CN108915557B

CN108915557B - Aluminum alloy window

Info

Publication number: CN108915557B
Application number: CN201810745644.1A
Authority: CN
Inventors: 李双凤
Original assignee: Shenzhen Qirui Construction Engineering Co Ltd
Current assignee: Shenzhen Qirui Construction Engineering Co., Ltd
Priority date: 2018-07-09
Filing date: 2018-07-09
Publication date: 2020-06-16
Anticipated expiration: 2038-07-09
Also published as: CN108915557A

Abstract

The invention belongs to the field of building doors and windows, and particularly relates to an aluminum alloy window which comprises a frame, glass, a groove, a sliding chute, a sliding shaft, a lifting mechanism, an ash collecting box, a water collecting module and a water drainage pipe, wherein the glass is arranged in the frame; grooves are respectively formed in the upper frame and the lower frame of the frame; sliding grooves are respectively arranged in the left frame and the right frame of the frame; the sliding shaft is matched with the sliding groove; a dust collecting box is arranged below the inner transverse strip; brush plates are arranged on one sides of the inner transverse strips and the outer transverse strips, which are attached to the glass; the brush plate is used for brushing off dust on the surface of the glass; a water collecting module is arranged above the outer transverse strip; the bottom of the inner cavity of the outer transverse strip is provided with a rotating plate; one end of the rotating plate is hinged on the outer transverse strip; the bottom of the outer transverse strip is provided with a through hole; the drain pipe is positioned at the bottom of the frame. According to the aluminum alloy window, the lifting mechanism completes lifting action to drive the brush plate to brush off dust on the surface of the glass, so that the effect of cleaning the surface of the glass is achieved.

Description

Aluminum alloy window

Technical Field

The invention belongs to the field of building doors and windows, and particularly relates to an aluminum alloy window.

Background

The aluminum alloy window is a window with a frame and sash structure made of aluminum alloy building profiles, and is divided into a common aluminum alloy door window and a broken bridge aluminum alloy door window. The surface of the aluminum alloy is oxidized, smooth and shiny, has the characteristics of attractive appearance, sealing, high strength and the like, and is widely applied to the field of constructional engineering; for example: aluminum alloy doors and windows are commonly used to encapsulate balconies.

Some technical solutions of aluminum alloy windows also appear in the prior art, for example, a chinese patent with application number 2017106415859 discloses an aluminum alloy window, which includes a window sash and a slide way; a groove is arranged in the slideway; the lower end of the window sash extends into the groove, and the window sash is provided with a roller; the bottom surface of the slideway is provided with a soft silencing layer; an air blowing cavity and an air exhaust cavity are arranged below the soft silencing layer, and an air blowing structure is arranged in the air blowing cavity; an air exhaust structure is arranged in the air exhaust cavity; an air outlet pipe is arranged on the air exhaust cavity, and a dust collecting tank is connected to the air outlet pipe in a threaded manner; the dust collecting tank is provided with a gear ring; a tank cavity is arranged in the slideway; the tank cavity is communicated with a gear cavity, and a gear meshed with the gear ring is arranged in the gear cavity; a gear shaft is arranged in the center of the gear and is rotationally connected with the inner wall of the gear cavity; the gear cavity is communicated with a rack cavity, a rack meshed with the gear is arranged in the rack cavity, and a clamping cavity is arranged at the bottom of the window sash. This scheme not only can clear up the dust in the in-process that promotes the casement to the slide, can also prevent that the casement from producing the noise of dazzling at the in-process that promotes.

The technical scheme can realize the cleaning of dust in the slideway; however, this solution does not allow cleaning of the glass surface and is mechanically complex. Aiming at the defects, the invention provides the aluminum alloy window, and the dust on the surface of the glass is brushed away by the brush plate driven by the lifting action of the lifting mechanism, so that the effect of cleaning the surface of the glass is achieved.

Disclosure of Invention

In order to make up for the defects of the prior art, the aluminum alloy window provided by the invention has the advantages that the lifting mechanism is arranged in the frame, the lifting action of the lifting mechanism is completed through water collection and drainage, and the lifting action of the lifting mechanism drives the brush plate to brush off dust on the surface of the glass, so that the effect of cleaning the surface of the glass can be achieved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to an aluminum alloy window which comprises a frame, glass, a top groove, a sliding chute, a sliding shaft, a lifting mechanism, a dust collecting box, a water collecting module and a water drainage pipe, wherein the glass is arranged in the frame; the upper frame and the lower frame of the frame are respectively provided with a top groove and a bottom groove; sliding grooves are respectively arranged in the left frame and the right frame of the frame; the lifting mechanism comprises an inner transverse bar, an outer transverse bar and a pulley block; the pulley block comprises a group of pulleys and a steel wire rope; one end of the steel wire rope, which bypasses the pulley, is connected with the inner transverse strip, and the other end of the steel wire rope is connected with the outer transverse strip; two ends of the inner transverse bar are respectively provided with a sliding shaft; the sliding shaft is matched with the sliding groove; a cavity is arranged inside the outer transverse strip; a dust collecting box is arranged below the inner transverse strip; brush plates are arranged on one sides of the inner transverse strips and the outer transverse strips, which are attached to the glass; the brush plate is used for brushing off dust on the surface of the glass; a water collecting module is arranged above the outer transverse strip; the water collecting module comprises a water collector, a control valve and a water outlet pipe; the outer side of the water collector is obliquely and upwards arranged; the water collector is connected with the inlet of the water outlet pipe through a control valve; the water outlet pipe can guide rainwater to the inner cavity of the outer transverse strip; the bottom of the inner cavity of the outer transverse strip is provided with a rotating plate; one end of the rotating plate is hinged on the outer transverse strip; the bottom of the outer transverse strip is provided with a through hole; the guide rod is used for opening the rotating plate; the drain pipe is positioned at the bottom of the frame; the drain pipe is communicated with the inside of the bottom groove. When the rainwater collecting device works, the rainwater is collected by the rainwater collecting module, when the rainwater reaches a limited amount, the control valve is opened, and the collected rainwater is guided into the inner cavity of the outer transverse strip through the water outlet pipe. Along with the increase of rainwater in the inner cavity of the outer transverse strip, the outer transverse strip slides to the bottom through the sliding groove, so that the lifting mechanism is driven to work, and the inner transverse strip slides to the top. And when the outer cross bar slides to the bottom groove, a guide rod is arranged in the bottom groove. In the process of outer horizontal bar whereabouts, the rotating plate is pushed up to through-hole to the guide arm to prop open the rotating plate, and then make the rainwater of outer horizontal bar inner chamber flow out, finally discharge from the drain pipe. The outer horizontal strips return to the top after rainwater is drained, and the inner horizontal strips return to the bottom to finish lifting action. The lifting mechanism works to drive the brush plate to wipe the glass surface up and down, thereby achieving the effect of cleaning the glass.

Preferably, the sliding groove is provided in an S-shape. When the lifting type water collecting and draining device works, the lifting mechanism completes lifting action along with the work of the water collecting module and the water draining module; wherein the sliding shafts respectively arranged at the two ends of the outer transverse bar slide towards the bottom in the S-shaped sliding groove to drive the brush plate to swing, thereby achieving better effect of cleaning the glass surface.

Preferably, a rubber pad is arranged at one side of the sliding chute at intervals; the rubber pad is fixedly connected with the sliding chute. During operation, the rubber pad that one side interval set up in the spout can make outer horizontal bar slip lift in-process, and one side resistance that has the rubber pad is big, and one side resistance that does not have the rubber pad is little to take place the trend of slight sideslip when making outer horizontal bar slip decline, reach better clean effect.

Preferably, the rubber pad is provided with an anti-skid groove; the anti-slip grooves are parallel to the outer transverse strips. The during operation sets up the antiskid groove parallel with outer horizontal bar on the rubber pad, and the smooth axle that sets up respectively at outer horizontal both ends slides in the spout of S-shaped lift in-process, and the antiskid groove on the rubber pad increases the resistance of outer horizontal bar one side for take place the trend of slight sideslip when outer horizontal bar slides and descends, reach better clean effect.

Preferably, the rubber pad is provided with a bulge which inclines upwards; the top of the protrusion is provided with a V-shaped groove. When the water collecting and draining device works, the outer transverse strip can lift and slide along with the work of the water collecting module and the water draining module, the rubber pad is provided with a bulge, and the top of the bulge is provided with a V-shaped groove; when the outer transverse strip returns to the top, the V-shaped groove is stressed to contract so as to enable the outer transverse strip to quickly return to the top.

Preferably, the brush plate is replaceable; the brush plate can be provided with elastic brush hair or an elliptical rubber bag; the oval rubber bag is provided with an inclined hole inclined with the glass. When the water-saving device works, a tiny water outlet hole is formed between the outer transverse strip and the oval rubber bag; when the oval rubber bag arranged on the brush plate is full of water along with the outer transverse bar and slides to the bottom, rainwater is guided to the inclined hole on the oval rubber bag through the water outlet hole; the outer horizontal bar slides in the spout of S-shaped to drive oval rubber bag extrusion glass face, and then make the downthehole rainwater splash the glass face, reach the effect of better clean glass face.

Preferably, a cross bar is arranged between the inner cross bar and the glass; the cross bar is positioned at the top of the bottom groove. When the brush works, when the inner transverse bar returns to the bottom and slides, the elastic bristles on the brush pass through the transverse bar, so that ash on the bristles can be flicked off.

Preferably, the rotating plate is made of rubber. During operation, the rotating plate is made of rubber, so that the service life of the rotating plate can be prolonged.

The invention has the following beneficial effects:

1. according to the invention, rainwater is collected in the water collecting module, when the rainwater reaches a limited amount, the control valve is opened, and the collected rainwater is guided into the inner cavity of the outer transverse strip through the water outlet pipe. Along with the increase of rainwater in the inner cavity of the outer transverse strip, the sliding shafts arranged at the two ends of the outer transverse strip slide towards the bottom in the sliding grooves, so that the lifting mechanism is driven to work, and the inner transverse strip slides towards the top. And when the outer cross bar slides to the bottom groove, a guide rod is arranged in the bottom groove. In the process of outer horizontal bar whereabouts, the rotating plate is pushed up to through-hole to the guide arm to prop open the rotating plate, and then make the rainwater of outer horizontal bar inner chamber flow out, finally discharge from the drain pipe. The outer transverse bar returns to the top after rainwater is discharged, the inner transverse bar returns to the bottom to complete lifting action, and the brush plate is driven to swing to achieve the effect of cleaning the glass surface.

2. According to the invention, the sliding groove is set to be S-shaped, so that the sliding shafts respectively arranged at two ends of the outer transverse bar slide in the S-shaped sliding groove to drive the brush plate to swing, thereby achieving a better effect of cleaning the glass surface.

3. According to the invention, the rubber pads and the anti-slip grooves are arranged at intervals on one side in the S-shaped sliding groove, so that when the sliding shafts arranged at two ends of the outer transverse bar slide and lift in the S-shaped sliding groove, one side of the sliding shafts has resistance, and the resistance on one side of the sliding shafts is small, so that the sliding shafts tend to rotate slightly sideways; and further set up the arch on the rubber mat, set up the V-arrangement groove on the arch, the V-arrangement groove can make the faster top that returns of outer horizontal pole, reaches better clean effect.

Drawings

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

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

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

FIG. 3 is a view of the outer rail of the present invention slid to the bottom of the frame;

FIG. 4 is a schematic view of the construction of the chute of the present invention;

FIG. 5 is a schematic view of the construction of the rubber mat of the present invention;

in the figure: the device comprises a frame 1, glass 2, a top groove 3, a bottom groove 31, a guide rod 311, a sliding chute 4, a rubber pad 41, a protrusion 42, a V-shaped groove 43, a sliding shaft 5, a lifting mechanism 6, an inner cross bar 61, an outer cross bar 62, a rotating plate 621, a through hole 622, a pulley block 63, a steel wire rope 64, an ash collecting box 7, a water collecting module 8, a water collector 81, a control valve 82, a water outlet pipe 83, a water outlet pipe 9, a brush plate 10 and an oval rubber bag 102.

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 5, the aluminum alloy window of the present invention includes a frame 1, glass 2, a top groove 3, a chute 4, a sliding shaft 5, a lifting mechanism 6, a dust collecting box 7, a water collecting module 8 and a water discharging pipe 9, wherein the glass 2 is installed in the frame 1; the upper frame and the lower frame of the frame 1 are respectively provided with a top groove 3 and a bottom groove 31; sliding chutes 4 are respectively arranged in the left frame and the right frame of the frame 1; the lifting mechanism 6 comprises an inner cross bar 61, an outer cross bar 62 and a pulley block 63; the pulley block 63 comprises a group of pulleys and a steel wire rope 64; one end of the steel wire rope 64, which bypasses the pulley, is connected with the inner cross bar 61, and the other end of the steel wire rope 64 is connected with the outer cross bar 62; two ends of the inner transverse bar 61 are respectively provided with a sliding shaft 5; the sliding shaft 5 is matched with the sliding groove 4; a cavity is arranged inside the outer transverse strip 62; a dust collecting box 7 is arranged below the inner transverse strip 61; the brush plate 10 is arranged on one side of the inner transverse strip 61 and the outer transverse strip 62, which is attached to the glass 2; the brush plate 10 is used for brushing dust on the surface of the glass 2; a water collecting module 8 is arranged above the outer transverse strip 62; the water collecting module 8 comprises a water collector 81, a control valve 82 and a water outlet pipe 83; the outer side of the water collector 81 is obliquely and upwards arranged; the water collector 81 is connected with the inlet of a water outlet pipe 83 through a control valve 82; the water outlet pipe 83 can guide rainwater to the inner cavity of the outer cross bar 62; the bottom of the inner cavity of the outer transverse bar 62 is provided with a rotating plate 621; one end of the rotating plate 621 is hinged on the outer cross bar 62; the bottom of the outer cross bar 62 is provided with a through hole 622; the guide rods 311 are used to distract the rotating plate 621; the drain pipe 9 is positioned at the bottom of the frame 1; the drain pipe 9 communicates with the inside of the bottom groove 31. When the rainwater collecting device works, the rainwater is collected by the water collecting module 8, when the rainwater reaches a limited amount, the control valve 82 is opened, and the collected rainwater is guided into the inner cavity of the outer cross bar 62 through the water outlet pipe 83. Along with the increase of rainwater in the inner cavity of the outer transverse bar 62, the outer transverse bar 62 slides to the bottom through the sliding groove 4, so that the lifting mechanism 6 is driven to work, and the inner transverse bar 61 slides to the top. And when the outer rail 62 slides into the bottom groove 31, the guide rod 311 is disposed in the bottom groove 31. In the process of dropping the outer cross bar 62, the guide rod 311 is pushed to the rotating plate 621 through the through hole 622, so as to prop open the rotating plate 621, and further, the rainwater in the inner cavity of the outer cross bar 11 flows out, and finally is discharged from the drain pipe 9. The outer horizontal bar 62 returns to the top after draining rainwater, and the inner horizontal bar 61 returns to the bottom to complete the lifting action. The lifting mechanism 6 works to lift and drive the brush plate 10 to wipe the surface of the glass 2 up and down, thereby achieving the effect of cleaning the glass 2.

As an embodiment of the invention, the chute 4 is provided in an S-shape. During work, the lifting mechanism 6 completes lifting action along with the work of the water collecting module 8 and the water drainage module; the sliding shafts 5 respectively arranged at the two ends of the outer transverse bar 62 slide towards the bottom in the S-shaped sliding groove 4 to drive the brush plate 10 to swing, so that the better effect of cleaning the surface of the glass 2 is achieved.

As an embodiment of the present invention, a rubber pad 41 is disposed at an interval on one side of the chute 4; the rubber pad 41 is fixedly connected with the chute 4. During operation, one side interval is provided with rubber pad 41 in the spout 4, can make the sliding shaft 5 that outer horizontal bar 62 both ends set up respectively slide in the spout 4 of S-shaped lift in-process, and one side resistance is big, thereby the trend of taking place slight sidesway is little to one side resistance, reaches better clean effect.

As an embodiment of the present invention, the rubber pad 41 is provided with an anti-slip groove; the anti-slip grooves are parallel to the outer cross bars 62. The during operation is provided with the antiskid groove parallel with outer horizontal bar 62 on the rubber pad 41, and the smooth axle 5 that sets up respectively at outer horizontal bar 62 both ends slides the lift in-process in spout 4, and the antiskid groove on the rubber pad can increase the resistance of outer horizontal bar 62 one side for the trend of taking place slight sideslip when outer horizontal bar 62 slides and descends reaches better clean effect.

As an embodiment of the present invention, the rubber pad 41 is provided with a protrusion 42 inclined upward; the top of the protrusion 42 is provided with a V-shaped groove 43. When the water collecting and draining device works, the outer transverse strip 62 is lifted and slides along with the work of the water collecting module 8 and the water draining module, the rubber pad 41 is provided with a bulge 42, and the top of the bulge 42 is provided with a V-shaped groove 43; when the outer transverse bar 62 returns to the top, it encounters the projection 42 and the V-shaped groove 43 is forced to contract so that the outer transverse bar 62 can snap back to the top.

As an embodiment of the present invention, the brush plate 10 can be replaced; the brush plate 10 can be provided with elastic brush hairs or an oval rubber bag 102; the oval rubber bag 102 is provided with an inclined hole inclined with the glass 2. When the water-saving device works, a tiny water outlet hole is formed between the outer transverse strip 62 and the oval rubber bag 102; when the oval rubber bag 102 arranged on the brush plate 10 is full of water along with the outer transverse strips 62 and slides to the bottom, rainwater is guided to the inclined holes in the oval rubber bag 102 through the water outlet holes; the outer horizontal bar 62 slides in the chute 4, so as to drive the elliptical rubber bag 102 to extrude the 2 surfaces of the glass, and further to enable rainwater in the inclined hole to splash onto the 2 surfaces of the glass, thereby achieving the effect of better cleaning the 2 surfaces of the glass.

As an embodiment of the present invention, a cross bar 11 is arranged between the inner cross bar 61 and the glass 2; the crossbar 11 is located at the top of the bottom recess 31. In operation, when the inner horizontal bar 61 returns to the bottom and slides, the elastic bristles on the brush pass through the cross bar 11, so that the ash on the bristles can be flicked off.

In an embodiment of the present invention, the rotating plate 621 is made of rubber. During operation, the rotating plate 621 is made of rubber, so that the service life of the rotating plate 621 can be prolonged.

When the rainwater collecting device works, the rainwater is collected by the water collecting module 8, when the rainwater reaches a limited amount, the control valve 82 is opened, and the collected rainwater is guided into the inner cavity of the outer cross bar 62 through the water outlet pipe 83. Along with the increase of rainwater in the inner cavity of the outer transverse bar 62, the outer transverse bar 62 slides to the bottom through the sliding groove 4, so that the lifting mechanism 6 is driven to work, and the inner transverse bar 61 slides to the top. And when the outer rail 62 slides into the bottom groove 31, the guide rod 311 is disposed in the bottom groove 31. In the process of dropping the outer cross bar 62, the guide rod 311 is pushed to the rotating plate 621 through the through hole 622, so as to prop open the rotating plate 621, and further, the rainwater in the inner cavity of the outer cross bar 11 flows out, and finally is discharged from the drain pipe 9. The outer horizontal bar 62 returns to the top after draining rainwater, and the inner horizontal bar 61 returns to the bottom to complete the lifting action. And the sliding groove 4 is set to be S-shaped, so that the sliding shafts 5 respectively arranged at the two ends of the outer transverse bar 62 slide in the S-shaped sliding groove 4 to drive the brush plate 10 to swing, thereby achieving better effect of cleaning the surface of the glass 2. Meanwhile, a rubber pad 41 and an anti-slip groove are arranged at one side in the S-shaped sliding groove 4 at intervals, so that the resistance of one side is large and the resistance of one side is small in the sliding and lifting process of the sliding shafts 5 arranged at the two ends of the outer cross bar 62 in the S-shaped sliding groove 4, and a slight side turning trend is generated; and further set up arch 42 on rubber pad 41, set up V-arrangement groove 43 on the arch, V-arrangement groove 43 can make outer horizontal pole 62 faster return the top to drive the shake of brush board 10, reach better clean effect.

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

1. An aluminum alloy window, characterized in that: the glass-free water-collecting glass comprises a frame (1), glass (2), a top groove (3), a sliding chute (4), a sliding shaft (5), a lifting mechanism (6), a dust collecting box (7), a water collecting module (8) and a water discharging pipe (9), wherein the glass (2) is arranged in the frame (1); the upper frame and the lower frame of the frame (1) are respectively provided with a top groove (3) and a bottom groove (31); sliding grooves (4) are respectively arranged in the left frame and the right frame of the frame (1); the lifting mechanism (6) comprises an inner transverse bar (61), an outer transverse bar (62) and a pulley block (63); the pulley block (63) comprises a group of pulleys and a steel wire rope (64); the steel wire rope (64) rounds one end of the pulley and is connected with the inner transverse strip (61), and the other end of the steel wire rope (64) is connected with the outer transverse strip (62); two ends of the inner transverse bar (61) are respectively provided with a sliding shaft (5); the sliding shaft (5) is matched with the sliding groove (4); a cavity is arranged inside the outer transverse strip (62); a dust collecting box (7) is arranged below the inner transverse bar (61); a brush plate (10) is arranged on one side of the inner transverse bar (61) and the outer transverse bar (62) which is attached to the glass (2); the brush plate (10) is used for brushing dust on the surface of the glass (2); a water collecting module (8) is arranged above the outer transverse strip (62); the water collecting module (8) comprises a water collector (81), a control valve (82) and a water outlet pipe (83); the outer side of the water collector (81) is obliquely and upwards arranged; the water collector (81) is connected with an inlet of a water outlet pipe (83) through a control valve (82); the water outlet pipe (83) can guide rainwater to the inner cavity of the outer transverse strip (62); the bottom of the inner cavity of the outer transverse bar (62) is provided with a rotating plate (621); one end of the rotating plate (621) is hinged on the outer cross bar (62); the bottom of the outer transverse strip (62) is provided with a through hole (622); the guide rod (311) is used for expanding the rotating plate (621); the drain pipe (9) is positioned at the bottom of the frame (1); the drain pipe (9) is communicated with the inside of the bottom groove (31);

when the rainwater collecting device works, the rainwater is collected by the water collecting module (8), when the rainwater reaches a limited amount, the control valve (82) is opened, the collected rainwater is guided into the inner cavity of the outer transverse bar (62) through the water outlet pipe (83), the outer transverse bar (62) slides to the bottom through the sliding groove (4) along with the increase of the rainwater in the inner cavity of the outer transverse bar (62), so that the lifting mechanism (6) is driven to work, the inner transverse bar (61) slides to the top, when the outer transverse bar (62) slides to the bottom groove (31), the guide rod (311) is arranged in the bottom groove (31), in the falling process of the outer transverse bar (62), the guide rod (311) pushes the rotating plate (621) through the through hole (622), so that the rotating plate (621) is pushed open, the rainwater in the inner cavity of the outer transverse bar (11) flows out and is finally discharged from the water outlet pipe (9), the outer transverse bar (62) returns to the top after discharging the rainwater, the inner transverse bar (61, the lifting mechanism (6) works to lift and drive the brush plate (10) to vertically wipe the surface of the glass (2), thereby achieving the effect of cleaning the glass (2);

the sliding groove (4) is S-shaped; when the lifting type water collecting and draining device works, the lifting mechanism (6) completes lifting action along with the work of the water collecting module (8) and the water draining module; sliding shafts (5) respectively arranged at two ends of the outer transverse bar (62) slide towards the bottom in the S-shaped sliding chute (4) to drive the brush plate (10) to swing, so that the glass (2) surface is better cleaned;

a rubber pad (41) is arranged at one side of the sliding chute (4) at intervals; the rubber pad (41) is fixedly connected with the sliding chute (4); when the cleaning device works, the rubber pads (41) are arranged on one side in the sliding groove (4) at intervals, so that during the sliding and lifting process of the sliding shafts (5) arranged at two ends of the outer transverse bar (62) in the S-shaped sliding groove (4), the resistance on one side is large, the resistance on one side is small, and the slight lateral rotation trend is generated, and a better cleaning effect is achieved;

the rubber pad (41) is provided with an anti-skid groove; the anti-skid grooves are parallel to the outer transverse strips (62); when the cleaning device works, the rubber pad (41) is provided with the anti-skidding grooves (45) parallel to the outer cross bars (62), and when the sliding shafts (5) arranged at the two ends of the outer cross bars (62) respectively slide in the S-shaped sliding grooves (4) to lift, the anti-skidding grooves (45) on the rubber pad can increase the resistance of one side of the outer cross bars (62), so that the outer cross bars (62) have a slight side-turning tendency when sliding to descend, and a better cleaning effect is achieved;

the rubber pad (41) is provided with a bulge (42) which inclines upwards; a V-shaped groove (43) is formed in the top of the protrusion (42); when the water collecting and draining device works, the outer transverse bar (62) is lifted and slides along with the work of the water collecting module (8) and the water draining module, a bulge (42) is arranged on the rubber pad (41), and a V-shaped groove (43) is arranged at the top of the bulge (42); when the outer transverse strip (62) returns to the top, the V-shaped groove (43) is stressed to contract so as to enable the outer transverse strip (62) to quickly return to the top when meeting the protrusion (42);

the brush plate (10) is replaceable; the brush plate (10) is provided with elastic brush hair or an oval rubber bag (102); the oval rubber bag (102) is provided with an inclined hole which is inclined with the glass (2); when the water-saving device works, a tiny water outlet hole is formed between the outer transverse strip (62) and the oval rubber bag (102); when the oval rubber bag (102) arranged on the brush plate (10) collects water along with the outer transverse strips (62) and slides to the bottom, rainwater is guided to the inclined holes in the oval rubber bag (102) through the water outlet holes; sliding shafts (5) respectively arranged at two ends of the outer transverse bar (62) slide in the sliding grooves (4), so that the oval rubber bag (102) is driven to extrude the surface of the glass (2), rainwater in the inclined holes is sprayed onto the surface of the glass (2), and the effect of better cleaning the surface of the glass (2) is achieved;

a cross bar (11) is arranged between the inner cross bar (61) and the glass (2); the cross bar (11) is positioned at the top of the bottom groove (31); when the brush is in work, when the inner transverse bar (61) returns to the bottom and slides, the elastic bristles on the brush pass through the transverse bar (11), so that ash on the bristles can be flicked off.

2. An aluminum alloy window according to claim 1, wherein: the rotating plate (621) is made of rubber.