Stainless steel wire harness box facilitating wire arrangement

By designing a stainless steel wire harness box with adjustable and snap-fit ​​components, the problem of low space utilization in traditional wire harness boxes is solved, enabling layered arrangement and stability of wire harnesses, and improving the flexibility and convenience of the equipment.

CN224418366UActive 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
2025-06-26
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Traditional wire harness boxes have shortcomings in terms of cable routing and fixing, and cannot effectively utilize vertical space, resulting in low internal space utilization and limiting the flexibility and expandability of the wire harness box, especially in situations where wire harnesses need to be frequently replaced or adjusted.

Method used

A stainless steel wire harness box was designed, comprising an adjustment component and a snap-fit ​​component. The distance between the wire harness boards can be adjusted by the adjustment component, and the snap-fit ​​component can fix the wire harness boards, thereby achieving layered arrangement and stability of the wire harness, increasing space utilization and stability.

Benefits of technology

It improves the space utilization and stability of the wire harness box, facilitates the installation and maintenance of wire harnesses, adapts to the arrangement requirements of wire harnesses of different specifications, prevents wire harness shaking and misalignment, and enhances the flexibility and reliability of the equipment.

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Abstract

The utility model discloses a kind of stainless steel pencil box convenient to arrange wire, belong to stainless steel pencil box field, including pencil box main part, the upper end of pencil box main part is provided with box cover, the front and rear ends of pencil box main part are all set up with multiple threading holes, two groups of wire arranging plate are movably installed in pencil box main part, the upper side of two groups of wire arranging plate is all fixed with multiple wire arranging frame, multiple wire arranging frame is all set up with multiple wire arranging groove, the left and right side inner wall of pencil box main part is all set with adjusting assembly for two groups of wire arranging plate distance control;Through the cooperation of above each device, avoid the shaking and misplacement of pencil in the arrangement process, ensure the stability and reliability of pencil box main part, can be layered according to actual demand to pencil arrangement, not only improve the space utilization of pencil box main part inside, effectively solve the problem that traditional pencil box main part is inconvenient to arrange wire, easy to be chaotic.
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Description

Technical Field

[0001] This utility model relates to the technical field of stainless steel wire harness boxes, specifically a stainless steel wire harness box that facilitates cable routing. Background Technology

[0002] With the popularization and development of electronic devices, wire harnesses are used more and more widely. However, traditional wire harness boxes often have problems such as inconvenient wiring and easy mess, which bring great trouble to the installation and maintenance of equipment. In order to solve these problems, various types of wire harness boxes have appeared on the market, but most wire harness boxes still have shortcomings in terms of wiring and fixing, especially in some occasions where wire harnesses need to be replaced or adjusted frequently.

[0003] Traditional wire harness box designs typically only have the function of arranging a single row of wire harnesses, and cannot achieve layered wiring of wire harnesses. This results in low space utilization inside the wire harness box, which cannot make full use of vertical space to accommodate more wire harnesses. This limits the flexibility and scalability of the wire harness box, and in some space-constrained application scenarios, the wire harness box cannot effectively manage complex wire harness layouts.

[0004] Therefore, this utility model provides a stainless steel wire harness box that facilitates cable routing to solve the above-mentioned problems. Utility Model Content

[0005] (a) Technical problems to be solved

[0006] This utility model provides a stainless steel wire harness box that facilitates cable routing, aiming 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 wire harness box body, with a cover at the top. Multiple sets of wire-passing holes are provided at both the front and rear ends of the wire harness box body. Two sets of cable trays are movably installed inside the wire harness box body. Multiple sets of cable tray frames are fixedly installed on the upper side of each of the two sets of cable trays. Multiple sets of cable tray grooves are provided on each of the multiple sets of cable tray frames. Adjustment components for controlling the distance between the two sets of cable trays are provided on the inner walls of both the left and right sides of the wire harness box body. A snap-fit ​​component is provided at the connection point between the adjustment component and the two sets of cable trays.

[0009] As a preferred technical solution of this application, wire guard rings are fixedly installed in multiple sets of wire holes at both ends of the wire harness box body, and the front and rear opening edges of the multiple sets of wire guard rings are arc-shaped.

[0010] As a preferred technical solution of this application, multiple sets of heat dissipation holes are provided at both the front and rear ends of the main body of the wire harness box, and the inner walls of the multiple sets of heat dissipation holes are arranged in an inclined shape.

[0011] As a preferred technical solution of this application, the adjustment component includes four sets of bidirectional screws. The four sets of bidirectional screws are rotatably installed on the left and right sides of the main body of the wire harness box. Each of the four sets of bidirectional screws is threaded with two sets of adjustment blocks. The lower end of each of the four sets of bidirectional screws is fixedly installed with a synchronous pulley. Two sets of first synchronous belts are sleeved on the four sets of synchronous pulleys at the left and right ends of the main body of the wire harness box, and a second synchronous belt is sleeved on the two sets of synchronous pulleys at the right end of the main body of the wire harness box.

[0012] As a preferred technical solution of this application, the snap-fit ​​assembly includes four sets of mounting slots, which are opened at the left and right ends of the ribbon cable board. Adjusting blocks with threaded connections on the four sets of bidirectional screws are inserted into the mounting slots. The adjusting blocks have symmetrically opened movable slots at the front and back. A return spring is movably installed in each of the two sets of movable slots. A snap-fit ​​pin is movably inserted in each of the two sets of movable slots. Positioning holes are symmetrically opened in the ribbon cable board on the front and back sides of the mounting slots. The two sets of snap-fit ​​pins are movably inserted into the two sets of positioning holes.

[0013] As a preferred technical solution of this application, the end of the card pin inserted into the positioning hole is set at an angle.

[0014] As a preferred technical solution of this application, the adjusting block is provided with guide grooves on the upper ends of the two sets of locking pins, the adjusting block is movably inserted with a pressing plate, and the upper end of the pressing plate is fixedly installed with two sets of insert rods.

[0015] As a preferred technical solution of this application, the guide groove in the card pin and the two sets of inserts installed on the pressing plate are both inclined, and the opening of the guide groove on the card pin is flared.

[0016] As a preferred technical solution of this application, a sealing ring is provided at the upper end of the wire harness box body where it fits against the lower side of the box cover.

[0017] As a preferred technical solution of this application, limit clamps are symmetrically installed on the left and right sides of the multiple sets of cable tray openings on the multiple sets of cable trays.

[0018] (III) Beneficial Effects

[0019] This invention utilizes four sets of bidirectional screws in the adjustment component, which are threadedly connected to adjustment blocks. The rotation of the adjustment component allows for flexible adjustment of the distance between the two sets of cable trays, meeting the arrangement requirements of different wire harness specifications and improving the flexibility and adaptability of the wire harness box. The snap-fit ​​component design securely connects the two sets of cable trays to the four sets of bidirectional screws mounted on the two adjustment blocks, preventing swaying and misalignment of the wire harness during arrangement and ensuring the stability and reliability of the wire harness box. The wire harnesses can be arranged in layers according to actual needs, not only improving the internal space utilization of the wire harness box but also effectively solving the problems of inconvenient and chaotic cable arrangement in traditional wire harness boxes, making equipment installation and maintenance more convenient. Attached Figure Description

[0020] Figure 1 This is a front view schematic diagram of a stainless steel wire harness box that facilitates cable routing.

[0021] Figure 2 This is a front view of a disassembled stainless steel wire harness box that facilitates cable routing.

[0022] Figure 3 This is a front view cross-sectional diagram of a stainless steel wire harness box that facilitates cable routing.

[0023] Figure 4 This is a right-side structural cross-sectional view of the wiring board 5 in a stainless steel wire harness box that facilitates wiring.

[0024] Figure 5 for Figure 3 A magnified structural diagram at point A;

[0025] Figure 6 for Figure 4 A magnified structural diagram at point B.

[0026] In the picture:

[0027] 1. Wiring harness box body; 2. Box cover; 3. Wire hole; 4. Wire guard ring; 5. Cable tray; 6. Cable tray; 7. Cable tray; 8. Limiting clamp; 9. Heat dissipation hole; 10. Mounting slot; 11. Two-way screw; 12. Adjusting block; 13. Synchronous pulley; 14. First synchronous belt; 15. Second synchronous belt; 16. Movable slot; 17. Return spring; 18. Snap-fit ​​pin; 19. Positioning hole; 20. Guide slot; 21. Pressing plate; 22. Insert rod; 23. Sealing ring. 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 a stainless steel wire harness box that facilitates cable arrangement, such as Figure 1-6 As shown, the stainless steel wire harness box that facilitates cable routing includes a wire harness box body 1, a box cover 2 at the upper end of the wire harness box body 1, multiple sets of wire through holes 3 at both the front and rear ends of the wire harness box body 1, two sets of cable routing plates 5 are movably installed inside the wire harness box body 1, multiple sets of cable routing frames 6 are fixedly installed on the upper side of the two sets of cable routing plates 5, multiple sets of cable routing grooves 7 are opened on the multiple sets of cable routing frames 6, and adjustment components for controlling the distance between the two sets of cable routing plates 5 are provided on the inner walls of the left and right sides of the wire harness box body 1, and snap-fit ​​components are provided at the connection between the adjustment components and the two sets of cable routing plates 5.

[0030] Two sets of cable trays 5 are connected to the adjustment component via a snap-fit ​​assembly. As the adjustment component rotates, the distance between the two sets of cable trays 5 is widened or reduced. This allows for adjustment of the wire harnesses that are snapped together by multiple sets of cable tray frames 6 and multiple sets of cable tray slots 7 on the two sets of cable trays 5, thereby improving the internal space utilization of the wire harness box body 1.

[0031] The wire harness box body 1 has multiple sets of wire holes 3 at both ends, each with a wire guard ring 4 fixedly installed inside. The front and rear opening edges of the multiple sets of wire guard rings 4 are all arc-shaped.

[0032] The multiple sets of arc-shaped wire guard rings 4 can effectively prevent the wire harness from being scratched or worn when entering and exiting the wire hole 3, thus improving the protection effect of the wire harness.

[0033] Multiple sets of heat dissipation holes 9 are provided at both the front and rear ends of the main body 1 of the wire harness box, and the inner walls of the multiple sets of heat dissipation holes 9 are arranged in an inclined shape.

[0034] Multiple sets of heat dissipation holes 9 on the front and rear sides of the wire harness box body 1 dissipate heat inside the wire harness box body 1, thereby improving the heat dissipation performance of the wire harness box body 1 and preventing damage to the wire harness caused by excessive internal temperature. At the same time, the inclined inner wall design can also guide airflow and enhance the heat dissipation effect.

[0035] The adjustment assembly includes four sets of bidirectional screws 11, which are rotatably installed on the left and right sides of the main body 1 of the wire harness box. Each of the four sets of bidirectional screws 11 is threaded with two sets of adjusting blocks 12. The lower ends of the four sets of bidirectional screws 11 are fixedly installed with synchronous pulleys 13. Two sets of first synchronous belts 14 are sleeved on the four sets of synchronous pulleys 13 at the left and right ends of the main body 1 of the wire harness box. The two sets of second synchronous belts 15 are sleeved on the two sets of synchronous pulleys 13 at the right end of the main body 1 of the wire harness box.

[0036] When a set of bidirectional screws 11 is rotated, the second synchronous belt 15 at the lower end drives another set of bidirectional screws 11 and synchronous pulleys 13 on the right side of the wire harness box body 1 to rotate. In addition, the two sets of first synchronous belts 14 drive the two sets of bidirectional screws 11 and two sets of synchronous pulleys 13 on the left side of the wire harness box body 1 to rotate. This allows the two sets of adjusting blocks 12 on the four sets of bidirectional screws 11 to move up and down, thereby driving the two sets of ribbon cables 5 to move up and down inside the wire harness box body 1. This adjusts the distance between the two sets of ribbon cables 5 to accommodate different wire harnesses and improves the practicality and flexibility of the wire harness box body 1.

[0037] The snap-fit ​​assembly includes four sets of mounting slots 10, which are located at the left and right ends of the cable board 5. Adjusting blocks 12, which are threaded onto four sets of bidirectional screws 11, are inserted into the mounting slots 10. The adjusting blocks 12 have symmetrically arranged movable slots 16, and a return spring 17 is movably installed in each of the two sets of movable slots 16. A snap-fit ​​pin 18 is movably inserted into each of the two sets of movable slots 16. Positioning holes 19 are symmetrically arranged in the cable board 5 on both sides of the mounting slots 10, and the two sets of snap-fit ​​pins 18 are movably inserted into the two sets of positioning holes 19.

[0038] When it is necessary to fix the ribbon cable board 5, align the mounting groove 10 at the upper end of the ribbon cable board 5 with the adjusting block 12, and press one end of the two sets of locking pins 18 against the inner wall of the mounting groove 10 and slide them into the two sets of movable grooves 16, so that the locking pins 18 move inward in the movable grooves 16. After the adjusting block 12 is aligned with the mounting groove 10 on the ribbon cable board 5, the two sets of locking pins 18 are inserted into the positioning holes 19 on the front and rear sides of the mounting groove 10 under the action of the return spring 17, thereby fixing the ribbon cable board 5 and preventing the ribbon cable board 5 from shaking in the main body 1 of the wire harness box.

[0039] The end of the card pin 18 inserted into the positioning hole 19 is set at an angle.

[0040] The inclined design of the locking pin 18 allows it to slide smoothly into the movable groove 16 when squeezed, and under the restoring force of the return spring 17, it can smoothly lock into the positioning hole 19, thus improving the convenience and stability of the locking assembly.

[0041] The adjusting block 12 is equipped with guide grooves 20 on the upper ends of two sets of locking pins 18. The adjusting block 12 is movably inserted with a pressing plate 21, and two sets of insert rods 22 are fixedly installed on the upper end of the pressing plate 21.

[0042] When it is necessary to disassemble the ribbon cable board 5, by pressing the pressing plate 21 and the two sets of plug rods 22, the two sets of plug rods 22 move and are inserted into the guide grooves 20 on the two sets of locking pins 18, so that the locking pins 18 move inward in the movable groove 16 and compress the return spring 17 to retract. When the locking pins 18 are completely disengaged from the positioning hole 19, the adjusting block 12 can be pulled out from the mounting groove 10, thereby completing the disassembly of the ribbon cable board 5, which facilitates the replacement or maintenance of the wire harness inside the wire harness box and improves the practicality and convenience of the wire harness box.

[0043] The guide groove 20 inside the snap pin 18 and the two sets of insert rods 22 installed on the pressing plate 21 are both set at an angle, and the opening of the guide groove 20 on the snap pin 18 is flared.

[0044] The inclined guide groove 20 and the insert rod 22 allow the two sets of insert rods 22 to be smoothly inserted into the guide groove 20 when the pressing plate 21 is pressed. Under the action of the inclined surface, the snap-fit ​​pin 18 can be smoothly squeezed to move, and the return spring 17 is contracted, making it easier for the adjustment block 12 to be pulled out from the mounting groove 10, which further improves the convenience of disassembling the snap-fit ​​assembly.

[0045] A sealing ring 23 is provided at the upper end of the wire harness box body 1 where it fits against the lower side of the box cover 2.

[0046] By setting the sealing ring 23, the sealing between the upper end of the wire harness box body 1 and the lower side of the box cover 2 is enhanced, effectively preventing dust, moisture and other impurities from entering the wire harness box body 1 and damaging the wire harness, thereby improving the protective performance and service life of the wire harness box body 1.

[0047] Limiting clamps 8 are symmetrically installed at the openings of multiple cable trays 7 on the multiple cable trays 6.

[0048] By using multiple sets of limiting clamps 8 to limit the wire harness, the wire harness is prevented from becoming loose or falling off at the opening of the cable tray 7, thus improving the neatness and stability of the wire harness arrangement.

[0049] Working principle: In use, align the four sets of mounting slots 10 on the left and right sides of the ribbon cable board 5 with the two sets of adjusting blocks 12 on the four sets of bidirectional screws 11. One end of each set of locking pins 18 is pressed against the inner wall of the mounting slot 10 and slid into the two sets of movable slots 16, causing the locking pins 18 to move inward within the movable slots 16. After the adjusting blocks 12 are fully aligned with the mounting slots 10 on the ribbon cable board 5, the return spring 17 inserts the two sets of locking pins 18 into the positioning holes 19 on both sides of the mounting slot 10, thus fixing the ribbon cable board 5 and preventing it from shaking within the cable harness box body 1. The user first passes the cable harness through the wire hole 3 into the cable harness box body 1, and then uses multiple limiting clips 8 to limit the cable harness. Then, by rotating... A set of bidirectional screws 11 drives another set of bidirectional screws 11 to rotate via a lower synchronous pulley 13 and a second synchronous belt 15. The rotation of two sets of synchronous pulleys 13 inside the right end of the wire harness box body 1 drives the rotation of two sets of synchronous pulleys 13 inside the left end of the wire harness box body 1 via two sets of first synchronous belts 14, which in turn drives the rotation of two sets of bidirectional screws 11 inside the left end of the wire harness box body 1. While the four sets of bidirectional screws 11 are rotating, they drive two sets of adjusting blocks 12 installed on the four sets of bidirectional screws 11 to move up and down through threads. While the two sets of adjusting blocks 12 on the four sets of bidirectional screws 11 are moving, they drive two sets of ribbon cable plates 5 to move up and down inside the wire harness box body 1, thereby adjusting the distance between the two sets of ribbon cable plates 5 to accommodate the arrangement of wire harnesses of different specifications.

[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 stainless steel wiring harness box facilitating wire arrangement, comprising a wiring harness box main body (1), characterized in that: The upper end of the wire harness box body (1) is provided with a box cover (2). Multiple sets of wire holes (3) are opened at both the front and rear ends of the wire harness box body (1). Two sets of cable trays (5) are movably installed inside the wire harness box body (1). Multiple sets of cable trays (6) are fixedly installed on the upper side of the two sets of cable trays (5). Multiple sets of cable trays (7) are opened on the multiple sets of cable trays (6). Adjustment components for controlling the distance between the two sets of cable trays (5) are provided on the inner walls of the left and right sides of the wire harness box body (1). A snap-fit ​​component is provided at the connection between the adjustment component and the two sets of cable trays (5).

2. The stainless steel wiring harness case facilitating wire routing of claim 1, wherein: The wire harness box body (1) has multiple sets of wire holes (3) at both ends, each with a wire guard ring (4) fixedly installed inside. The front and rear opening edges of the multiple sets of wire guard rings (4) are all arc-shaped.

3. The stainless steel wiring harness case facilitating wire routing of claim 1, wherein: The wire harness box body (1) has multiple sets of heat dissipation holes (9) at both the front and rear ends, and the inner walls of the multiple sets of heat dissipation holes (9) are arranged in an inclined manner.

4. The stainless steel wiring harness case facilitating wire routing of claim 1, wherein: The adjustment assembly includes four sets of bidirectional screws (11). The four sets of bidirectional screws (11) are rotatably installed on the left and right sides of the wire harness box body (1). Each of the four sets of bidirectional screws (11) is threaded with two sets of adjustment blocks (12). The lower ends of the four sets of bidirectional screws (11) are fixedly installed with synchronous pulleys (13). Two sets of first synchronous belts (14) are sleeved on the four sets of synchronous pulleys (13) at the left and right ends of the wire harness box body (1). The two sets of second synchronous belts (15) are sleeved on the two sets of synchronous pulleys (13) at the right end of the wire harness box body (1).

5. A stainless steel wire harness box for easy cable routing according to claim 4, characterized in that: The snap-fit ​​assembly includes four sets of mounting slots (10), which are located at the left and right ends of the cable tray (5). Adjusting blocks (12) connected to the four sets of bidirectional screws (11) by thread are inserted into the mounting slots (10). The adjusting blocks (12) are symmetrically provided with movable slots (16) in the front and back. A return spring (17) is movably installed in each of the two sets of movable slots (16). A snap-fit ​​pin (18) is movably inserted in each of the two sets of movable slots (16). Positioning holes (19) are symmetrically provided in the cable tray (5) on both sides of the mounting slots (10). The two sets of snap-fit ​​pins (18) are movably inserted into the two sets of positioning holes (19).

6. A stainless steel wire harness box for easy cable routing according to claim 5, characterized in that: The end of the card pin (18) inserted into the positioning hole (19) is set at an angle.

7. A stainless steel wire harness box for easy cable routing according to claim 5, characterized in that: The adjusting block (12) is equipped with guide grooves (20) on the upper ends of two sets of locking pins (18). The adjusting block (12) is movably inserted with a pressing plate (21), and two sets of insert rods (22) are fixedly installed on the upper end of the pressing plate (21).

8. A stainless steel wire harness box for easy cable routing according to claim 5, characterized in that: The guide groove (20) in the snap pin (18) and the two sets of insert rods (22) installed on the pressing plate (21) are both inclined, and the opening of the guide groove (20) on the snap pin (18) is flared.

9. A stainless steel wire harness box for easy cable routing according to claim 1, characterized in that: A sealing ring (23) is provided at the upper end of the main body (1) of the wire harness box and the lower side of the box cover (2).

10. A stainless steel wire harness box for easy cable routing according to claim 1, characterized in that: Limiting clamps (8) are symmetrically installed at the openings of multiple cable trays (7) on the multiple sets of cable trays (6).