CN112211537A - High-compression-resistance corrosion-resistant energy-saving aluminum alloy door and window - Google Patents

Abstract

The invention belongs to the technical field of aluminum alloy doors and windows, and particularly relates to a high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window which comprises hollow glass, a window frame and a dust removal device; the window frame is formed by splicing an upper frame, a lower frame and two transverse frames connecting the upper frame and the lower frame; the end part of the hollow glass is embedded into the limiting groove on the inner surface of the window frame and is in close contact with the window frame; the dust removal device is arranged at the joint of the surface of the hollow glass close to the outdoor and the inner surface of the window frame; according to the invention, the dust removing device is arranged at the joint part between the surface of the hollow glass close to the outdoor and the window frame, so that the dust removing cloth wound on the outer surface of the dust removing roller acts on the surface of the hollow glass located outdoors, thereby effectively removing dust attached to the surface of the hollow glass located outdoors and ensuring the safety of cleaning personnel during working.

Description

High-compression-resistance corrosion-resistant energy-saving aluminum alloy door and window

Technical Field

The invention belongs to the technical field of aluminum alloy doors and windows, and particularly relates to a high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window.

Background

The high pressure resistant corrosion resistant energy saving aluminum alloy door and window is one door and window for increasing lighting and ventilating area or expressing the character and character of modern building. The high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window can achieve the expected effect by improving the optical performance, the thermal performance and the sealing performance of the material and improving the structure of the door and window. In order to increase the lighting and ventilation area or represent the character of modern buildings, the door and window area of the building is larger and larger, and the building is provided with a full-glass curtain wall building, so that the heat loss of the door and window accounts for more than 40% of the total heat loss of the building, the energy saving of the door and window is the key of the energy saving of the building, and the door and window is not only a sensitive part for losing energy, but also is related to lighting, ventilation, sound insulation and vertical surface modeling. The energy-saving treatment mainly aims at improving the heat-insulating property of the material and improving the sealing property of the door and window. The glass of the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window adopts hollow glass, so that the heat insulation performance is improved, dust is easily attached to the surface of the hollow glass, and in order to ensure the attractiveness and the use performance of the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window, a cleaner needs to clean the surface of the hollow glass of the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window regularly.

However, for a part of fixed high-pressure-resistant corrosion-resistant energy-saving aluminum alloy doors and windows in high-rise buildings, when the hollow glass on the doors and windows is cleaned to be close to the outdoor surface, cleaning personnel are required to work outdoors, so that the working strength and the danger of the cleaning personnel are greatly improved; in addition, when the hollow glass is used outdoors, a cleaner is difficult to clean the surface of the hollow glass carefully as indoors, so that dust attached to the surface of the hollow glass located outdoors is difficult to remove thoroughly, too much dust attached to the surface of the hollow glass close to outdoors affects the heat insulation performance and the attractiveness of doors and windows, and the technical scheme is limited.

In view of the above, the dust removing device is arranged at the joint part between the outdoor surface of the hollow glass and the window frame, and the dust removing roller is driven by the forward and reverse rotating motor to move up and down, so that the dust removing cloth wound on the outer surface of the dust removing roller acts on the outdoor surface of the hollow glass, and dust attached to the outdoor surface of the hollow glass is effectively removed, so that the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window can play a role normally, and meanwhile, the safety of cleaning personnel during working is ensured.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that the hollow glass of the existing fixed type high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window in a high-rise building is difficult to be thoroughly cleaned, so that more dust adheres to the outdoor surface of the hollow glass, and the cleaning personnel have greater danger when cleaning the outdoor surface of the hollow glass, the invention provides the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window, which comprises hollow glass, a window frame and a dust removal device; the window frame is formed by splicing an upper frame, a lower frame and two transverse frames for connecting the upper frame and the lower frame, connecting lugs are uniformly arranged at the top end of the upper frame and the bottom end of the lower frame, the connecting lugs are embedded into connecting grooves arranged at corresponding positions of a wall body, and foam rubber is filled in a gap between the surface of the transverse frame close to the wall body and the wall body; the end part of the hollow glass is embedded into the limiting groove on the inner surface of the window frame and is in close contact with the window frame; the dust removal device is arranged at the joint of the surface of the hollow glass close to the outdoor and the inner surface of the window frame; the dust removal device comprises a dust removal shell, a forward and reverse rotating motor, a dust removal roller, dust removal cloth, a connecting rope and a first elastic rope, wherein the dust removal shell is tightly combined with the inner surface of the window frame through glass cement, and a first groove is formed in the surface, close to the hollow glass, of the dust removal shell and is in tight contact with the surface of the hollow glass; the positive and negative rotation motor is arranged at the top of the first groove, the dust removal roller is positioned in the containing chamber arranged at the bottom of the dust removal shell, the outer surface of the dust removal roller is wound with dust removal cloth, and the outer surface of the dust removal cloth is in close contact with the surface of the hollow glass close to the outdoor; a first shaft is arranged in the middle of the dust removing roller, a first annular groove is formed in the end part of the first shaft, a first ring is nested in the first annular groove, the first ring is in clearance fit with the inner surface of the first annular groove, and the outer surface of the first ring is fixedly connected with an output shaft of the forward and reverse rotating motor through a connecting rope; the upper surface of the bottom of the containing chamber is connected with the outer surface of the first ring through a first elastic rope, and the first elastic rope is in a tight state; the dust removing roller is driven by the forward and reverse rotating motor to move up and down, so that dust attached to the surface of the hollow glass close to the outdoor space is removed by the dust removing cloth wound on the outer surface of the dust removing roller.

When the device works, the forward and reverse rotation motor is started, so that the output shaft of the forward and reverse rotation motor rotates forward and pulls the connecting rope, and the connecting rope is continuously wound on the surface of the output shaft; therefore, the connecting rope pulls the first ring in the first annular groove on the outer surface of the first shaft, so that the first ring moves the first shaft to move upwards along the first groove, and the first shaft drives the dust removing roller to leave the containing chamber and move upwards while moving upwards; the dust removing cloth wound on the outer surface of the dust removing roller is in contact with the surface of the hollow glass close to the outdoor, so that the dust removing cloth moves upwards along with the dust removing roller and acts on the surface of the hollow glass close to the outdoor, and dust attached to the surface of the hollow glass close to the outdoor is removed; when the first shaft moves upwards, the first elastic rope positioned on the upper surface of the bottom of the containing chamber is tensioned and deformed, and the first shaft is subjected to downward tension, so that the first shaft is simultaneously subjected to upward and downward tension in the process of moving upwards, and the first shaft is difficult to swing towards two sides in the moving process under the action of the tension, so that a relatively stable moving track is always kept, and dust attached to the surface, close to the outdoor, of the hollow glass is removed more thoroughly; under the action of the connecting rope, when the dedusting roller moves up to a position close to the top of the first groove, the steering of the forward and reverse rotating motor is changed, the connecting rope is not pulled by an output shaft any more, at the moment, the first shaft starts to move down under the combined action of the self gravity and the gravity of the dedusting roller, and meanwhile, the first elastic rope is deformed and restored and pulls the first ring, so that the first ring acts on the first shaft and drives the dedusting roller to move down in an accelerating manner; in the process that the first shaft drives the dust removing roller to move downwards, the dust removing cloth wound on the outer surface of the dust removing roller acts on the surface of the hollow glass close to the outside again, finally, the first shaft drives the dust removing roller to return to the containing chamber under the action of the first elastic rope, and the steering of the forward and reverse rotating motor is changed again; therefore, the first shaft drives the dust removal roller to repeatedly move up and down and act on the surface of the hollow glass close to the outdoor space along with the periodic change of the steering of the forward and reverse rotating motor, so that the surface of the hollow glass is thoroughly cleaned, a cleaner does not need to risk working, manpower is saved, and the safety of the cleaner is improved.

Preferably, a pressing block is arranged on the surface, close to the first shaft, of the first groove, and the pressing block is in close contact with the outer surface of the first shaft; through the action of the pressing block, the first shaft is prevented from driving the dust removal roller to swing towards the direction far away from the surface of the hollow glass, so that dust attached to the surface, close to the outdoor, of the hollow glass is removed more thoroughly; during operation, the compact heap acts on a shaft surface for a shaft receives the pressure of perpendicular to hollow glass surface, and consequently the contact between the surface that hollow glass is close to outdoors and the dust removal cloth that the winding of a epaxial dust removal cylinder surface is inseparabler with the hollow glass, thereby makes the attached dust of hollow glass surface that is close to outdoors detached more thoroughly.

Preferably, a first rack is arranged on the surface, close to the first shaft, of the compression block, a first gear is arranged at a position corresponding to the first shaft, and the first gear is meshed with the first rack; through the mutual meshing effect of the first gear and the first rack, the first shaft drives the dust removal roller to move up and down and simultaneously rotate continuously, so that dust attached to the surface of the hollow glass close to the outdoor space is removed more thoroughly; when the dust removing device works, when the first shaft moves up and down in the first groove, the first gear on the first shaft is meshed with the first rack on the pressing block, so that the first shaft is driven to rotate continuously while moving up and down, and dust attached to the surface, close to the outdoor, of the hollow glass is further removed by dust removing cloth wound on the outer surface of the rotating dust removing roller; the first ring is in clearance fit with the inner surface of the first annular groove and is under the action of the tensile force of the connecting rope, so that the first ring cannot rotate along with the first shaft when moving to move upwards; in addition, only a small amount of parts of the dust removing cloth can act on the surface of the hollow glass close to the outdoor under the condition that the dust removing roller does not rotate, so that after the dust removing cloth continuously works for a period of time, the accumulated dust on the parts of the hollow glass acted by the dust removing cloth is excessive, and the cleaning effect of the dust removing cloth is influenced; and the rotary dust removing roller can enable all parts of the dust removing cloth wound on the outer surface to act on the surface of the hollow glass close to the outdoor in turn, so that dust attached to the surface of the hollow glass close to the outdoor is removed more thoroughly.

Preferably, a first rod is arranged at the end part of the first ring close to the transverse frame, and the end part of the first rod is embedded into a second groove arranged on the surface of the transverse frame close to the first ring and is in close contact with the second groove; the first rod is rotatably connected with the end part of the first ring, and a first reset elastic sheet is arranged at the joint part of the first rod and the first ring; through the action of the first rod, the first shaft is prevented from driving the dedusting roller to shake towards two sides while moving up and down, and the cleaning effect of the dedusting cloth driven by the dedusting roller on the hollow glass is influenced; when the first shaft is pulled to move by the first ring under the action of the connecting rope, the first rod arranged at the end of the first ring always moves along the second groove, so that the first ring is further prevented from rotating along with the first shaft under the action of the first shaft; the first rod moves along the second groove, so that the first ring can keep a stable moving track while driving the first shaft to move, and the first ring is prevented from driving the first shaft to shake towards two sides, so that the cleaning effect of the dedusting roller on the hollow glass is influenced; in addition, a rod is connected with the end part of the ring in a rotating mode, when the rod is under large pressure, the rod rotates in a small range and is reset quickly under the action of the reset elastic sheet, so that the pressure of the rod is relieved, the phenomenon that the rod is broken due to overlarge pressure is avoided, and the service life of the rod is prolonged.

Preferably, a dustproof plate is arranged at the outlet of the containing chamber, and the end part of the dustproof plate is in contact with the surface of the hollow glass; the dustproof plate is rotatably connected with the side wall of the containing chamber, and a second reset elastic sheet is arranged at the joint part of the dustproof plate and the side wall of the containing chamber; the inner surface of the side wall in the containing chamber is uniformly provided with a first bag, a first solution is filled in the first bag, the first solution is formed by mixing a cleaning agent and water, and the surface of the first bag is uniformly provided with a group of first through holes; the cleaning effect of the dust removing cloth attached to the outer surface of the dust removing roller is more obvious through the action of the first bag; when the dust collection device works, when the first shaft drives the dust collection roller to contact with the dust guard under the action of the first elastic rope, the dust guard is pressed to rotate, so that the first shaft drives the dust collection roller to smoothly enter the storage chamber, and then the dust guard is closed; the first shaft drives the dust removing roller to enter the containing chamber and then extrudes a first bag arranged on the side wall of the containing chamber, and the first bag is pressed and sprays a mixture of a cleaning agent and water from the first through hole to act on dust removing cloth wound on the outer surface of the dust removing roller; on one hand, the dust removing cloth is impacted by the first solution sprayed from the first through hole, so that dust accumulated on the surface of the dust removing cloth due to cleaning of the hollow glass is effectively removed; on the other hand, the first solution is contacted with the dust removal cloth, so that the first solution permeates into the dust removal cloth, and because the first solution is formed by mixing a cleaning agent and water, when the dust removal cloth with the first solution acts on the hollow glass along with the dust removal roller, dust attached to the surface, close to the outdoor, of the hollow glass is removed more thoroughly.

Preferably, a third groove is formed in the position, opposite to the first elastic rope, of the dustproof plate, and cotton cloth is arranged on the inner surface of the third groove; under the action of the third groove, when the dust removing roller moves under the action of the connecting rope, the first elastic rope driven by the first shaft cannot influence the closing of the dust guard; when the dust collection roller leaves the containing chamber under the action of the connecting rope, the first elastic rope stretches under tension and is embedded into the third groove, so that the end part of the dust guard plate can be smoothly closed and is in contact with the surface of the hollow glass close to the outdoor, and dust in the containing chamber is limited in the containing chamber and cannot be separated from the containing chamber and reattached to the surface of the hollow glass close to the outdoor; in addition, the cotton cloth arranged on the inner surface of the third groove is embedded into the first elastic rope, and meanwhile, dust in the air passing through the third groove is removed through adsorption, so that the dust in the accommodating chamber is prevented from flowing out of the accommodating chamber through the third groove.

Preferably, the first bag is connected with an indoor water pump through a first conduit, and the loss of the first solution in the first bag is continuously supplemented under the action of the indoor water pump; when the cleaning bag works, a cleaner can inject the first solution into the first bag through the first conduit by using the water pump at intervals to supplement the loss of the first solution in the first bag, so that the normal work of the first bag is ensured.

Preferably, the bottom of the containing chamber is connected with the indoor surface of the wall surface through a second conduit, and the outlet of the second conduit is connected with a sewage treatment barrel; when the device works, one part of the first solution sprayed from the first bag is attached to the dust removal cloth, and the rest of the first solution flows to the surface of the wall surface close to the indoor surface along the second conduit and is finally recovered by the sewage treatment barrel; the first solution has a scouring effect on the inner surface of the containing chamber when flowing in the containing chamber, so that dust in the containing chamber is effectively removed, and the first solution brings the dust in the containing chamber out of the containing chamber in the process of flowing out of the containing chamber, so that the dust in the containing chamber is recovered by the sewage treatment barrel along with the first solution.

The invention has the following beneficial effects:

1. according to the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window, the dust removing device is arranged at the joint part between the outdoor surface of the hollow glass and the window frame, and the dust removing roller is driven by the forward and reverse rotating motor to move up and down, so that the dust removing cloth wound on the outer surface of the dust removing roller acts on the outdoor surface of the hollow glass, and dust attached to the outdoor surface of the hollow glass is effectively removed, so that the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door and window can normally play a role, and meanwhile, the safety of cleaning personnel during working is guaranteed.

2. According to the high-pressure-resistance corrosion-resistance energy-saving aluminum alloy door and window, the first rack is arranged on the inner surface of the first groove, the first gear is arranged at the corresponding position of the first shaft, and the first rack is meshed with the first gear; the positive and negative rotating motor is enabled to be under the mutual meshing effect of the first gear and the first rack in the process of driving the dust removal roller to move up and down, the dust removal cloth is driven to rotate constantly while the dust removal roller moves up and down and acts on the surface of the hollow glass located outdoors, and dust attached to the surface of the hollow glass located outdoors is removed more thoroughly.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 at B;

FIG. 4 is an enlarged view of a portion of FIG. 2 at C;

FIG. 5 is an enlarged view of a portion of FIG. 1 at D;

FIG. 6 is a partial enlarged view at E in FIG. 5;

in the figure: hollow glass 1, window frame 2, upper frame 21, lower frame 22, horizontal frame 23, No. two grooves 231, reset elastic sheet 232, connecting lug 24, limiting groove 25, dust collector 3, dust removal shell 31, positive and negative rotating motor 32, output shaft 321, dust removal roller 33, shaft 331, annular groove 332, ring 333, gear 334, rod 335, dust removal cloth 34, connecting rope 35, elastic rope 36, groove 37, pressing block 371, rack 372, containing chamber 38, dust guard 381, reset elastic sheet 382, capsule 383, through hole 384, groove 385, conduit 386, conduit 387, wall 4, connecting groove 41 and sewage treatment barrel 42.

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.

As shown in fig. 1 to 6, the high-pressure-resistant corrosion-resistant energy-saving aluminum alloy door/window comprises hollow glass 1, a window frame 2 and a dust removal device 3; the window frame 2 is formed by splicing an upper frame 21, a lower frame 22 and two transverse frames 23 connecting the upper frame 21 and the lower frame 22, connecting convex blocks 24 are uniformly arranged at the top end of the upper frame 21 and the bottom end of the lower frame 22, the connecting convex blocks 24 are embedded into connecting grooves 41 arranged at corresponding positions of the wall 4, and foam adhesive is filled in gaps between the surfaces, close to the wall 4, of the transverse frames 23 and the wall 4; the end part of the hollow glass 1 is embedded into a limiting groove 25 on the inner surface of the window frame 2 and is tightly contacted with the window frame 2; the dust removing device 3 is arranged at the joint of the surface of the hollow glass 1 close to the outdoor and the inner surface of the window frame 2; the dust removal device 3 comprises a dust removal shell 31, a forward and reverse rotating motor 32, a dust removal roller 33, dust removal cloth 34, a connecting rope 35 and a first elastic rope 36, wherein the dust removal shell 31 is tightly combined with the inner surface of the window frame 2 through glass cement, and a first groove 37 is formed in the surface, close to the hollow glass 1, of the dust removal shell 31 and is tightly contacted with the surface of the hollow glass 1; the forward and reverse rotation motor 32 is arranged at the top of the first groove 37, the dust removing roller 33 is positioned in a containing chamber 38 arranged at the bottom of the dust removing shell 31, the outer surface of the dust removing roller 33 is wound with dust removing cloth 34, and the outer surface of the dust removing cloth 34 is in close contact with the outdoor surface of the hollow glass 1; a first shaft 331 is arranged in the middle of the dust removing roller 33, a first annular groove 332 is arranged at the end part of the first shaft 331, a first ring 333 is nested in the first annular groove 332, the first ring 333 is in clearance fit with the inner surface of the first annular groove 332, and the outer surface of the first ring 333 is fixedly connected with an output shaft 321 of the forward and reverse motor 32 through a connecting rope 35; the upper surface of the bottom of the containing chamber 38 is connected with the outer surface of the first ring 333 through a first elastic rope 36, and the first elastic rope 36 is in a tight state; the dust removing roller 33 is driven by the forward and reverse rotating motor 32 to move up and down, so that dust attached to the surface of the hollow glass 1 close to the outdoor is removed by the dust removing cloth 34 wound on the outer surface of the dust removing roller 33.

When the electric vehicle works, the forward and reverse rotation motor 32 is started, so that the output shaft 321 of the forward and reverse rotation motor 32 rotates forward and pulls the connecting rope 35, and the connecting rope 35 is continuously wound on the surface of the output shaft 321; therefore, the connecting rope 35 pulls the first ring 333 in the first annular groove 332 on the outer surface of the first shaft 331, so that the first ring 333 drives the first shaft 331 to move upwards along the first groove 37, and the first shaft 331 drives the dust removing roller 33 to leave the accommodating chamber 38 and move upwards while moving upwards; the dust removing cloth 34 wound on the outer surface of the dust removing roller 33 contacts with the surface of the hollow glass 1 close to the outdoor, so that the dust removing cloth 34 moves upwards along with the dust removing roller 33 and simultaneously acts on the surface of the hollow glass 1 close to the outdoor, and removes dust attached to the surface of the hollow glass 1 close to the outdoor; when the first shaft 331 moves upwards, the first elastic rope 36 on the upper surface of the bottom of the containing chamber 38 is tensioned and deformed, and the first shaft 331 is pulled downwards, so that the first shaft 331 is pulled upwards and downwards simultaneously in the process of moving upwards, and the first shaft 331 is difficult to swing towards two sides in the moving process under the action of the pulling force, so that a relatively stable moving track is always kept, and dust attached to the outer surface of the hollow glass 1 close to the room is removed more thoroughly; under the action of the connecting rope 35, when the dedusting roller 33 moves up to a position close to the top of the first groove 37, the rotation direction of the forward and reverse rotating motor 32 is changed, the connecting rope 35 is not pulled by the output shaft 321 any more, at the moment, the first shaft 331 starts to move downwards under the combined action of the self gravity and the gravity of the dedusting roller 33, and meanwhile, the deformation of the first elastic rope 36 is recovered and pulls the first ring 333, so that the first ring 333 acts on the first shaft 331 and drives the dedusting roller 33 to move downwards in an accelerated manner; in the process that the first shaft 331 drives the dust removing roller 33 to move downwards, the dust removing cloth 34 wound on the outer surface of the dust removing roller 33 acts on the surface of the hollow glass 1 close to the outdoor again, finally, the first shaft 331 drives the dust removing roller 33 to return to the containing chamber 38 under the action of the first elastic rope 36, and the rotation direction of the forward and reverse rotation motor 32 is changed again; therefore, with the periodic change of the rotation direction of the forward and reverse rotating motor 32, the first shaft 331 drives the dust removing roller 33 to repeatedly move up and down and act on the surface of the hollow glass 1 close to the outdoor space, so that the surface of the hollow glass 1 is relatively thoroughly cleaned, a cleaner does not need to risk to work, the manpower is saved, and the safety of the cleaner is improved.

As a specific embodiment of the present invention, a pressing block 371 is disposed on a surface of the first groove 37 close to the first shaft 331, and the pressing block 371 is in close contact with an outer surface of the first shaft 331; through the action of the pressing block 371, the first shaft 331 is prevented from driving the dust removal roller 33 to swing towards the direction far away from the surface of the hollow glass 1, so that dust attached to the outdoor surface of the hollow glass 1 is removed more thoroughly; in operation, the pressing block 371 acts on the outer surface of the first shaft 331, so that the first shaft 331 is pressed perpendicularly to the surface of the hollow glass 1, and therefore, the dust removing cloth 34 wound around the outer surface of the dust removing roller 33 on the first shaft 331 is in closer contact with the outdoor surface of the hollow glass 1, and dust attached to the outdoor surface of the hollow glass 1 is removed more thoroughly.

As a specific embodiment of the present invention, a first rack 372 is disposed on a surface of the pressing block 371 close to the first shaft 331, a first gear 334 is disposed at a position corresponding to the first shaft 331, and the first gear 334 is engaged with the first rack 372; through the mutual meshing action of the first gear 334 and the first rack 372, the first shaft 331 drives the dust removing roller 33 to rotate continuously while moving up and down, so that dust attached to the surface of the hollow glass 1 close to the outdoor space is removed more thoroughly; in operation, when the first shaft 331 moves up and down in the first groove 37, the first gear 334 on the first shaft 331 is meshed with the first rack 372 on the pressing block 371, so that the first shaft 331 is driven to rotate continuously while moving up and down, and dust attached to the surface, close to the outside, of the hollow glass 1 is further removed by the dust removing cloth 34 wound on the outer surface of the rotating dust removing roller 33; because the first ring 333 is in clearance fit with the inner surface of the first annular groove 332, and the first ring 333 is under the pulling force of the connecting rope 35, the first ring 333 drives the rotating first shaft 331 to move upwards and cannot rotate along with the first shaft 331, so that the normal work of the first ring 333 is ensured; in addition, only a small amount of parts of the dust removing cloth 34 can act on the surface of the hollow glass 1 close to the outdoor under the condition that the dust removing roller 33 does not rotate, so that after the dust removing cloth 34 is continuously operated for a period of time, the accumulated dust on the parts of the hollow glass 1 acted by the dust removing cloth 34 is excessive and the cleaning effect of the dust removing cloth 34 is influenced; the rotating dust removing roller 33 can make each part of the dust removing cloth 34 wound on the outer surface act on the surface of the hollow glass 1 close to the outdoor in turn, so that the dust attached to the surface of the hollow glass 1 close to the outdoor is removed more thoroughly.

As an embodiment of the present invention, a first rod 335 is disposed at an end of the first ring 333 close to the transverse frame 23, and an end of the first rod 335 is embedded in a second groove 231 disposed at a surface of the transverse frame 23 close to the first ring 333 and is in close contact with the second groove 231; the first rod 335 is rotatably connected with the end part of the first ring 333, and a first reset elastic sheet 232 is arranged at the joint part of the first rod 335 and the first ring 333; through the action of the first rod 335, the first shaft 331 is prevented from shaking towards two sides while driving the dedusting roller 33 to move up and down, and the cleaning effect of the dedusting cloth 34 driven by the dedusting roller 33 on the hollow glass 1 is influenced; when the first ring 333 pulls the first shaft 331 to move under the action of the connecting rope 35, the first rod 335 arranged at the end of the first ring 333 always moves along the second groove 231, and the first ring 333 is further prevented from rotating along with the first shaft 331 under the action of the first shaft 331; the first rod 335 moves along the second groove 231, so that the first ring 333 is ensured to keep a stable moving track while driving the first shaft 331 to move, and the first ring 333 is prevented from driving the first shaft 331 to shake towards two sides, so that the cleaning effect of the dust removing roller 33 on the hollow glass 1 is influenced; in addition, a pole 335 is connected with the end of a ring 333 in a rotating manner, when a pole 335 is under a large pressure, the pole 335 rotates in a small amplitude and is reset quickly under the action of a resetting elastic sheet 232, so that the pressure on the pole 335 is relieved, the pole 335 is prevented from being broken due to the fact that the pressure on the pole 335 is too large, and the service life of the pole 335 is prolonged.

As a specific embodiment of the present invention, a dust-proof plate 381 is disposed at the outlet of the receiving chamber 38, and an end of the dust-proof plate 381 contacts with the surface of the hollow glass 1; the dust-proof plate 381 is rotatably connected with the side wall of the containing chamber 38, and a second reset elastic sheet 382 is arranged at the joint of the dust-proof plate 381 and the side wall of the containing chamber 38; a first capsule 383 is uniformly arranged on the inner surface of the side wall in the containing chamber 38, a first solution is filled in the first capsule 383, the first solution is formed by mixing a cleaning agent and water, and a group of first through holes 384 are uniformly arranged on the surface of the first capsule 383; the cleaning effect of the dust removing cloth 34 attached to the outer surface of the dust removing roller 33 is more obvious through the action of the first capsule 383; when the dust removing device works, when the first shaft 331 drives the dust removing roller 33 to contact with the dust preventing plate 381 under the action of the first elastic rope 36, the dust preventing plate 381 is pressed to rotate, so that the first shaft 331 drives the dust removing roller 33 to smoothly enter the accommodating chamber 38, and then the dust preventing plate 381 is closed; the first shaft 331 drives the dust removing roller 33 to enter the containing chamber 38 and then extrudes a first capsule 383 arranged on the side wall of the containing chamber 38, and the first capsule 383 is pressed and sprays first solution from the first through hole 384 and acts on the dust removing cloth 34 wound on the outer surface of the dust removing roller 33; on one hand, the dust removing cloth 34 is impacted by the first solution sprayed from the first through hole 384, so that dust accumulated on the surface of the dust removing cloth 34 due to cleaning of the hollow glass 1 is effectively removed; on the other hand, the contact of the solution I with the dust removing cloth 34 causes the solution I to penetrate into the dust removing cloth 34, and because the solution I is formed by mixing the cleaning agent and the water, the dust attached to the surface of the hollow glass 1 close to the outdoor is removed more thoroughly when the dust removing cloth 34 with the solution I acts on the hollow glass 1 along with the dust removing roller 33.

In a specific embodiment of the present invention, a third groove 385 is disposed at a position of the dust-proof plate 381 opposite to the first elastic string 36, and cotton cloth is disposed on an inner surface of the third groove 385; through the action of the third groove 385, when the dust removing roller 33 moves under the action of the connecting rope 35, the first elastic rope 36 driven by the first shaft 331 does not influence the closing of the dust-proof plate 381; in operation, after the dust removing roller 33 leaves the accommodating chamber 38 under the action of the connecting rope 35, the first elastic rope 36 is stretched and embedded into the third groove 385, so that the end of the dust-proof board 381 can be smoothly closed and contacted with the surface of the hollow glass 1 close to the outdoor, and the dust in the accommodating chamber 38 is limited in the accommodating chamber 38 and can not be detached from the accommodating chamber 38 and reattached to the surface of the hollow glass 1 close to the outdoor; the cotton cloth provided on the inner surface of the third groove 385 is inserted into the first elastic cord 36, and dust in the air passing through the third groove 385 is removed by adsorption, so that the dust in the housing chamber 38 is prevented from flowing out of the housing chamber 38 through the third groove 385.

As a specific embodiment of the present invention, the first capsule 383 is connected to an indoor water pump through a first conduit 386, and the loss of the first solution inside the first capsule 383 is continuously supplemented by the action of the indoor water pump; in operation, a cleaner should fill the first solution into the first capsule 383 via the first conduit 386 with a water pump at intervals to replenish the loss of the first solution from the first capsule 383, thereby ensuring proper operation of the first capsule 383.

As a specific embodiment of the present invention, the bottom of the containing chamber 38 is connected to the indoor surface of the wall 4 through a second conduit 387, and the outlet of the second conduit 387 is connected to a sewage treatment tank 42; when the cleaning device works, a part of the first solution sprayed from the first capsule 383 is attached to the dust removal cloth 34, and the rest of the first solution flows to the indoor surface of the wall 4 along the second guide tube 387 and is finally recovered by the sewage treatment barrel 42; the first solution has a scouring effect on the inner surface of the containing chamber 38 when flowing in the containing chamber 38, so that dust inside the containing chamber 38 is effectively removed, and the first solution brings the dust inside the containing chamber 38 out of the containing chamber 38 in the process of flowing out of the containing chamber 38, so that the dust inside the containing chamber 38 is recovered by the sewage treatment barrel 42 along with the first solution.

When the electric vehicle works, the forward and reverse rotation motor 32 is started, so that the output shaft 321 of the forward and reverse rotation motor 32 rotates forward and pulls the connecting rope 35, and the connecting rope 35 is continuously wound on the surface of the output shaft 321; therefore, the connecting rope 35 pulls the first ring 333 in the first annular groove 332 on the outer surface of the first shaft 331, so that the first ring 333 drives the first shaft 331 to move upwards along the first groove 37, and the first shaft 331 drives the dust removing roller 33 to leave the accommodating chamber 38 and move upwards while moving upwards; the dust removing cloth 34 wound on the outer surface of the dust removing roller 33 contacts with the surface of the hollow glass 1 close to the outdoor, so that the dust removing cloth 34 moves upwards along with the dust removing roller 33 and simultaneously acts on the surface of the hollow glass 1 close to the outdoor, and removes dust attached to the surface of the hollow glass 1 close to the outdoor; when the first shaft 331 moves upwards, the first elastic rope 36 on the upper surface of the bottom of the containing chamber 38 is tensioned and deformed, and the first shaft 331 is pulled downwards, so that the first shaft 331 is pulled upwards and downwards simultaneously in the process of moving upwards, and the first shaft 331 is difficult to swing towards two sides in the moving process under the action of the pulling force, so that a stable moving track is always kept, and dust attached to the outer surface of the hollow glass 1 close to the room is removed more thoroughly; under the action of the connecting rope 35, when the dedusting roller 33 moves up to a position close to the top of the first groove 37, the rotation direction of the forward and reverse rotating motor 32 is changed, the connecting rope 35 is not pulled by the output shaft 321 any more, at the moment, the first shaft 331 starts to move downwards under the combined action of the self gravity and the gravity of the dedusting roller 33, and meanwhile, the deformation of the first elastic rope 36 is recovered and pulls the first ring 333, so that the first ring 333 acts on the first shaft 331 and drives the dedusting roller 33 to move downwards in an accelerated manner; in the process that the first shaft 331 drives the dust removing roller 33 to move downwards, the dust removing cloth 34 wound on the outer surface of the dust removing roller 33 acts on the surface of the hollow glass 1 close to the outdoor again, finally, the first shaft 331 drives the dust removing roller 33 to return to the containing chamber 38 under the action of the first elastic rope 36, and the rotation direction of the forward and reverse rotation motor 32 is changed again; therefore, with the periodic change of the rotation direction of the forward and reverse rotation motor 32, the first shaft 331 drives the dust removal roller 33 to repeatedly move up and down and act on the surface of the hollow glass 1 close to the outdoor, so that the surface of the hollow glass 1 is relatively thoroughly cleaned, dangerous work of cleaners is not needed, the manpower is saved, and the safety of the cleaners is improved; meanwhile, the pressing block 371 acts on the outer surface of the first shaft 331, so that the first shaft 331 is subjected to pressure perpendicular to the surface of the hollow glass 1, and therefore, the dust removing cloth 34 wound on the outer surface of the dust removing roller 33 on the first shaft 331 is in closer contact with the outdoor surface of the hollow glass 1, and dust attached to the outdoor surface of the hollow glass 1 is removed more thoroughly; when the first shaft 331 moves up and down in the first groove 37, the first gear 334 on the first shaft 331 is meshed with the first rack 372 on the pressing block 371, so that the first shaft 331 drives the dust removing roller 33 to rotate continuously while moving up and down, and the dust removing cloth 34 wound on the outer surface of the rotating dust removing roller 33 further removes dust attached to the surface, close to the outdoor, of the hollow glass 1; because the first ring 333 is in clearance fit with the inner surface of the first annular groove 332, and the first ring 333 is under the pulling force of the connecting rope 35, the first ring 333 drives the rotating first shaft 331 to move upwards and cannot rotate along with the first shaft 331, so that the normal work of the first ring 333 is ensured; in addition, only a small amount of parts of the dust removing cloth 34 can act on the surface of the hollow glass 1 close to the outdoor under the condition that the dust removing roller 33 does not rotate, so that after the dust removing cloth 34 is continuously operated for a period of time, the accumulated dust on the parts of the hollow glass 1 acted by the dust removing cloth 34 is excessive and the cleaning effect of the dust removing cloth 34 is influenced; the rotating dust removing roller 33 can enable each part of the dust removing cloth 34 wound on the outer surface to act on the surface of the hollow glass 1 close to the outdoor in turn, so that dust attached to the surface of the hollow glass 1 close to the outdoor is removed more thoroughly; when the first ring 333 pulls the first shaft 331 to move under the action of the connecting rope 35, the first rod 335 arranged at the end of the first ring 333 always moves along the second groove 231, and further the first ring 333 is prevented from rotating along with the first shaft 331 under the action of the first shaft 331; the first rod 335 moves along the second groove 231, so that the first ring 333 is ensured to keep a stable moving track while driving the first shaft 331 to move, and the first ring 333 is prevented from driving the first shaft 331 to shake towards two sides, so that the cleaning effect of the dust removing roller 33 on the hollow glass 1 is influenced; in addition, the first rod 335 is rotatably connected with the end part of the first ring 333, when the first rod 335 is subjected to a large pressure, the first rod 335 rotates in a small range and is quickly reset under the action of the first reset elastic sheet 232, so that the pressure on the first rod 335 is relieved, the first rod 335 is prevented from being broken due to the fact that the pressure on the first rod 335 is too large, and the service life of the first rod 335 is prolonged; when the first shaft 331 drives the dust removing roller 33 to contact with the dust-proof plate 381 under the action of the first elastic rope 36, the dust-proof plate 381 is pressed to rotate, so that the first shaft 331 drives the dust removing roller 33 to smoothly enter the accommodating chamber 38, and then the dust-proof plate 381 is closed; the first shaft 331 drives the dust removing roller 33 to enter the containing chamber 38 and then extrudes a first capsule 383 arranged on the side wall of the containing chamber 38, the first capsule 383 is pressed and sprays a mixture of the cleaning agent and the water from the first through hole 384 and acts on the dust removing cloth 34 wound on the outer surface of the dust removing roller 33; on one hand, the dust removing cloth 34 is impacted by the first solution sprayed from the first through hole 384, so that dust accumulated on the surface of the dust removing cloth 34 due to cleaning of the hollow glass 1 is effectively removed; on the other hand, the contact between the solution I and the dust removing cloth 34 causes the solution I to permeate into the dust removing cloth 34, and because the solution I is formed by mixing a cleaning agent and water, when the dust removing cloth 34 with the solution I acts on the hollow glass 1 along with the dust removing roller 33, dust attached to the outdoor surface of the hollow glass 1 is removed more thoroughly; after the dust removing roller 33 leaves the accommodating chamber 38 under the action of the connecting rope 35, the first elastic rope 36 is stretched and embedded into the third groove 385, so that the end of the dust-proof board 381 can be smoothly closed and contacted with the surface of the hollow glass 1 close to the outdoor, and the dust in the accommodating chamber 38 is limited in the accommodating chamber 38 and can not be detached from the accommodating chamber 38 and reattached to the surface of the hollow glass 1 close to the outdoor; the cotton cloth arranged on the inner surface of the third groove 385 is embedded in the first elastic rope 36, and simultaneously, dust in the air passing through the third groove 385 is removed through adsorption, so that the dust in the accommodating chamber 38 is prevented from flowing out of the accommodating chamber 38 through the third groove 385; at intervals, the cleaner should use a water pump to fill the interior of first capsule 383 with first solution via first conduit 386 to replace the loss of first solution from first capsule 383 and thereby ensure proper operation of first capsule 383.

The front, the back, the left, the right, the upper and the lower are all based on figure 1 in the attached drawings of the specification, according to the standard of the observation angle of a person, the side of the device facing an observer is defined as the front, the left side of the observer is defined as the left, and the like.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.

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, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a corrosion-resistant energy-conserving al-alloy door & window of high resistance to compression which characterized in that: comprises hollow glass (1), a window frame (2) and a dust removal device (3); the window frame (2) is formed by splicing an upper frame (21), a lower frame (22) and two transverse frames (23) connecting the upper frame (21) and the lower frame (22), connecting convex blocks (24) are uniformly arranged at the top end of the upper frame (21) and the bottom end of the lower frame (22), the connecting convex blocks (24) are embedded into connecting grooves (41) arranged at corresponding positions of the wall body (4), and foam rubber is filled in gaps between the surfaces, close to the wall body (4), of the transverse frames (23) and the wall body (4); the end part of the hollow glass (1) is embedded into a limiting groove (25) on the inner surface of the window frame (2) and is tightly contacted with the window frame (2); the dust removal device (3) is arranged at the joint of the outdoor surface of the hollow glass (1) and the inner surface of the window frame (2); the dust removal device (3) comprises a dust removal shell (31), a forward and reverse rotating motor (32), a dust removal roller (33), dust removal cloth (34), a connecting rope (35) and a first elastic rope (36), wherein the dust removal shell (31) is tightly combined with the inner surface of the window frame (2) through glass cement, and a first groove (37) is formed in the surface, close to the hollow glass (1), of the dust removal shell (31) and is tightly contacted with the surface of the hollow glass (1); the positive and negative rotation motor (32) is arranged at the top of the first groove (37), the dust removing roller (33) is positioned in a containing chamber (38) arranged at the bottom of the dust removing shell (31), dust removing cloth (34) is wound on the outer surface of the dust removing roller (33), and the outer surface of the dust removing cloth (34) is in close contact with the outdoor surface of the hollow glass (1); a first shaft (331) is arranged in the middle of the dedusting roller (33), a first annular groove (332) is formed in the end of the first shaft (331), a first ring (333) is nested in the first annular groove (332), the first ring (333) is in clearance fit with the inner surface of the first annular groove (332), and the outer surface of the first ring (333) is fixedly connected with an output shaft (321) of the forward and reverse motor (32) through a connecting rope (35); the upper surface of the bottom of the containing chamber (38) is connected with the outer surface of the first ring (333) through a first elastic rope (36), and the first elastic rope (36) is in a tight state; the dust removing roller (33) is driven by the forward and reverse rotating motor (32) to move up and down, so that dust attached to the surface, close to the outdoor, of the hollow glass (1) is removed by the dust removing cloth (34) wound on the outer surface of the dust removing roller (33).

2. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 1, is characterized in that: a pressing block (371) is arranged on the surface, close to the first shaft (331), of the first groove (37), and the pressing block (371) is in close contact with the outer surface of the first shaft (331); through the effect of compact heap (371), avoid a number axle (331) to drive dust removal cylinder (33) to keeping away from the direction swing of hollow glass (1) surface for hollow glass (1) is close to the attached dust of outdoor surface and is got rid of more thoroughly.

3. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 2, characterized in that: the surface of the pressing block (371) close to the first shaft (331) is provided with a first rack (372), a first gear (334) is arranged at the position corresponding to the first shaft (331), and the first gear (334) is meshed with the first rack (372); through the mutual meshing effect of the first gear (334) and the first rack (372), the first shaft (331) drives the dust removal roller (33) to move up and down and rotate continuously, so that dust attached to the surface of the hollow glass (1) close to the outdoor space is removed more thoroughly.

4. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 3, characterized in that: a first rod (335) is arranged at the end part of the first ring (333) close to the transverse frame (23), and the end part of the first rod (335) is embedded into a second groove (231) arranged on the surface of the transverse frame (23) close to the first ring (333) and is in close contact with the second groove (231); the first rod (335) is rotatably connected with the end part of the first ring (333), and a first reset elastic sheet (232) is arranged at the joint part of the first rod (335) and the first ring (333); through the effect of a first rod (335), the phenomenon that the first shaft (331) drives the dust removing roller (33) to shake towards two sides while moving up and down is avoided, and the cleaning effect of the dust removing roller (33) driving the dust removing cloth (34) on the hollow glass (1) is influenced.

5. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 4, characterized in that: a dustproof plate (381) is arranged at the outlet of the containing chamber (38), and the end part of the dustproof plate (381) is in contact with the surface of the hollow glass (1); the dustproof plate (381) is rotatably connected with the side wall of the containing chamber (38), and a second reset elastic sheet (382) is arranged at the joint of the dustproof plate (381) and the side wall of the containing chamber (38); a first capsule (383) is uniformly arranged on the inner surface of the side wall in the containing chamber (38), a first solution is filled in the first capsule (383), the first solution is formed by mixing a cleaning agent and water, and a group of first through holes (384) are uniformly formed in the surface of the first capsule (383); the cleaning effect of the dust removing cloth (34) attached to the outer surface of the dust removing roller (33) is more obvious through the action of the first capsule (383).

6. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 5, is characterized in that: a third groove (385) is formed in the position, opposite to the first elastic rope (36), of the dustproof plate (381), and cotton cloth is arranged on the inner surface of the third groove (385); through the action of the third groove (385), when the dust removing roller (33) moves under the action of the connecting rope (35), the first elastic rope (36) driven by the first shaft (331) cannot influence the closing of the dust-proof plate (381).

7. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 6, characterized in that: the first capsule (383) is connected with an indoor water pump through a first conduit (386), and the loss of the first solution in the first capsule (383) is continuously supplemented through the action of the indoor water pump.

8. The aluminum alloy door and window with high compression resistance, corrosion resistance and energy saving as claimed in claim 7, is characterized in that: the bottom of the containing chamber (38) is connected with the surface, close to the indoor, of the wall body (4) through a second guide pipe (387), and the outlet of the second guide pipe (387) is connected with a sewage treatment barrel (42).

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