Thermal insulation energy-saving aluminum alloy casement window

By using a water pump-driven spraying system and a motor-driven threaded transmission mechanism, combined with a brush plate design, the safety and convenience issues of cleaning the exterior of aluminum alloy casement windows have been resolved, achieving a self-cleaning function and improving cleaning effectiveness and maintenance efficiency.

CN224496305UActive Publication Date: 2026-07-14JIANGSU ABELUO SMART HOME CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU ABELUO SMART HOME CO LTD
Filing Date
2025-08-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing heat-insulating and energy-saving aluminum alloy casement windows pose safety risks and inconvenience when cleaning the outside of the glass, requiring users to lean out of the window to clean, which increases the risk of falling from a height.

Method used

A water pump drives a spray assembly to wet the outside of the window sash glass, and a motor-driven threaded transmission mechanism drives a brush plate to wipe the outside of the glass. Combined with the quick-release brush plate design, it achieves a self-cleaning function.

Benefits of technology

It achieves self-cleaning on the outside of the glass, avoids the risk of falling from heights, improves the safety and efficiency of cleaning, and ensures cleaning effect. The quick disassembly and assembly of the brush plate improves maintenance efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of aluminium alloy casement window of heat insulation energy saving, it is related to building door and window technical field, including aluminium alloy outer frame, the inner surface wall of aluminium alloy outer frame is fixedly connected with sash by hinge, the inner surface wall of sash is equipped with two sliding grooves, the inner surface wall between two sliding grooves is slidably embedded with sliding block, the inner surface wall of one of two sliding blocks is threadedly connected with threaded rod, the bottom of threaded rod is fixedly connected with micro motor.In the utility model, through the interaction of each component of the device, the self-cleaning function of the outer side of the casement window glass is realized, avoiding manual outdoor cleaning operation by sticking out the body, thereby effectively avoiding the safety risks such as high-altitude falling, making the glass cleaning process safer and more efficient. In addition, the reciprocating wiping of the spray and the brush plate can ensure that the cleaning effect reaches the best state.
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Description

Technical Field

[0001] This utility model relates to the field of building door and window technology, and in particular to a heat-insulating and energy-saving aluminum alloy casement window. Background Technology

[0002] Aluminum alloy casement windows are a type of window with an aluminum alloy frame that opens by rotating the sash around an axis using hinges or latches. They offer good sealing and sound insulation, while also possessing the strength and durability of aluminum alloy.

[0003] In modern building energy conservation systems, aluminum alloy casement windows need to have high-efficiency thermal insulation and energy-saving performance to reduce building energy consumption and improve indoor comfort. Thermally insulated and energy-saving aluminum alloy casement windows can effectively reduce heat conduction and air infiltration by adopting thermal break technology, configuring double-glazed Low-E glass, and optimizing the sealing structure, thereby significantly reducing indoor and outdoor heat exchange and achieving the building's energy conservation and emission reduction goals.

[0004] However, existing heat-insulating and energy-saving aluminum alloy casement windows have the following shortcomings:

[0005] In the existing technology, heat-insulating and energy-saving aluminum alloy casement windows are usually designed to open outwards. However, in long-term use, the outside of the window glass cannot be cleaned directly from inside the room. If users want to clean the outside glass, they have to lean out of the window to wipe it clean. This cleaning method exposes users to safety risks such as falling from a height, resulting in great safety hazards in the cleaning process and increasing the difficulty and inconvenience of cleaning.

[0006] Therefore, we propose a heat-insulating and energy-saving aluminum alloy casement window to solve the problems mentioned above. Utility Model Content

[0007] The purpose of this invention is to provide a heat-insulating and energy-saving aluminum alloy casement window. By using a water pump driven in conjunction with the spraying action of a spray assembly, the outer side of the window sash glass can be moistened. Furthermore, through a motor driven in conjunction with a threaded transmission mechanism, a brush plate can wipe the outer side of the glass, thereby solving the problems mentioned in the background art.

[0008] To achieve the above objectives, the present invention adopts the following technical solution: a heat-insulating and energy-saving aluminum alloy casement window, comprising an aluminum alloy outer frame, a window sash fixedly connected to the inner wall of the aluminum alloy outer frame via hinges, two sliding grooves formed on the inner wall of the window sash, a slider slidably embedded between the inner walls of the two sliding grooves, a threaded rod threadedly connected to the inner wall of one of the two sliders, a micro motor fixedly connected to the bottom of the threaded rod, two bearings fixedly sleeved on the outer wall of the threaded rod, and the outer walls of the two bearings movably inserted into the interior of the window sash, a guide rod movably inserted into the inner wall of the other of the two sliders, and the outer wall of the guide rod fixedly connected to the inner wall of the aluminum alloy outer frame, a connecting plate fixedly connected between one side of the outer walls of the two sliders, and a brush plate movably contacting one side of the outer wall of the connecting plate.

[0009] Preferably, a miniature water pump is fixedly connected to the inner wall of the aluminum alloy frame, the output end of the miniature water pump is fixedly connected to a spray pipe, and a set of spray nozzles is fixedly connected to the outer wall of the spray pipe.

[0010] Preferably, the input end of the micro water pump is fixedly connected to a connecting pipe, and the output end of the connecting pipe is fixedly connected to a quick connector.

[0011] Preferably, a set of embedding blocks are fixedly connected to the outer wall of the connecting plate, and a set of embedding grooves are opened at the bottom of the brush plate, and the outer wall of the set of embedding blocks is movably inserted into the interior of the set of embedding grooves.

[0012] Preferably, a limiting groove is formed on one side of the outer wall of each set of the embedded blocks, and a limiting block is movably inserted into the inner surface of each set of the limiting grooves.

[0013] Preferably, a pull plate is fixedly connected between one side of the outer wall of a group of limiting blocks.

[0014] Preferably, four return springs are fixedly connected to one side of the outer wall of the pull plate, and the outer walls of the four return springs are fixedly connected to the inner wall of the connecting plate.

[0015] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0016] 1. In this utility model, through the interaction of the various components of the device, the water pump drives the spraying action of the spraying component to moisten the outside of the window glass. Furthermore, through the motor drive combined with the threaded transmission mechanism, the brush plate can wipe the outside of the glass. In this way, the self-cleaning function of the outside of the casement window glass is realized, avoiding the need for manual leaning out to perform outdoor cleaning operations, thereby effectively avoiding safety risks such as falling from heights, making the glass cleaning process safer and more efficient. In addition, the combination of spraying and the reciprocating wiping of the brush plate can ensure that the cleaning effect reaches the optimal state.

[0017] 2. In this utility model, through the interaction of the various components of the device and the quick-locking and fixing of the fixing components, the brush plate can be quickly disassembled and assembled, thereby greatly improving maintenance efficiency. When the brush plate becomes dirty or worn due to long-term use, the user can easily disassemble it for cleaning or replacement, ensuring that the window sash glass cleaning component always maintains good working performance. Attached Figure Description

[0018] Figure 1 This utility model presents a front view perspective view of a heat-insulating and energy-saving aluminum alloy casement window.

[0019] Figure 2 This utility model provides a three-dimensional exploded view of the internal structure of a heat-insulating and energy-saving aluminum alloy casement window.

[0020] Figure 3 This utility model provides a partial structural sectional perspective view of an aluminum alloy casement window that is heat-insulating and energy-saving.

[0021] Figure 4 This utility model presents a partial structural anatomical view of an aluminum alloy casement window, taken from below.

[0022] Figure 5 This utility model presents a partial structural side-view three-dimensional exploded view of a heat-insulating and energy-saving aluminum alloy casement window.

[0023] Legend: 1. Aluminum alloy frame; 2. Window sash; 3. Slide rail; 4. Slider; 5. Threaded rod; 6. Miniature motor; 7. Bearing; 8. Guide rod; 9. Connecting plate; 10. Brush plate; 11. Miniature water pump; 12. Sprinkler pipe; 13. Sprinkler head; 14. Connecting pipe; 15. Quick connector; 16. Embedded block; 17. Embedded groove; 18. Limiting groove; 19. Limiting block; 20. Pull plate; 21. Return spring. Detailed Implementation

[0024] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0025] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.

[0026] Example 1, as shown in the attached document Figure 1 -Appendix Figure 5 As shown, this utility model provides a technical solution: a heat-insulating and energy-saving aluminum alloy casement window, including an aluminum alloy outer frame 1. A window sash 2 is fixedly connected to the inner wall of the aluminum alloy outer frame 1 via hinges. Two sliding grooves 3 are formed on the inner wall of the window sash 2. A slider 4 is slidably embedded between the inner walls of the two sliding grooves 3. A threaded rod 5 is threadedly connected to the inner wall of one of the two sliders 4. A micro motor 6 is fixedly connected to the bottom of the threaded rod 5. Two bearings 7 are fixedly sleeved on the outer wall of the threaded rod 5, and the outer walls of the two bearings 7 are movably inserted into the interior of the window sash 2. The other two sliders 4... A guide rod 8 is movably inserted into the inner wall of one of the aluminum alloy outer frames 1, and the outer wall of the guide rod 8 is fixedly connected to the inner wall of the aluminum alloy outer frame 1. A connecting plate 9 is fixedly connected between one side of the outer wall of the two sliders 4. A brush plate 10 is movably contacted on one side of the outer wall of the connecting plate 9. A micro water pump 11 is fixedly connected to the inner wall of the aluminum alloy outer frame 1. A spray pipe 12 is fixedly connected to the output end of the micro water pump 11. A set of nozzles 13 is fixedly connected to the outer wall of the spray pipe 12. A connecting pipe 14 is fixedly connected to the input end of the micro water pump 11. A quick connector 15 is fixedly connected to the output end of the connecting pipe 14.

[0027] The overall effect achieved by Embodiment 1 is as follows: During use, when it is necessary to clean the outside of the window sash 2, first connect the external water pipe to the water source and connect it to the quick connector 15. At this time, start the micro water pump 11 and the micro motor 6. After the micro water pump 11 starts, it draws clean water from the external water source and pressurizes it, so that the clean water flows through the connecting pipe 14 to the spray pipe 12. Then, under the action of a set of spray nozzles 13, the clean water sprays and moistens the glass of the window sash 2 in the form of a fine water mist. At the same time, the micro motor 6 starts and drives the threaded rod 5 to rotate. With the help of a threaded transmission mechanism, the slider 4 on the outer wall of the threaded rod 5 moves up and down in the groove 3. Through the linkage of the connecting plate 9, another slider 4 also moves synchronously. When the connecting plate 9 moves, it drives the brush plate 10 to move synchronously. During the movement of the brush plate 10, it wipes and cleans the glass. At the same time, with the spraying effect of a set of nozzles 13, the cleaning effect of the glass is better. In this way, there is no need for people to stick their bodies out for dangerous outdoor cleaning operations, thus effectively avoiding safety risks such as falling from heights, making the glass cleaning process safer and more convenient.

[0028] Example 2, as Figure 2-5As shown, a set of embedding blocks 16 are fixedly connected to the outer wall of the connecting plate 9. A set of embedding grooves 17 are opened at the bottom of the brush plate 10, and the outer wall of the set of embedding blocks 16 is movably inserted into the interior of the set of embedding grooves 17. A limiting groove 18 is opened on one side of the outer wall of the set of embedding blocks 16. A limiting block 19 is movably inserted into the inner wall of the set of limiting grooves 18. A pull plate 20 is fixedly connected between the outer walls of the set of limiting blocks 19. Four return springs 21 are fixedly connected to one side of the outer wall of the pull plate 20, and the outer walls of the four return springs 21 are fixedly connected to the inner wall of the connecting plate 9.

[0029] The effect achieved by the entire embodiment 2 is as follows: when the brush plate 10 has been cleaned for a long time, and dirt accumulates on the brush, or the brush is worn or deformed, and maintenance or replacement is required, first pull the pull plate 20. The pull plate 20 drives a set of limiting blocks 19 to move outward, so that the set of limiting blocks 19 moves out of the corresponding limiting groove 18, thereby releasing the fixation of the brush plate 10. At this time, moving the brush plate 10 upward can separate it from a set of embedded blocks 16, so that the brush plate 10 can be cleaned or replaced. In this way, the quick disassembly and assembly of the brush plate 10 is achieved, thereby greatly improving maintenance efficiency and ensuring that the cleaning device always maintains good working performance.

[0030] The working principle of the entire device is as follows: When using the device, if it is necessary to clean the outside of the glass of window sash 2, the user first connects the external water pipe to the water source and connects the external water pipe to the quick connector 15. After the connection is completed, the micro water pump 11 and the micro motor 6 are started. The micro water pump 11 starts running, draws clean water from the external water source and pressurizes it. The pressurized clean water flows into the spray pipe 12 through the connecting pipe 14. Under the action of a set of spray nozzles 13, the clean water is sprayed evenly on the glass of window sash 2 in the form of a fine mist to moisten the glass. At the same time, the micro motor 6 starts, and the motor drives the threaded rod. When the threaded rod 5 rotates, the slider 4 on its outer wall moves up and down in the groove 3 under the action of the threaded transmission. Since the outer wall of the connecting plate 9 is fixedly connected to one side of the outer wall of the two sliders 4, the movement of one slider 4 causes the other slider 4 to move synchronously through the linkage of the connecting plate 9. During the movement of the connecting plate 9, the brush plate 10 connected to it also moves synchronously. During the movement of the brush plate 10, its brushes wipe the glass. The brush wiping and the spraying effect of a set of nozzles 13 work together to greatly improve the cleaning effect of the glass. When the brush plate 10 has been in operation for a long time... After cleaning, if the brush has accumulated a lot of dirt, or if the brush is worn or deformed and requires maintenance or replacement, the user first pulls the pull plate 20. The pull plate 20, under pressure, moves a set of limiting blocks 19 outwards, causing them to move out of their corresponding limiting grooves 18, thus releasing the brush plate 10 from its fixation. At this point, moving the brush plate 10 upwards separates it from a set of embedded blocks 16, facilitating cleaning or replacement. During the pulling of the pull plate 20, the movement of the pull plate 20 stretches four return springs 21, causing the return springs 2... 1. It generates elastic deformation and stores elastic potential energy. When the maintenance or replacement of the brush plate 10 is completed and the brush plate 10 is reinstalled, the set of embedding slots 17 at the bottom of the brush plate 10 is accurately aligned and the corresponding embedding block 16 is inserted. At this time, the elastic restoring force of the four return springs 21 is used to cause the springs to contract and drive the limiting block 19 to move inward, so that the set of limiting blocks 19 are inserted into the corresponding limiting slot 18, thereby forming a stable tenon and mortise connection between the brush plate 10 and the connecting plate 9, ensuring that the brush plate 10 is stable and reliable in subsequent use, and will not loosen or shift, thus ensuring the smooth progress of cleaning work.

[0031] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.

Claims

1. A heat-insulating and energy-saving aluminum alloy casement window, characterized in that: The device includes an aluminum alloy frame (1), and a window sash (2) is fixedly connected to the inner wall of the aluminum alloy frame (1) by a hinge. The inner wall of the window sash (2) has two grooves (3), and a slider (4) is slidably embedded between the inner walls of the two grooves (3). One of the sliders (4) has a threaded rod (5) threadedly connected to its inner wall. A micro motor (6) is fixedly connected to the bottom of the threaded rod (5). Two bearings (7) are fixedly sleeved on the outer wall of the threaded rod (5), and the outer walls of the two bearings (7) are movably inserted into the interior of the window sash (2). A guide rod (8) is movably inserted into the inner wall of the other slider (4), and the outer wall of the guide rod (8) is fixedly connected to the inner wall of the aluminum alloy frame (1). A connecting plate (9) is fixedly connected between one side of the outer wall of the two sliders (4), and a brush plate (10) is movably contacted on one side of the outer wall of the connecting plate (9).

2. The heat-insulating and energy-saving aluminum alloy casement window according to claim 1, characterized in that: A micro water pump (11) is fixedly connected to the inner wall of the aluminum alloy outer frame (1), and a spray pipe (12) is fixedly connected to the output end of the micro water pump (11). A set of nozzles (13) is fixedly connected to the outer wall of the spray pipe (12).

3. The heat-insulating and energy-saving aluminum alloy casement window according to claim 2, characterized in that: The input end of the micro water pump (11) is fixedly connected to a connecting pipe (14), and the output end of the connecting pipe (14) is fixedly connected to a quick connector (15).

4. The heat-insulating and energy-saving aluminum alloy casement window according to claim 3, characterized in that: A set of embedding blocks (16) are fixedly connected to the outer wall of the connecting plate (9), and a set of embedding grooves (17) are opened at the bottom of the brush plate (10), and the outer wall of the set of embedding blocks (16) is movably inserted into the interior of the set of embedding grooves (17).

5. The heat-insulating and energy-saving aluminum alloy casement window according to claim 4, characterized in that: A limiting groove (18) is provided on one side of the outer wall of each of the set of embedded blocks (16), and a limiting block (19) is movably inserted into the inner surface of each of the set of limiting grooves (18).

6. The heat-insulating and energy-saving aluminum alloy casement window according to claim 5, characterized in that: A pull plate (20) is fixedly connected between one side of the outer wall of a set of limiting blocks (19).

7. The heat-insulating and energy-saving aluminum alloy casement window according to claim 6, characterized in that: Four return springs (21) are fixedly connected to one side of the outer wall of the pull plate (20), and the outer wall of the four return springs (21) is fixedly connected to the inner wall of the connecting plate (9).