CN217009801U

CN217009801U - Distributed socket assembly

Info

Publication number: CN217009801U
Application number: CN202220933079.3U
Authority: CN
Inventors: 赵生智
Original assignee: SHAANXI PROSPECT CO LTD
Current assignee: SHAANXI PROSPECT CO LTD
Priority date: 2022-04-20
Filing date: 2022-04-20
Publication date: 2022-07-19
Anticipated expiration: 2032-04-20

Abstract

The utility model discloses a distributed socket assembly, comprising: the rack is provided with a plurality of goods shelves; the socket assembly is arranged on the side surface of the goods shelf and arranged along the length direction of the goods shelf, and the socket assembly comprises a plurality of sockets; the junction box is installed on the rack and arranged along the height direction of the rack, and the plurality of socket assemblies are connected with the junction box. According to the utility model, through the junction box and the wire slot assembly arranged on the rack, a plurality of groups of servers can be uniformly arranged on the rack, the standardization of the wiring length of the servers is realized, the installation and maintenance difficulty of the server circuit is reduced, and the safety of circuit arrangement is improved.

Description

Distributed socket assembly

Technical Field

The utility model relates to the technical field of server wiring equipment, in particular to a distributed socket assembly.

Background

A server is a type of computer that runs faster, is more heavily loaded, and is more expensive than a normal computer, and provides computing or application services to other clients (e.g., many PCs, smart phones, ATMs, etc.) in a network. The server has high-speed CPU computing capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility.

For enterprises or factories with large operating requirements of servers, cabinet type servers are generally adopted, that is, servers with a plurality of different equipment units or a plurality of servers are placed in a cabinet for the purpose of convenient management.

The electrical connection circuit of the conventional rack-type server is usually located at one side of the rack, which causes complexity and inconvenience in installation or maintenance procedures of the server, and for this reason, the chinese utility model CN206481512U provides a rack and an expandable plug-in module structure, which includes a rack, a power supply device, at least one server and at least one socket module. The cabinet is provided with a frame body defining an accommodating space, the power supply device is arranged in the cabinet, the at least one server is arranged in the cabinet, the at least one socket module comprises a socket support and at least one socket, the socket support is fixed on the cabinet, the power supply device is connected to the at least one socket of the at least one socket module so as to provide power to the at least one server, and a user can conveniently set the socket module according to needs.

However, the above solution has the following disadvantages:

when the cabinet is applied to large-scale machine rooms such as factories and the like, the number of servers and cabinets is large, wiring construction needs to be carried out on the distance between the servers and the cabinets and a line bus when the servers and the cabinets are arranged and installed, wiring lengths are different, and wiring construction workload is large; meanwhile, due to the fact that the indoor equipment is updated randomly, the problem that new and old circuits are mixed exists in the circuits, the problems that the circuits are heated due to unreasonable wiring and the like easily exist, and potential safety hazards are caused.

In view of this, a distributed socket assembly is urgently needed to solve the problems of large wiring workload of large-scale server equipment, disordered wiring, difficulty in management and easy potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that the existing large-scale server equipment has large wiring workload, disordered wiring is not easy to manage, and potential safety hazards are easy to cause.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows:

a distributed jack assembly, comprising:

the rack is provided with a plurality of goods shelves;

the socket assembly is arranged on the side surface of the goods shelf and arranged along the length direction of the goods shelf, and the socket assembly comprises a plurality of sockets;

the junction box is installed on the rack and arranged along the height direction of the rack, and the plurality of socket assemblies are connected with the junction box.

In the above scheme, preferably, a distribution box is further arranged between the socket assembly and the junction box, the distribution box includes a box body and leakage switches arranged in the box body, and the number of the leakage switches is matched with the number of the sockets; the wiring of the socket is connected with the leakage switch and is connected into the junction box through the leakage switch.

In the above solution, preferably, the rack includes:

the upright posts comprise two groups of upright posts which are oppositely arranged at the left and the right, each group of upright posts comprise a front upright post and a rear upright post, and the front upright post and the rear upright post are connected through a plurality of cross braces;

two ends of each shelf beam are respectively connected with the side surfaces of the two groups of stand columns to form a shelf supporting frame;

a shelf plate mounted on the shelf support frame.

In the above scheme, preferably, each group of shelf beams includes a front beam and a rear beam which are arranged oppositely, the opposite end surfaces of the front beam and the rear beam are recessed to form a step, and the height of the step is matched with the thickness of the shelf plate.

In the above scheme, preferably, the rack further includes a plurality of diagonal braces, and two ends of each diagonal brace are connected to two adjacent crossbars respectively.

In the above aspect, preferably, the socket assembly includes:

the socket wire slot is a box body with an opening at one side, and the side surface of the socket wire slot is fixed with the shelf beam; the opening of the box body is provided with two socket mounting plates which are oppositely arranged to form a long groove; a wiring hole is arranged on the socket wire slot;

the socket separation plate is arranged on the socket mounting plate and divides the long groove into a plurality of socket mounting grooves;

the cover plate is buckled on the socket mounting plate, and socket panel grooves which correspond to the socket mounting grooves one to one are formed in the cover plate;

the socket is arranged in the socket mounting groove and fixed with the socket mounting plate, and a panel of the socket is arranged in the socket panel groove.

In the above aspect, preferably, the junction box includes:

the junction box shell is fixed on the side surface of the upright post and is a box body with an opening at the side surface and the lower end, and an outer door plate which is rotatably arranged is arranged on the opening at the side surface of the junction box shell; a middle door plate is arranged between the outer door plate and the inner cavity of the junction box shell;

the junction box base comprises a base support and an insulating plate arranged on the base support, and a first copper bar mounting groove is formed in the insulating plate;

the copper bar fixing seat is arranged in the junction box shell and comprises a plurality of copper bar fixing blocks, a plurality of grooves are formed in the side surfaces of the copper bar fixing blocks, bolts sequentially penetrate through the copper bar fixing blocks to enable the side surfaces of the copper bar fixing blocks to abut against each other, and the grooves in the abutted side surfaces of the copper bar fixing blocks are communicated to form a second copper bar mounting groove;

the wiring copper bar penetrates through the first copper bar mounting groove and the second copper bar mounting groove and is fixed with the insulating plate and the copper bar fixing seat; the wiring copper bar comprises a fire wire copper bar, a zero line copper bar and a ground wire copper bar;

and the wiring terminal is arranged in the cavity of the base support and comprises a copper bar connecting piece connected with the wiring copper bar and a wiring copper nose arranged at the lower end of the copper bar connecting piece.

In the above scheme, preferably, the number of the fire wire copper bars is three, and both the zero line copper bar and the ground wire copper bar are one.

In the above scheme, preferably, heat shrink tubes are arranged on the fire wire copper bar, the zero line copper bar and the ground wire copper bar, and the heat shrink tubes of different copper bars are different in color.

In the above aspect, preferably, the ground wire insertion hole of the three-hole insertion hole on the socket is installed downward.

Compared with the prior art, the distributed socket assembly provided by the utility model has the advantages that the plurality of groups of servers can be uniformly arranged on the rack through the junction box and the wire slot assembly arranged on the rack, so that the distance from the power line of the server main body to the socket is shortened, and the wiring cost of the server is saved; meanwhile, the wiring of the server is uniformly managed through the junction box and the wiring socket, the standardization of the wiring line length of the server is realized, the circuit of the server and the socket is simple and clear, the installation and maintenance difficulty of the circuit of the server is reduced, and the safety of the circuit is improved.

Drawings

FIG. 1 is a perspective view of a distributed jack assembly of the present invention;

FIG. 2 is a front view of the distributed jack assembly of the present invention;

FIG. 3 is a schematic diagram of a distributed jack assembly according to the present invention;

FIG. 4 is a schematic view of a receptacle assembly according to the present invention;

fig. 5 is a schematic structural view of the junction box of the present invention.

The correspondence between the names and reference numbers of the components in fig. 1 to 5 is as follows:

a frame 1, a socket component 2, a junction box 3, a distribution box 4,

upright posts 11, cross braces 12, shelf beams 13, shelf boards 14, diagonal braces 15, steps 16,

the height of the front uprights 111, the rear uprights 112,

a socket wire casing 21, a socket divider 22, a cover plate 23, a socket 24, a socket mounting plate 25,

the socket panel groove 231 is formed at the lower portion of the socket,

a junction box shell 31, a junction box base 32, a copper bar fixing seat 33, a wiring copper bar 34, a wiring terminal 35, an outer door panel 36, a middle door 37,

a base bracket 321, an insulating plate 322, a first copper bar installation groove 323,

a copper bar fixing block 331, a second copper bar installation groove 332,

the row of terminal lugs 351, terminal copper lugs 352,

case 41, earth leakage switch 42.

Detailed Description

The utility model provides a distributed socket assembly, which enables a plurality of groups of servers to be uniformly arranged on a rack through a junction box and a wire slot assembly arranged on the rack, realizes the standardization of the wiring length of the servers, reduces the installation and maintenance difficulty of server circuits, and improves the safety of circuit arrangement. The utility model is described in detail below with reference to the drawings and the detailed description.

As shown in fig. 1, 2 and 3, the distributed socket assembly provided by the present invention includes a rack 1, a socket assembly 2 and a junction box 3, and a distribution box 4 is further disposed between the socket assembly 2 and the junction box 3.

The frame 1 comprises uprights 11, crossbrace 12, pallet beams 13 and pallet boards 14. The stand 11 is including controlling two sets of stands that set up, and every group stand includes front column 111 and rear column 112, connects through many stull 12 between front column 111 and the rear column 112. The rack 1 further comprises an inclined strut 15, and two ends of the inclined strut 15 are respectively connected with the two adjacent cross struts 12, so that the supporting strength and stability of the rack 1 are improved.

The shelf beams 13 and the shelf boards 14 are in multiple groups, each group of shelf beams 13 comprises a front beam and a rear beam which are opposite and parallel, and two ends of the front beam and two ends of the rear beam are respectively connected with the side surfaces of the front upright posts 111 and the rear upright posts 112 to form a shelf frame. The opposite end surfaces of the front cross beam and the rear cross beam are recessed to form steps 16, and the goods shelf plates 14 are arranged on the steps 16 of the front cross beam and the rear cross beam to form a plurality of goods shelves for placing the servers. The height of the steps 16 is adapted to the thickness of the shelf boards 14 to improve the stability of the shelf boards 14 and to improve the flatness of the top surface of the shelf.

As shown in fig. 4, the socket assembly 2 is installed on the side of the shelf and arranged along the length direction of the shelf, and the socket assembly 2 includes a socket wire duct 21, a socket divider 22, a cover plate 23 and a socket 24. The socket wire casing 21 is a box body with an opening at one side, and the side surface of the box body is fixed with the front cross beam. The opening of the box body is internally provided with socket mounting plates 25, and the two socket mounting plates 25 are oppositely arranged to form a long groove. The socket division plate 22 is arranged on the socket installation plate 25 to divide the long groove into a plurality of socket installation grooves, meanwhile, the socket division plate 22 and the socket wire groove 21 enclose a closed cavity, and the wiring of the socket 24 is arranged in the cavity and used for protecting the line. The cover plate 23 is fastened to the socket mounting plate 25, and the cover plate 23 is provided with socket panel grooves 231 corresponding to the socket mounting grooves one to one. The plurality of sockets 24 of the socket assembly 2 are connected in parallel, each socket 24 is disposed in a socket mounting groove and fixed to the socket mounting plate 25, and the panel of the socket 24 is disposed in the socket panel groove 231. A three-jack receptacle opening and a receptacle switch are provided in the face of receptacle 24. The wiring of the socket 24 is arranged in the inner cavity of the socket wire casing 21, penetrates out through the wiring hole on the side surface of the socket wire casing 21 and is connected with the distribution box 4 and the junction box 3.

As shown in fig. 5, the junction box 3 includes a junction box housing 31, a junction box base 32, a copper bar fixing seat 33, a wiring copper bar 34 and a wiring terminal 35, the junction box housing 31 is fixed on the side of the column 11, the junction box housing 31 is a box body with an open side and a lower end, and an outer door panel 36 is rotatably arranged on the open side of the junction box housing 31. A middle door plate 37 is arranged between the outer door plate 36 and the inner cavity of the junction box shell 31, and plays a role in safety protection.

Terminal box base 32 sets up on the lower extreme of junction box body 31 is uncovered, and terminal box base 32 includes base support 321 and sets up insulation board 322 on base support 321, is equipped with first copper bar mounting groove 323 on the insulation board 322. Be equipped with a plurality of copper bar fixing bases 33 in the junction box body 31, copper bar fixing base 33 includes a plurality of copper bar fixed blocks 331, and the side of copper bar fixed block 331 is equipped with the recess, and the bolt runs through each copper bar fixed block 331 in proper order, makes its side butt in proper order, and the recess of intercommunication forms second copper bar mounting groove 332 on the side of copper bar fixed block 331.

The wiring copper bar 34 runs through the first copper bar mounting groove 323 and the second copper bar mounting groove 332, and is fixed with the insulating plate 322 and the copper bar fixing seat 33. The wiring copper bar 34 comprises three fire wire copper bars, a zero line copper bar and a ground wire copper bar, and heat shrink tubes are arranged on the fire wire copper bar, the zero line copper bar and the ground wire copper bar and used for carrying out insulation protection on the wiring copper bar 34; the colors of the heat shrinkable tubes of different copper bars are different, so that different copper bars can be distinguished, and the overhaul is convenient. Binding post 35 includes copper bar connection piece 351 and the wiring copper nose 352 of setting at copper bar connection piece 351 lower extreme that is connected with wiring copper bar 34, and binding post 35 sets up in the cavity that base support 321 encloses.

The distribution box 4 comprises a box body 41 and leakage switches 42 arranged in the box body 41, wherein the number of the leakage switches 42 is matched with that of the sockets 24; the wiring of the socket assembly 2 is connected with the leakage switch 42 and is connected with the wiring copper bar 34 through the leakage switch 42.

The using method of the utility model is as follows:

the upright posts 11, the cross-brace 12 and the shelf cross-beam 13 are welded to form a shelf frame, and the shelf board 14 is mounted on the shelf frame. The socket assembly 2 and the junction box 3 are then welded to the frame 1, respectively. After each socket 24 on the socket assembly 2 is connected with the leakage switch 42, the socket is connected with the wiring copper bar 34 in the junction box 3, and the wiring copper bar 34 is connected into a power grid through the wiring terminal 35.

The server can be directly placed on the goods shelves, because the side of every layer of goods shelves all sets up a plurality of sockets 24, the power cord length that each server needs is roughly the same to can realize the standardization of server wiring, realize unified management, improve the efficiency that the server wiring was arranged and the efficiency that the server circuit overhauld. The ground wire jack in the three-hole jack of the socket 24 is installed downwards, so that the power line of the server can be conveniently plugged.

Compared with the prior art, the distributed socket assembly provided by the utility model has the following advantages:

(1) the rack frame and the supporting plate form a plurality of shelves for placing the server, the wiring of the server has the same length through the wire groove assembly and the wiring box assembly arranged on the side surface of the rack, the standardization of the wiring length of the server is realized, and the unified management is convenient to carry out; the server and the wiring are arranged on the rack, so that sufficient space for heat dissipation is ensured to exist between the server and the wiring, and the quality of the operating environment of the server is improved;

(2) each wire groove component is provided with a distribution box, a plurality of leakage switch modules matched with the number of sockets on the wire groove components are arranged in the distribution box, and the leakage switches are in a distributed design, so that the control convenience degree and the maintenance difficulty of each switch are improved, the problem of difficult heat dissipation of the circuit components in the integrated distribution box is solved, the heat dissipation efficiency of the circuit components is improved, and the operation safety of the circuit components is improved;

(3) the terminal box includes the box body and sets up live wire copper bar, zero line copper bar and the ground wire copper bar in the box body, and the cover is equipped with the pyrocondensation pipe of different colours on each wiring copper bar, has improved the carrying capacity and the security of wiring, conveniently overhauls each wiring copper bar.

The present invention is not limited to the above-mentioned preferred embodiments, and any structural changes made under the teaching of the present invention shall fall within the scope of the present invention, which is similar or similar to the technical solutions of the present invention.

Claims

1. A distributed jack assembly, comprising:

the rack is provided with a plurality of goods shelves;

the socket assembly is arranged on the side face of the goods shelf and arranged along the length direction of the goods shelf, and the socket assembly comprises a plurality of sockets;

2. The distributed socket assembly according to claim 1, wherein a distribution box is further arranged between the socket assembly and the junction box, the distribution box comprises a box body and leakage switches arranged in the box body, and the number of the leakage switches is matched with the number of the sockets; the wiring of the socket is connected with the leakage switch and is connected into the junction box through the leakage switch.

3. The distributed jack assembly of claim 1, wherein the chassis comprises:

the upright posts comprise two groups of upright posts which are oppositely arranged on the left and the right, each group of upright posts comprise a front upright post and a rear upright post, and the front upright post and the rear upright post are connected through a plurality of cross braces;

a shelf panel mounted on the shelf support frame.

4. The distributed jack assembly of claim 3, wherein each set of shelf rails includes a front rail and a rear rail disposed opposite each other, and opposing end surfaces of the front rail and the rear rail are recessed to form a step, and a height of the step is adapted to a thickness of the shelf panel.

5. The distributed jack assembly of claim 3, wherein the rack further comprises a plurality of struts, and two ends of each strut are connected to two adjacent crossbars.

6. The distributed jack assembly of claim 3, wherein the jack assembly comprises:

the socket wire slot is a box body with an opening at one side, and the side surface of the socket wire slot is fixed with the shelf beam; two socket mounting plates are arranged on an opening of the socket wire slot and oppositely arranged to form an elongated slot; a wiring hole is arranged on the socket wire slot;

the cover plate is buckled on the socket mounting plate and is provided with socket panel grooves which correspond to the socket mounting grooves one to one;

7. The distributed jack assembly of claim 3, wherein the junction box comprises:

8. The distributed socket assembly of claim 7, wherein there are three said copper live line bars, and wherein there is one each of said copper neutral line bars and said copper ground line bars.

9. The distributed socket assembly according to claim 7, wherein heat shrink tubing is provided on each of the fire wire copper bar, the zero wire copper bar and the ground wire copper bar, the heat shrink tubing being of a different color for different copper bars.

10. The distributed jack assembly of claim 1, wherein a ground jack of a triple-aperture jack on the jack is installed down.