Warning light wiring protection structure

By using a protective base and cover plate fixing component in the warning light wiring protection structure, and utilizing elastic potential energy and magnetic repulsion, convenient installation and disassembly are achieved, solving the problems of low operating efficiency and uneven force in the prior art, and improving the stability and reliability of wiring.

CN224339993UActive Publication Date: 2026-06-09ANHUI AKARA TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI AKARA TECHNOLOGY CO LTD
Filing Date
2025-10-24
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing warning light wiring protection structure is inefficient to operate and is prone to poor protection due to uneven stress, which affects the stability and reliability of the equipment.

Method used

The system employs a fixing assembly between the protective base and the protective cover, including connecting blocks, locking blocks, springs, and limiting strips. It achieves convenient installation and disassembly through the release of elastic potential energy and magnetic repulsion, ensuring stable clamping of the wiring.

Benefits of technology

It improves installation efficiency, ensures the stability and reliability of wiring, prevents deformation of the protective structure caused by uneven stress, provides a reliable second line of defense, and avoids affecting the stability of the connection due to misoperation.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a warning light wiring protection structure, including a protective base and a protective cover. Both ends of the protective base and the protective cover have openings for the warning light wiring to pass through. The protective base and the protective cover are connected by a fixing component. The fixing component includes connecting blocks fixedly installed on the bottom of both sides of the protective cover. The connecting blocks are evenly distributed and embedded in the interior of the connecting groove, which is located on the top of the protective base. During installation, the protective cover is placed on top of the protective base, and the connecting blocks are aligned with the connecting grooves and inserted. When the connecting blocks are fully inserted into the connecting grooves, the locking blocks move to one side of the groove. At this time, the elastic potential energy released by the spring drives the locking blocks to move outward and embed into the groove, thus completing the installation of the protective cover and the protective base. This helps to improve installation efficiency and ensure the stability and reliability of the warning light wiring protection.
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Description

Technical Field

[0001] This utility model relates to the field of wiring protection technology, specifically a wiring protection structure for a warning light. Background Technology

[0002] Warning lights are critical signaling devices in industrial equipment, traffic facilities, and public safety fields, and the reliability of their wiring directly affects the safe operation of equipment and the safety of people and property. Statistics show that over 35% of warning light malfunctions are caused by loose wiring, short circuits, or environmental corrosion, with wiring protection failure being the primary reason. Therefore, developing efficient and reliable wiring protection structures has become a core requirement for ensuring the long-term stable operation of warning lights.

[0003] A search revealed a patent, CN221126386U, for example, a protective structure for a grounding indicator light connector. This structure includes a main protective sleeve, with a tube neck fixedly connected to one end of the main protective sleeve, and a line protective sleeve fixedly connected to one end of the tube neck. The line protective sleeve has four equally divided slots inside, and an extension rod is fixedly connected to the outside of the line protective sleeve. A clamping plate is fixedly connected to the outside of the extension rod. This grounding indicator light connector protective structure first places the main protective sleeve over the connector. Then, by sequentially rotating the nuts of four sets of tightening bolts, the four independent segments of the line protective sleeve retract and clamp onto the outside of the grounding indicator light cable. Simultaneously, when there is a metal shell outside the connection, the adjusting screw is fitted inside the limiting frame, causing a strong magnet to attract the metal shell, thereby improving the stability of the grounding indicator light connector connection.

[0004] Current protective structures use multiple segmented protective sleeves to cover the circuit for protection. During installation, multiple bolts need to be tightened one by one to tighten the segmented protective sleeves inward, thereby fixing the circuit and providing protection. This fixing method not only suffers from low operational efficiency, but also, if the operator does not tighten the bolts diagonally or in an even sequence, it will cause uneven stress, resulting in the overall twisting or tilting of the protective sleeve, thus affecting the protective effect. Utility Model Content

[0005] The purpose of this utility model is to provide a protective structure for the wiring of a warning light to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a warning light wiring protection structure, including a protective base and a protective cover plate, wherein both ends of the protective base and the protective cover plate are provided with openings for the warning light wiring to pass through, and the protective base and the protective cover plate are connected by a fixing component;

[0007] The fixing component includes connecting blocks fixedly installed on the bottom of both sides of the protective cover plate. The connecting blocks are evenly distributed and embedded in the interior of the connecting groove, which is opened on the top of the protective base.

[0008] A locking block is slidably installed inside the connecting block, and a spring connects the locking block to the connecting block. The locking block is embedded inside a slot, which is located inside the protective base.

[0009] As a further preferred embodiment of this technical solution, limit strips are fixedly installed on the inner walls of both the protective base and the protective cover, and the limit strips are evenly distributed.

[0010] As a further preferred embodiment of this technical solution, connecting plates are slidably installed inside both sides of the protective base, and movable plates are evenly installed on the inner walls of both connecting plates, with the movable plates positioned on one side of the locking block.

[0011] One end of each of the two connecting plates is fixedly connected to a connecting shaft, and the ends of the two connecting shafts away from the connecting plates are installed on the outer wall of the fixing plate. The fixing plate is slidably installed inside the protective base, and a disassembly shaft is installed on one side of the fixing plate.

[0012] As a further preferred embodiment of this technical solution, a limiting block is fixedly installed on the outer wall of the disassembly shaft, and the limiting block is rotatably installed inside the slide groove, which is located inside the protective base.

[0013] As a further preferred embodiment of this technical solution, one end of the disassembly shaft is fixedly connected to a rotating shaft, the rotating shaft is rotatably mounted inside the fixed plate, and a coil spring is installed on the outer wall of the rotating shaft.

[0014] As a further preferred embodiment of this technical solution, a magnetic plate is fixedly installed on the outer wall of the connecting shaft, and an mounting plate is fixedly installed on the top of the magnetic plate, with the mounting plate disposed on one side of the bottom of the connecting block.

[0015] This utility model provides a wiring protection structure for a warning light, which has the following beneficial effects:

[0016] This invention, through the setting of a fixing component, allows for convenient installation. First, the warning light wiring is placed inside the protective base. Then, the protective cover is placed on top of the protective base, aligning the connecting block with the connecting slot and inserting it, ensuring the protective cover fits snugly against the protective base. As the connecting block is inserted into the connecting slot, the bottom inclined surface of the locking block contacts the top of the protective base and slides into the connecting block under pressure. At this time, the spring deforms and stores elastic potential energy. When the connecting block is fully inserted into the connecting slot, the locking block moves to one side of the slot. The spring then releases its elastic potential energy, causing the locking block to move outward and embed itself into the slot, thus completing the installation of the protective cover and the protective base. This installation method is convenient and avoids the problem of uneven force causing deformation of the protective structure and affecting the protective effect. It helps improve installation efficiency and ensures the stability and reliability of the warning light wiring protection.

[0017] This utility model features a disassembly mechanism that uses a pressing disassembly shaft. When the protective cover needs to be removed, the disassembly shaft can be pressed inward. The movement of the disassembly shaft causes the fixed plate to move, which in turn causes the connecting shaft to move. The connecting shaft then causes the connecting plate to move, which in turn causes the moving plate to move. This allows the moving plate to push the locking block completely into the connecting block, and then the protective cover can be removed directly upwards. The protective cover can be removed with one hand, making the operation simple and convenient. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0019] Figure 2 This is a schematic cross-sectional view of the overall structure of this utility model;

[0020] Figure 3 For the present utility model Figure 2 Enlarged schematic diagram of the structure at point A in the middle;

[0021] Figure 4 For the present utility model Figure 2 Enlarged schematic diagram of the structure at point B;

[0022] Figure 5 This is a schematic cross-sectional view of the protective cover plate of this utility model;

[0023] Figure 6 This is a schematic cross-sectional view of the connecting block structure of this utility model;

[0024] Figure 7 This is a schematic cross-sectional view of the fixing plate of this utility model;

[0025] Figure 8 For the present utility model Figure 7 Enlarged schematic diagram of the structure at point C.

[0026] In the diagram: 1. Protective base; 2. Protective cover plate; 3. Limiting strip; 4. Connecting block; 5. Connecting groove; 6. Locking block; 7. Spring; 8. Locking groove; 9. Moving plate; 10. Connecting plate; 11. Connecting shaft; 12. Fixing plate; 13. Disassembly shaft; 14. Limiting block; 15. Slide groove; 16. Rotating shaft; 17. Coil spring; 18. Magnetic plate; 19. Mounting plate. Detailed Implementation

[0027] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0028] This utility model provides a technical solution: such as Figures 1 to 8 As shown in this embodiment, a warning light wiring protection structure includes a protective base 1 and a protective cover 2. Both ends of the protective base 1 and the protective cover 2 are provided with openings for the warning light wiring to pass through. The protective base 1 and the protective cover 2 are connected by a fixing component.

[0029] The fixing components include connecting blocks 4 fixedly installed on the bottom of both sides of the protective cover plate 2. The connecting blocks 4 are evenly distributed and embedded in the interior of the connecting groove 5. The connecting groove 5 is opened on the top of the protective base 1.

[0030] A locking block 6 is slidably installed inside the connecting block 4. A spring 7 connects the locking block 6 and the connecting block 4. The locking block 6 is embedded inside the locking groove 8, which is located inside the protective base 1.

[0031] During installation, first place the wiring of the warning light inside the protective base 1, then cover the top of the protective base 1 with the protective cover 2, align the connecting block 4 with the connecting slot 5 and insert it, so that the protective cover 2 fits snugly against the protective base 1.

[0032] When the connecting block 4 is inserted into the connecting groove 5, the bottom inclined surface of the locking block 6 contacts the top of the protective base 1 and slides into the connecting block 4 under force. At this time, the spring 7 deforms and stores elastic potential energy.

[0033] When the connecting block 4 is fully inserted into the connecting groove 5, the locking block 6 moves to one side of the groove 8. At this time, the elastic potential energy released by the spring 7 drives the locking block 6 to move outward and embed into the groove 8, so as to complete the installation of the protective cover plate 2 and the protective base 1.

[0034] This device, through the above-described installation method, is easy to operate and avoids the problem of uneven stress causing deformation of the protective structure and affecting the protective effect. It helps to improve installation efficiency and ensure the stability and reliability of the wiring protection for the warning light.

[0035] like Figure 1 , Figure 2 and Figure 5As shown, limit strips 3 are fixedly installed on the inner walls of both the protective base 1 and the protective cover 2, and the limit strips 3 are evenly distributed.

[0036] Limit bar 3 is set flexibly and tends to push inward in real time;

[0037] When the wiring is thin, the limit strip 3 protrudes higher, and the clamping force still exists;

[0038] When the wiring is thicker, the limit bar 3 is compressed, but it can still provide sufficient pressure, which achieves a self-adaptive clamping range.

[0039] Furthermore, when the wiring is subjected to an outward pulling force, these inwardly protruding limiting strips 3 will generate huge friction and mechanical resistance, making it difficult for the wiring to be pulled out directly. This provides a reliable second line of defense for the wiring terminals, ensuring that the external pulling force is entirely borne by this protective structure and will not be transmitted to the electrical connection point.

[0040] like Figures 1 to 8 As shown, connecting plates 10 are slidably installed inside both sides of the protective base 1, and movable plates 9 are evenly installed on the inner walls of both connecting plates 10. The movable plates 9 are located on one side of the locking block 6.

[0041] One end of each of the two connecting plates 10 is fixedly connected to a connecting shaft 11. The ends of the two connecting shafts 11 away from the connecting plates 10 are installed on the outer wall of the fixing plate 12. The fixing plate 12 is slidably installed inside the protective base 1. A disassembly shaft 13 is installed on one side of the fixing plate 12.

[0042] When it is necessary to remove the protective cover 2, the disassembly shaft 13 can be pressed inward. The movement of the disassembly shaft 13 drives the movement of the fixing plate 12, the movement of the fixing plate 12 drives the movement of the connecting shaft 11, the movement of the connecting shaft 11 drives the movement of the connecting plate 10, and the movement of the connecting plate 10 drives the movement of the moving plate 9, so that the moving plate 9 pushes the locking block 6 completely into the connecting block 4. Then the protective cover 2 can be taken out directly upward. The protective cover 2 can be removed with one hand. The operation is simple and convenient.

[0043] like Figure 2 and Figure 4 As shown, a limiting block 14 is fixedly installed on the outer wall of the disassembly shaft 13. The limiting block 14 is rotatably installed inside the slide groove 15, which is located inside the protective base 1.

[0044] The slide groove 15 is a single circular slide groove 15;

[0045] The protective base 1 has a sliding groove 15 inside for the fixing plate 12 to slide;

[0046] After installation, the limit block 14 can be rotated by rotating the disassembly shaft 13, so that the limit block 14 is misaligned with the sliding groove 15 of the fixed plate 12. At this time, the disassembly shaft 13 cannot be moved directly by pressing, which prevents the disassembly shaft 13 from moving due to accidental contact or external vibration during operation, thereby affecting the connection stability between the protective base 1 and the protective cover plate 2.

[0047] During disassembly, first rotate the disassembly shaft 13 to make the limiting block 14 parallel to the fixing plate 12, and then press the disassembly shaft 13 to disassemble. This adds an extra step to the disassembly process to prevent accidental activation.

[0048] like Figure 7 and Figure 8 As shown, a rotating shaft 16 is fixedly connected to one end of the disassembly shaft 13. The rotating shaft 16 is rotatably installed inside the fixed plate 12, and a coil spring 17 is installed on the outer wall of the rotating shaft 16.

[0049] When the disassembly shaft 13 is rotated, the rotating shaft 16 is driven to rotate. The rotation of the rotating shaft 16 causes the coil spring 17 to deform and store elastic potential energy.

[0050] When the disassembly shaft 13 moves outward and causes the limiting block 14 to be located in the slide groove 15, the real-time elastic potential energy of the coil spring 17 drives the rotating shaft 16 to reverse, thereby causing the limiting block 14 to automatically rotate ninety degrees and be offset from the fixed plate 12.

[0051] like Figure 2 and Figure 3 As shown, a magnetic plate 18 is fixedly installed on the outer wall of the connecting shaft 11, and an mounting plate 19 is fixedly installed on the top of the magnetic plate 18. The mounting plate 19 is located on one side of the bottom of the connecting block 4.

[0052] Both the bottom of the connecting block 4 and the mounting plate 19 are magnetically set, and the two are mutually exclusive;

[0053] During disassembly, when the connecting shaft 11 moves the connecting plate 10 and the moving plate 9 into the locking block 6, the connecting shaft 11 moves the magnetic plate 18. The movement of the magnetic plate 18 moves the mounting plate 19, causing the mounting plate 19 to move below the connecting block 4. Through the mutual repulsion between the two, the connecting block 4 moves upward, thereby causing the protective cover 2 to automatically move upward and separate from the protective base 1, making disassembly easier.

[0054] This utility model provides a wiring protection structure for a warning light, the specific working principle of which is as follows:

[0055] During installation, first place the wiring of the warning light inside the protective base 1, then cover the top of the protective base 1 with the protective cover 2, align the connecting block 4 with the connecting slot 5 and insert it, so that the protective cover 2 fits snugly against the protective base 1.

[0056] When the connecting block 4 is inserted into the connecting groove 5, the bottom inclined surface of the locking block 6 contacts the top of the protective base 1 and slides into the connecting block 4 under force. At this time, the spring 7 deforms and stores elastic potential energy.

[0057] When the connecting block 4 is fully inserted into the connecting groove 5, the locking block 6 moves to one side of the groove 8. At this time, the elastic potential energy released by the spring 7 drives the locking block 6 to move outward and embed into the groove 8, so as to complete the installation of the protective cover plate 2 and the protective base 1.

[0058] During disassembly, first rotate the disassembly shaft 13 to make the limiting block 14 parallel to the fixing plate 12. At the same time, the disassembly shaft 13 drives the rotating shaft 16 to rotate. The rotation of the rotating shaft 16 causes the coil spring 17 to deform and store elastic potential energy.

[0059] Then press the disassembly shaft 13 inward. The movement of the disassembly shaft 13 drives the movement of the fixing plate 12. The movement of the fixing plate 12 drives the movement of the connecting shaft 11. The movement of the connecting shaft 11 drives the movement of the connecting plate 10. The movement of the connecting plate 10 drives the movement of the moving plate 9, so that the moving plate 9 pushes the locking block 6 completely into the connecting block 4.

[0060] At the same time, when the connecting shaft 11 drives the connecting plate 10 and the moving plate 9 to move into the locking block 6, the connecting shaft 11 drives the magnetic plate 18 to move. The movement of the magnetic plate 18 drives the mounting plate 19 to move, so that the mounting plate 19 moves to the bottom of the connecting block 4. Through the mutual repulsion between the two, the connecting block 4 moves upward, thereby causing the protective cover 2 to automatically move upward and separate from the protective base 1 for internal maintenance.

[0061] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A wiring protection structure for a warning light, comprising a protective base (1) and a protective cover (2), characterized in that: Both ends of the protective base (1) and the protective cover (2) are provided with openings for the wiring of the warning light to pass through, and the protective base (1) and the protective cover (2) are connected by a fixing component. The fixing component includes connecting blocks (4) fixedly installed on the bottom of both sides of the protective cover (2). The connecting blocks (4) are evenly distributed and embedded in the interior of the connecting groove (5). The connecting groove (5) is opened on the top of the protective base (1). A locking block (6) is slidably installed inside the connecting block (4), and a spring (7) is connected between the locking block (6) and the connecting block (4). The locking block (6) is embedded inside the slot (8), which is located inside the protective base (1).

2. The warning light wiring protection structure according to claim 1, characterized in that: Limiting strips (3) are fixedly installed on the inner walls of both the protective base (1) and the protective cover (2), and the limiting strips (3) are evenly distributed.

3. The warning light wiring protection structure according to claim 1, characterized in that: The protective base (1) has connecting plates (10) slidably installed on both sides of the interior. The inner walls of the two connecting plates (10) are evenly equipped with movable plates (9), and the movable plates (9) are located on one side of the card block (6). One end of each of the two connecting plates (10) is fixedly connected to a connecting shaft (11). The ends of the two connecting shafts (11) away from the connecting plates (10) are installed on the outer wall of the fixing plate (12). The fixing plate (12) is slidably installed inside the protective base (1). A disassembly shaft (13) is installed on one side of the fixing plate (12).

4. The warning light wiring protection structure according to claim 3, characterized in that: A limiting block (14) is fixedly installed on the outer wall of the disassembly shaft (13). The limiting block (14) is rotatably installed inside the slide groove (15), which is located inside the protective base (1).

5. The warning light wiring protection structure according to claim 3, characterized in that: One end of the disassembly shaft (13) is fixedly connected to a rotating shaft (16), which is rotatably installed inside the fixed plate (12). A coil spring (17) is installed on the outer wall of the rotating shaft (16).

6. The warning light wiring protection structure according to claim 3, characterized in that: A magnetic plate (18) is fixedly installed on the outer wall of the connecting shaft (11), and an mounting plate (19) is fixedly installed on the top of the magnetic plate (18). The mounting plate (19) is located on one side of the bottom of the connecting block (4).