Water leakage prevention type aluminum alloy door and window

CN224314844U8Active Publication Date: 2026-07-14ZHEJIANG ZHONGJING NEW MATERIAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG ZHONGJING NEW MATERIAL TECHNOLOGY CO LTD
Filing Date
2025-07-11
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing waterproof aluminum alloy doors and windows require the entire unit to be removed from the wall when the glass breaks, increasing the difficulty of glass replacement.

Method used

A leak-proof aluminum alloy door and window was designed, which enables the rapid disassembly and installation of transparent glass through a positioning mechanism and a sealing mechanism. The design includes a positioning component, a displacement component, a limiting component, a sealing component, and a moving mechanism. These components are used to fix or release the ring frame from the mounting frame, while maintaining a sealing effect during disassembly.

Benefits of technology

The glass can be replaced without removing the entire window from the wall, reducing the difficulty of replacement and improving the convenience and sealing effect of glass replacement.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application belongs to the technical field of aluminum alloy doors and windows, and discloses a water-leakage-proof aluminum alloy door and window, which comprises a mounting frame, the mounting frame is a hollow structure with an open side, mounting grooves are formed in the inner side walls of the mounting frame, mounting through holes are formed in the side walls of the mounting frame and communicate with the mounting grooves, transparent glasses are inserted and connected in the mounting grooves, plug-in grooves are formed in the side walls of the mounting frame and communicate with the mounting frame, annular frames are inserted and connected in the plug-in grooves, abutting frames are fixed on the side walls of the annular frames close to the inner side of the mounting frame, the abutting frames are attached to the transparent glasses, and positioning mechanisms for fixing the mounting frame and the annular frame are arranged on the mounting frame and the annular frame, and the positioning mechanisms comprise positioning assemblies, displacement assemblies and limiting assemblies. According to the application, the structure of the prior art is improved, the whole window does not need to be taken out from the wall, and the difficulty of replacing the glass on the aluminum alloy door and window is reduced.
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Description

Technical Field

[0001] This utility model relates to the field of aluminum alloy door and window technology, and in particular to a water-proof aluminum alloy door and window. Background Technology

[0002] Aluminum alloy windows are windows with frames and sashes made of aluminum alloy building profiles. They are divided into ordinary aluminum alloy doors and windows and thermally broken aluminum alloy doors and windows. Aluminum alloy windows are beautiful, airtight, and strong, and are widely used in the field of construction engineering. In home decoration, aluminum alloy doors and windows are often used to enclose balconies. Aluminum alloy doors and windows are usually installed in the pre-reserved openings in the wall using the plugging method.

[0003] Chinese utility model patent CN221144192U discloses a leak-proof aluminum alloy door and window, comprising two sets of frames. Each set of the two sets of frames has a set of sliding grooves inside. Each set of the two sets of sliding grooves is fixedly connected to four sets of first springs, which are linearly distributed. A connecting plate is fixedly connected to the end of the four sets of first springs away from the frame. Glass is movably connected to the end of the connecting plate away from the four sets of first springs. Each set of the two sets of frames has a set of limiting slots at the top. A top cover is provided at the top of the two sets of frames. Two sets of pressing blocks are movably connected to each side of the inside of the top cover. A pressing rod is fixedly connected to one end of each set of pressing blocks. A second spring is fixedly connected to the end of each set of pressing rods away from the four sets of pressing blocks. A limiting block is fixedly connected to the bottom of each set of pressing blocks.

[0004] In the event of glass breakage during use, the entire aluminum alloy door and window must be removed from the wall before the glass can be disassembled and installed, increasing the difficulty of replacing the glass on the aluminum alloy door and window. Utility Model Content

[0005] To solve the above problems, this utility model provides a water-proof aluminum alloy door and window.

[0006] The above-mentioned technical objective of this utility model is achieved through the following technical solution: a water-proof aluminum alloy door and window, including a mounting frame, the mounting frame being a hollow structure with an opening on one side, a mounting groove being provided on the inner side wall of the mounting frame, a mounting through hole communicating with the mounting groove being provided on the side wall of the mounting frame, a transparent glass being inserted into the mounting groove, an insertion groove communicating with the inside of the mounting frame being provided on the side wall of the mounting frame, an annular frame being inserted into the insertion groove, a clamping frame being fixed on the side wall of the annular frame near the inner side of the mounting frame, the clamping frame being in contact with the transparent glass, and a positioning mechanism for fixing the mounting frame and the annular frame being provided together.

[0007] By adopting the above technical solution, the staff first releases the fixed state of the ring frame and the mounting frame through the positioning mechanism, then takes the ring frame out of the insertion slot, then takes the transparent glass out of the mounting slot, then inserts the new transparent glass into the mounting slot, and finally inserts the ring frame into the insertion slot and fixes the mounting frame and the ring frame through the positioning mechanism. There is no need to remove the entire window from the wall, which reduces the difficulty of replacing the glass on aluminum alloy windows and doors.

[0008] Furthermore, the annular frame has a hollow internal structure, and the positioning mechanism includes a positioning component. The positioning component includes a fixing strip fixed inside the annular frame, an insert strip that passes through the fixing strip and slides in engagement with it, and a connecting post that is rotatably mounted on the insert strip. The insert strip passes through the annular frame and slides in engagement with it. The mounting frame has a through hole that engages with the insert strip. The positioning mechanism also includes a displacement component for driving the connecting post to move.

[0009] By adopting the above technical solution, the connecting column is moved by the displacement component, so that the insert connected to the connecting column moves away from or towards the insertion hole, thereby achieving the purpose of fixing or releasing the ring frame from the mounting frame.

[0010] Furthermore, the displacement component includes a rotating column that passes through and is rotatably connected to the annular frame, a rotating plate that is fixedly sleeved on the rotating column and located inside the annular frame, and a handle fixed to one end of the rotating plate away from the inner side of the mounting frame. The rotating plate is provided with an arc groove that slides with the connecting column. The arc groove is eccentrically positioned with the rotating plate. The positioning mechanism also includes a limiting component for limiting the handle.

[0011] By adopting the above technical solution, rotating the handle drives the rotating column to rotate, causing the rotating plate connected to the rotating column to rotate. Due to the sliding fit between the arc groove and the connecting column, and the eccentric setting of the arc groove and the rotating plate, the connecting column can drive the insert to move away from the insertion hole. Similarly, rotating the handle in the opposite direction drives the rotating column to rotate in the opposite direction, causing the rotating plate connected to the rotating column to rotate in the opposite direction, thus causing the connecting column to drive the insert to move towards the insertion hole, ensuring the normal operation of the glass.

[0012] Furthermore, the handle is provided with a sliding groove, and the limiting component includes a sliding block slidably connected in the sliding groove, a spring fixed between the sliding block and the sliding groove, and a limiting rod fixed on the sliding block. The side wall of the annular frame is provided with a positioning hole that is inserted and cooperates with the limiting rod. There are two positioning holes, and the distance between the axis of the two positioning holes and the axis of the rotating column is equal.

[0013] By adopting the above technical solution, during the process of unfixing the ring frame and the mounting frame, pressing the sliding block moves it away from the ring frame, causing the limiting rod connected to the sliding block to move. The spring is stressed and gradually contracts until the limiting rod separates from the insertion positioning hole. At this time, rotating the handle drives the limiting rod to rotate until the limiting rod moves to the position of another positioning hole. At this time, the insert and the insertion hole are just separated. At the same time, the sliding block is released, the spring gradually extends and returns to its original position, the limiting rod moves and inserts into the corresponding positioning hole, and limits the handle, thus improving the stability of the handle when it is not in use.

[0014] Furthermore, a sealing mechanism is provided on the annular frame. The sealing mechanism includes a sealing assembly, which includes a sealing can fixed to the side wall of the annular frame near the inner side of the mounting frame, a sealing piston slidably connected to the sealing can, an air supply pipe fixed and connected to the sealing can, and an inflatable sealing gasket fixed to the pressing frame and in an expanded state. The end of the air supply pipe away from the sealing can is fixed and connected to the inflatable sealing gasket. When the inflatable sealing gasket is inflated, the inflatable sealing gasket abuts against the side wall of the transparent glass near the inflatable sealing gasket. The sealing mechanism also includes a moving mechanism for driving the sealing piston to move.

[0015] By adopting the above technical solution, during the use of the device, when the inflatable sealing gasket is inflated, the inflatable sealing gasket presses against the side wall of the transparent glass near the inflatable sealing gasket, thereby improving the sealing effect and water leakage prevention effect between the transparent glass and the inflatable sealing gasket.

[0016] Furthermore, the moving mechanism includes a turntable fixedly sleeved on the rotating column, a slide rod fixedly mounted on the sealing piston, and a connecting rod rotatably mounted on the turntable and eccentrically disposed therebetween. The slide rod passes through the sealing tank and is slidably engaged, and the end of the connecting rod away from the turntable is rotatably connected to the slide rod.

[0017] By employing the above technical solution, during the process of releasing the fixing between the mounting frame and the annular frame, rotating the rotating column drives the turntable to rotate. Since the connecting rod is rotatably connected to the turntable, and the connecting rod and turntable are eccentrically positioned, the end of the connecting rod away from the sealing tank is rotatably connected to the sliding rod. This causes the end of the connecting rod near the turntable to flip, allowing the connecting rod, the sliding rod connected to the connecting rod, and the sealing piston connected to the sliding rod to all move towards the turntable. During this process, air from the inflatable sealing gasket enters the sealing tank through the air supply pipe, causing the inflatable sealing gasket to gradually contract and release its contact with the transparent glass. Similarly, during the fixing between the mounting frame and the annular frame, rotating the rotating column drives the turntable to rotate in the opposite direction, causing the end of the connecting rod near the turntable to flip in the opposite direction. This causes the turntable, the sliding rod connected to the connecting rod, and the sealing piston connected to the sliding rod to all move away from the turntable. During this process, air from the sealing tank enters the inflatable sealing gasket through the air supply pipe, causing the inflatable sealing gasket to gradually expand and return to its original position until the inflatable sealing gasket and the transparent glass are in a tight contact state, ensuring normal sealing operation.

[0018] Furthermore, an annular sealing gasket is inserted into the mounting groove, and the side wall of the transparent glass away from the inflatable sealing gasket is pressed against the annular sealing gasket.

[0019] By adopting the above technical solution, the water leakage prevention effect between the inflatable sealing gasket and the mounting groove is improved.

[0020] Furthermore, a baffle is rotatably mounted on the inner side wall of the mounting frame, and the side wall of the baffle near the transparent glass is in contact with the transparent glass. The inflatable sealing gasket has a notch at one end near the baffle for insertion and engagement with the baffle.

[0021] By adopting the above technical solution, the transparent glass is prevented from falling out of the mounting groove during the disassembly or fixing of the mounting frame and the ring frame due to the limiting effect of the baffle on the transparent glass.

[0022] In summary, the present invention has the following beneficial effects: In this application, by setting improvements to the existing technical structure, it is not necessary to remove the entire window from the wall, thus reducing the difficulty of replacing the glass on the aluminum alloy window door. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the overall structure of an embodiment of the present utility model;

[0024] Figure 2 This is a cross-sectional schematic diagram of an embodiment of the present invention to highlight the connection structure between the annular frame and the mounting frame;

[0025] Figure 3 This is a cross-sectional schematic diagram of an embodiment of the present invention used to highlight the internal structure of the annular frame;

[0026] Figure 4 This is a cross-sectional schematic diagram of an embodiment of the present invention used to highlight the internal structure of the sealed container;

[0027] Figure 5 This is a cross-sectional schematic diagram of an embodiment of the present invention to highlight the connection structure between the arc groove and the connecting column;

[0028] Figure 6 yes Figure 1 Enlarged view of point A in the middle;

[0029] Figure 7 yes Figure 2 Enlarged diagram of point B in the middle.

[0030] In the diagram: 1. Mounting frame; 2. Mounting groove; 3. Mounting through hole; 4. Transparent glass; 5. Insertion groove; 6. Annular frame; 7. Clamping frame; 8. Positioning mechanism; 81. Positioning component; 811. Fixing strip; 812. Insert strip; 813. Connecting column; 814. Insertion hole; 82. Displacement component; 821. Rotating column; 822. Rotating plate; 823. Handle; 824. Arc groove; 83. Limiting component; 831. Sliding block; 832. Spring; 833. Limiting rod; 9. Sealing mechanism; 91. Sealing component; 911. Sealing tank; 912. Sealing piston; 913. Gas supply pipe; 914. Inflatable sealing gasket; 92. Moving mechanism; 921. Turntable; 922. Slide rod; 923. Connecting rod; 10. Sliding groove; 11. Positioning hole; 12. Annular sealing gasket; 13. Baffle; 14. Notch. Detailed Implementation

[0031] The technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.

[0032] like Figure 1-7As shown in the figure, this application discloses a leak-proof aluminum alloy door and window, including a mounting frame 1, transparent glass 4, a positioning mechanism 8, and a sealing mechanism 9. The mounting frame 1 is a hollow structure with an opening on one side. A mounting groove 2 is provided on the inner side wall of the mounting frame 1, and a mounting through hole 3 communicating with the mounting groove 2 is provided on the side wall of the mounting frame 1. The transparent glass 4 is inserted into the mounting groove 2, and an insertion groove 5 communicating with the inside of the mounting frame 1 is provided on the side wall of the mounting frame 1. An annular frame 6 is inserted into the insertion groove 5, and the annular frame 6 is a hollow structure. A retaining frame 7 is fixed on the side wall of the annular frame 6 near the inner side of the mounting frame 1, and the retaining frame 7 is in contact with the transparent glass 4. The staff first uses the positioning mechanism 8 to release the fixed state of the ring frame 6 and the mounting frame 1. Then, the ring frame 6 is taken out from the insertion slot 5. Next, the transparent glass 4 is taken out from the mounting slot 2. Then, the new transparent glass 4 is inserted into the mounting slot 2. Finally, the ring frame 6 is inserted into the insertion slot 5 and the mounting frame 1 and the ring frame 6 are fixed by the positioning mechanism 8. There is no need to remove the entire window from the wall, which reduces the difficulty of replacing the glass on the aluminum alloy window.

[0033] A positioning mechanism 8 is jointly disposed on the mounting frame 1 and the annular frame 6, and is used to fix the mounting frame 1 and the annular frame 6. The positioning mechanism 8 includes a positioning component 81, a displacement component 82, and a limiting component 83. The positioning component 81 includes a fixing strip 811, an insert strip 812, and a connecting post 813. The fixing strip 811 is fixed inside the annular frame 6, and the insert strip 812 is disposed through the fixing strip 811 and slidably engaged. The insert strip 812 is disposed through the annular frame 6 and slidably engaged. The mounting frame 1 has a through hole 814 for inserting the insert strip 812, and the connecting post 813 is rotatably mounted on the insert strip 812. By driving the connecting post 813 to move through the displacement component 82, the insert strip 812 connected to the connecting post 813 moves away from or towards the through hole 814, thereby achieving the purpose of fixing or releasing the annular frame 6 from the mounting frame 1.

[0034] The displacement assembly 82 is used to move the connecting post 813. The displacement assembly 82 includes a rotating post 821, a rotating plate 822, and a handle 823. The rotating post 821 is rotatably connected to the annular frame 6, and the rotating plate 822 is fixedly sleeved on the rotating post 821 and located inside the annular frame 6. The rotating plate 822 has a circular arc groove 824 that slides with the connecting post 813, and the circular arc groove 824 is eccentrically positioned with the rotating plate 822. The handle 823 is fixed to the end of the rotating plate 822 away from the inner side of the mounting frame 1, and a sliding groove 10 is provided on the handle 823. Rotating the handle 823 drives the rotating post 821 to rotate, causing the rotating plate 822 connected to the rotating post 821 to rotate. Because the circular arc groove 824 slides with the connecting post 813 and is eccentrically positioned with the rotating plate 822, the connecting post 813 can drive the insert 812 to move away from the insertion hole 814. Similarly, rotating the handle 823 in the opposite direction causes the rotating column 821 to rotate in the opposite direction, which in turn causes the rotating plate 822 connected to the rotating column 821 to rotate in the opposite direction. This allows the connecting column 813 to drive the insert 812 to move toward the insertion hole 814, thus ensuring the normal operation of the glass.

[0035] The limiting component 83 is used to limit the handle 823. The limiting component 83 includes a sliding block 831, a spring 832, and a limiting rod 833. The sliding block 831 is slidably connected in the sliding groove 10, and the spring 832 is fixed between the sliding block 831 and the sliding groove 10. The limiting rod 833 is fixed on the sliding block 831. The side wall of the annular frame 6 is provided with positioning holes 11 that are inserted and matched with the limiting rod 833. There are two positioning holes 11, and the distance between the axis of the two positioning holes 11 and the axis of the rotating column 821 is equal. During the process of releasing the ring frame 6 from the mounting frame 1, the sliding block 831 is pressed and moved away from the ring frame 6, causing the limiting rod 833 connected to the sliding block 831 to move. The spring 832 is stressed and gradually contracts until the limiting rod 833 separates from the insertion positioning hole 11. At this time, the handle 823 is rotated and the limiting rod 833 is driven to rotate until the limiting rod 833 moves to the position of another positioning hole 11. At this time, the insert 812 and the insertion hole 814 are just separated. At the same time, the sliding block 831 is released, the spring 832 gradually extends and returns to its original position, the limiting rod 833 moves and inserts into the interior of the corresponding positioning hole 11, and limits the handle 823, improving the stability of the handle 823 when it is not in use.

[0036] A sealing mechanism 9 is mounted on an annular frame 6 and includes a sealing assembly 91 and a moving mechanism 92. The sealing assembly 91 includes a sealing canister 911, a sealing piston 912, an air supply pipe 913, and an inflatable sealing gasket 914. The sealing canister 911 is fixed to the side wall of the annular frame 6 near the inner side of the mounting frame 1. The sealing piston 912 is slidably connected inside the sealing canister 911, and the air supply pipe 913 is fixed and connected to the sealing canister 911. The inflatable sealing gasket 914 is fixed to the abutment frame 7 and is in an inflated state. The end of the air supply pipe 913 away from the sealing canister 911 is fixed and connected to the inflatable sealing gasket 914. When the inflatable sealing gasket 914 is inflated, it abuts against the side wall of the transparent glass 4 near the inflatable sealing gasket 914. During the use of this device, when the inflatable sealing gasket 914 is inflated, the inflatable sealing gasket 914 presses against the side wall of the transparent glass 4 near the inflatable sealing gasket 914, which improves the sealing effect and water-proofing effect between the transparent glass 4 and the inflatable sealing gasket 914.

[0037] The moving mechanism 92 is used to drive the sealing piston 912 to move. The moving mechanism 92 includes a turntable 921, a slide rod 922, and a connecting rod 923. The turntable 921 is fixedly sleeved on the rotating column 821, and the slide rod 922 is fixed on the sealing piston 912. The slide rod 922 passes through the sealing tank 911 and is slidably engaged. The connecting rod 923 is rotatably mounted on the turntable 921 and is eccentrically positioned on the turntable 921. The end of the connecting rod 923 away from the turntable 921 is rotatably connected to the slide rod 922. During the process of releasing the fixed state between the mounting frame 1 and the annular frame 6, the rotating column 821 is rotated and the turntable 921 is driven to rotate. Since the connecting rod 923 is rotatably connected to the turntable 921, and the connecting rod 923 and the turntable 921 are eccentrically set, the end of the connecting rod 923 away from the sealing tank 911 is rotatably connected to the slide rod 922, thereby causing the end of the connecting rod 923 close to the turntable 921 to flip, so that the connecting rod 923, the slide rod 922 connected to the connecting rod 923, and the sealing piston 912 connected to the slide rod 922 all move towards the direction close to the turntable 921. During this process, the air in the inflatable sealing gasket 914 enters the sealing tank 911 through the air supply pipe 913, thereby causing the inflatable sealing gasket 914 to gradually contract and release the tight state between it and the transparent glass 4. Similarly, during the fixing process between the mounting frame 1 and the annular frame 6, rotating the rotating column 821 drives the turntable 921 to rotate in the opposite direction, thereby causing the end of the connecting rod 923 near the turntable 921 to flip in the opposite direction. This causes the turntable 921, the slide rod 922 connected to the connecting rod 923, and the sealing piston 912 connected to the slide rod 922 to all move away from the turntable 921. During this process, the air in the sealing tank 911 enters the inflatable sealing gasket 914 through the air supply pipe 913, causing the inflatable sealing gasket 914 to gradually expand and return to its original position until the inflatable sealing gasket 914 and the transparent glass 4 are in a tight abutment state, ensuring normal sealing operation.

[0038] An annular sealing gasket 12 is inserted into the mounting groove 2, and the side wall of the transparent glass 4 away from the inflatable sealing gasket 914 is pressed tightly against the annular sealing gasket 12. This improves the water-proof effect between the inflatable sealing gasket 914 and the mounting groove 2.

[0039] A baffle 13 is rotatably mounted on the inner wall of the mounting frame 1. The side wall of the baffle 13 closest to the transparent glass 4 is in contact with the transparent glass 4. The inflatable sealing gasket 914 has a notch 14 at one end near the baffle 13 for insertion and mating with the baffle 13. Due to the limiting effect of the baffle 13 on the transparent glass 4, the transparent glass 4 is prevented from falling out of the mounting groove 2 during the disassembly or fixing of the mounting frame 1 and the annular frame 6.

[0040] The above description is merely a preferred embodiment of this utility model. The protection scope of this utility model is not limited to the above embodiments. All technical solutions falling within the scope of this utility model's concept are protected. It should be noted that for those skilled in the art, any improvements and modifications made without departing from the principle of this utility model should also be considered within the protection scope of this utility model.

Claims

1. A water leakage prevention type aluminum alloy door and window comprising a mounting frame (1) which is a hollow structure with one side open, characterized in that: The mounting frame (1) has an mounting groove (2) on its inner side wall. The mounting frame (1) has a mounting through hole (3) that communicates with the mounting groove (2) on its side wall. A transparent glass (4) is inserted into the mounting groove (2). The mounting frame (1) has an insertion groove (5) that communicates with the inside of the mounting frame (1) on its side wall. An annular frame (6) is inserted into the insertion groove (5). A clamping frame (7) is fixed on the side wall of the annular frame (6) near the inside of the mounting frame (1). The clamping frame (7) fits against the transparent glass (4). The mounting frame (1) and the annular frame (6) are both provided with a positioning mechanism (8) for fixing the mounting frame (1) and the annular frame (6).

2. The waterproof aluminum alloy door and window according to claim 1, characterized in that: The annular frame (6) has a hollow internal structure. The positioning mechanism (8) includes a positioning component (81). The positioning component (81) includes a fixing strip (811) fixed inside the annular frame (6), an insert (812) that passes through the fixing strip (811) and slides in cooperation with it, and a connecting post (813) that is rotatably installed on the insert (812). The insert (812) passes through the annular frame (6) and slides in cooperation with it. The mounting frame (1) has a through hole (814) that is inserted and cooperates with the insert (812). The positioning mechanism (8) also includes a displacement component (82) for driving the connecting post (813) to move.

3. The waterproof aluminum alloy door and window according to claim 2, characterized in that: The displacement component (82) includes a rotating column (821) that is rotatably connected to the annular frame (6), a rotating plate (822) that is fixedly sleeved on the rotating column (821) and located inside the annular frame (6), and a handle (823) fixed to one end of the rotating plate (822) away from the inner side of the mounting frame (1). The rotating plate (822) is provided with an arc groove (824) that slides with the connecting column (813). The arc groove (824) is eccentrically disposed with the rotating plate (822). The positioning mechanism (8) also includes a limiting component (83) for limiting the handle (823).

4. A water-proof aluminum alloy door and window according to claim 3, characterized in that: The handle (823) is provided with a sliding groove (10). The limiting component (83) includes a sliding block (831) slidably connected in the sliding groove (10), a spring (832) fixed between the sliding block (831) and the sliding groove (10), and a limiting rod (833) fixed on the sliding block (831). The side wall of the annular frame (6) is provided with a positioning hole (11) that is inserted and cooperates with the limiting rod (833). There are two positioning holes (11), and the distance between the axis of the two positioning holes (11) and the axis of the rotating column (821) is equal.

5. A water-proof aluminum alloy door and window according to claim 1, characterized in that: A sealing mechanism (9) is provided on the annular frame (6). The sealing mechanism (9) includes a sealing component (91). The sealing component (91) includes a sealing can (911) fixed to the side wall of the annular frame (6) near the inner side of the mounting frame (1), a sealing piston (912) slidably connected to the sealing can (911), an air supply pipe (913) fixed and connected to the sealing can (911), and an inflatable sealing pad (914) fixed to the pressing frame (7) and in an expanded state. The end of the air supply pipe (913) away from the sealing can (911) is fixed and connected to the inflatable sealing pad (914). When the inflatable sealing pad (914) is inflated, the inflatable sealing pad (914) abuts against the side wall of the transparent glass (4) near the inflatable sealing pad (914). The sealing mechanism (9) also includes a moving mechanism (92) for driving the sealing piston (912) to move.

6. A water-proof aluminum alloy door and window according to claim 5, characterized in that: The moving mechanism (92) includes a turntable (921) fixedly sleeved on a rotating column (821), a slide rod (922) fixed on a sealing piston (912), and a connecting rod (923) rotatably mounted on the turntable (921) and eccentrically disposed on the turntable (921). The slide rod (922) passes through the sealing tank (911) and is slidably engaged. The end of the connecting rod (923) away from the turntable (921) is rotatably connected to the slide rod (922).

7. A water-proof aluminum alloy door and window according to claim 5, characterized in that: An annular sealing gasket (12) is inserted into the mounting groove (2), and the side wall of the transparent glass (4) away from the inflatable sealing gasket (914) abuts against the annular sealing gasket (12).

8. A water-proof aluminum alloy door and window according to claim 5, characterized in that: A baffle (13) is rotatably installed on the inner side wall of the mounting frame (1). The side wall of the baffle (13) near the transparent glass (4) is in contact with the transparent glass (4). The inflatable sealing gasket (914) has a notch (14) at one end near the baffle (13) that is inserted into the baffle (13).