CN221041938U - Power distribution system of data center - Google Patents

Abstract

The utility model relates to the technical field of data centers, and discloses a power distribution system of a data center, which is used for distributing electric energy of a power grid to a cabinet and comprises the following components: the cable protection groove is arranged at the top of the cabinet, and a pre-branched cable is arranged in the cable protection groove; the wire inlet box comprises a wire inlet box body, a first protection switch, a first detection module, a first communication module and a controller, wherein the first protection switch, the first detection module, the first communication module and the controller are installed in the wire inlet box body and are sequentially connected, and the wire inlet box body is arranged at the top of the cabinet and is connected to one end of the cable protection groove; the outgoing line box comprises an outgoing line box body, a second protection switch, a second detection module and a second communication module, wherein the second protection switch, the second detection module and the second communication module are installed in the outgoing line box body and are sequentially connected, and the outgoing line box body is arranged at the top of the cabinet and is connected to the upper surface of the cable protection groove. The power distribution system provided by the utility model occupies small space and improves the utilization rate of the space.

Description

Power distribution system of data center

Technical Field

The utility model relates to the technical field of data centers, in particular to a power distribution system of a data center.

Background

A data center is a globally coordinated network of specific devices used to communicate, accelerate, present, calculate, and store data information over an internet infrastructure. At present, a power distribution system of a data center is realized by adopting a column head cabinet, wherein a main input switch and an output distribution switch are arranged in the column head cabinet, and electric energy is distributed to all cabinets through cables. However, when the column head cabinet is installed and used, the column head cabinet needs to occupy the position space of one cabinet in the machine room, so that the space utilization rate is reduced.

Disclosure of utility model

The utility model aims to provide a power distribution system of a data center, which is small in occupied space and improves the utilization rate of space.

In order to achieve the above object, the present utility model provides a power distribution system of a data center for distributing power of a power grid to a cabinet, comprising:

the cable protection groove is arranged at the top of the cabinet, and a pre-branched cable is arranged in the cable protection groove;

The wire inlet box comprises a wire inlet box body, a first protection switch, a first detection module, a first communication module and a controller, wherein the first protection switch, the first detection module, the first communication module and the controller are installed in the wire inlet box body and are sequentially connected, and the wire inlet box body is arranged at the top of the cabinet and is connected to one end of the cable protection groove;

The outlet box comprises an outlet box body, a second protection switch, a second detection module and a second communication module, wherein the second protection switch, the second detection module and the second communication module are installed in the outlet box body and are sequentially connected, and the outlet box body is arranged at the top of the cabinet and is connected to the upper surface of the cable protection groove;

The outlet end of the first protection switch is connected with the inlet end of the second protection switch through the pre-branching cable, the outlet end of the second protection switch is connected with the cabinet through the distribution cable, and the first communication module is connected with the second communication module through the signal line.

In one embodiment, the incoming line box further comprises a first touch screen, and the first touch screen is arranged on the incoming line box body and connected with the controller.

In one embodiment, the touch screen further comprises a second touch screen, wherein the second touch screen is installed on the wall and connected with the controller.

In one embodiment, the outlet box further comprises a display screen, and the display screen is arranged in the outlet box and connected with the second detection module.

In one embodiment, the outlet box further comprises a connector, the connector is mounted on the outlet box body, and the outlet end of the second protection switch, the connector and the cabinet are sequentially connected through the distribution cable.

In one embodiment, the two side surfaces of the cable protection groove are provided with vent holes.

In one embodiment, the controller is further coupled to a ring monitoring system of the data center.

In one embodiment, a plurality of outlet boxes are provided, and each outlet box is correspondingly connected with three cabinets.

In one embodiment, the first detection module and the second detection module each employ one or more of a voltmeter, an ammeter, an electric energy meter, and a power meter.

Compared with the prior art, the utility model provides a power distribution system of a data center, which has the beneficial effects that:

the wire inlet box and the wire outlet box are arranged at the top of the cabinet, compared with the existing row-head cabinet which occupies a space position of the cabinet for power distribution, the wire inlet box and the wire outlet box are small in occupied space, the cable protection groove is internally provided with the pre-branching cable, and the wire inlet box and the wire outlet box are connected through the pre-branching cable, so that the installation is more convenient, and the space utilization rate is improved.

Drawings

Fig. 1 is a schematic perspective view of a power distribution system of a data center according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of a front installation structure of a power distribution system of a data center according to an embodiment of the present utility model.

Fig. 3 is a schematic diagram of a circuit connection structure of a power distribution system of a data center according to an embodiment of the present utility model.

Fig. 4 is an enlarged schematic diagram of an overall circuit connection structure of an incoming line box and an outgoing line box of a power distribution system of a data center according to an embodiment of the present utility model.

Fig. 5 is an enlarged schematic diagram of an internal circuit connection structure of an incoming line box and an outgoing line box of a power distribution system of a data center according to an embodiment of the present utility model.

Fig. 6 is an enlarged schematic view of a first connector of a power distribution system of a data center according to an embodiment of the present utility model.

In the figure: 1. a cabinet; 2. a cable protection groove; 21. a vent hole; 3. pre-branching the cable; 4. a wire inlet box; 41. a wire inlet box body; 42. a first protection switch; 43. a first detection module; 44. a first communication module; 45. a controller; 46. a first touch screen; 5. an outlet box; 51. an outgoing line box body; 52. a second protection switch; 53. a second detection module; 54. a second communication module; 55. a display screen; 56. a connector; 6. a distribution cable; 7. a signal line; 8. a second touch screen; 9. a wall body; 10. and a dynamic ring monitoring system.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the application.

It is to be understood that in the description of the present application, the terms "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. The terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, i.e., features defining "first," "second," may explicitly or implicitly include one or more such features. Furthermore, unless otherwise indicated, the meaning of "a plurality" is two or more.

As shown in fig. 1 to 6, the power distribution system of the data center according to the embodiment of the present utility model is used for distributing power of a power grid to a cabinet 1, and includes a cable protection slot 2, an incoming line box 4 and an outgoing line box 5. The cable protection groove 2 is arranged at the top of the cabinet 1, and a pre-branch cable 3 is arranged in the cable protection groove 2; the incoming line box 4 comprises an incoming line box body 41, a first protection switch 42, a first detection module 43, a first communication module 44 and a controller 45 which are arranged in the incoming line box body 41 and are sequentially connected, wherein the incoming line box body 41 is arranged at the top of the cabinet 1 and is connected with one end of the cable protection groove 2; the outgoing line box 5 comprises an outgoing line box body 51, a second protection switch 52, a second detection module 53 and a second communication module 54 which are arranged in the outgoing line box body 51 and are sequentially connected, and the outgoing line box body 51 is arranged at the top of the cabinet 1 and is connected to the upper surface of the cable protection groove 2; in the installation process, the outlet end of the first protection switch 42 is connected with the inlet end of the second protection switch 52 through the pre-branching cable 3, the outlet end of the second protection switch 52 is connected with the cabinet 1 through the distribution cable 6, and the first communication module 44 is connected with the second communication module 54 through the signal line 7. Among them, the controller 45 employs a PLC controller.

Based on the above structure, through setting the incoming line case 4 and the outgoing line case 5 at the top of the cabinet 1, compared with the existing column head cabinet which occupies a space position of the cabinet for power distribution, the incoming line case 4 and the outgoing line case 5 occupy small space, and the cable protection groove 2 is internally provided with the pre-branching cable 3, and the connection of the incoming line case 4 and the outgoing line case 5 is realized through the pre-branching cable 3, so that the installation is more convenient, and the utilization rate of the space is improved.

As shown in fig. 5, in one embodiment, the incoming line box 4 further includes a first touch screen 46, where the first touch screen 46 is disposed on the incoming line box 41 and connected to the controller 45. In operation, the controller 45 can process the circuit data information detected by the first detection module 43 and display the information on the first touch screen 46, and the first touch screen 46 generates a control signal to be processed and analyzed by the controller 45, so that the first detection module 43 and the first communication module 44 can be controlled. The circuit data information comprises first protection switch state information, current information, voltage information, electric energy information, power information and the like.

As shown in fig. 2 and 5, in one embodiment, the power distribution system further includes a second touch screen 8, where the second touch screen 8 is mounted on the wall 9 and connected to the controller 45. The second touch screen 8 and the first touch screen 46 have the same function, and the second touch screen 46 is disposed on the wall 9 to facilitate the user to control and observe the data information.

In one embodiment, the outlet box 5 further includes a display screen 55, where the display screen 55 is disposed in the outlet box 51 and connected to the second detection module 53. The display screen 55 can display the circuit data information detected on the second detection module 53, so that the user can conveniently monitor in real time.

As shown in fig. 4 and 5, the outlet box 5 further includes a connector 56, the connector 56 is mounted on the outlet box body 41, and the outlet end of the second protection switch 52, the connector 56 and the cabinet 1 are sequentially connected through the distribution cable 6. Through the arrangement of the connector 56, the plug and pull installation of the distribution cable 6 is more convenient, and the installation difficulty is reduced.

In one embodiment, in order to maintain the safety of the pre-branched cable 3 during use, the vent holes 21 are formed on the two side surfaces of the cable protection groove 2, and the vent holes 21 are arranged to enable the inside of the cable protection groove 2 to vent smoothly, so that heat dissipation is facilitated.

Specifically, the controller 45 is further connected to the movable ring monitoring system 10 of the data center, and it is to be noted that the movable ring monitoring system 10 is a computer control system that performs telemetry, telemetry and remote control on various parameters of various power equipment such as a power cabinet, an uninterruptible power supply, an air conditioner, a storage battery and the like distributed in various machine rooms of the data center, door magnetic, infrared, window breaking, water immersion, humiture, smoke feeling and other machine room environments, monitors operation parameters thereof in real time, diagnoses and processes faults, records and analyzes related data, and performs centralized monitoring and centralized maintenance on equipment, and the movable ring monitoring system 10 maintains the safety of the data center through monitoring the internal environment of the machine room.

As shown in fig. 4 and 5, in particular, a plurality of outlet boxes 5 are provided, and each outlet box 5 is correspondingly connected with three cabinets 1. By adopting the structure, the usage amount of the outlet box 5 can be reduced, and the cost is reduced.

In one embodiment, the first detection module 43 and the second detection module 53 each employ one or more of a voltmeter, an ammeter, a power meter, and a power meter. The type and the number of the measuring devices are selected according to the actual requirements, so that the internal power data of the incoming line box 4 and the outgoing line box 5 are monitored.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present utility model, and these modifications and substitutions should also be considered as being within the scope of the present utility model.

Claims (9)

1. A power distribution system for a data center for distributing power from a power grid to racks, comprising:

the cable protection groove is arranged at the top of the cabinet, and a pre-branched cable is arranged in the cable protection groove;

The wire inlet box comprises a wire inlet box body, a first protection switch, a first detection module, a first communication module and a controller, wherein the first protection switch, the first detection module, the first communication module and the controller are installed in the wire inlet box body and are sequentially connected, and the wire inlet box body is arranged at the top of the cabinet and is connected to one end of the cable protection groove;

The outlet box comprises an outlet box body, a second protection switch, a second detection module and a second communication module, wherein the second protection switch, the second detection module and the second communication module are installed in the outlet box body and are sequentially connected, and the outlet box body is arranged at the top of the cabinet and is connected to the upper surface of the cable protection groove;

The outlet end of the first protection switch is connected with the inlet end of the second protection switch through the pre-branching cable, the outlet end of the second protection switch is connected with the cabinet through the distribution cable, and the first communication module is connected with the second communication module through the signal line.

2. The data center power distribution system of claim 1, wherein the incoming line box further comprises a first touch screen disposed on the incoming line box body and connected to the controller.

3. The data center power distribution system of claim 1, further comprising a second touch screen mounted to the wall and connected to the controller.

4. The data center power distribution system of claim 1, wherein the outlet box further comprises a display screen disposed within the outlet box and connected to the second detection module.

5. The data center power distribution system of claim 1, wherein the outlet box further comprises a connector mounted to the outlet box, the outlet end of the second protection switch, the connector, and the cabinet being connected in sequence by the power distribution cable.

6. The data center power distribution system of claim 1, wherein the cable protection trough is provided with vent holes on both side surfaces.

7. The data center power distribution system of claim 1, wherein the controller is further coupled to a rotating ring monitoring system of the data center.

8. The data center power distribution system of claim 1, wherein a plurality of outlet boxes are provided, each outlet box being correspondingly connected to three of the cabinets.

9. The data center power distribution system of claim 1, wherein the first detection module and the second detection module each employ one or more of a voltmeter, an ammeter, and a power meter.