Aluminum plastic door and window integrated anti-mosquito and anti-insect net
By using the connecting components and fixing rope design of the integrated aluminum-plastic door and window mosquito and insect net, the problem of high cleaning difficulty of the insect net is solved, and convenient disassembly and installation are achieved, thus improving cleaning efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI GUOYE CURTAIN WALL DOOR & WINDOW MFG CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-06-23
Smart Images

Figure CN224396377U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aluminum-plastic doors and windows technology, and in particular to an integrated mosquito and insect-proof net for aluminum-plastic doors and windows. Background Technology
[0002] Aluminum-plastic door and window mosquito nets are mosquito-proof devices specially designed for aluminum-plastic doors and windows. They not only effectively prevent mosquitoes from entering the room, but also have a variety of functions and features, enhancing the practicality and aesthetics of doors and windows.
[0003] Existing insect nets are slidably attached to window frames during use. The net consists of a frame body and a mesh surface. The frame body is slidably connected to the window frame, while the mesh surface is hinged to the frame body. After prolonged use, a large number of dead insects accumulate on the mesh surface. If workers need to clean the mesh, they must disassemble the frame body, increasing the difficulty of their work. Utility Model Content
[0004] To address the aforementioned problems, this utility model provides an integrated aluminum-plastic door and window mosquito and insect net.
[0005] The above-mentioned technical objective of this utility model is achieved through the following technical solution: an integrated mosquito and insect net for aluminum-plastic doors and windows, including a window frame, a frame body slidably disposed within the window frame, an insect net body disposed within the frame body, the insect net body including an installation frame disposed within the frame body and a mesh surface installed within the installation frame, and a connecting component for connecting the installation frame and the frame body to each other on the frame body.
[0006] By adopting the above technical solution, when workers use the insect-proof net body, they slide the frame body, which in turn moves the insect-proof net body. During this process, when workers need to clean the insect-proof net body, they can disassemble and reassemble the insect-proof net body through connecting components, thereby reducing the difficulty of cleaning the insect-proof net body and thus reducing the difficulty of the workers' work.
[0007] Furthermore, the inner top and bottom walls of the frame body are provided with mounting grooves, and the inner walls of the mounting grooves are provided with fixing grooves. The connecting assembly includes a mounting block slidably disposed in the mounting groove, and a connecting groove is provided on the side wall of the mounting block. The connecting assembly also includes a fixing block slidably disposed in the fixing groove and a first spring fixedly disposed on the side wall of the fixing block. The fixing block is slidably connected to the connecting groove, and the mounting block is fixed to the mounting frame. The other end of the first spring is fixedly disposed on the inner wall of the fixing groove. A first inclined surface is provided on the edge of the fixing block where the side wall away from the first spring intersects with the side wall of the mounting frame.
[0008] By adopting the above technical solution, when workers need to install the insect-proof net body, they must align the mounting block with the mounting groove. Then, the workers move the mounting block into the mounting groove, gradually bringing it closer to and ultimately pressing it against the first inclined surface, causing the fixing block to slide into the fixing groove under the action of the mounting block. Subsequently, when the fixing groove and the connecting groove are aligned, the fixing block slides one end into the connecting groove under the action of the first spring, thus fixing the mounting block in the mounting groove and connecting the mounting frame to the frame body.
[0009] Furthermore, the inner top wall and inner bottom wall of the frame body are provided with rotating grooves, and rotating parts are rotatably arranged in the rotating grooves. A fixing rope is wound around the outer wall of the rotating parts, and the other end of the fixing rope extends into the fixing groove and is fixed to the fixing block.
[0010] By adopting the above technical solution, when workers need to disassemble the insect-proof netting, they need to rotate the rotating component, causing one end of the fixing rope to wrap around the outer wall of the rotating component. This allows the other end of the fixing rope to slide away from the connecting groove, causing the fixing block to slide away from the connecting groove under the action of the fixing rope, thus separating the fixing block from the connecting groove. At this point, the fixing block loses its restraint on the installation block, and workers can disassemble the insect-proof netting, thereby reducing the difficulty of cleaning the insect-proof netting and thus reducing the workload for workers.
[0011] Furthermore, the outer wall of the rotating component is provided with multiple movable grooves, the inner wall of the multiple movable grooves is provided with a common sliding groove, the multiple movable grooves are provided with a movable ball, and the sliding ball is slidably disposed in the sliding groove.
[0012] Furthermore, a threaded rod is threaded through the upper surface of the rotating component, and the bottom surface of the threaded rod is fixed to the sliding ball.
[0013] By adopting the above technical solution, when the operator needs to fix the rotating part, the operator needs to rotate the threaded rod, which moves the threaded rod downward, thereby causing the sliding ball to move downward under the action of the threaded rod. This causes multiple movable balls to press against the inner wall of the rotating groove under the action of the sliding ball, thereby reducing the probability of the rotating part rotating due to external force and thus improving the stability of the device.
[0014] Furthermore, a rotating groove is formed on the inner wall of the rotating groove, and a rubber ring is fixedly installed in the rotating groove. The rotating component is rotatably connected to the rubber ring.
[0015] By adopting the above technical solutions, such as Figure 3As shown, when the movable ball presses against the inner wall of the rotating groove under the action of the sliding ball, the rubber ring deforms under the action of the movable ball. During this process, the rubber ring increases the friction between the movable ball and the rotating groove, thereby further reducing the probability of the rotating part rotating under external force, thus improving the stability of the device.
[0016] Furthermore, a hexagonal groove is formed on the upper surface of the threaded rod.
[0017] By adopting the above technical solution, the hexagonal groove reduces the difficulty for workers to rotate the threaded rod, thereby reducing the difficulty of their work.
[0018] Furthermore, a receiving groove is provided on the inner wall of the rotating groove.
[0019] By adopting the above technical solution, the receiving groove reduces the difficulty of fixing the rope to be wrapped around the outer wall of the rotating part, thereby reducing the difficulty of the workers' work.
[0020] In summary, this utility model has the following beneficial effects:
[0021] 1. In this application, when the staff uses the insect net body, the staff slides the frame body, which in turn causes the frame body to move the insect net body. During this process, when the staff needs to clean the insect net body, the staff disassembles and connects the insect net body through the connecting components, thereby reducing the difficulty of cleaning the insect net body and thus reducing the difficulty of the staff's work.
[0022] 2. In this application, when workers need to install the insect-proof net body, they must align the mounting block with the mounting groove. Then, the workers move the mounting block into the mounting groove, gradually bringing it closer to and ultimately pressing it against the first inclined surface, causing the fixing block to slide into the fixing groove under the action of the mounting block. Subsequently, when the fixing groove and the connecting groove are aligned, the fixing block slides one end into the connecting groove under the action of the first spring, thereby fixing the mounting block in the mounting groove and connecting the mounting frame and the frame body.
[0023] 3. In this application, when workers need to disassemble the insect-proof net body, they need to rotate the rotating component, causing one end of the fixing rope to wrap around the outer wall of the rotating component. This allows the other end of the fixing rope to slide away from the connecting groove, causing the fixing block to slide away from the connecting groove under the action of the fixing rope, thus separating the fixing block from the connecting groove. At this point, the fixing block loses its restraint on the installation block, and workers can disassemble the insect-proof net body, thereby reducing the difficulty of cleaning the insect-proof net body and thus reducing the workload of the workers. Attached Figure Description
[0024] Figure 1This is a schematic diagram of the overall structure of an embodiment of the present utility model;
[0025] Figure 2 This is a cross-sectional structural diagram of the connecting component in an embodiment of this utility model;
[0026] Figure 3 yes Figure 2 A magnified structural diagram of A in the diagram.
[0027] In the diagram: 1. Window frame; 11. Frame body; 12. Insect net body; 121. Mounting frame; 122. Mesh surface; 2. Mounting groove; 21. Fixing groove; 22. Connecting groove; 23. Rotating groove; 24. Movable groove; 25. Sliding groove; 26. Rotating groove; 3. Connecting assembly; 31. Mounting block; 32. Fixing block; 33. First spring; 34. First inclined surface; 4. Rotating component; 41. Fixing rope; 5. Movable ball; 51. Sliding ball; 6. Threaded rod; 7. Rubber ring; 8. Hexagonal groove; 9. Receiving groove. Detailed Implementation
[0028] 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.
[0029] like Figure 1-3 As shown in the illustration, this application discloses an integrated aluminum-plastic window and door mosquito and insect net, including a window frame 1, a frame body 11, an insect net body 12, a connecting component 3, a rotating component 4, a fixing rope 41, a movable ball 5, a sliding ball 51, a threaded rod 6, and a rubber ring 7. The window frame 1 is a cuboid structure, and the frame body 11 is also a cuboid structure, with the frame body 11 slidably disposed within the window frame 1. The insect net body 12 is disposed within the frame body 11, and includes a mounting frame 121 and a mesh surface 122. The mounting frame 121 is disposed within the frame body 11, and the mesh surface 122 is mounted within the mounting frame 121.
[0030] When the staff uses the insect net body 12, the staff slides the frame body 11, which in turn moves the insect net body 12. During this process, when the staff needs to clean the insect net body 12, the staff disassembles and connects the insect net body 12 through the connecting component 3, which reduces the difficulty of cleaning the insect net body 12 and thus reduces the difficulty of the staff's work.
[0031] Mounting grooves 2 are provided on the inner top and bottom walls of the frame body 11, and fixing grooves 21 are provided on the inner walls of the mounting grooves 2. A connecting component 3 is provided on the frame body 11 to connect the mounting frame 121 to the frame body 11. The connecting component 3 includes a mounting block 31, a fixing block 32, and a first spring 33. The mounting block 31 is a rectangular block structure, slidably disposed within the mounting groove 2, and has a connecting groove 22 on its side wall. The mounting block 31 is fixed to the mounting frame 121. The fixing block 32 is a rectangular block structure, slidably disposed within the fixing groove 21, and is slidably connected to the connecting groove 22. One end of the first spring 33 is fixedly disposed on the side wall of the fixing block 32, and the other end is fixedly disposed on the inner wall of the fixing groove 21. A first inclined surface 34 is provided on the edge of the fixing block 32 where it intersects with the side wall of the mounting frame 121, away from the side wall of the first spring 33.
[0032] When the worker needs to install the insect-proof net body 12, the worker must align the mounting block 31 with the mounting groove 2. Then, the worker moves the mounting block 31 into the mounting groove 2, gradually bringing it closer to and ultimately pressing it against the first inclined surface 34, causing the fixing block 32 to slide into the fixing groove 21 under the action of the mounting block 31. Subsequently, when the fixing groove 21 is aligned with the connecting groove 22, the fixing block 32 slides one end into the connecting groove 22 under the action of the first spring 33, thus fixing the mounting block 31 within the mounting groove 2, thereby connecting the mounting frame 121 to the frame body 11.
[0033] Rotating grooves 23 are provided on the inner top and bottom walls of the frame body 11. The rotating component 4 is rotatably disposed in the rotating groove 23 with its axis vertical. One end of the fixing rope 41 is wrapped around the outer wall of the rotating component 4, and the other end of the fixing rope 41 extends into the fixing groove 21 and is fixed to the fixing block 32.
[0034] When workers need to disassemble the insect-proof net body 12, they need to rotate the rotating component 4, causing one end of the fixing rope 41 to wrap around the outer wall of the rotating component 4. This allows the other end of the fixing rope 41 to slide away from the connecting groove 22, causing the fixing block 32 to slide away from the connecting groove 22 under the action of the fixing rope 41, thus separating the fixing block 32 from the connecting groove 22. At this time, the fixing block 32 loses its restraint on the mounting block 31, and workers can then disassemble the insect-proof net body 12, thereby reducing the difficulty of cleaning the insect-proof net body 12 and thus reducing the workload for workers.
[0035] Multiple movable grooves 24 are provided on the outer wall of the rotating component 4, and a sliding groove 25 is provided on the inner wall of the multiple movable grooves 24. Multiple movable balls 5 are provided and are respectively disposed in the multiple movable grooves 24, and the sliding ball 51 is slidably disposed in the sliding groove 25.
[0036] The threaded rod 6 is threaded through the upper surface of the rotating part 4, and its axis coincides with the axis of the rotating part 4. The bottom surface of the threaded rod 6 is fixed to the sliding ball 51.
[0037] When the operator needs to fix the rotating part 4, the operator needs to rotate the threaded rod 6, which will move the threaded rod 6 downward. This will cause the sliding ball 51 to move downward under the action of the threaded rod 6, and then cause the multiple movable balls 5 to press against the inner wall of the rotating groove 23 under the action of the sliding ball 51. This will reduce the probability of the rotating part 4 rotating under external force, and thus improve the stability of the device.
[0038] A rotating groove 26 is provided on the inner wall of the rotating groove 23. The rubber ring 7 is fixedly installed in the rotating groove 26, and the rotating part 4 is rotatably connected to the rubber ring 7.
[0039] like Figure 3 As shown, when the movable ball 5 presses against the inner wall of the rotating groove 23 under the action of the sliding ball 51, the rubber ring 7 deforms under the action of the movable ball 5. During this process, the rubber ring 7 increases the friction between the movable ball 5 and the rotating groove 23, thereby further reducing the probability of the rotating part 4 rotating under external force, thus improving the stability of the device.
[0040] To reduce the difficulty of the work for the workers, a hexagonal groove 8 is provided on the upper surface of the threaded rod 6. The hexagonal groove 8 reduces the difficulty for the workers to rotate the threaded rod 6, thereby reducing the difficulty of the work for the workers.
[0041] To reduce the difficulty of the work for the workers, a receiving groove 9 is provided on the inner wall of the rotating groove 23. The receiving groove 9 reduces the difficulty of the fixing rope 41 being wrapped around the outer wall of the rotating part 4, thereby reducing the difficulty of the work for the workers.
[0042] The working principle of the integrated aluminum-plastic door and window mosquito and insect net in this embodiment is as follows: When the staff uses the insect net body 12, the staff slides the frame body 11, which in turn causes the frame body 11 to move the insect net body 12. During this process, when the staff needs to clean the insect net body 12, the staff disassembles and connects the insect net body 12 through the connecting component 3, thereby reducing the difficulty of cleaning the insect net body 12 and thus reducing the difficulty of the staff's work.
[0043] 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. An integrated aluminum-plastic window and door mosquito-proof and insect-proof net, comprising a window frame (1), characterized in that: A frame body (11) is slidably disposed within the window frame (1), and an insect-proof net body (12) is disposed within the frame body (11). The insect-proof net body (12) includes an installation frame (121) disposed within the frame body (11) and a mesh surface (122) installed within the installation frame (121). A connecting component (3) is disposed on the frame body (11) for connecting the installation frame (121) and the frame body (11) to each other.
2. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 1, characterized in that: The frame body (11) has mounting grooves (2) on its inner top and bottom walls. The mounting grooves (2) have fixing grooves (21) on their inner walls. The connecting component (3) includes a mounting block (31) that is slidably disposed in the mounting groove (2). The mounting block (31) has a connecting groove (22) on its side wall. The connecting component (3) also includes a fixing block (32) that is slidably disposed in the fixing groove (21) and a first spring (33) that is fixedly disposed on the side wall of the fixing block (32). The fixing block (32) is slidably connected to the connecting groove (22). The mounting block (31) is fixed to the mounting frame (121). The other end of the first spring (33) is fixedly disposed on the inner wall of the fixing groove (21). The side wall of the fixing block (32) away from the first spring (33) and the side wall of the mounting frame (121) that intersects with it has a first inclined surface (34).
3. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 2, characterized in that: The inner top wall and inner bottom wall of the frame body (11) are provided with rotating grooves (23). A rotating component (4) is rotatably arranged in the rotating groove (23). A fixing rope (41) is wound around the outer wall of the rotating component (4). The other end of the fixing rope (41) extends into the fixing groove (21) and is fixed to the fixing block (32).
4. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 3, characterized in that: The outer wall of the rotating component (4) is provided with multiple movable grooves (24), and the inner wall of the multiple movable grooves (24) is provided with a common sliding groove (25). The multiple movable grooves (24) are provided with a common movable ball (5), and the sliding ball (51) is slidably arranged in the sliding groove (25).
5. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 4, characterized in that: The upper surface of the rotating part (4) is threaded with a threaded rod (6), and the bottom surface of the threaded rod (6) is fixed to the slider (51).
6. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 3, characterized in that: The inner wall of the rotating groove (23) is provided with a rotating groove (26), and a rubber ring (7) is fixedly provided in the rotating groove (26). The rotating component (4) is rotatably connected to the rubber ring (7).
7. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 5, characterized in that: The upper surface of the threaded rod (6) is provided with a hexagonal groove (8).
8. The integrated mosquito and insect net for aluminum-plastic doors and windows according to claim 3, characterized in that: The inner wall of the rotating groove (23) is provided with a receiving groove (9).