematic structural diagram of a cleaning structure of a second embodiment of the glass dust removal cleaning device provided by the invention.

In the figure: first dust removal structure 1, scraper blade 11, first foam-rubber cushion 12, first mount 13, water collection structure 2, antiskid cover 21, observation window 22, water collection cylinder 23, second dust removal structure 3, second mount 31, second foam-rubber cushion 32, first magnet 33, dehydration structure 4, end cover 41, dewatering grid 42, water catch bowl 43, wash structure 5, sliding sleeve 51, fixed grid 52, driving spring 53, slide bar 54, spacing pin 55, reset spring 56, sealing plug 57, drip hole 58, third dust removal structure 6, brush 61, second magnet 62.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

as shown in fig. 1, a glass dust removal cleaning system according to a first embodiment of the present invention includes a first dust removal structure 1, a water collection structure 2, a second dust removal structure 3, a dehydration structure 4, a cleaning structure 5, and a third dust removal structure 6; the third dust removing structure 6 is arranged in the first dust removing structure 1; the first dust removing structure 1 is connected with the cleaning structure 5; the cleaning structure 5 is connected to the water collecting structure 2; one end of the water collecting structure 2, which deviates from the cleaning structure 5, is provided with the dewatering structure 4, and the top end of the dewatering structure 4 is clamped with the second dust removing structure 3.

Specifically, as shown in fig. 1, in the glass dust removing and cleaning system according to the first embodiment of the present invention, the first dust removing structure 1 includes two scraping plates 11, a first foam-rubber cushion 12 and a first fixing frame 13, the first fixing frame 13 is connected to the cleaning structure 5, the first foam-rubber cushion 12 is fastened to the first fixing frame 13, and the two scraping plates 11 are symmetrically disposed on two longer sides of the first fixing frame 13; during cleaning, the first sponge cushion 12 is used for cleaning and scrubbing the glass, and meanwhile, the scraper 11 is used for quickly removing sewage on the surface of the glass.

Specifically, as shown in fig. 2, in the glass dust removing and cleaning system according to the first embodiment of the present invention, the third dust removing structure 6 includes a brush 61 and a second magnet 62, the brush 61 is connected to the first fixing frame 13 by a screw, the second magnet 62 is disposed inside the brush 61, and the second magnet 62 is embedded inside the brush 61; when the dirt on the glass is inconvenient to clean, the brush 61 is twisted, so that the bristles of the brush 61 are higher than the surface of the first sponge cushion 12, and the cleaning effect is greatly improved by cleaning the brush 61.

Specifically, as shown in fig. 1, in the glass dust removal cleaning system according to the first embodiment of the present invention, the water collection structure 2 includes an anti-slip sleeve 21, an observation window 22 and a water collection cylinder 23, the water collection cylinder 23 is disposed at one end of the cleaning structure 5 away from the first fixing frame 13, the side wall of the water collection cylinder 23 is provided with the observation window 22, and the side wall of the water collection cylinder 23 is provided with the anti-slip sleeve 21; when the cleaning water collecting device is used, the anti-skidding sleeve 21 is held by a hand, the use comfort level is improved, cleaning liquid is added into the water collecting cylinder 23, and the observation window 22 is convenient for observing the amount of the cleaning liquid in the water collecting cylinder 23.

Specifically, as shown in fig. 4, in the glass dust removal cleaning system according to the first embodiment of the present invention, the cleaning structure 5 includes a sliding sleeve 51, a fixed grid 52, a driving spring 53, a sliding rod 54, a limit pin 55, a return spring 56, a sealing plug 57, and a dropping hole 58, the sliding sleeve 51 is slidably connected to the water collection cylinder 23, the fixed grid 52 is disposed at the bottom end of the sliding sleeve 51, the sliding sleeve 51 is threadedly connected to the first fixing frame 13, the driving spring 53 and the sliding rod 54 are disposed at one end of the fixed grid 52 away from the first fixing frame 13, the sliding rod 54 penetrates through the driving spring 53, the driving spring 53 is connected to the water collection cylinder 23, the sealing plug 57 is disposed at one end of the sliding rod 54 away from the fixed grid 52, the dropping hole 58 is disposed in the water collection cylinder 23, the return spring 56 is embedded in the water collection cylinder 23, the limit pin 55 penetrates through the sliding sleeve 51 and extends to the return spring 56; when cleaning liquid is smeared, the limit pin 55 is pressed, the limit pin 55 is separated from the sliding sleeve 51, the sliding sleeve 51 slides along the direction of the first fixing frame 13 under the thrust of the return spring 56, the sealing plug 57 at one end of the sliding rod 54 is separated from the water collecting barrel 23, the cleaning liquid is adsorbed from the dripping hole 58 and is smeared and cleaned on the glass surface through the first sponge cushion 12, the sliding sleeve 51 is pressed, the driving spring 53 contracts, the limit pin 55 limits the sliding sleeve 51, and the sealing plug 57 blocks the dripping hole 58, so that the cleaning quality and the cleaning efficiency are greatly improved.

Specifically, as shown in fig. 3, in the glass dust removal cleaning system according to the first embodiment of the present invention, the dewatering structure 4 includes an end cover 41, a dewatering grid 42 and a water collection tank 43, the end cover 41 is connected to the water collection tank 23 by a screw thread, the dewatering grid 42 is disposed inside the end cover 41, and the water collection tank 43 is enclosed between the dewatering grid 42 and the end cover 41; the end cover 41 effectively prevents the cleaning liquid from flowing out, improves the tightness of the water collecting barrel 23, the dewatering grid net 42 is convenient for dewatering the second dust removing structure 3, the water collecting groove 43 is convenient for collecting sewage, improves the cleaning quality and prevents secondary operation.

Specifically, as shown in fig. 1 and fig. 3, in the glass dust removing and cleaning system according to the first embodiment of the present invention, the second dust removing structure 3 includes a second fixing frame 31, a second foam pad 32 and a first magnet 33, the second fixing frame 31 is in threaded connection with the end cover 41, the second foam pad 32 is clamped inside the second fixing frame 31, and the first magnet 33 is embedded in the second foam pad 32 and extends to the second fixing frame 31; when the double-sided cleaning device is used, the second sponge cushion 32 is used for secondarily dewatering and cleaning the surface of glass, when the second sponge cushion 32 is dewatered, the second fixing frame 31 is screwed to enable the second fixing frame 31 to be separated from the end cover 41, the second sponge cushion 32 is inversely placed between the second fixing frame 31 and the end cover 41, the second sponge cushion 32 is squeezed and dewatered through the dewatering grid net 42, sewage is collected in the water collecting tank 43 after being dewatered, when the double-sided cleaning is realized, the second dust removing structure 3 is placed on glass, the first magnet 33 is adsorbed by the second magnet 62, the first magnet 33 moves along with the movement of the second magnet 62, the double-sided cleaning is realized, and the cleaning efficiency is greatly improved.

Example two:

as shown in fig. 1, a glass dust removal cleaning system according to a second embodiment of the present invention includes a first dust removal structure 1, a water collection structure 2, a second dust removal structure 3, a dehydration structure 4, a cleaning structure 5, and a third dust removal structure 6; the third dust removing structure 6 is arranged in the first dust removing structure 1; the first dust removing structure 1 is connected with the cleaning structure 5; the cleaning structure 5 is connected to the water collecting structure 2; one end of the water collecting structure 2, which deviates from the cleaning structure 5, is provided with the dewatering structure 4, and the top end of the dewatering structure 4 is clamped with the second dust removing structure 3.

Specifically, as shown in fig. 1, in the second embodiment of the glass dust removal cleaning system of the present invention, the first dust removal structure 1 includes two scraping plates 11, a first foam-rubber cushion 12 and a first fixing frame 13, the first fixing frame 13 is connected to the cleaning structure 5, the first foam-rubber cushion 12 is fastened to the first fixing frame 13, and the two scraping plates 11 are symmetrically disposed on two longer sides of the first fixing frame 13; during cleaning, the first sponge cushion 12 is used for cleaning and scrubbing the glass, and meanwhile, the scraper 11 is used for quickly removing sewage on the surface of the glass.

Specifically, as shown in fig. 2, in the second embodiment of the glass dust removing and cleaning system according to the present invention, the third dust removing structure 6 includes a brush 61 and a second magnet 62, the brush 61 is connected to the first fixing frame 13 by a screw, the second magnet 62 is disposed inside the brush 61, and the second magnet 62 is embedded inside the brush 61; when the dirt on the glass is inconvenient to clean, the brush 61 is twisted, so that the bristles of the brush 61 are higher than the surface of the first sponge cushion 12, and the cleaning effect is greatly improved by cleaning the brush 61.

Specifically, as shown in fig. 1, in the second embodiment of the glass dust removal cleaning system of the present invention, the water collection structure 2 includes an anti-slip cover 21, an observation window 22 and a water collection cylinder 23, the water collection cylinder 23 is disposed at one end of the cleaning structure 5 away from the first fixing frame 13, the side wall of the water collection cylinder 23 is provided with the observation window 22, and the side wall of the water collection cylinder 23 is provided with the anti-slip cover 21; when the cleaning water collecting device is used, the anti-skidding sleeve 21 is held by a hand, the use comfort level is improved, cleaning liquid is added into the water collecting cylinder 23, and the observation window 22 is convenient for observing the amount of the cleaning liquid in the water collecting cylinder 23.

Specifically, as shown in fig. 5, in the second embodiment of the glass dust removal cleaning system according to the present invention, the cleaning structure 5 includes a sliding sleeve 51, a fixed grid 52, a driving spring 53, a sliding rod 54, a limit pin 55, a return spring 56, a sealing plug 57, and a dropping hole 58, the sliding sleeve 51 is slidably connected to the water collection cylinder 23, the fixed grid 52 is disposed at the bottom end of the sliding sleeve 51, the sliding sleeve 51 is threadedly connected to the first fixing frame 13, the sealing plug 57 is disposed at an end of the fixed grid 52 away from the first fixing frame 13, the sliding rod 54 slidably connected to the water collection cylinder 23 is disposed at an end of the sealing plug 57, the sliding rod 54 penetrates through the driving spring 53 on the water collection cylinder 23, the dropping hole 58 is disposed at a surface of the water collection cylinder 23 opposite to the sealing plug 57, the return spring 56 is embedded in the water collection cylinder 23, the limit pin 55 penetrates through the sliding sleeve 51 and extends to the return spring 56; when cleaning liquid is smeared, the limit pin 55 is pressed, the limit pin 55 is separated from the sliding sleeve 51, the sliding sleeve 51 slides along the direction of the first fixing frame 13 under the thrust of the return spring 56, the sealing plug 57 at one end of the sliding rod 54 is separated from the water collecting barrel 23, the cleaning liquid is adsorbed from the dripping hole 58 and is smeared and cleaned on the glass surface through the first sponge cushion 12, the sliding sleeve 51 is pressed, the driving spring 53 extends, the limit pin 55 limits the sliding sleeve 51, and the sealing plug 57 blocks the dripping hole 58, so that the cleaning quality and the cleaning efficiency are greatly improved.

Specifically, as shown in fig. 3, in the second embodiment of the glass dust removal cleaning system of the present invention, the dewatering structure 4 includes an end cover 41, a dewatering grid 42 and a water collection tank 43, the end cover 41 is connected to the water collection tank 23 by a screw thread, the dewatering grid 42 is disposed inside the end cover 41, and the water collection tank 43 is enclosed between the dewatering grid 42 and the end cover 41; the end cover 41 effectively prevents the cleaning liquid from flowing out, improves the tightness of the water collecting barrel 23, the dewatering grid net 42 is convenient for dewatering the second dust removing structure 3, the water collecting groove 43 is convenient for collecting sewage, improves the cleaning quality and prevents secondary operation.

Specifically, as shown in fig. 1 and fig. 3, in the second dust removing and cleaning system for glass according to the second embodiment of the present invention, the second dust removing structure 3 includes a second fixing frame 31, a second foam pad 32 and a first magnet 33, the second fixing frame 31 is in threaded connection with the end cover 41, the second foam pad 32 is clamped inside the second fixing frame 31, and the first magnet 33 is embedded into the second foam pad 32 and extends to the second fixing frame 31; when the double-sided cleaning device is used, the second sponge cushion 32 is used for secondarily dewatering and cleaning the surface of glass, when the second sponge cushion 32 is dewatered, the second fixing frame 31 is screwed to enable the second fixing frame 31 to be separated from the end cover 41, the second sponge cushion 32 is inversely placed between the second fixing frame 31 and the end cover 41, the second sponge cushion 32 is squeezed and dewatered through the dewatering grid net 42, sewage is collected in the water collecting tank 43 after being dewatered, when the double-sided cleaning is realized, the second dust removing structure 3 is placed on glass, the first magnet 33 is adsorbed by the second magnet 62, the first magnet 33 moves along with the movement of the second magnet 62, the double-sided cleaning is realized, and the cleaning efficiency is greatly improved.

When single-side cleaning is carried out, cleaning liquid is added into the water collecting structure 2, then the cleaning liquid is controlled to be smeared on glass through the cleaning structure 5, meanwhile, the glass is cleaned through the first dust removing structure 1, then the glass is further subjected to dust removal and wiping through the second dust removing structure 3, the second dust removing structure 3 is dehydrated through the dehydrating structure 4, and when hard or inconvenient cleaning stains are encountered, dust is removed and cleaned through the third dust removing structure 6; when the double-side simultaneous cleaning is carried out, the second dust removing structure 3 and the third dust removing structure 6 are respectively placed on the two sides of the glass, and when the third dust removing structure 6 moves, the second dust removing structure 3 moves to clean the back of the glass; the method specifically comprises the following steps:

(1) during cleaning, an end cover is screwed to add cleaning liquid into the water collecting cylinder, the anti-slip sleeve 21 is held by hands, the limit pin 55 is pressed, the limit pin 55 is separated from the sliding sleeve 51, the sliding sleeve 51 slides along the direction of the first fixing frame 13 under the thrust of the return spring 56, the sealing plug 57 at one end of the sliding rod 54 is separated from the water collecting cylinder 23, the cleaning liquid is adsorbed by the first sponge cushion 12 from a dripping hole 58, the glass surface is coated and cleaned, the sliding sleeve 51 is pressed, the drive spring 53 contracts, the limit pin 55 limits the sliding sleeve 51, the sealing plug 57 blocks the dripping hole 58, the glass is cleaned and scrubbed by the first sponge cushion 12, and meanwhile, the sewage on the glass surface is rapidly removed by the scraper 11;

(2) when stains on glass are inconvenient to clean, the brush 61 is screwed, bristles of the brush 61 are higher than the surface of the first sponge cushion 12, the amount of cleaning liquid in the water collecting cylinder 23 is observed through the observation window 22, the surface of the glass is secondarily dewatered and cleaned through the second sponge cushion 32, when the second sponge cushion 32 is dewatered, the second fixing frame 31 is screwed to separate the second fixing frame 31 from the end cover 41, the second sponge cushion 32 is inversely placed between the second fixing frame 31 and the end cover 41, the second sponge cushion 32 is squeezed and dewatered through the dewatering grid net 42, and sewage is collected in the water collecting tank 43 after being dewatered;

(3) when realizing two-sided clearance, place the second dust removal structure 3 and place deviating from at glass, first magnet 33 and second magnet adsorb 62, and first magnet 33 moves along with the removal of second magnet 62, has realized two-sided clearance.

The first dust removing structure 1 is matched with the water collecting structure 2 controlled by the cleaning structure 5 to clean the glass product, so that the smearing of cleaning liquid is conveniently controlled, the cleaning at a higher position is convenient, and the cleaning effect is greatly improved; the second dust removing structure 3 and the third dust removing structure 6 are mutually adsorbed, so that double-sided cleaning of high-rise or inconvenient-to-clean glass is facilitated, the cleaning effect is greatly improved, the dehydration structure 4 is matched with the second dust removing structure 3 to facilitate dehydration of the second dust removing structure 3, and the convenience in use is improved; the third dust removing structure 6 is convenient for treating hard sundries on the glass, and is matched with the first dust removing structure 1, so that the glass cleaning quality is greatly improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a clean system of glass dust removal which characterized in that: the device comprises a first dust removing structure (1), a water collecting structure (2), a second dust removing structure (3), a dewatering structure (4), a cleaning structure (5) and a third dust removing structure (6); the third dust removing structure (6) is arranged in the first dust removing structure (1); the first dust removing structure (1) is connected with the cleaning structure (5); the washing structure (5) is connected to the water collecting structure (2); catchment structure (2) deviate from the one end of wasing structure (5) is equipped with dehydration structure (4), the top block of dehydration structure (4) second dust removal structure (3), wherein:

the first dust removal structure (1) comprises two scraping plates (11), a first sponge pad (12) and a first fixing frame (13), the first fixing frame (13) is connected to the cleaning structure (5), the first sponge pad (12) is clamped with the first fixing frame (13), and the two scraping plates (11) are symmetrically arranged on two longer sides of the first fixing frame (13);

the third dust removing structure (6) comprises a brush (61) and a second magnet (62), the brush (61) is in threaded connection with the first fixing frame (13), the second magnet (62) is arranged inside the brush (61), and the second magnet (62) is embedded inside the brush (61).

2. A glass dusting cleaning system according to claim 1, wherein: the water collecting structure (2) comprises an anti-skidding sleeve (21), an observation window (22) and a water collecting cylinder (23), the water collecting cylinder (23) is arranged at one end, deviating from the first fixing frame (13), of the cleaning structure (5), the side wall of the water collecting cylinder (23) is provided with the observation window (22), and the side wall of the water collecting cylinder (23) is provided with the anti-skidding sleeve (21).

3. A glass dusting cleaning system according to claim 2, wherein: the cleaning structure (5) comprises a sliding sleeve (51), a fixed grid (52), a driving spring (53), a sliding rod (54), a limiting pin (55), a return spring (56), a sealing plug (57) and a dripping hole (58), the sliding sleeve (51) is in sliding connection with the water collecting barrel (23), the fixed grid (52) is arranged at the bottom end of the sliding sleeve (51), the sliding sleeve (51) is in threaded connection with the first fixing frame (13), the driving spring (53) and the sliding rod (54) are arranged at one end, deviating from the first fixing frame (13), of the fixed grid (52), the sliding rod (54) penetrates through the driving spring (53), the driving spring (53) is connected with the water collecting barrel (23), the sealing plug (57) is arranged at one end, deviating from the fixed grid (52), of the sliding rod (54), and the dripping hole (58) is arranged on the water collecting barrel (23), the return spring (56) is embedded into the water collecting barrel (23), and the limiting pin (55) penetrates through the sliding sleeve (51) and extends to the return spring (56).

4. A glass dusting cleaning system according to claim 2, wherein: the cleaning structure (5) comprises a sliding sleeve (51), a fixed grid (52), a driving spring (53), a sliding rod (54), a limiting pin (55), a return spring (56), a sealing plug (57) and a dropping hole (58), the sliding sleeve (51) is in sliding connection with the water collecting barrel (23), the fixed grid (52) is arranged at the bottom end of the sliding sleeve (51), the sliding sleeve (51) is in threaded connection with the first fixing frame (13), the sealing plug (57) is arranged at one end, deviating from the first fixing frame (13), of the fixed grid (52), the sliding rod (54) is arranged at one end of the sealing plug (57) and in sliding connection with the water collecting barrel (23), the sliding rod (54) penetrates through the driving spring (53) on the water collecting barrel (23), and the dropping hole (58) is arranged at one surface, opposite to the water collecting barrel (23) and the sealing plug (57), the return spring (56) is embedded into the water collecting barrel (23), and the limiting pin (55) penetrates through the sliding sleeve (51) and extends to the return spring (56).

5. A glass dusting cleaning system according to claim 2, wherein: dewatering structure (4) include end cover (41), dewatering graticule mesh (42) and water-collecting tank (43), end cover (41) with water-collecting tank (23) threaded connection, the inside of end cover (41) is equipped with dewatering graticule mesh (42), dewatering graticule mesh (42) with enclose between end cover (41) water-collecting tank (43).

6. A glass dusting cleaning system according to claim 5, wherein: the second dust removal structure (3) comprises a second fixing frame (31), a second sponge cushion (32) and a first magnet (33), the second fixing frame (31) is in threaded connection with the end cover (41), the second sponge cushion (32) is clamped inside the second fixing frame (31), and the first magnet (33) is embedded into the second sponge cushion (32) and extends to the second fixing frame (31).