CN221552754U - Wire arranging frame suitable for inside cable of server - Google Patents

Abstract

The utility model provides a wire arranging frame suitable for cables in a server, which belongs to the technical field of servers and comprises at least one L-shaped buried wire frame body, wherein a first buried wire area and a second buried wire area are respectively arranged on two side edges of the buried wire frame body, and convex bridge structures are respectively arranged in the first buried wire area and the second buried wire area; the two ends of the buried wire frame body are respectively provided with a case connecting part and a buried wire frame connecting part, or the two ends of the buried wire frame body are respectively provided with a case connecting part. The utility model has the advantages that the utility model does not occupy too much horizontal plane area to affect the board outgoing line, and can realize the classification and the partition line arrangement treatment of cables of different modules in the server, thereby being beneficial to the subsequent assembly and operation and maintenance of the server.

Description

Wire arranging frame suitable for inside cable of server

Technical Field

The utility model belongs to the technical field of servers, and particularly relates to a wire arranging frame suitable for cables in a server.

Background

The server is generally formed by connecting a plurality of hosts placed in the same cabinet body, and for the server, in order to ensure the normal operation of each host, the server needs to connect each host with external equipment by using cables such as a high-speed signal wire, a low-speed signal wire, an overcurrent power wire and the like, so that the server can control the external equipment or carry out data transmission.

Therefore, in the use process of the server, the cables connected to the inside of the server need to be subjected to wire harness processing, so that the problems of scattered, irregular and unattractive cables in the server caused by winding of a plurality of high-speed signal wires and overcurrent power wires are avoided, and the heat dissipation wind flow is prevented from being blocked by the cables and the influence on the subsequent operation and maintenance is avoided.

However, the harness structure adopted by the existing internal cables of the server still has a certain problem, especially the harness structure for the cables crossing the motherboard at the rear window position. Specifically, on one hand, the whole size of the existing wire harness structure is larger, so that the wire harness structure easily shields the wire outlet position of a main board cable and influences wind flow because of occupying too much height space; on the other hand, because the existing wire harness structure generally directly binds all cables together, classification and partition wire arrangement of different module wire windings cannot be realized directly through one set of wire harness structure, which is not beneficial to subsequent assembly and operation and maintenance of the server.

Disclosure of utility model

The technical problem solved by the utility model is to provide the wire arranging frame suitable for the cables in the server, so that the wire arranging frame does not occupy too much horizontal plane area, and classification and partition wire arranging treatment of the cables with different modules in the server can be realized, thereby being beneficial to subsequent assembly and operation and maintenance of the server.

In order to solve the problems, the technical scheme provided by the utility model is as follows: the utility model provides a reason line frame suitable for inside cable of server, it includes at least one L shape buries the line frame body, buries the both sides limit of line frame body and is provided with buries line region one and buries line region two respectively, buries line region one and buries line region two and all is provided with protruding bridge structure; the two ends of the buried wire frame body are respectively provided with a case connecting part and a buried wire frame connecting part, or the two ends of the buried wire frame body are respectively provided with a case connecting part. On one hand, the utility model adopts the L-shaped buried line frame body structure, can simultaneously have at least two buried line areas, and classifies and divides the cables at different board cards for line arrangement so as to facilitate subsequent operation and maintenance of operators; on the other hand, as the convex bridge structure and the wire harness belt and the magic tape are adopted to carry out wire harness processing, compared with the wire harness processing mode in the prior art by pasting the wire clamps, the utility model does not occupy too much height space to influence wind flow; meanwhile, the utility model does not occupy too much horizontal space to influence the outgoing lines of the connectors on the lower board card.

Further, when the number of the embedded wire frame bodies is at least two, the two ends of the embedded wire frame bodies are respectively provided with a case connecting part and an embedded wire frame connecting part, or the two ends of the embedded wire frame bodies are respectively provided with the embedded wire frame connecting parts; the wire arranging frame suitable for the cables inside the server further comprises at least one linear wire arranging frame support frame, the wire arranging frame support frames are located on the inner sides of the corresponding two wire arranging frame bodies, and two ends of the wire arranging frame support frames are connected with the wire arranging frame connecting portions of the corresponding wire arranging frame bodies respectively, so that the two wire arranging frame bodies are connected together, and the corresponding two wire arranging frame bodies are supported.

Further, the first mounting hole penetrates through the connecting portion of the buried wire frame, the second mounting hole penetrates through the supporting frame of the buried wire frame, and the supporting frame of the buried wire frame and the body of the buried wire frame are connected together through nuts and connecting bolts penetrating through the first mounting hole and the second mounting hole in sequence.

Further, the stud of the connecting bolt sequentially passes through the gasket, the first mounting hole and the second mounting hole and then is in threaded connection with the nut.

Further, the embedded wire frame support frame penetrates through at least two second mounting holes in the length direction, and when the embedded wire frame support frame is connected with the corresponding embedded wire frame body, the embedded wire frame support frame can select the second mounting holes at different positions according to requirements for fixing, so that the width of the case is suitable.

Further, the mounting holes III are formed in the two ends of the chassis connecting portion in a penetrating mode, and therefore when the buried wire frame body is mounted in the chassis, the chassis and the buried wire frame body can be locked through nuts and connecting bolts penetrating through the chassis and the mounting holes III in sequence.

Further, the middle part of the chassis connecting part is provided with a mounting slot, so that when the buried wire frame body is mounted in the chassis, the end part of the buried wire frame body can be clamped with the I-shaped nail on the side wall of the chassis through the mounting slot.

Further, the first buried line area and the second buried line area are both provided with at least two convex bridge structures so as to ensure that enough magic tapes or wire harnesses can be installed when the cable length is longer.

Further, the convex bridge structure of the first buried line region and the convex bridge structure of the second buried line region are arranged in a one-to-one correspondence.

Further, the first buried line area and the second buried line area are provided with different buried line marks so as to facilitate operators to distinguish types of buried cables at different positions.

From the above technical scheme, the utility model has the following advantages: 1. because the L-shaped buried wire frame body structure is adopted, the utility model can simultaneously have at least two buried wire areas, and the cables at different board cards are classified and treated in a partitioned manner, so that operators can conveniently and subsequently carry out operation and maintenance; 2. because the convex bridge structure and the wire harness belt and the magic tape are matched to carry out wire harness treatment, compared with the mode of binding wires by pasting wire clamps in the prior art, the utility model does not occupy too much height space to influence wind flow; 3. the utility model has reasonable size design, and does not occupy too much horizontal space to influence the outgoing lines of the connector on the board card below the buried line frame body; 4. the utility model adopts the design with adjustable integral length, which can be suitable for the cabinets with different widths, and has higher flexibility; 5. the detachable structure is arranged on the side wall of the case, so that the detachable structure can be assembled along with disassembly, and can be reused in the whole structure and reused in different projects, thereby saving the cost.

Drawings

In order to more clearly illustrate the technical solutions of the present utility model, the drawings that are needed in the description will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a buried frame body according to the present utility model;

FIG. 2 is a schematic diagram of a buried frame body according to a second embodiment of the present utility model;

FIG. 3 is a schematic view of a frame of the buried frame according to the present utility model;

FIG. 4 is a schematic diagram of the structure of two buried coil frames according to the present utility model;

FIG. 5 is a schematic diagram illustrating the connection between the main body of the buried frame and the supporting frame of the buried frame according to the present utility model;

FIG. 6 is a schematic diagram showing the connection of the buried frame body with the spacer and the connecting bolt;

fig. 7 is a schematic structural view of the present utility model when installed in a chassis.

In the figure: 1. a first buried line area; 2. a protruding bridge structure; 3. a buried line area II; 4. a third mounting hole; 5. mounting and slotting; 6. a buried wire frame body; 7. a first mounting hole; 8. a support frame of the buried wire frame; 9. a second mounting hole; 10. a connecting bolt; 11. a gasket.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 7, the present utility model provides a cable management rack suitable for cables in a server, which includes two L-shaped cable management rack bodies 6 and a linear cable management rack support 8.

The two sides of the buried wire frame body 6 are respectively provided with a buried wire area 1 and a buried wire area two 3, the buried wire area 1 and the buried wire area two 3 are respectively provided with at least two convex bridge structures 2, the convex bridge structures 2 of the buried wire area 1 and the convex bridge structures 2 of the buried wire area two 3 are arranged in a one-to-one correspondence manner, and various different types of wire binding belts or magic tapes can be selected for wire binding.

In addition, the first buried line area 1 and the second buried line area 3 are also provided with different buried line identifications, the buried line identification of the first buried line area 1 can be in capital letter "H", the buried line identification of the second buried line area 3 can be in capital letter "L", so that the first buried line area 1 marked with the "H" identification can be used for the over-high-speed cable, and the second buried line area 3 marked with the "L" identification can be used for the over-non-high-speed cable; or when the utility model is used for outgoing cables on different boards and the outgoing cables on different boards are required to be bundled separately, the outgoing cables on different boards can be respectively routed at different buried wire areas of the wire arranging frame body 6, for example, all cables of the board A are routed at a buried wire area I1 marked with H, and all cables of the board B are routed at a buried wire area II 3 marked with L, thereby realizing classification and regional wire arranging treatment of different module cables in the server and being beneficial to subsequent assembly and operation and maintenance of the server.

The two ends of the buried wire frame body 6 are respectively provided with a case connecting part and a buried wire frame connecting part, wherein the two ends of the case connecting part are respectively penetrated with a mounting hole III 4, the middle part of the case connecting part is provided with a mounting slot 5, so that when the buried wire frame body 6 is mounted in a case, the case and the buried wire frame body 6 are locked through nuts and connecting bolts 10 which sequentially penetrate through the case and the mounting holes III 4, and the end part of the buried wire frame body 6 is clamped with I-shaped nails on the side wall of the case through the mounting slot 5; based on the structure, the detachable structure is arranged on the side wall of the case, so that the detachable structure can be assembled along with disassembly, the secondary utilization of the whole structure and the multiplexing in different projects can be realized, and the cost is saved.

The buried line frame connecting part is penetrated with a first mounting hole 7, the buried line frame support 8 is penetrated with at least two second mounting holes 9, and the buried line frame support 8 and the buried line frame body 6 are connected together through nuts and connecting bolts 10 which sequentially penetrate through corresponding gaskets 11, the first mounting holes 7 and the second mounting holes 9. Therefore, the utility model can select the second mounting holes 9 at different positions according to the requirements for fixing, so that the whole length of the utility model can be designed in an adjustable way, and the utility model can be suitable for chassis with various specifications.

Therefore, the utility model has the following advantages:

1. Because the L-shaped buried wire frame body 6 is adopted, the utility model can simultaneously have at least two buried wire areas, and the cables at different board cards are classified and treated in a partitioned manner, so that operators can conveniently and subsequently carry out operation and maintenance;

2. Because the convex bridge structure 2 and the wire harness strap and the magic tape are matched to carry out wire harness treatment, compared with the wire harness treatment mode in the prior art by pasting the wire clamps, the wire harness treatment device does not occupy too much height space to influence wind flow;

3. The utility model has reasonable size design, and does not occupy too much horizontal space to influence the outgoing lines of the connector on the board card below the buried wire frame body 6;

4. The utility model adopts the design with adjustable integral length, which can be suitable for the cabinets with different widths, and has higher flexibility;

5. The detachable structure is arranged on the side wall of the case, so that the detachable structure can be assembled along with disassembly, and can be reused in the whole structure and reused in different projects, thereby saving the cost.

In addition, it should be noted that, in addition to the above structure, the number of the buried frame bodies 6 in the present utility model may be one or more than two, and when the number of the buried frame bodies 6 is one, both ends of the buried frame bodies 6 are set as chassis connection parts and are respectively connected with both side walls of the chassis; when the quantity of the buried line frame bodies 6 is more than two, both ends of the partial buried line frame bodies 6 are respectively provided with a case connecting part and a buried line frame connecting part, both ends of the partial buried line frame bodies 6 are respectively connected with two side walls of the case through the case connecting parts, and the buried line frame bodies 6 at the middle positions are connected together through the buried line frame connecting parts and the buried line frame supporting frames 8.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The cable arranging frame is characterized by comprising at least one L-shaped cable arranging frame body, wherein a first cable arranging region and a second cable arranging region are respectively arranged on two side edges of the cable arranging frame body, and convex bridge structures are respectively arranged in the first cable arranging region and the second cable arranging region; the two ends of the buried wire frame body are respectively provided with a case connecting part and a buried wire frame connecting part, or the two ends of the buried wire frame body are respectively provided with a case connecting part.

2. The wire arranging frame for cables in a server according to claim 1, wherein when the number of the wire arranging frame bodies is at least two, the two ends of the wire arranging frame bodies are respectively provided with a case connecting part and a wire arranging frame connecting part, or the two ends of the wire arranging frame bodies are respectively provided with the wire arranging frame connecting parts; the wire arranging frame suitable for the cables inside the server further comprises at least one linear wire arranging frame support frame, the wire arranging frame support frames are located on the inner sides of the corresponding two wire arranging frame bodies, and two ends of the wire arranging frame support frames are connected with the wire arranging frame connecting portions of the corresponding wire arranging frame bodies respectively.

3. The wire management frame for cables in a server according to claim 2, wherein the wire-embedding frame connecting portion is penetrated with a first mounting hole, the wire-embedding frame supporting frame is penetrated with a second mounting hole, and the wire-embedding frame supporting frame and the wire-embedding frame body are connected together through nuts and connecting bolts sequentially penetrating through the first mounting hole and the second mounting hole.

4. A wire management frame for cables in a server according to claim 3, wherein the stud of the connecting bolt passes through the gasket, the first mounting hole and the second mounting hole in sequence and then is connected with the nut in a threaded manner.

5. A rack for server-side cables of claim 3, wherein the rack support has at least two second mounting holes extending longitudinally therethrough.

6. The cable management frame for server internal cables according to any one of claims 1 to 5, wherein the mounting holes three are formed through both ends of the chassis connecting portion.

7. The rack of claim 6, wherein the middle of the chassis connection is provided with a mounting slot.

8. The cable management frame for server internal cables according to any one of claims 1 to 5, wherein the first buried cable area and the second buried cable area are each provided with at least two bridge structures.

9. The cable management frame for cables inside a server according to claim 8, wherein the protruding bridge structure of the first buried cable area and the protruding bridge structure of the second buried cable area are arranged in a one-to-one correspondence.

10. The cable management frame for server internal cables according to any one of claims 1 to 5, wherein the first buried cable area and the second buried cable area are provided with different buried cable identifications.