CN111927289A

CN111927289A - Aluminum alloy window

Info

Publication number: CN111927289A
Application number: CN202010890431.5A
Authority: CN
Inventors: 张文波; 唐恒江; 马瑞花
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-29
Filing date: 2020-08-29
Publication date: 2020-11-13

Abstract

The invention discloses an aluminum alloy window which comprises a circular window frame, wherein an inner annular groove is formed in the side surface of the inner circumference of the window frame, and a clamping assembly is arranged on the side surface of the outer circumference of the window frame; a first sealing ring is fixedly arranged in the inner annular groove, and left glass and right glass are respectively arranged on two sides of the first sealing ring in the inner annular groove; a first annular frame is arranged between the left glass and the right glass, the first annular frame is provided with an annular cutting groove, and the support rod is provided with a convex column; a plurality of radially arranged shaft rods are rotatably connected in the annular cutting groove, each shaft rod is provided with an outer louver, each outer louver is provided with a radial groove, and an inner louver is slidably connected in each radial groove; screw rods are uniformly and rotatably connected in the convex columns at intervals along the circumferential direction; a first light adjusting assembly for controlling the rotation of the plurality of shaft rods is arranged in the annular cutting groove, and a second light adjusting assembly for controlling the rotation of the plurality of screw rods is arranged in the convex column; this aluminum alloy window is simple structure not only, the installation of being convenient for moreover, and the printing opacity regulatory function is various in addition.

Description

Aluminum alloy window

Technical Field

The invention belongs to the technical field of aluminum alloy 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. Because the surface of the aluminum alloy is oxidized, smooth and shiny, the aluminum alloy has the characteristics of attractive appearance, sealing, high strength and the like, is widely applied to the field of constructional engineering, and the surface of the aluminum alloy is oxidized, smooth and shiny. The window sash frame is large, glass with a large area can be embedded, indoor light is sufficient and bright, the virtual-real contrast of vertical surfaces between the indoor space and the outdoor space is enhanced, and a room is richer in layers; the aluminum alloy is easy to extrude, the cross section of the section bar is accurate in size, and the processing accuracy is high, so that aluminum alloy doors and windows are selected by many owners in decoration. The aluminum alloy window in the prior art has the following problems when in use:

(1) in the prior art, most of aluminum alloy windows are of a square frame structure, the opening of the structure is a place where various stresses are concentrated, and the square window is easy to collapse due to continuous change of the stresses in the structure, so that the stress is more concentrated at the corner of the square window, and finally the structure collapses due to metal fatigue;

(2) the aluminum alloy window in the prior art does not have the functions of shading sun and adjusting the light transmission amount, and in order to realize the functions of shading sun and adjusting the light transmission amount, a curtain or a louver needs to be installed on the aluminum alloy window;

(3) when an aluminum alloy window in the prior art is installed, a door and window frame is usually installed at a reserved door and window opening after concrete or building blocks are finished, and then subsequent work such as painting and the like is performed around the door and window frame, but many contradictions exist between the installation process of the aluminum alloy door and window and the civil engineering construction, and finally the compactness around the door and window frame cannot meet the requirement, so that leakage is caused; and the window frame is often polluted in the process of painting after the door and window frame is installed, so that necessary cleaning work is required before glass is installed, a large amount of manpower and material resources are consumed, and the painting of the edge structure of the door and window frame cannot be painted together with the original structural surface, so that the phenomena of unattractive painting, labor saving, material waste and the like of the painting layer are caused.

Disclosure of Invention

The invention aims to provide an aluminum alloy window which is simple in structure, convenient to install and diverse in light transmission adjusting function.

In order to achieve the purpose, the invention provides the following technical scheme:

the aluminum alloy window comprises a circular window frame, wherein an inner annular groove is formed in the inner circumferential side face of the window frame, and a clamping assembly for fixedly mounting the window frame in a wall body is arranged on the outer circumferential side face of the window frame; a first sealing ring is fixedly arranged in the inner annular groove, and left glass and right glass are respectively arranged on two sides of the first sealing ring in the inner annular groove; a first annular frame is arranged between the left glass and the right glass and is close to the first sealing ring, an annular cutting groove is formed in the outer circumferential side surface of the first annular frame, a supporting rod is arranged on the inner circumferential side surface of the first annular frame in the radial direction, and a convex column located at the circle center position of the window frame is arranged at one end, far away from the first annular frame, of the supporting rod; a plurality of radially arranged shaft levers are uniformly and rotatably connected in the annular cutting groove at intervals along the circumferential direction, one end of each shaft lever, which extends into the inner ring of the first annular frame, is provided with an outer louver, one end of each outer louver, which is far away from the shaft lever, is provided with a radial groove with a square cross section, and an inner louver is slidably connected in each radial groove; a plurality of screw rods which are in one-to-one correspondence with the inner louvers are uniformly and rotatably connected in the convex column at intervals along the circumferential direction, each screw rod is arranged along the radial direction of the window frame and is in threaded connection with the corresponding inner louver, and the screw rods are used for driving the inner louvers to slide into or exit from the radial grooves when rotating; a first dimming assembly used for controlling the rotation of the plurality of shaft rods is arranged in the annular cutting groove, and a second dimming assembly used for controlling the rotation of the plurality of screw rods is arranged in the convex column.

Further, the first light adjusting component comprises a first rotating shaft, the first rotating shaft penetrates through the left glass along the direction perpendicular to the left glass and is rotatably connected in the annular cutting groove, and the first rotating shaft is perpendicular to and intersects with one of the shaft rods; a first gear is mounted on each shaft lever in the annular cutting groove; a first bevel gear is fixedly arranged on the first rotating shaft, a second bevel gear meshed with the first bevel gear is fixedly arranged on a shaft rod which is perpendicular to and crossed with the first rotating shaft, and second gears meshed with the two first gears are arranged between two adjacent first gears in the annular cutting groove; a unidirectional rotating component is arranged in the first gear except for part of the plurality of first gears which are coaxial with the second bevel gear; when the first rotating shaft rotates forwards, the plurality of shaft rods synchronously drive the outer shutter to rotate; when first pivot antiport, the axostylus axostyle of being connected with one-way rotating assembly all stall, and outer tripe antiport is all driven in step to remaining axostylus axostyle.

Furthermore, the unidirectional rotating assembly comprises a shaft block fixedly arranged on the shaft rod, and a first gear provided with the unidirectional rotating assembly is sleeved on the shaft block and has a gap with the outer side of the circumference of the shaft block; the end face of the shaft block, far away from the outer shutter, is provided with two wedge-shaped cutting grooves in a centrosymmetric manner, and each wedge-shaped cutting groove is internally provided with a roller and a first spring for forcing the roller to be tightly pressed on the side wall of the inner hole of the first gear; when the first gear provided with the unidirectional rotating assembly rotates reversely, the roller rotates and compresses the first spring, when the first gear provided with the unidirectional rotating assembly rotates forwards, the roller compresses tightly between the inner hole side wall of the first gear and the wedge-shaped cutting groove under the action of the first spring, and the first gear drives the shaft block to rotate through the roller.

Furthermore, a first knob is fixedly installed at one end, located on the left side of the left glass, of the first rotating shaft.

Furthermore, the second dimming assembly comprises a second rotating shaft, a rotating groove is formed in the convex column by taking the circle center of the window frame as a rotation center, and the near-center end of each screw rod extends into the rotating groove and is provided with a third bevel gear; the left end of the convex column is fixedly provided with a sealing cover at the opening of the rotary groove, the second rotating shaft penetrates through the center of the left glass along the direction vertical to the left glass and is rotatably connected in the sealing cover, and the right end of the second rotating shaft extends into the rotary groove and is rotatably connected with the right end of the rotary groove; and a conical fluted disc is fixedly mounted on the second rotating shaft, and is meshed with the third conical gears to drive the third conical gears to synchronously rotate.

Furthermore, a second knob is fixedly mounted at one end of the second rotating shaft, which is positioned on the left side of the left glass.

Furthermore, the clamping assembly comprises a rotating ring, an outer ring groove is formed in the outer side of the circumference of the window frame, and the rotating ring is rotatably connected into the outer ring groove; a plurality of convex shafts are uniformly arranged on two sides of the outer ring groove at intervals along the circumferential direction of the window frame, a plurality of arc-shaped grooves for the convex shafts to extend into are uniformly arranged in the rotating ring at intervals along the circumferential direction of the window frame, and each convex shaft is rotatably connected with clamping jaws on two sides of the rotating ring; a first limiting groove is formed in each clamping jaw, and a limiting column extending into the first limiting groove is arranged on the side surface of the rotating ring; when the rotating ring rotates forwards, the plurality of clamping claws are driven to synchronously extend out of the outer ring groove through the matching of the limiting columns and the first limiting grooves; when the rotating ring rotates reversely, the plurality of clamping claws are driven to be synchronously retracted into the outer ring groove through the matching of the limiting columns and the first limiting grooves.

Furthermore, an arc-shaped sliding groove concentric with the window frame is formed in the right side of the window frame, an installation groove is formed in the right side of the rotating ring in the direction perpendicular to the right glass, a shifting column used for driving the rotating ring to rotate is arranged in the installation groove, a shifting rod extending out of the arc-shaped sliding groove is arranged at the right end of the shifting column, and a second spring used for forcing the shifting column to move rightwards is arranged in the installation groove; the right inner side wall of the outer ring groove is provided with a first positioning hole and a second positioning hole respectively at two ends of the arc-shaped sliding groove, the pulling column extends into the first positioning hole, the plurality of clamping jaws are retracted into the outer ring groove when the pulling column is located in the first positioning hole, and the plurality of clamping jaws extend out of the outer ring groove when the pulling column is located in the second positioning hole.

Furthermore, the outer circumference side of the window frame is symmetrically provided with second sealing rings at two sides of the outer ring groove.

Advantageous effects

Compared with the prior art, the technical scheme of the invention has the following advantages:

(1) the window frame is of a circular structure, and because the structure in each direction is the same, the stress is evenly dispersed, so that the condition of sound collapse from a certain point rarely occurs;

(2) the window frame is internally integrated with the first dimming component, so that the functions of shading sun and adjusting the light transmission quantity can be realized, and the window frame is simple in structure and convenient to adjust;

(3) the aluminum alloy window has three light transmission adjusting modes, wherein the first adjusting mode can enable all the outer louvers and the inner louvers to rotate for adjustment, the second adjusting mode can enable half of the outer louvers and the inner louvers to rotate for adjustment, the third adjusting mode can enable the inner louvers to retract into the outer louvers for adjustment, the three adjusting modes can meet various light transmission adjusting requirements, and the adjusting modes are rich;

(4) when the aluminum alloy window is actually installed, the clamping jaws can extend into the clamping grooves of the opening only by placing the aluminum alloy window into the opening of the aluminum alloy window which is drilled in advance and then rotating the deflector rod, so that the aluminum alloy window and a wall body are fixedly connected, the installation is convenient and rapid, and the aluminum alloy window is provided with two second sealing rings, so that the sealing with the outside can be conveniently realized.

Drawings

FIG. 1 is a block diagram of the present invention with the jaws in a retracted state;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along the line B-B in FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along the line C-C in FIG. 1;

FIG. 5 is a view of the pawl of the present invention shown extended;

FIG. 6 is a schematic cross-sectional view taken along the line A-A in FIG. 5;

fig. 7 is a schematic structural diagram illustrating the first rotating shaft of the first dimming component rotating in the forward direction according to the present invention;

FIG. 8 is a cross-sectional view taken along line A-A of FIG. 7;

fig. 9 is a schematic view illustrating the structure of the first dimming component according to the present invention when the first rotating shaft rotates in a reverse direction;

FIG. 10 is a cross-sectional view taken along line A-A of FIG. 9;

fig. 11 is a schematic structural view illustrating the second rotating shaft of the second dimming component according to the present invention;

FIG. 12 is a sectional view taken along line A-A in FIG. 11;

fig. 13 is a schematic three-dimensional structure of the turntable according to the present invention.

Detailed Description

Referring to fig. 1 to 13, an aluminum alloy window includes a circular window frame 2, an inner circumferential side of the window frame 2 is provided with an inner annular groove 2a, and an outer circumferential side of the window frame 2 is provided with a clamping assembly for fixedly mounting the window frame 2 in a wall; a first sealing ring 3 is fixedly arranged in the inner annular groove 2a, and left glass 91 and right glass 92 are respectively arranged on two sides of the first sealing ring 3 in the inner annular groove 2 a; a first annular frame 5 is arranged between the left glass 91 and the right glass 92 at a position close to the first sealing ring 3, an annular cutting groove 5a is formed in the outer circumferential side surface of the first annular frame 5, and a retaining ring 4 is fixedly arranged at the position, close to the first sealing ring, of the outer side of the annular cutting groove 5 a; a support rod 5b is arranged on the inner circumferential side surface of the first annular frame 5 along the radial direction, and a convex column 6 positioned at the circle center position of the window frame 2 is arranged at one end, far away from the first annular frame 5, of the support rod 5 b; a plurality of radial shaft rods 12 are uniformly and rotatably connected in the annular cutting groove 5a at intervals along the circumferential direction, an outer louver 121 is arranged at one end of each shaft rod 12, which extends into the inner ring of the first annular frame 5, a radial groove 12a with a square cross section is arranged at one end of each outer louver 121, which is far away from each shaft rod 12, and an inner louver 122 is slidably connected in each radial groove 12 a; a plurality of screw rods 123 which are in one-to-one correspondence with the inner louvers 122 are uniformly and rotatably connected in the convex column 6 at intervals along the circumferential direction, each screw rod 123 is arranged along the radial direction of the window frame 2 and is in threaded connection with the corresponding inner louver 122, and the screw rods 123 are used for driving the inner louvers 122 to slide into or exit from the radial grooves 12a when rotating; a first dimming component for controlling the rotation of the plurality of shaft rods 12 is arranged in the annular cutting groove 5a, and a second dimming component for controlling the rotation of the plurality of screw rods 123 is arranged in the convex column 6.

The first dimming component comprises a first rotating shaft 11, the first rotating shaft 11 penetrates through the left glass 91 along the direction perpendicular to the left glass 91 and is rotatably connected in the annular cutting groove 5a, and the first rotating shaft 11 is perpendicular to and intersects with one shaft 12; a first gear 51 is mounted on each shaft 12 in said annular slot 5 a; a first bevel gear 54 is fixedly installed on the first rotating shaft 11, a second bevel gear 53 meshed with the first bevel gear 54 is fixedly installed on the shaft 12 which is perpendicular to and crossed with the first rotating shaft 11, and second gears 52 meshed with the two first gears 51 are arranged between every two adjacent first gears 51 in the annular cutting groove 5 a; a unidirectional rotation component is arranged in the first gear 51 which is half except the plurality of first gears 51 coaxial with the second bevel gear 53, wherein the first gear 51 provided with the unidirectional rotation component and the first gear 51 not provided with the unidirectional rotation component are arranged at intervals along the circumferential direction of the annular cutting groove 5 a; when the first rotating shaft 11 rotates forwards, the plurality of shaft rods 12 drive the outer shutter 121 to rotate synchronously; when the first rotating shaft 11 rotates reversely, the shaft rods 12 connected with the unidirectional rotating assembly stop rotating, and the other shaft rods 12 synchronously drive the outer louver 121 to rotate reversely. A first knob 10 is fixedly mounted at one end of the first rotating shaft 11, which is located at the left side of the left glass 91.

The unidirectional rotating assembly comprises a shaft block 53 fixedly arranged on the shaft rod 12, and a first gear 51 provided with the unidirectional rotating assembly is sleeved on the shaft block 53 and has a gap with the outer side of the circumference of the shaft block 53; the shaft block 53 is provided with two wedge-shaped cutting grooves 531 in central symmetry at the end surface far away from the outer louver 121, each wedge-shaped cutting groove 531 is internally provided with a roller 535, and a first spring 533 for forcing the roller 535 to be pressed on the side wall of the inner hole of the first gear 51; when the first gear 51 provided with the unidirectional rotation assembly rotates reversely, the roller 535 rotates and compresses the first spring 533, and when the first gear 51 provided with the unidirectional rotation assembly rotates forwardly, the roller 535 is pressed between the inner hole side wall of the first gear 51 and the wedge-shaped cutting groove 531 by the first spring 533, and the first gear 51 drives the shaft block 53 to rotate through the roller 535.

The second light adjusting assembly comprises a second rotating shaft 66, a rotating groove 6a is formed in the convex column 6 by taking the circle center of the window frame 2 as a rotating center, and the proximal end of each screw rod 123 extends into the rotating groove 6a and is provided with a third bevel gear 124; a sealing cover 6b is fixedly arranged at the left end of the convex column 6 at the opening of the rotary groove 6a, the second rotating shaft 66 penetrates through the center of the left glass 91 along the direction perpendicular to the left glass 91 and is rotatably connected in the sealing cover 6b, and the right end of the second rotating shaft 66 extends into the rotary groove 6a and is rotatably connected with the right end of the rotary groove 6 a; the second rotating shaft 66 is fixedly provided with a bevel gear disc 125, and the bevel gear disc 125 is engaged with the third bevel gears 124 for driving the third bevel gears 124 to rotate synchronously. A second knob 126 is fixedly mounted on one end of the second rotating shaft 66, which is located on the left side of the left glass 91.

The clamping assembly comprises a rotating ring 1, an outer annular groove 2b is formed in the outer side of the circumference of the window frame 2, and the rotating ring 1 is rotatably connected into the outer annular groove 2 b; a plurality of protruding shafts 2d are uniformly arranged on two sides of the outer annular groove 2 at intervals along the circumferential direction of the window frame 2, a plurality of arc-shaped grooves 101 for the protruding shafts to extend into are uniformly arranged in the rotating ring 1 at intervals along the circumferential direction of the window frame 2, and clamping jaws 82 are rotatably connected to two sides of the rotating ring 1 on each protruding shaft 2 d; a first limit groove 821 is arranged in each clamping jaw 82, and a limit column 102 extending into the first limit groove 821 is arranged on the side surface of the rotating ring 1; when the rotating ring 1 rotates forwards, the plurality of claws 82 are driven to synchronously extend out of the outer ring groove 2b through the matching of the limiting columns 102 and the first limiting grooves 821; when the rotary ring 1 rotates in the reverse direction, the plurality of claws 82 are driven to be synchronously retracted into the outer annular groove 2b by the cooperation of the stopper posts 102 and the first stopper groove 821.

An arc-shaped sliding groove 21 concentric with the window frame 2 is formed in the right side of the window frame 2, an installation groove 103 is formed in the right side of the rotating ring 1 and is perpendicular to the right glass 92, a poking column 13 used for driving the rotating ring 1 to rotate is arranged in the installation groove 103, a poking rod 131 extending out of the arc-shaped sliding groove 21 is arranged at the right end of the poking column 13, and a second spring 14 used for forcing the poking column 13 to move rightwards is arranged in the installation groove 103; the right inner side wall of the outer annular groove 2b is provided with a first positioning hole 2c and a second positioning hole 2f at two ends of the arc-shaped sliding groove 21, the poking column 13 extends into the first positioning hole 2c, the plurality of clamping jaws 82 are retracted into the outer annular groove 2b when the poking column 13 is located in the first positioning hole 2c, and the plurality of clamping jaws 82 extend out of the outer annular groove 2b when the poking column 13 is located in the second positioning hole 2 f. And second sealing rings 16 are symmetrically arranged on the outer circumferential side surface of the window frame 2 at two sides of the outer ring groove 2 b.

When the present invention is installed, the driving lever 131 is pressed to be separated from the second positioning hole 2f, then the driving lever 131 is pulled to drive the rotating ring 1 to rotate, when the rotating ring 1 rotates, the plurality of claws 82 are driven to synchronously retract into the outer annular groove 2b through the matching of the limiting post 102 and the first limiting groove 821, the driving lever 131 is released, and the driving post 13 extends into the first positioning hole 2c under the action of the second spring 14. Then the invention is put into the drilled installation hole, the deflector rod 131 is pressed to be separated from the first positioning hole 2c, the deflector rod 131 is pulled to drive the rotating ring 1 to rotate, the plurality of claws 82 are driven to synchronously extend out of the outer ring groove 2b and are clamped into the clamping grooves of the installation hole through the matching of the limiting column 102 and the first limiting groove 821, then the deflector rod 131 is loosened, the deflector rod 13 is clamped into the second positioning hole 2f under the action force of the second spring 14, and the rotating ring 1 is fixed and can not rotate, thereby realizing the installation. The sealing between the window frame 2 and the wall body can be realized by two second sealing rings 16.

As shown in fig. 1 and 2, the first dimming component and the second dimming component of the present invention are both in a closed state, and the plurality of outer louvers 121 and the plurality of inner louvers 122 are in a closed position, so that the sun can be shaded. As shown in fig. 9 and 10, when light transmission is required, the first knob 10 controls the first rotating shaft 11 to rotate in the forward direction, so as to drive the first bevel gear 54 to rotate and further drive the second bevel gear 53 to rotate, the second bevel gear 53 rotates to drive the shaft 12 perpendicular to and intersecting with the first rotating shaft 11 to rotate, and when the shaft 12 rotates, the first gear 51 is meshed with the second gear 52, so that the rest of the shaft 12 synchronously drives the outer louver 121 and the inner louver 122, and light can be transmitted through the outer louver 121 and the inner louver 122, wherein the larger the rotation angle of the first knob 10 is, the larger the light transmission amount is. When the first gear 51 provided with the unidirectional rotating assembly rotates, the two rollers 535 drive the shaft block 53 to rotate, and further drive the outer louver 121 and the inner louver 122 to rotate.

As shown in fig. 7 and 8, the first rotary shaft 11 is controlled by the first knob 10 to rotate in the opposite direction, which drives the first bevel gear 54 to rotate and further drives the second bevel gear 53 to rotate, the second bevel gear 53 rotates to drive the shaft 12 perpendicular to and intersecting with the first rotary shaft 11 to rotate in the opposite direction, and further the first gear 51 is engaged with the second gear 52 to rotate half of the outer louvers 121 and the inner louvers 122, that is, the rotation angle of half of the louvers can be adjusted. When the other half of the first gear 51 provided with the unidirectional rotating assembly rotates in the opposite direction, the roller 535 rotates and compresses the first spring 533, and then the first gear 51 cannot drive the shaft block 53 to rotate, and further cannot drive the corresponding outer louver 121 and the corresponding inner louver 122 to rotate.

As shown in fig. 11 and 12, the second knob 126 is rotated by hand, and the first knob 10 is pressed by hand to prevent the first knob 10 from rotating, when the second knob 126 is rotated, the plurality of screws 123 are driven to rotate synchronously by the engagement of the conical fluted disc 125 and the third conical gear 124, so that the inner louver 122 is retracted into the radial groove 12a of the outer louver 121, and the distance of the inner louver 122 retracted into the outer louver 121 can be controlled by controlling the rotating angle of the second knob 126, thereby controlling the light transmission amount.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The aluminum alloy window comprises a circular window frame and is characterized in that an inner annular groove is formed in the inner circumferential side face of the window frame, and a clamping component for fixedly mounting the window frame in a wall body is arranged on the outer circumferential side face of the window frame; a first sealing ring is fixedly arranged in the inner annular groove, and left glass and right glass are respectively arranged on two sides of the first sealing ring in the inner annular groove; a first annular frame is arranged between the left glass and the right glass and is close to the first sealing ring, an annular cutting groove is formed in the outer circumferential side surface of the first annular frame, a supporting rod is arranged on the inner circumferential side surface of the first annular frame in the radial direction, and a convex column located at the circle center position of the window frame is arranged at one end, far away from the first annular frame, of the supporting rod; a plurality of radially arranged shaft levers are uniformly and rotatably connected in the annular cutting groove at intervals along the circumferential direction, one end of each shaft lever, which extends into the inner ring of the first annular frame, is provided with an outer louver, one end of each outer louver, which is far away from the shaft lever, is provided with a radial groove with a square cross section, and an inner louver is slidably connected in each radial groove; a plurality of screw rods which are in one-to-one correspondence with the inner louvers are uniformly and rotatably connected in the convex column at intervals along the circumferential direction, each screw rod is arranged along the radial direction of the window frame and is in threaded connection with the corresponding inner louver, and the screw rods are used for driving the inner louvers to slide into or exit from the radial grooves when rotating; a first dimming assembly used for controlling the rotation of the plurality of shaft rods is arranged in the annular cutting groove, and a second dimming assembly used for controlling the rotation of the plurality of screw rods is arranged in the convex column.

2. The aluminum alloy window of claim 1, wherein the first light modulating assembly comprises a first rotating shaft passing through the left glass in a direction perpendicular to the left glass and rotatably connected in the annular slot, the first rotating shaft being perpendicular to and intersecting one of the shafts; a first gear is mounted on each shaft lever in the annular cutting groove; a first bevel gear is fixedly arranged on the first rotating shaft, a second bevel gear meshed with the first bevel gear is fixedly arranged on a shaft rod which is perpendicular to and crossed with the first rotating shaft, and second gears meshed with the two first gears are arranged between two adjacent first gears in the annular cutting groove; a unidirectional rotating component is arranged in the first gear except for part of the plurality of first gears which are coaxial with the second bevel gear; when the first rotating shaft rotates forwards, the plurality of shaft rods synchronously drive the outer shutter to rotate; when first pivot antiport, the axostylus axostyle of being connected with one-way rotating assembly all stall, and outer tripe antiport is all driven in step to remaining axostylus axostyle.

3. The aluminum alloy window according to claim 2, wherein the unidirectional rotating assembly comprises a shaft block fixedly mounted on the shaft rod, and the first gear provided with the unidirectional rotating assembly is sleeved on the shaft block and has a gap with the outer side of the circumference of the shaft block; the end face of the shaft block, far away from the outer shutter, is provided with two wedge-shaped cutting grooves in a centrosymmetric manner, and each wedge-shaped cutting groove is internally provided with a roller and a first spring for forcing the roller to be tightly pressed on the side wall of the inner hole of the first gear; when the first gear provided with the unidirectional rotating assembly rotates reversely, the roller rotates and compresses the first spring, when the first gear provided with the unidirectional rotating assembly rotates forwards, the roller compresses tightly between the inner hole side wall of the first gear and the wedge-shaped cutting groove under the action of the first spring, and the first gear drives the shaft block to rotate through the roller.

4. The aluminum alloy window of claim 2, wherein the first rotary shaft is fixedly provided with a first knob at one end of the left side of the left glass.

5. The aluminum alloy window of claim 1, wherein the second light adjusting assembly comprises a second rotating shaft, a rotating groove is formed in the convex column by taking the center of a window frame as a rotating center, the proximal end of each screw rod extends into the rotating groove and is provided with a third bevel gear; the left end of the convex column is fixedly provided with a sealing cover at the opening of the rotary groove, the second rotating shaft penetrates through the center of the left glass along the direction vertical to the left glass and is rotatably connected in the sealing cover, and the right end of the second rotating shaft extends into the rotary groove and is rotatably connected with the right end of the rotary groove; and a conical fluted disc is fixedly mounted on the second rotating shaft, and is meshed with the third conical gears to drive the third conical gears to synchronously rotate.

6. The aluminum alloy window of claim 5, wherein a second knob is fixedly mounted on one end of the second rotating shaft, which is positioned on the left side of the left glass.

7. The aluminum alloy window of claim 1, wherein the clamping assembly comprises a swivel ring, an outer annular groove is formed on the outer side of the circumference of the window frame, and the swivel ring is rotatably connected in the outer annular groove; a plurality of convex shafts are uniformly arranged on two sides of the outer ring groove at intervals along the circumferential direction of the window frame, a plurality of arc-shaped grooves for the convex shafts to extend into are uniformly arranged in the rotating ring at intervals along the circumferential direction of the window frame, and each convex shaft is rotatably connected with clamping jaws on two sides of the rotating ring; a first limiting groove is formed in each clamping jaw, and a limiting column extending into the first limiting groove is arranged on the side surface of the rotating ring; when the rotating ring rotates forwards, the plurality of clamping claws are driven to synchronously extend out of the outer ring groove through the matching of the limiting columns and the first limiting grooves; when the rotating ring rotates reversely, the plurality of clamping claws are driven to be synchronously retracted into the outer ring groove through the matching of the limiting columns and the first limiting grooves.

8. The aluminum alloy window according to claim 7, wherein the right side of the window frame is provided with an arc-shaped sliding groove concentric with the window frame, the right side of the rotating ring is provided with a mounting groove along the direction perpendicular to the right glass, a shifting column for driving the rotating ring to rotate is arranged in the mounting groove, the right end of the shifting column is provided with a shifting rod extending out of the arc-shaped sliding groove, and a second spring for forcing the shifting column to move rightwards is arranged in the mounting groove; the right inner side wall of the outer ring groove is provided with a first positioning hole and a second positioning hole respectively at two ends of the arc-shaped sliding groove, the pulling column extends into the first positioning hole, the plurality of clamping jaws are retracted into the outer ring groove when the pulling column is located in the first positioning hole, and the plurality of clamping jaws extend out of the outer ring groove when the pulling column is located in the second positioning hole.

9. The aluminum alloy window according to claim 1, wherein the outer circumferential side of the window frame is symmetrically provided with second seal rings on both sides of the outer ring groove.