A hidden yarn second disassembly corner code integrated assembly

By designing an integrated component for quick-release corner brackets with concealed mesh, and utilizing the combination of limit blocks and springs, the problems of cumbersome disassembly and easy damage to profiles in traditional corner brackets are solved, enabling rapid disassembly and installation and reducing maintenance costs.

CN224496257UActive Publication Date: 2026-07-14FOSHAN WEKENA TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN WEKENA TECH CO LTD
Filing Date
2025-08-18
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Traditional corner brackets are cumbersome to disassemble and easily damage the profiles, resulting in high maintenance costs and making it difficult to achieve quick and stable disassembly and installation.

Method used

A concealed mesh quick-release corner bracket integrated component is designed. Through the cooperation of a limiting block, an unlocking block, and a spring, the corner bracket can be quickly disassembled and installed. The inclined surface design of the limiting block and the compression reset of the spring simplify the operation process.

Benefits of technology

It enables quick disassembly and installation of corner brackets, reducing operation time, avoiding damage to profiles, and lowering maintenance costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a hidden fabric second disassembly corner code integrated assembly, which comprises two first sections, four corner codes and two second sections, the surface of the unlocking block is provided with a rectangular groove, two moving plates are symmetrically and slidably connected in the rectangular groove, the opposite sides of the two moving plates are fixedly connected with positioning plates, two first springs are symmetrically and fixedly connected between the moving plate and the inner wall of the rectangular groove, and the inner wall of the connecting hole is symmetrically provided with a positioning groove, the application only needs to drive the relative movement of the two moving plates, then drives the movement of the unlocking block, makes the unlocking block move to be in contact with the inner wall of the limiting hole, then loosens the two moving plates, makes the two positioning plates be respectively inserted into the interiors of the two corresponding positioning grooves, realizes the positioning of the unlocking block, then makes the two first sections move towards each other, thereby drives the corner codes at the two ends of the first section to move out from the interiors of the insertion grooves at the two ends of the second section, then the corner codes are pulled out from the first section, and the quick disassembly of the corner codes can be realized.
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Description

Technical Field

[0001] This application relates to the field of assembly technology, and more specifically, to an integrated component for a hidden mesh quick-release corner code. Background Technology

[0002] Angle brackets are L-shaped or T-shaped structural components used to connect two or more parts (such as door and window frames or furniture frames). They are fixed by screws, welding, or other methods to enhance the connection strength and provide positioning.

[0003] In the actual use of products such as doors, windows, and furniture, traditional corner brackets are usually fixed with screws. Disassembly requires the use of screwdrivers and other tools to unscrew multiple screws, which is not only cumbersome and time-consuming, but also prone to stripping the screw holes on the profiles after repeated disassembly, affecting the stability of subsequent installation. Some corner brackets are connected with glue, which may even damage the profiles and corner brackets themselves during disassembly, resulting in high maintenance costs.

[0004] To address the aforementioned issues, this application provides an integrated component for instantly removable corner codes with concealed mesh. Utility Model Content

[0005] One objective of this application is to provide an integrated component for a concealed mesh quick-release corner bracket, comprising two first profiles, four corner brackets, and two second profiles. The inner walls of the first and second profiles are respectively fixedly connected to a first connecting rod and a second connecting rod. Slots are provided at both ends of the two first profiles and the two second profiles. The two ends of the corner brackets are respectively inserted into the two slots. Grooves are provided at both ends of the corner brackets. A second spring is fixedly connected inside the groove. A limiting block is slidably connected inside the groove. Limiting holes are provided on the surfaces of the first and second profiles. Connecting holes are provided on the inner walls of the limiting holes. Unlocking blocks are slidably connected inside the connecting holes. Rectangular grooves are provided on the surface of the unlocking blocks. Two moving plates are symmetrically slidably connected inside the rectangular grooves. Positioning plates are fixedly connected to opposite sides of the two moving plates. Two first springs are symmetrically fixedly connected to the moving plates and the inner walls of the rectangular grooves. Positioning grooves are symmetrically provided on the inner walls of the connecting holes.

[0006] Furthermore, the surface of the limiting block is inclined, one end of the limiting block is fixedly connected to the second spring, and the other end of the limiting block extends into the interior of the limiting hole.

[0007] Furthermore, the connecting hole and the limiting hole are connected, and both the connecting hole and the limiting hole are connected to the slot. The inner wall of the connecting hole is symmetrically provided with sliding grooves, and a matching sliding block is slidably connected inside the sliding groove.

[0008] Furthermore, one end of the sliding groove near the groove extends to the inner wall of the limiting hole, and the sliding block is fixedly connected to the outer side of the unlocking block.

[0009] Furthermore, the inner wall of the rectangular groove is symmetrically provided with limiting grooves, and both ends of the movable plate are slidably connected inside the limiting grooves. The movable plate is arranged in a "+" shaped structure.

[0010] Furthermore, the positioning plate is located between two adjacent first springs, and the end of the positioning plate away from the moving plate is inserted into the positioning groove.

[0011] The inner wall of the connection hole is provided with a storage groove that communicates with the slot. A baffle is slidably connected inside the storage groove, and the baffle is fixedly connected to the unlocking block.

[0012] The beneficial effects of this application are:

[0013] This application only requires moving two movable plates relative to each other, and then moving the unlocking block so that the unlocking block contacts the inner wall of the limiting hole. Then, the two movable plates are released so that the two positioning plates are inserted into the corresponding two positioning slots to position the unlocking block. Then, the two first profiles move towards each other, thereby moving the corner brackets at both ends of the first profiles out of the slots at both ends of the second profiles. Then, the corner brackets are pulled out from the first profiles to complete the quick disassembly of the corner brackets. Attached Figure Description

[0014] The accompanying drawings are provided to further understand this application and form part of the specification. They are used together with the embodiments of this application to explain this application and do not constitute a limitation thereof.

[0015] In the attached diagram:

[0016] Figure 1 This is a schematic diagram of the overall structure of this application;

[0017] Figure 2 For the purposes of this application Figure 1 Enlarged schematic diagram of the structure of region A in the middle;

[0018] Figure 3 This is a partial structural diagram of this application;

[0019] Figure 4 For the purposes of this application Figure 3 Enlarged schematic diagram of the structure of region B in the middle;

[0020] Figure 5 This is a partial structural cross-sectional view of this application;

[0021] Figure 6 For the purposes of this application Figure 5Enlarged schematic diagram of the structure of region C in the middle.

[0022] Explanation of the labels in the diagram:

[0023] 1. First profile; 101. First connecting rod; 2. Second profile; 21. Second connecting rod; 3. Limiting block; 4. Limiting hole; 5. Positioning groove; 6. Unlocking block; 7. Positioning plate; 8. Rectangular groove; 9. Limiting slide groove; 10. Moving plate; 11. First spring; 12. Angle bracket; 13. Connecting hole; 14. Sliding groove; 15. Groove; 16. Second spring; 17. Sliding block; 18. Slot; 19. Baffle; 20. Storage groove. Detailed Implementation

[0024] 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.

[0025] In the description of this application, it should be noted that the terms "upper," "lower," "inner," "outer," "top / bottom," etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0026] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installed," "equipped with," "sleeved / connected," "connected," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances. Example

[0027] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 and Figure 6, an embodiment of the present application discloses a hidden yarn quick-release corner code 12 integrated component, which includes two first profiles 1, four corner codes 12 and two second profiles 2. First connecting rods 101 and second connecting rods 21 are respectively fixedly connected to the inner walls of the first profile 1 and the second profile 2. Installation grooves are provided at the tops of the first connecting rod 101 and the second connecting rod 21. The four installation grooves are formed into a structure in the shape of a "hui" character. The edge of the screen is pressed inside the installation groove by an elastic strip and glue is injected to fix the screen. Slots 18 are provided at both ends of the two first profiles 1 and the two second profiles 2. Both ends of the corner code 12 are respectively inserted into the two slots 18. Grooves 15 are provided at both ends of the corner code 12. A second spring 16 is fixedly connected inside the groove 15. A limiting block 3 is slidably connected inside the groove 15. Limiting holes 4 are provided on the surfaces of the first profile 1 and the second profile 2. Connecting holes 13 are provided on the inner walls of the limiting holes 4. An unlocking block 6 is slidably connected inside the connecting hole 13. A rectangular groove 8 is provided on the surface of the unlocking block 6. Two moving plates 10 are symmetrically slidably connected inside the rectangular groove 8. Positioning plates 7 are fixedly connected to the opposite sides of the two moving plates 10. The positioning plate 7 is in the shape of a "Z" character structure. The bottom end surface of the positioning plate 7 is slidably connected to the bottom end surface of the rectangular groove 8. Two first springs 11 are symmetrically fixedly connected between the moving plate 10 and the inner wall of the rectangular groove 8. Positioning grooves 5 are symmetrically provided on the inner wall of the connecting hole 13. A receiving groove 20 communicating with the slot 18 is provided on the inner wall of the connecting hole 13. A baffle 19 is slidably connected inside the receiving groove 20. The baffle 19 is fixedly connected to the unlocking block 6. When the corner code 12 needs to be disassembled, hold the two moving plates 10 and move them relatively. At this time, the first spring 11 is stretched under the action of the pulling force. The relative movement of the two moving plates 10带动 the relative movement of the two positioning plates 7, so that the positioning plate 7 moves out of the positioning groove 5, thereby releasing the limit on the unlocking block 6, and then带动 the unlocking block 6 to move. The movement of the unlocking block 6挤压 the inclined surface of the limiting block 3, so that the limiting block 3 moves into the groove 15. At this time, the second spring 16 is compressed and contracts. When the unlocking block 6 moves to contact the inner wall of the limiting hole 4, the limiting block 3 moves into the groove 15, and at this time the two positioning plates 7 correspond to the other two positioning grooves 5. Then release the two moving plates 10, and the reset of the first spring 11 generates a thrust force to make the two positioning plates 7 respectively inserted into the other two positioning grooves 5;

[0028] Using the same method, the other moving plates 10 are operated, and the limiting block 3 is moved into the interior of the groove 15. This releases the limiting relationship between the first profile 1 and the second profile 2 and the corner bracket 12. Then, the two first profiles 1 are moved towards each other, thereby causing the corner brackets 12 at both ends of the first profile 1 to move out of the slots 18 at both ends of the second profile 2. Since the unlocking block 6 moves when it moves, the unlocking block 6 causes the baffle 19 to move outward from the interior of the storage groove 20, so that most of the baffle 19 moves between the inner wall of the connecting hole 13 and the unlocking block 6 (the width of the limiting block 3 is less than the length of the baffle 19), while part of the baffle 19 is still inside the storage groove 20. Thus, when the corner bracket 12 is removed, since the baffle 19 blocks the limiting block 3, the limiting block 3 will not pop out when it passes between the inner wall of the connecting hole 13 and the unlocking block 6, so that the corner bracket 12 can be pulled out smoothly. Then, the corner bracket 12 is pulled out from the first profile 1, thus completing the quick disassembly of the corner bracket 12.

[0029] Please see Figure 2 , Figure 4 and Figure 6 The surface of the limiting block 3 is inclined, which facilitates the direct insertion of the corner bracket 12 into the slot 18. One end of the limiting block 3 is fixedly connected to the second spring 16, and the other end of the limiting block 3 extends into the limiting hole 4. The connecting hole 13 and the limiting hole 4 are connected, and both the connecting hole 13 and the limiting hole 4 are connected to the slot 18. The inner wall of the connecting hole 13 is symmetrically provided with sliding grooves 14, and a matching sliding block 17 is slidably connected inside the sliding groove 14. When connecting and installing the first profile 1 and the second profile 2, the two corner brackets 12 are first inserted into the slots 18 opened at both ends of the first profile 1. During insertion, the limiting block 3 is squeezed and moves into the groove 15, and squeezes the second spring 16. The second spring 16 is compressed and contracts. When the limiting block 3 corresponds to the limiting hole 4, the second spring 16 resets and generates a thrust, causing the limiting block 3 to be inserted into the limiting hole 4, thereby installing the two corner brackets 12 at both ends of the first profile 1. Then, the other two corner brackets 12 are installed at both ends of another first profile 1 in the same way. Then, the corner brackets 12 at both ends of the first profile 1 are inserted into the ends of the two second profiles 2 respectively, thereby realizing the quick installation and connection of the first profile 1 and the second profile 2.

[0030] Please see Figure 4 and Figure 6The sliding groove 14 extends to the inner wall of the limiting hole 4 at one end near the groove 15. The sliding block 17 is fixedly connected to the outer side of the unlocking block 6. The inner wall of the rectangular groove 8 is symmetrically provided with limiting grooves 9. Both ends of the moving plate 10 are slidably connected to the inside of the limiting grooves 9. The moving plate 10 is arranged in a "+" shape. The cooperation of the sliding block 17 and the sliding groove 14 limits the unlocking block 6 to the inside of the connecting hole 13. At the same time, the cooperation of the sliding block 17 and the sliding groove 14 plays a role in limiting the unlocking block 6, improving the stability of the unlocking block 6 when it moves. The positioning plate 7 is located between two close first springs 11. The end of the positioning plate 7 away from the moving plate 10 is inserted into the inside of the positioning groove 5.

[0031] The implementation principle of this application embodiment is as follows: When the diagonal code 12 needs to be disassembled, the two movable plates 10 are moved relative to each other by hand. At this time, the first spring 11 is stretched by the pulling force. The relative movement of the two movable plates 10 drives the two positioning plates 7 to move relative to each other, so that the positioning plates 7 are moved out from the inside of the positioning groove 5, thereby releasing the limit on the unlocking block 6. Then the unlocking block 6 is moved. The movement of the unlocking block 6 squeezes the inclined surface of the limiting block 3, so that the limiting block 3 moves into the inside of the groove 15. At this time, the second spring 16 is compressed and contracts. When the unlocking block 6 moves to contact the inner wall of the limiting hole 4, the limiting block 3 moves into the inside of the groove 15. At this time, the two positioning plates 7 correspond to the other two positioning grooves 5. Then the two movable plates 10 are released, and the first spring 11 resets and generates a pushing force so that the two positioning plates 7 are respectively inserted into the inside of the other two positioning grooves 5.

[0032] Using the same method, the other moving plates 10 are operated, and the limiting block 3 is moved into the interior of the groove 15. This releases the limiting relationship between the first profile 1 and the second profile 2 and the corner bracket 12. Then, the two first profiles 1 are moved towards each other, thereby causing the corner brackets 12 at both ends of the first profile 1 to move out of the slots 18 at both ends of the second profile 2. Since the unlocking block 6 moves when it moves, the unlocking block 6 causes the baffle 19 to move outward from the interior of the storage groove 20, so that most of the baffle 19 moves between the inner wall of the connecting hole 13 and the unlocking block 6 (the width of the limiting block 3 is less than the length of the baffle 19), while part of the baffle 19 is still inside the storage groove 20. Thus, when the corner bracket 12 is removed, since the baffle 19 blocks the limiting block 3, the limiting block 3 will not pop out when it passes between the inner wall of the connecting hole 13 and the unlocking block 6, so that the corner bracket 12 can be pulled out smoothly. Then, the corner bracket 12 is pulled out from the first profile 1, thus completing the quick disassembly of the corner bracket 12.

[0033] The above description is merely a preferred embodiment of this application, but the scope of protection of this application is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this application, based on the technical solution and application concept of this application, should be included within the scope of protection of this application.

Claims

1. A concealed mesh quick-release corner bracket (12) integrated assembly, comprising two first profiles (1), four corner brackets (12) and two second profiles (2), characterized in that: The inner walls of the first profile (1) and the second profile (2) are respectively fixedly connected with a first connecting rod (101) and a second connecting rod (21). Slots (18) are provided at both ends of the two first profiles (1) and the two second profiles (2). The two ends of the corner bracket (12) are respectively inserted into the two slots (18). Grooves (15) are provided at both ends of the corner bracket (12). A second spring (16) is fixedly connected inside the groove (15). A limit block (3) is slidably connected inside the groove (15). The first profile (1) and the second profile (2) are respectively fixedly connected with a first connecting rod (101) and a second connecting rod (21). Limiting holes (4) are provided on the surface of the limiting holes (4). A connecting hole (13) is provided on the inner wall of the limiting holes (4). An unlocking block (6) is slidably connected inside the connecting hole (13). A rectangular groove (8) is provided on the surface of the unlocking block (6). Two moving plates (10) are symmetrically slidably connected inside the rectangular groove (8). A positioning plate (7) is fixedly connected on the opposite side of the two moving plates (10). Two first springs (11) are symmetrically fixedly connected to the inner walls of the moving plates (10) and the rectangular groove (8). A positioning groove (5) is symmetrically provided on the inner wall of the connecting hole (13).

2. The integrated component of the invisible mesh quick-release corner code (12) according to claim 1, characterized in that: The surface of the limiting block (3) is inclined, one end of the limiting block (3) is fixedly connected to the second spring (16), and the other end of the limiting block (3) extends into the interior of the limiting hole (4).

3. The integrated component of the invisible mesh quick-release corner code (12) according to claim 1, characterized in that: The connecting hole (13) and the limiting hole (4) are connected, and both the connecting hole (13) and the limiting hole (4) are connected to the slot (18). The inner wall of the connecting hole (13) is symmetrically provided with sliding grooves (14), and the sliding grooves (14) are slidably connected with matching sliding blocks (17).

4. The integrated component of the invisible mesh quick-release corner code (12) according to claim 3, characterized in that: The sliding groove (14) extends to the inner wall of the limiting hole (4) at one end near the groove (15), and the sliding block (17) is fixedly connected to the outer side of the unlocking block (6).

5. The integrated component of the invisible mesh quick-release corner code (12) according to claim 1, characterized in that: The inner wall of the rectangular groove (8) is symmetrically provided with limiting grooves (9), and both ends of the movable plate (10) are slidably connected inside the limiting grooves (9). The movable plate (10) is arranged in a "+" shaped structure.

6. The integrated component of the invisible mesh quick-release corner code (12) according to claim 1, characterized in that: The positioning plate (7) is located between two adjacent first springs (11), and one end of the positioning plate (7) away from the moving plate (10) is inserted into the positioning groove (5).

7. The integrated component of the invisible mesh quick-release corner code (12) according to claim 1, characterized in that: The inner wall of the connecting hole (13) is provided with a storage groove (20) that communicates with the slot (18). A baffle (19) is slidably connected inside the storage groove (20), and the baffle (19) is fixedly connected to the unlocking block (6).