Aluminum alloy cabinet cover with wire harness limiting buckle
By incorporating wire harness holders, holes, and clips within the aluminum alloy cabinet, the problems of large space occupation and tangled wires in the cabinet's wiring harness layout are solved. This achieves stable positioning and neat arrangement of the wire harnesses, reducing cabinet weight and transportation costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- AOLV ALUMINUM IND TECH(KUNSHAN) CO LTD
- Filing Date
- 2025-03-22
- Publication Date
- 2026-06-26
Smart Images

Figure CN224419101U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aluminum alloy profile technology, and in particular to an aluminum alloy cabinet cover with a wire harness limiting buckle. Background Technology
[0002] Server racks are typically made of cold-rolled steel or alloys and are used to store computers and related control equipment. They provide protection for the stored equipment, shield against electromagnetic interference, and allow for orderly and neat arrangement of equipment, facilitating future maintenance. Traditionally, the wiring harness layout within a server rack requires the addition of a wiring harness board to fix the harnesses. This wiring harness board occupies a significant amount of space within the rack, increasing its weight and consequently raising transportation costs. Therefore, a solution is needed: an aluminum alloy rack cover with wiring harness limit clips. This would allow for the collection and organization of the harnesses within the rack while minimizing the use of wiring harness boards, preventing tangled or messy wiring. Utility Model Content
[0003] In view of the shortcomings of the prior art described above, the purpose of this utility model is to provide an aluminum alloy cabinet cover with a wire harness limiting buckle to solve the problem of wire harness organization inside the cabinet in the prior art.
[0004] To achieve the above and other related objectives, this utility model provides the following technical solution:
[0005] An aluminum alloy cabinet cover with a wire harness limiting buckle, comprising:
[0006] An aluminum frame is provided with a door panel. A wire harness seat is provided on the aluminum frame inside the door panel. Two sets of wire harness holes are symmetrically arranged in the wire harness seat on the upper side of the aluminum frame. The two sets of wire harness holes penetrate the wire harness seat along the width direction of the wire harness seat.
[0007] The wire harness support angle is located at the aluminum connection point inside the aluminum frame, and a wire harness buckle is provided at the middle position inside the wire harness support angle.
[0008] To achieve the above technical solution, a wire harness holder is installed on the aluminum frame inside the door panel. When it is necessary to lay the wire harness, the wire harness passes through two sets of wire harness holes symmetrically arranged inside the wire harness holder. The two sets of wire harness holes are used to position the wire harness, thereby avoiding the wire harness from becoming tangled. The two sets of wire harness holes pass through the wire harness holder along the width direction, which ensures that the direction of the wire harness passing through the wire harness holes is uniform and there will be no tangling.
[0009] The wire harness clips on the wire harness support corners at the aluminum connection points on the inner side of the aluminum frame provide auxiliary positioning for the wire harness, preventing the wire harness from becoming misaligned due to lack of restraint at the aluminum connection points.
[0010] In one embodiment of the present invention, a limiting pin is provided on the door panel, and a limiting hole is provided in the wire harness seat on the upper side of the two sets of wire harness holes, and the limiting pin is inserted into the limiting hole.
[0011] To achieve the above technical solution, the stability of the wire harness is determined by the stability of the wire harness on the aluminum frame. Therefore, a limit pin is set on the door panel and inserted into the limit hole to restrict the movement of the wire harness on the aluminum frame, thereby ensuring the restraining effect of the wire harness on the wire harness.
[0012] In one embodiment of the present invention, a limiting base is provided at the bottom of the wire harness seat, and the limiting base is slidably connected to the aluminum frame.
[0013] To achieve the above technical solution, a limiting base is provided at the bottom of the wire harness holder, which can prevent the wire harness holder from falling off inside the aluminum frame, thereby improving the support stability of the wire harness holder for the wire harness. The limiting base is slidably connected inside the aluminum frame, which can adjust the position of the wire harness holder on the aluminum frame.
[0014] In one embodiment of the present invention, the wire harness support angle is a right angle, and a buckle seat is provided at the turning point inside the wire harness support angle, and the wire harness buckle is located on the buckle seat.
[0015] To achieve the above technical solution, the wire harness support angle is made into a right angle, which can better fit the corner structure of the aluminum frame. The inner corner of the wire harness support angle is provided with a buckle seat, which can provide support for the wire harness buckle, making it easier for the wire harness buckle to protrude from the wire harness support angle and better install the wire harness.
[0016] In one embodiment of the present invention, the wire harness clip is located in the middle of the clip seat.
[0017] The above technical solution improves the ease of wire harness installation and balances the impact of the force on the wire harness clips on the wire harness support angle.
[0018] In one embodiment of this utility model, locking bolts are respectively provided between the two right-angled sides of the wire harness support and the aluminum frame.
[0019] To achieve the above technical solution, the use of locking bolts can improve the connection stability between the wire harness support and the aluminum frame, thereby improving the reliability of the wire harness support for the aluminum frame.
[0020] In one embodiment of this utility model, the wire harness hole and the wire harness buckle are arranged perpendicularly to each other.
[0021] To achieve the above technical solution, in order to facilitate the collection and organization of wire harnesses, the wire harness holes and wire harness clips are set perpendicular to each other. The wire harnesses that can be easily inserted into the wire harness holes are positioned by the wire harness clips, making the wire harnesses more organized.
[0022] In one embodiment of this utility model, multiple sets of the wire harness seat and wire harness support are provided inside the aluminum frame.
[0023] The above technical solution can accommodate more wire harness layouts and improve wire harness integration.
[0024] As described above, the aluminum alloy cabinet cover with wire harness limiting buckles of this utility model has the following beneficial effects: By setting a wire harness seat on the aluminum frame inside the door panel, when it is necessary to lay the wire harness, the wire harness passes through two sets of wire harness holes symmetrically arranged inside the wire harness seat. The two sets of wire harness holes are used to position the wire harness, thereby avoiding the wire harness from becoming tangled. The two sets of wire harness holes pass through the wire harness seat along the width direction, which can ensure that the direction of the wire harness passing through the wire harness holes is uniform and will not cause tangling. The wire harness buckles on the wire harness support corners set at the aluminum connection points inside the aluminum frame play an auxiliary positioning role for the wire harness, avoiding the wire harness from becoming tangled due to the lack of limiting at the aluminum connection points. Attached Figure Description
[0025] Figure 1 The diagram shown is a structural schematic of an aluminum alloy cabinet cover with a wire harness limiting buckle disclosed in an embodiment of this utility model.
[0026] Figure 2 Displayed as Figure 1 A partial enlarged view of the figure marked A in the attached diagram.
[0027] Figure 3 The diagram shown is a schematic diagram of the door panel structure of the aluminum alloy cabinet cover with wire harness limiting buckle disclosed in the embodiments of this utility model.
[0028] Figure 4 Displayed as Figure 3 A magnified view of part labeled B in the attached figure.
[0029] Component designation explanation
[0030] 1. Aluminum frame; 2. Door panel; 3. Wire harness seat; 4. Wire harness hole; 5. Wire harness support; 6. Wire harness clip; 7. Limit pin; 8. Limit hole; 9. Clip seat; 10. Limit base; 11. Locking bolt. Detailed Implementation
[0031] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. It should be noted that, unless otherwise specified, the following embodiments and features can be combined with each other.
[0032] Please see Figures 1 to 4 This utility model provides an aluminum alloy cabinet cover with a wire harness limiting buckle, including an aluminum frame 1 with a door panel 2, a wire harness seat 3 on the aluminum frame 1 inside the door panel 2, two sets of wire harness holes 4 symmetrically arranged in the wire harness seat 3 on the upper side of the aluminum frame 1, the two sets of wire harness holes 4 penetrating the wire harness seat 3 along the width direction of the wire harness seat 3, a wire harness support angle 5 located at the aluminum connection point inside the aluminum frame 1, and a wire harness buckle 6 provided at the middle position inside the wire harness support angle 5.
[0033] To achieve the above technical solution, a wire harness seat 3 is provided on the aluminum frame 1 inside the door panel 2. When it is necessary to lay the wire harness, the wire harness is passed through two sets of wire harness holes 4 symmetrically arranged inside the wire harness seat 3. The two sets of wire harness holes 4 are used to position the wire harness, thereby avoiding the wire harness from becoming tangled. The two sets of wire harness holes 4 pass through the wire harness seat 3 along the width direction of the wire harness seat 3, which ensures that the direction of the wire harness passing through the wire harness holes 4 is uniform and there will be no tangling.
[0034] The wire harness clips 6 on the wire harness support angles 5 set at the aluminum material connection points on the inner side of the aluminum frame 1 provide auxiliary positioning for the wire harness, preventing the wire harness from becoming misaligned due to lack of limiting at the aluminum material connection points.
[0035] A limit pin 7 is provided on the door panel 2, and a limit hole 8 is provided in the wire harness seat 3 on the upper side of the two sets of wire harness holes 4. The limit pin 7 is inserted into the limit hole 8.
[0036] The stability of the wire harness holder 3 on the aluminum frame 1 determines the stability of the wire harness. Therefore, a limit pin 7 is provided on the door panel 2. The limit pin 7 is inserted into the limit hole 8 to limit the movement of the wire harness holder 3 on the aluminum frame 1, thereby ensuring the limiting effect of the wire harness holder 3 on the wire harness.
[0037] The bottom of the wire harness holder 3 is provided with a limiting base 10, which is slidably connected to the aluminum frame 1. By providing a limiting base 10 at the bottom of the wire harness holder 3, the wire harness holder 3 can be prevented from falling off inside the aluminum frame 1, thereby improving the support stability of the wire harness holder 3 for the wire harness. The slidable connection of the limiting base 10 inside the aluminum frame 1 allows for adjustment of the position of the wire harness holder 3 on the aluminum frame 1.
[0038] The wire harness support angle 5 is a right angle. A buckle seat 9 is provided at the turning point on the inside of the wire harness support angle 5. The wire harness buckle 6 is located on the buckle seat 9. Making the wire harness support angle 5 a right angle can better fit the corner structure of the aluminum frame 1. The buckle seat 9 at the turning point on the inside of the wire harness support angle 5 can provide support for the wire harness buckle 6, making it easier for the wire harness buckle 6 to protrude from the wire harness support angle 5 and better install the wire harness.
[0039] The wire harness clip 6 is located in the middle of the clip seat 9, which improves the convenience of wire harness installation and balances the force of the wire harness clip 6 on the wire harness support angle 5. The two right-angled sides of the wire harness support angle 5 are respectively provided with locking bolts 11 between them and the aluminum frame 1. The locking bolts 11 can improve the connection stability between the wire harness support angle 5 and the aluminum frame 1, thereby improving the support reliability of the wire harness support angle 5 on the aluminum frame 1.
[0040] The wire harness hole 4 and the wire harness clip 6 are set perpendicular to each other. In order to facilitate the collection and organization of wire harnesses, the wire harness hole 4 and the wire harness clip 6 are set perpendicular to each other. The wire harness that can be easily inserted into the wire harness hole 4 is positioned by the wire harness clip 6, making the wire harness more organized.
[0041] Multiple sets of wire harness holders 3 and wire harness support angles 5 are each provided in the aluminum frame 1, which can accommodate more wire harness layouts and improve wire harness integration.
[0042] This utility model features a wire harness holder on the aluminum frame inside the door panel. When wire harnesses need to be laid, the wire harnesses pass through two sets of symmetrically arranged wire harness holes within the holder. These holes position the wire harnesses, preventing them from becoming tangled or twisted. The two sets of holes, extending along the width of the holder, ensure that the direction of the wire harnesses passing through them is consistent, preventing tangling. Furthermore, wire harness clips on the wire harness support corners at the aluminum connection points inside the frame provide auxiliary positioning, preventing wire harness misalignment due to lack of restraint at the aluminum connection points.
[0043] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit this utility model. All equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.
Claims
1. An aluminum alloy cabinet cover with a wire harness limiting buckle, characterized in that, include: An aluminum frame is provided with a door panel. A wire harness seat is provided on the aluminum frame inside the door panel. Two sets of wire harness holes are symmetrically arranged in the wire harness seat on the upper side of the aluminum frame. The two sets of wire harness holes penetrate the wire harness seat along the width direction of the wire harness seat. The wire harness support angle is located at the aluminum connection point inside the aluminum frame, and a wire harness buckle is provided at the middle position inside the wire harness support angle.
2. The aluminum alloy cabinet cover with wire harness limiting buckle according to claim 1, characterized in that: The door panel is provided with a limiting pin, and the upper side of the two sets of wire harness holes is provided with a limiting hole in the wire harness seat, and the limiting pin is inserted into the limiting hole.
3. The aluminum alloy cabinet of claim 1, wherein: The bottom of the wire harness seat is provided with a limiting base, which is slidably connected to the aluminum frame.
4. The aluminum alloy cabinet of claim 1, wherein: The wire harness support angle is right-angled, and a buckle seat is provided at the turning point inside the wire harness support angle, with the wire harness buckle located on the buckle seat.
5. The aluminum alloy cabinet of claim 1, wherein: The wire harness clip is located in the middle of the clip seat.
6. The aluminum alloy cabinet of claim 1, wherein: The two right-angled sides of the wire harness support are respectively fitted with locking bolts between them and the aluminum frame.
7. The aluminum alloy cabinet of claim 1, wherein: The wire harness holes are arranged perpendicularly to each other at right angles to the wire harness.
8. The aluminum alloy cabinet of claim 1, wherein: Multiple sets of the wire harness holder and wire harness support are each provided inside the aluminum frame.