CN215576438U - Coiling array and server - Google Patents

Abstract

The specification provides a spiral array and a server, and relates to the technical field of communication. A wire winding array comprising: at least two reels connected in sequence by a fixed shaft; a cord reel, comprising: a housing; the wire accommodating cavity is surrounded by the shell; the through hole is arranged in the middle of the wire accommodating cavity, and the fixing shaft is sleeved in the through hole; wherein, the two sides of the wire accommodating cavity corresponding to the through hole are respectively provided with a wire inlet and a wire outlet. Through the coiling array, the cables can be prefabricated and the structures of the cables can be distinguished, so that the cables are integrally deployed in a server, and the cable laying efficiency is improved.

Description

Coiling array and server

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to a cable winding array and a server.

Background

With the popularization of networks, more and more servers are applied as servers for providing computing or application services for other hosts, and further, the development is towards more centralization and densification. Various node devices can be inserted into the server, ports can be arranged on the node devices, and data interaction of the server can be achieved by connecting cables to the ports.

Due to the high-density layout of the servers, the number of deployed node devices is gradually increased, so that more and more ports are included in one server, and workers are required to connect the servers one by one through cables. Therefore, how to quickly connect the host and the server through the cable to improve the wiring efficiency of the server becomes a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

To overcome the problems of the related art, the present specification provides a wire winding array and a server.

In combination with the first aspect of the embodiments of the present specification, the present application provides a winding array, comprising:

at least two reels connected in sequence by a fixed shaft;

a cord reel, comprising:

a housing;

the wire accommodating cavity is surrounded by the shell;

the through hole is arranged in the middle of the wire accommodating cavity, and the fixing shaft is sleeved in the through hole;

wherein, the two sides of the wire accommodating cavity corresponding to the through hole are respectively provided with a wire inlet and a wire outlet.

Optionally, the winding array further includes: a fixed seat;

the fixed seat comprises a base and a supporting arm extending out of the edge of the base;

the supporting arm is sleeved on the fixed shaft.

Furthermore, the width of the supporting arm is gradually increased from the position of the sleeving fixing shaft to the direction of the base.

Optionally, two protruding strips are arranged on one side, close to the wire inlet, of the wire accommodating cavity, and a fixing groove for fixing the cable is formed between the protruding strips.

Furthermore, a wire arranging device is arranged between the shell and the fixed seat;

the wire arranging device comprises a bearing plate and a positioning plate extending from the edge of the bearing plate to the wire outlet;

an extension opening is arranged at a position of the bearing plate close to one side edge, and a cable arranged on the bearing plate penetrates through the extension opening to extend towards the panel direction of the server.

Furthermore, a positioning bulge corresponding to the wire outlet is arranged on the positioning plate;

the positioning bulge is provided with an arc surface relative to one surface of the bearing plate.

Optionally, the wire outlet and the wire inlet are arranged on the first surface of the housing, wherein the first surface is arranged opposite to the fixed seat;

the shell also comprises an arc-shaped second surface connected with the first surface;

the wire inlet extends from the first face to the second face.

In combination with the second aspect of the embodiments of the present specification, the present application provides a server, including a cabinet, a cable, and a winding array disposed on an upper side of the cabinet, any one of the above;

cables are threaded from inlets of the array of cords and threaded out of outlets for connection to ports on the server's panel.

Optionally, the wire winding array is fixed to the upper end of the server through a fixing seat.

The technical scheme provided by the implementation mode of the specification can have the following beneficial effects:

in this specification implementation, form the coiling array through a plurality of winders, make the cable penetrate inside the winder from the inlet of winder, and stretch out from the outlet of winder, hold a cable in each winder, thereby can be according to user's actual demand, prefabricate out the coiling array that contains the cable, after the user sets up the coiling array in the server, can draw out the cable from outlet and inlet respectively, be connected to host computer and server respectively, thereby consumed time when having avoided setting up the cable one by one, the wiring efficiency of server has been promoted.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the specification.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present specification and together with the description, serve to explain the principles of the specification.

Fig. 1 is a schematic structural view of a winding array according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a server according to an embodiment of the present application;

fig. 3 is a schematic structural view of a reel according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a wire organizer according to an embodiment of the present application;

fig. 5 is a schematic diagram of the incoming and outgoing lines of an array of winding wires to which the present application relates.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present specification.

The present application provides a winding array 1, as shown in fig. 1, comprising:

at least two reels 11 sequentially connected by the fixed shaft 10, the number of the reels 11 can be set according to actual requirements. As shown in fig. 2, 10 node devices 21 may be disposed on the cabinet 20 of the server 2, and each node device 21 may have a port for communication, so that 8 reels 11 may be disposed.

The reel 11, as shown in fig. 3, includes: the wire drawing device comprises a shell 110, a wire containing cavity 111 formed by surrounding the shell 110 and a through hole 112 arranged in the middle of the wire containing cavity 111.

The housing 110 may be circular or quasi-circular, and the specific structure may be set according to actual requirements. The housing 110 may include two shells (not shown), the housing 110 may be formed by inserting the shells into each other, or may be assembled by other detachable fixing methods such as inserting and screwing, and the housing 110 may be assembled by more components, which is not limited thereto.

The wire accommodating chamber 111 can be understood as a space surrounded by the outer case 110 for accommodating the wire, thereby realizing prefabrication of the wire and the reel 11 as a wire holding member. A through hole 112 is further disposed in the thread accommodating cavity 111, and the size of the through hole 112 is consistent with that of the fixing shaft 10, so that the through hole 112 can be sleeved on the fixing shaft 10. In addition, the through hole 112 and the fixing shaft 10 may be disposed by an interference fit, so that the fixing shaft 10 can be more stably disposed in the through hole 112.

A wire inlet 113 and a wire outlet 114 are respectively arranged on two sides of the wire accommodating cavity 111 opposite to the through hole 112. When the wire winding array 1 is disposed at the upper end of the server 2 as shown in fig. 2, two connection ends of the cable 3 can be respectively drawn out from the wire inlet 113 and the wire outlet 114, and drawn out to the port of the host or the server 2, and the plugging is completed. When the node device 21 needs to be pulled out and disassembled, a worker needs to pull out the connecting end connected to the node device 21. At this moment, can be by this cable 3 of staff's manual inside propelling movement to winder 11 to make cable 3 can twine 11 insidely, perhaps, can also set up automatic take-up in winder 11 insidely, this automatic take-up can be through the automatic recovery of pulley and power part realization cable 3, and this power part can include that motor and spring isotructure realize, does not restrict to this.

In this specification implementation, form the coiling array through a plurality of winders, make the cable penetrate inside the winder from the inlet of winder, and stretch out from the outlet of winder, hold a cable in each winder, thereby can be according to user's actual demand, prefabricate out the coiling array that contains the cable, after the user sets up the coiling array in the server, can draw out the cable from outlet and inlet respectively, be connected to host computer and server respectively, thereby consumed time when having avoided setting up the cable one by one, the wiring efficiency of server has been promoted.

In order to achieve a reliable fixation between the winding array 1 and the server 2, optionally, the winding array 1, as shown in fig. 1, further includes: a fixed seat 12.

The fixing base 12 includes a base 120 and a supporting arm 121 extending from an edge of the base 120, and the supporting arm 121 is sleeved on the fixing shaft 10. The base 120 may be provided with a through hole, and a receiving hole may be provided at an upper end of the server 2. The through hole and the bearing hole can be fixed by a screw or a rivet.

Further, the width of the supporting arm 121 gradually increases from the position of engaging with the fixing shaft 10 toward the base 120. That is, as for the support arm 121, the size of the side close to the server 2 may be set larger than the size of the side far from the server 2, and such a setting may make the fixation between the cord winding array 1 and the server 2 more firm and reliable, avoiding deformation of the cord winding array 1 due to drawing of the cable 3.

Optionally, as shown in fig. 3, two convex strips 115 are disposed on one side of the wire accommodating cavity 111 close to the wire inlet 113, and a fixing groove 116 for fixing the cable 3 is formed between the convex strips 115.

For the cord reel 11, the outlet 114 side is closer to the server 2, so the cable 3 does not bend at a larger angle after protruding from the casing 110 of the cord reel 11, but for the inlet 113 side, the connected host is far away from the cord reel 11, so the cable 3 at the inlet 113 side may be bent at a larger angle and is more easily scratched with the edge of the inlet 113 at a larger angle. In order to avoid damage to the cable 3 caused by excessive bending and scraping, the fixing groove 116 formed by the convex strip 115 can fix the cable 3 in the cable accommodating cavity 111, reduce the scraping between the edge of the cable inlet 113 and the cable 3, and prolong the service life of the cable 3 in the winder.

Further, a wire organizer 13 is disposed between the housing 110 and the fixing base 12, and as shown in fig. 1 and 4, the wire organizer 13 includes a receiving plate 130 and a positioning plate 131 extending from an edge of the receiving plate 130 to the outlet 114. The wire organizer 13 may be L-shaped when viewed from the cross section, wherein the bottom side of the L-shape is the receiving plate 130, and the side is the positioning plate 131. On the positioning plate 131, a positioning portion is provided, and the positioning portion and the receiving plate 130 can clamp the cable 3. The wire arranging device 13 may be provided with a mounting protrusion at a connection position of the positioning plate 131 and the receiving plate 130, and correspondingly, a mounting groove is provided at an edge of the supporting arm 121 of the fixing base 12, and the mounting protrusion may be snapped into the mounting groove for fixing.

An extension opening 132 is provided near one side edge of the receiving plate 130. By being sandwiched between the positioning portion and the socket plate 130, the cable 3 can be routed in a direction along the plate surface of the socket plate 130 toward the extension opening 132, extend in a direction of the panel of the server 2 through the extension opening 132, and finally connect the cable 3 and the port on the panel of the server 2.

Further, as shown in fig. 5, the positioning plate 131 is provided with a positioning protrusion 133 corresponding to the outlet 114, that is, the positioning portion may be a cylindrical structure, which may be a cylinder, a square column or other shapes. In order to better clamp the cable 3 by the positioning projection 133 and the socket plate 130, an arc-shaped surface is provided on one surface of the positioning projection 133 opposite to the socket plate 130. Through this arcwall face, when buckling cable 3, can make it more laminate in the surface of location arch 133 to be suitable for the operation of buckling more.

Optionally, as shown in fig. 3, the wire outlet 114 and the wire inlet 113 are disposed on the first surface 11A of the housing 11, and the housing 11 further includes a second surface 11B connected to the first surface 11A and having an arc shape, wherein the first surface 11A is disposed opposite to the fixing base 12.

The wire inlet 113 extends from the first face 11A to the second face 11B.

Since the host to which the cable 3 on the side of the wire inlet 113 needs to be connected is located at a far position, it is difficult to ensure the requirement of the wire inlet position. In order to be able to give more space for the cables 3 on the side of the wire inlet 113, the opening of the wire inlet 113 can be made larger and have adjustment options in one more dimension. After the opening of the wire inlet 113 is extended from the first surface 11A to the second surface 11B, the cable 3 can be selectively led out in the vertical direction or in the horizontal direction on the side of the wire inlet 113, so that the outlet direction can be more flexibly adjusted.

Correspondingly, the present application provides a server 2, as shown in fig. 2, including a cabinet 20, a cable 3, and the above-mentioned winding array 1 disposed on the upper side of the cabinet 20;

cables 3 are threaded in from inlets 113 of the cord array 1 and out from outlets 114 for connection to ports on the panel of the server 2.

Alternatively, the cord array 1 is fixed to the upper end of the server 2 by a fixing base 12.

The technical scheme provided by the implementation mode of the specification can have the following beneficial effects:

in this specification implementation, form the coiling array through a plurality of winders, make the cable penetrate inside the winder from the inlet of winder, and stretch out from the outlet of winder, hold a cable in each winder, thereby can be according to user's actual demand, prefabricate out the coiling array that contains the cable, after the user sets up the coiling array in the server, can draw out the cable from outlet and inlet respectively, be connected to host computer and server respectively, thereby consumed time when having avoided setting up the cable one by one, the wiring efficiency of server has been promoted.

It will be understood that the present description is not limited to the precise arrangements described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof.

The above description is only for the purpose of illustrating the preferred embodiments of the present disclosure and is not to be construed as limiting the present disclosure, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (9)

1. An array of coiled wire, comprising:

at least two reels connected in sequence by a fixed shaft;

the winder includes:

a housing;

the wire accommodating cavity is surrounded by the shell;

the fixing shaft is sleeved in the through hole;

and the two sides of the wire accommodating cavity, which are opposite to the through hole, are respectively provided with a wire inlet and a wire outlet.

2. A reeling array according to claim 1, further comprising: a fixed seat;

the fixed seat comprises a base and a supporting arm extending out of the edge of the base;

the supporting arm is sleeved on the fixed shaft.

3. A line reeling array according to claim 2, wherein the support arms have a width which increases progressively from a position in which they engage the fixed axle towards the base.

4. A line reeling array according to claim 1, wherein two ribs are provided on the side of the line containing chamber adjacent to the line inlet, and a fixing groove for fixing a cable is formed between the ribs.

5. A reeling array according to claim 2, wherein a organiser is provided between the housing and the mounting;

the wire arranging device comprises a bearing plate and a positioning plate extending from the edge of the bearing plate to the wire outlet;

and an extension opening is formed at the position, close to one side edge, of the bearing plate, and a cable arranged on the bearing plate passes through the extension opening to extend towards the panel direction of the server.

6. A line reeling array according to claim 5, wherein the locating plate is provided with locating projections corresponding to the outlets;

the positioning bulge is provided with an arc-shaped surface relative to one surface of the bearing plate.

7. A cord reeling array according to claim 2, wherein the outlet and inlet are provided in a first face of the housing, wherein the first face is disposed opposite the fixed seat;

the shell also comprises an arc-shaped second surface connected with the first surface;

the wire inlet extends from the first face to the second face.

8. A server, comprising a cabinet, a cable, and the array of cord wraps of any one of claims 1-7 disposed on an upper side of the cabinet;

the cables are threaded from the inlets of the array of coiled wires and threaded out of the outlets for connection to ports on the server's panel.

9. The server according to claim 8, wherein the array of cords is secured to an upper end of the server by a mounting bracket.

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