A mounting structure of a stainless steel wire harness box

The innovative design of the mounting plate and locking components solves the problem of loosening of stainless steel wire harness boxes, enabling quick installation and stable connection, and improving the overall stability and safety of the wire harness boxes.

CN224418318UActive Publication Date: 2026-06-26太仓吉盟商业设备有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
太仓吉盟商业设备有限公司
Filing Date
2025-06-30
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The traditional fixing method for existing stainless steel wire harness boxes is prone to loosening, resulting in decreased stability.

Method used

The design incorporates a mounting plate, slider, connecting bracket, and locking assembly. It enables quick installation through the insertion of the sliding and locking rods, and ensures stability through the cooperation of the adjusting screw and the locking block.

Benefits of technology

It improves the speed and stability of wire harness box installation, reduces maintenance costs, avoids loosening issues, and enhances overall safety.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224418318U_ABST
    Figure CN224418318U_ABST
Patent Text Reader

Abstract

The utility model discloses a mounting structure of stainless steel pencil, belongs to stainless steel pencil field, including mounting panel and pencil body, the left and right ends of mounting panel all are fixedly installed with the ear plate, and the front end of two groups mounting panel is opened in and has the slide groove, the slide groove is slidably installed with the sliding block, the front side movable mounting of sliding block has the connecting frame, the pencil body is fixedly installed on the connecting frame, the left and right ends of sliding block all are opened with locking hole, and the left and right ends of connecting frame are provided with locking assembly in two groups locking holes, through the cooperation of above -mentioned each device, the quickness of pencil body when installing is ensured, and the setting of two groups adjusting screw rod can be quick fixed to sliding block and connecting frame, and locking assembly still has the characteristics of easy to adjust and dismount, make when the pencil body needs maintenance or replacement, can conveniently and quickly operate, reduce maintenance cost and work efficiency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the technical field of stainless steel wire harness boxes, specifically an installation structure for a stainless steel wire harness box. Background Technology

[0002] In various electrical equipment and electronic systems, wire harnesses are crucial components for connecting electrical elements and transmitting power and signals. To protect wire harnesses from external environmental influences such as dust, moisture, and mechanical damage, and also to achieve efficient layout and management, wire harness boxes are widely used. They provide safe and reliable protection by housing the wire harness within a relatively enclosed space, ensuring the stable operation of the electrical system.

[0003] In the existing technology, the installation of stainless steel wire harness boxes usually relies on traditional fixing methods, such as screw fixing or welding. However, these traditional fixing methods have some shortcomings in practical applications. Although screw fixing is simple and easy, it is prone to loosening after long-term use, which leads to a decrease in the stability of the wire harness box.

[0004] Therefore, this utility model provides an installation structure for a stainless steel wire harness box to solve the above problems. Utility Model Content

[0005] (a) Technical problems to be solved

[0006] This utility model provides an installation structure for a stainless steel wire harness box, which aims to solve the problems mentioned in the background art.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: It includes a mounting plate and a wire harness box body. Ear plates are fixedly mounted on both the left and right ends of the mounting plate. Sliding grooves are formed in the front ends of the two sets of mounting plates, and sliders are slidably mounted within the sliding grooves. A connecting frame is movably mounted on the front side of the slider. The wire harness box body is fixedly mounted on the connecting frame. Locking holes are formed on both the left and right ends of the slider, and locking components are provided in the left and right ends of the connecting frame and the two sets of locking holes.

[0009] As a preferred technical solution of this application, a shock-absorbing pad is glued to the rear side of the mounting plate, and the shock-absorbing pad is made of rubber.

[0010] As a preferred technical solution of this application, the locking assembly includes two sets of locking rods, which are rotatably mounted on the left and right ends of the connecting frame. The two sets of locking rods are movably inserted into two sets of locking holes. The rear ends of the two sets of locking rods are symmetrically provided with movable grooves. A return spring is installed in each of the two sets of movable grooves at the rear ends of the two sets of locking rods. A locking block is movably installed in each of the two sets of movable grooves at the rear ends of the two sets of locking holes. The sliding grooves at the rear ends of the inner walls of the two sets of locking holes are symmetrically provided with locking slots. The four sets of locking blocks are movably inserted into the four sets of locking slots.

[0011] As a preferred technical solution of this application, two sets of guide rods are fixedly installed in the two sets of movable slots at the rear ends of the two sets of locking rods, and the two sets of guide rods in the two sets of movable slots at the rear ends of the two sets of locking rods are movably connected to the locking blocks installed in the two sets of movable slots at the rear ends of the two sets of locking rods.

[0012] As a preferred technical solution of this application, the locking blocks in the two sets of movable slots at the rear ends of the two sets of locking rods are inclined at one end of the slot, and the front and rear width of the locking blocks is the same as the width of the slot.

[0013] As a preferred technical solution of this application, the locking blocks in the two sets of movable slots at the rear ends of the two sets of locking rods are inserted on opposite sides of the slots and are inclined.

[0014] As a preferred technical solution of this application, each of the two sets of movable slots at the rear end of the two sets of locking rods has a pressing block fixedly installed on the locking block, and each of the two sets of locking rods has an adjusting screw installed by thread, with the two sets of adjusting screws located between four sets of adjusting screws, and multiple sets of screw holes are opened on the rear inner wall of the slide groove.

[0015] As a preferred technical solution of this application, the cross-sections of the four sets of extrusion blocks at opposite ends are all right-angled triangles.

[0016] As a preferred technical solution of this application, the front ends of the two sets of locking rods and the front ends of the two sets of adjusting screws are all provided with cross-shaped anti-slip textures.

[0017] As a preferred technical solution of this application, both the inner wall of the groove and the slider are T-shaped, and the slider is adapted to the inner wall of the groove.

[0018] (III) Beneficial Effects

[0019] The wiring harness box body of this utility model features an ingenious installation structure design, making the installation process simpler and faster. The locking component ensures quick installation of the wiring harness box body. The two sets of adjusting screws can quickly fix the slider and connecting bracket. Furthermore, the locking component is easy to adjust and disassemble, allowing for convenient and quick operation when the wiring harness box body needs maintenance or replacement. This reduces maintenance costs and improves work efficiency, avoids the loosening problems that may occur in traditional fixing methods, and thus improves the overall stability and safety of the wiring harness box body. Attached Figure Description

[0020] Figure 1 This is a front view schematic diagram of the mounting structure of a stainless steel wire harness box;

[0021] Figure 2 This is a rear view cross-sectional diagram of the mounting structure of a stainless steel wire harness box.

[0022] Figure 3 This is a schematic diagram of the left-side cross-sectional view of the mounting structure of a stainless steel wire harness box.

[0023] Figure 4 A left-side structural split diagram of the mounting structure of a stainless steel wire harness box;

[0024] Figure 5 This is a schematic cross-sectional view of the locking component in the mounting structure of a stainless steel wire harness box.

[0025] Figure 6 for Figure 5 A magnified structural diagram at point A.

[0026] In the picture:

[0027] 1. Mounting plate; 2. Ear plate; 3. Wiring harness box body; 4. Shock-absorbing pad; 5. Slide groove; 6. Slider; 7. Connecting bracket; 8. Locking hole; 9. Locking rod; 10. Movable groove; 11. Return spring; 12. Locking block; 13. Locking slot; 14. Guide rod; 15. Pressing block; 16. Adjusting screw; 17. Screw hole. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0029] This utility model provides an installation structure for a stainless steel wire harness box, such as... Figure 1-6As shown, the installation structure of the stainless steel wire harness box includes a mounting plate 1 and a wire harness box body 3. Ear plates 2 are fixedly installed on both the left and right ends of the mounting plate 1. Slide grooves 5 are opened in the front end of the two sets of mounting plates 1. Slider 6 is slidably installed in the slide grooves 5. Connecting brackets 7 are movably installed on the front side of the slider 6. The wire harness box body 3 is fixedly installed on the connecting brackets 7. Locking holes 8 are opened on both the left and right ends of the slider 6. Locking components are provided in the left and right ends of the connecting brackets 7 and the two sets of locking holes 8.

[0030] In use, by pushing the slider 6 to slide forward in the groove 5, the connecting frame 7 moves forward, and the connecting frame 7 moves forward, which in turn moves the wire harness box body 3 forward. When the wire harness box body 3 moves to the appropriate position, the locking component is inserted into the two sets of locking holes 8, thereby completing the installation of the connecting frame 7 and the wire harness box body 3, which improves the speed of the installation structure of the wire harness box body 3.

[0031] The rear side of the mounting plate 1 is glued with a shock-absorbing pad 4, which is made of rubber.

[0032] The installation of the shock-absorbing pad 4 increases the friction between the mounting plate 1 and the mounting surface. At the same time, the rubber shock-absorbing pad 4 also has the function of shock absorption and buffering, which can protect the mounting plate 1 and prevent the mounting plate 1 from being damaged by collision.

[0033] The locking assembly includes two sets of locking rods 9, which are rotatably mounted on the left and right ends of the connecting frame 7. The two sets of locking rods 9 are movably inserted into two sets of locking holes 8. The rear ends of the two sets of locking rods 9 are symmetrically provided with movable grooves 10. The two sets of movable grooves 10 at the rear ends of the two sets of locking rods 9 are each equipped with a return spring 11. The two sets of movable grooves 10 at the rear ends of the two sets of locking rods 9 are each movably installed with a locking block 12. The sliding grooves 5 at the rear ends of the inner walls of the two sets of locking holes 8 are symmetrically provided with locking slots 13. The four sets of locking blocks 12 are movably inserted into the four sets of locking slots 13.

[0034] When the locking assembly is working, by inserting two sets of locking rods 9 into two sets of locking holes 8, the four sets of locking blocks 12 are squeezed and slid into four sets of movable slots 10. After the two sets of locking rods 9 are fully inserted into the two sets of locking holes 8, the four sets of locking blocks 12 slide out into the four sets of locking slots 13 by the restoring force of the four sets of return springs 11. This completes the quick docking and installation of the connecting frame 7 and the wire harness box body 3. The locking assembly improves the convenience of the installation structure of the wire harness box body 3.

[0035] Two sets of guide rods 14 are fixedly installed in the two sets of movable slots 10 at the rear end of the two sets of locking rods 9. The two sets of guide rods 14 in the two sets of movable slots 10 at the rear end of the two sets of locking rods 9 are movably connected to the locking blocks 12 installed in the two sets of movable slots 10 at the rear end of the two sets of locking rods 9.

[0036] The two sets of guide rods 14 within the four sets of movable slots 10 serve to limit and guide the sliding of the four sets of locking blocks 12, preventing the two sets of locking blocks 12 from sliding out of the two sets of movable slots 10 and ensuring the stability of the four sets of locking blocks 12 within the four sets of movable slots 10.

[0037] The locking blocks 12, which are installed in the two sets of movable slots 10 at the rear end of the two sets of locking rods 9, are inclined at one end of the slot 13. The front and rear width of the locking blocks 12 is the same as the width of the slot 13.

[0038] Based on the shape of the four sets of locking blocks 12 inserted into the four sets of locking slots 13, and the two sets of locking rods 9 inserted into the two sets of locking holes 8, the four sets of locking blocks 12 can slide into the four sets of movable slots 10 under the squeezing action of the inner walls of the two sets of locking holes 8, ensuring the convenience of inserting the two sets of locking rods 9 into the two sets of locking holes 8.

[0039] The locking blocks 12 set in the two sets of movable slots 10 at the rear end of the two sets of locking rods 9 are inserted into the slots 13 on opposite sides and are both inclined.

[0040] The locking blocks 12, which are installed in the two sets of movable slots 10 at the rear end of the two sets of locking rods 9, are inserted into the slots 13 on opposite sides and are inclined. This allows the four sets of locking blocks 12 to move synchronously in the four sets of slots 13 when the two sets of locking rods 9 are rotated. Furthermore, the four sets of locking blocks 12 are pressed into the four sets of movable slots 10 by the inner walls of the four sets of slots 13, making it easier to remove the two sets of locking rods 9 from the two sets of locking holes 8.

[0041] Each of the two sets of locking rods 9 has a pressing block 15 fixedly installed on the locking block 12 in the two sets of movable grooves 10 at the rear end. Each of the two sets of locking rods 9 has an adjusting screw 16 installed in it by thread. The two sets of adjusting screws 16 are located between the four sets of adjusting screws 16. The rear inner wall of the slide groove 5 has multiple sets of screw holes 17.

[0042] By rotating the two sets of adjusting screws 16, the two sets of adjusting screws 16 rotate and squeeze the two sets of pressing blocks 15. The two sets of pressing blocks 15 are squeezed and drive the four sets of locking blocks 12 to move in opposite directions in the four sets of movable slots 10. The four sets of locking blocks 12 move out of the four sets of locking slots 13 and remain fixed, preventing the two sets of locking rods 9 from disengaging from the two sets of locking holes 8. In addition, the setting of the two sets of adjusting screws 16 facilitates the quick fixing of the slider 6 and the connecting frame 7 in the slide groove 5.

[0043] The cross-sections of the four sets of extrusion blocks 15 at opposite ends are all right-angled triangles.

[0044] With the four sets of extrusion blocks 15 having right-angled triangular cross-sections at their opposite ends, the two sets of adjusting screws 16 can rotate and extrude the four sets of extrusion blocks 15 and pass between them. This ensures that the four sets of extrusion blocks 15 are subjected to uniform force, further improving the practicality of the installation structure of the wire harness box body 3.

[0045] The front ends of the two sets of locking rods 9 and the front ends of the two sets of adjusting screws 16 are all provided with cross-shaped anti-slip textures.

[0046] The anti-slip texture provided on the front surfaces of the two sets of locking rods 9 and the two sets of adjusting screws 16 facilitates manual turning of the two sets of locking rods 9 and the two sets of adjusting screws 16 and prevents slippage.

[0047] Both the inner wall of the slide groove 5 and the slider 6 are T-shaped, and the slider 6 is adapted to the inner wall of the slide groove 5.

[0048] This allows the slider 6 to be securely installed in the groove 5, preventing it from shaking or falling off. At the same time, the T-shaped structure increases the contact area between the slider 6 and the inner wall of the groove 5, improving the stability and reliability of the installation.

[0049] Working principle: In use, firstly, slide the slider 6 left and right in the slide groove 5 to insert the two sets of locking rods 9 into the two sets of locking holes 8. As the two sets of locking rods 9 are gradually inserted, the four sets of locking blocks 12 will be squeezed from the inner wall of the locking holes 8 and slide inward along the four sets of movable grooves 10. When the two sets of locking rods 9 are fully inserted into the two sets of locking holes 8, due to the restoring force of the two sets of return springs 11 in the four sets of movable grooves 10, the four sets of locking blocks 12 will slide out from the four sets of movable grooves 10 and be inserted into the four sets of locking slots 13, thus completing the connection frame. The quick docking installation of 7 and the wire harness box body 3 is achieved by rotating two sets of adjusting screws 16 within two sets of locking rods 9 and passing them between four sets of pressing blocks 15. The two sets of adjusting screws 16 press and slide the four sets of pressing blocks 15, causing the four sets of locking blocks 12 to move in opposite directions within the four sets of movable slots 10, and finally slide out of the four sets of locking slots 13 to maintain a fixed state. Furthermore, by inserting the two sets of adjusting screws 16 into the multiple sets of screw holes 17 on the inner wall of the slide groove 5, the slider 6 and the connecting bracket 7 are quickly fixed within the slide groove 5, further improving the stability and reliability of the installation.

[0050] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A mounting structure of a stainless steel harness box comprising a mounting plate (1) and a harness box body (3), characterized by: Ear plates (2) are fixedly installed on both the left and right ends of the mounting plate (1). Slide grooves (5) are opened in the front end of the two sets of mounting plates (1). Slider (6) is slidably installed in the slide grooves (5). Connecting frame (7) is movably installed on the front side of the slider (6). The wire harness box body (3) is fixedly installed on the connecting frame (7). Locking holes (8) are opened on both the left and right ends of the slider (6). Locking components are provided in the left and right ends of the connecting frame (7) and the two sets of locking holes (8).

2. The mounting structure for a wiring harness box of stainless steel according to claim 1, characterized by: The mounting plate (1) has a shock-absorbing pad (4) glued to its rear side, and the shock-absorbing pad (4) is made of rubber.

3. The mounting structure for a wiring harness box according to claim 1, wherein: The locking assembly includes two sets of locking rods (9), which are rotatably mounted on the left and right ends of the connecting frame (7). The two sets of locking rods (9) are movably inserted into two sets of locking holes (8). The rear ends of the two sets of locking rods (9) are symmetrically provided with movable grooves (10). The two sets of movable grooves (10) at the rear ends of the two sets of locking rods (9) are each equipped with a return spring (11). The two sets of movable grooves (10) at the rear ends of the two sets of locking rods (9) are each movably installed with a locking block (12). The sliding grooves (5) at the rear ends of the inner walls of the two sets of locking holes (8) are symmetrically provided with locking slots (13). The four sets of locking blocks (12) are movably inserted into the four sets of locking slots (13).

4. The mounting structure for a wiring harness box of stainless steel according to claim 3, characterized in that: Two sets of guide rods (14) are fixedly installed in the two sets of movable slots (10) at the rear end of the two sets of locking rods (9). The two sets of guide rods (14) in the two sets of movable slots (10) at the rear end of the two sets of locking rods (9) are movably connected to the locking blocks (12) in the two sets of movable slots (10) at the rear end of the two sets of locking rods (9).

5. The mounting structure for a wiring harness box of stainless steel according to claim 3, characterized in that: The locking blocks (12) in the two sets of movable slots (10) at the rear end of the two sets of locking rods (9) are inclined at one end of the slot (13). The front and rear width of the locking blocks (12) is the same as the width of the slot (13).

6. The mounting structure for a wiring harness box of stainless steel according to claim 3, characterized by: The locking blocks (12) set in the two sets of movable slots (10) at the rear end of the two sets of locking rods (9) are inserted into the slots (13) on opposite sides and are inclined.

7. The mounting structure for a wiring harness box of stainless steel according to claim 3, characterized by: Each of the two sets of locking rods (9) has a pressing block (15) fixedly installed on the two sets of movable grooves (10) at the rear end of each set of locking rods (9). Each of the two sets of locking rods (9) has an adjusting screw (16) installed by thread. The two sets of adjusting screws (16) are located between the four sets of adjusting screws (16). The inner wall of the rear side of the slide groove (5) has multiple sets of screw holes (17).

8. The mounting structure for a wiring harness box of stainless steel according to claim 7, characterized by: The cross-sections of the four sets of extrusion blocks (15) at opposite ends are all right-angled triangles.

9. The mounting structure for a wiring harness box of stainless steel according to claim 7, characterized by: The front ends of the two sets of locking rods (9) and the front ends of the two sets of adjusting screws (16) are all provided with cross-shaped anti-slip textures.

10. The mounting structure of a stainless steel wire harness box according to claim 1, characterized in that: The inner wall of the groove (5) and the slider (6) are both T-shaped, and the slider (6) is adapted to the inner wall of the groove (5).