CN218867641U - Power distribution system for data center - Google Patents

Abstract

The utility model provides a distribution system for data center through set up intelligent control ware on the main control contact cabinet, the running state of automated inspection each circuit, when one of them circuit broke down, the automatic control third circuit breaker switched on, thereby carried out load power supply to the circuit that breaks down; when the line returns to the normal state, the power supply of the power-on cabinet at the side with the fault can be recovered only by controlling the third breaker on the intelligent controller to open the switch. The power distribution system for the data center does not need relay interlocking, each circuit breaker also saves the setting of a control button, the intelligent control automation degree is high, and interlocking circuits arranged among all cabinets are saved; and moreover, the intelligent controller on the main control contact cabinet can simultaneously acquire all the running data of other cabinets and connect the running data to the background, data collection equipment does not need to be arranged on each cabinet, and the occupation of the background capacity of the data center is reduced while the cost is reduced.

Description

Power distribution system for data center

Technical Field

The utility model relates to a switch board technical field especially relates to a distribution system that data center used.

Background

In recent years, the development of data centers in China is rapid, the data centers such as Huashi, unicom, mobile and telecom are bloomed more and more in China, and with the maturity of technical conditions and the development of equipment technology, the traditional circuit, cabinet type, such as a three-lock two-key circuit, can not meet the general requirements of various power supply equipment under special conditions. The existing power distribution equipment interlocking loop is usually a three-lock two-key mechanical interlocking or two-inlet-wire one-contact interlocking line, the line is complex and needs manual operation, the automatic control cannot be realized completely, the requirement on interlocking is particularly high, the adaptability to a data center is poor, and the selectivity is not flexible enough; in addition, the existing power distribution cabinet adopts three lamps and two buttons to control the on-off of the circuit breakers, and each circuit breaker needs to be controlled independently and manually when being switched on or off, so that the intelligent degree is low; in addition, the existing power distribution equipment adopts independent data acquisition or a switch integration mode, and more loops exist, so that the occupied background communication capacity of the data center is larger.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present technical solution provides a power distribution system for a data center.

In order to achieve the purpose, the technical scheme is as follows: the utility model provides a power distribution system that data center used, advances the electric cabinet including first electric cabinet, main control contact cabinet and second it advances the electric cabinet to advance first electric cabinet on be provided with first circuit breaker and with the first separating brake pilot lamp that closes that first circuit breaker electricity is connected, main control contact cabinet including intelligent control ware, third circuit breaker and with the third separating brake pilot lamp that closes that third circuit breaker electricity is connected the second advances to be provided with on the electric cabinet second circuit breaker and with the second separating brake pilot lamp that second circuit breaker electricity is connected closes, first circuit breaker and second circuit breaker communicate with external power source respectively, and the circuit of above-mentioned first circuit breaker and second circuit breaker passes through the third circuit breaker is connected, intelligent control ware is connected with above-mentioned first circuit breaker, second circuit breaker and third circuit breaker electricity respectively, thereby automatic control the third circuit breaker closes the floodgate.

In some embodiments, a multifunctional meter for displaying various parameters is arranged on each of the first power inlet cabinet, the main control contact cabinet and the second power inlet cabinet.

In some embodiments, the first power inlet cabinet, the main control connection cabinet and the second power inlet cabinet are all provided with lifting hooks convenient for lifting.

In some embodiments, the first power supply cabinet, the main control connection cabinet and the second power supply cabinet are all formed by splicing cold-rolled steel plates.

In some embodiments, the cold rolled steel sheet has a thickness of 2.0mm.

In some embodiments, the first, second, and third circuit breakers are one of frame circuit breakers or molded case circuit breakers.

In some embodiments, sound and light alarms are arranged on the first power inlet cabinet, the main control connection cabinet and the second power inlet cabinet.

The beneficial effect of this application does:

1. the intelligent interlocking system has the advantages that relay interlocking is not needed, the setting of a control button is omitted for each circuit breaker, the intelligent controller automatically detects the running state of each circuit, and automatically controls the third circuit breaker to close, so that the circuit with faults is subjected to load power supply, the automation degree is high, and the interlocking circuit arranged among the cabinets is saved.

2. The intelligent controller on the main control contact cabinet can simultaneously collect all data of other cabinets and connect the data to the background, and the capacity of the background is small.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 is a general structural view of the present invention;

fig. 2 is a schematic circuit diagram of a first power supply cabinet of the present invention;

fig. 3 is a schematic circuit diagram of a second power inlet cabinet of the present invention;

fig. 4 is a circuit schematic diagram of the main control contact cabinet of the utility model;

fig. 5 is a general circuit schematic of the present invention.

Reference numerals:

1. the device comprises a first power inlet cabinet 11, a first circuit breaker 12 and a first switching-on/off indicating lamp; 2. the second power inlet cabinet 21, the second circuit breaker 22 and the second switching-on/off indicating lamp; 3. the main control communication cabinet 31, the intelligent controller 32, the third circuit breaker 33 and the third brake on/off indicating lamp; 4. a multifunctional watch; 5. a hook; 6. an acousto-optic alarm.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects of the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 5, a power distribution system for a data center includes a first power inlet cabinet 1, a main control contact cabinet 3, and a second power inlet cabinet 2; the first power inlet cabinet 1 is provided with a first circuit breaker 11 and a first switching-on/switching-off indicator lamp 12 electrically connected with the first circuit breaker 11; the main control connection cabinet 3 comprises an intelligent controller 31, a third circuit breaker 32 and a third switching-on/off indicator lamp 33 electrically connected with the third circuit breaker 32; the second power supply cabinet 2 is provided with a second circuit breaker 21 and a second switching indicator lamp 22 electrically connected to the second circuit breaker 21. Each opening indicating lamp is used for displaying the instant running state of the breaker connected with the opening indicating lamp, so that a worker can more intuitively know whether the cabinet is in an opening state or a closing state. The first and second circuit breakers 11 and 21 are respectively communicated with an external power source to supply power to the equipment. The lines of the first circuit breaker 11 and the second circuit breaker 21 are connected through the third circuit breaker 32, and the intelligent controller 31 is electrically connected to the first circuit breaker 11, the second circuit breaker 21, and the third circuit breaker 32, respectively, so as to automatically control the third circuit breaker 32 to be switched on.

During normal operation, the third circuit breaker 32 is in a normally open state, and the intelligent controller 31 continuously detects the operating states of the power supply lines of the first power supply cabinet 1 and the second power supply cabinet 2 and sends detection signals to the data center background. When the line of the first power inlet cabinet 1 breaks down and is powered off, the intelligent controller 31 immediately controls the third circuit breaker 32 to be switched on, the power supply line of the second power inlet cabinet 2 is communicated with the line of the first power inlet cabinet 1, and therefore the line of the first power inlet cabinet 1 is powered on. When the line of the second power feeding cabinet 2 breaks down and is powered off, the intelligent controller 31 immediately controls the third circuit breaker 32 to be switched on, the power supply line of the first power feeding cabinet 1 is communicated with the line of the second power feeding cabinet 2, and therefore power is supplied to the line of the second power feeding cabinet 2. When the circuit with the fault recovers to be normal, the first circuit breaker 11 or the second circuit breaker 21 is switched on again to supply power, and at this time, the power supply of the power inlet cabinet with the fault can be recovered only by controlling the third circuit breaker 32 on the intelligent controller 31 to switch off and disconnecting the third circuit breaker from the first power inlet cabinet 1 and the second power inlet cabinet 2.

The utility model provides a distribution system that data center used, through set up intelligent control ware 31 on main control contact cabinet 3, the running state of each circuit of automated inspection, when one of them circuit broke down, the automatic control third circuit breaker 32 switched on, thereby carried out load power supply to the circuit that breaks down; when the line returns to the normal state, the power supply of the power-on cabinet on the side where the fault occurs can be recovered only by controlling the third breaker 32 to open the switch on the intelligent controller 31. The power distribution system for the data center does not need relay interlocking, each circuit breaker also omits the setting of a control button, the intelligent control automation degree is high, and interlocking lines arranged among all cabinets are saved; moreover, the intelligent controller 31 on the main control contact cabinet 3 can simultaneously acquire all the operation data of other cabinets and connect the operation data to the background, and a data collecting device is not required to be arranged on each cabinet, so that the cost is reduced, and the background capacity occupation of the data center is also reduced.

In this embodiment, a multifunctional meter 4 for displaying various parameters is disposed on the first power supply cabinet 1, the main control interconnection cabinet 3, and the second power supply cabinet 2.

In this embodiment, the first power supply cabinet 1, the main control contact cabinet 3 and the second power supply cabinet 2 are all provided with lifting hooks 5 convenient for lifting.

In this embodiment, the first power supply cabinet 1, the main control connection cabinet 3 and the second power supply cabinet 2 are formed by splicing cold-rolled steel plates.

In this embodiment, the thickness of the cold-rolled steel sheet is 2.0mm.

In this embodiment, the first circuit breaker 11, the second circuit breaker 21, and the third circuit breaker 32 are one of a frame circuit breaker and a molded case circuit breaker.

In this embodiment, all be provided with reputation siren 6 on first electricity cabinet 1, the main control contact cabinet 3 and the second electricity cabinet 2 of advancing, after circuit fault takes place, send sound and the light suggestion of reminding the staff.

The above description is only a preferred embodiment of the present application and is not intended to limit the scope of the present application, and other embodiments and basic structures that are the same as or similar to the present application are within the scope of the present application.

Claims (7)

1. The utility model provides a power distribution system that data center used, characterized in that advances electric cabinet (2) including first electric cabinet (1), main control contact cabinet (3) and second it advances electric cabinet (2) be provided with first circuit breaker (11) on first electric cabinet (1) and with first circuit breaker (11) electricity first closing and separating brake pilot lamp (12) of being connected, main control contact cabinet (3) including intelligent control ware (31), third circuit breaker (32) and with third circuit breaker (32) electricity third closing and separating brake pilot lamp (33) be connected it advances electric cabinet (2) to be provided with second circuit breaker (21) on the second and with second circuit breaker (21) electricity second closing and separating brake pilot lamp (22) that are connected, first circuit breaker (11) and second circuit breaker (21) communicate with external power source respectively, the circuit of above-mentioned first circuit breaker (11) and second circuit breaker (21) passes through third circuit breaker (32) are connected, intelligent control ware (31) are connected with above-mentioned first circuit breaker (11), second circuit breaker (21) and third circuit breaker (32) electricity respectively to thereby carry out the control.

2. A power distribution system for a data center according to claim 1, wherein: and the first power inlet cabinet (1), the main control contact cabinet (3) and the second power inlet cabinet (2) are respectively provided with a multifunctional meter (4) for displaying various parameters.

3. The power distribution system for a data center of claim 1, wherein: all be provided with lifting hook (5) that make things convenient for the handling on first electric cabinet (1), main control contact cabinet (3) and the second electric cabinet (2) of advancing.

4. The power distribution system for a data center of claim 1, wherein: the first power supply cabinet (1), the main control contact cabinet (3) and the second power supply cabinet (2) are formed by splicing cold-rolled steel plates.

5. The power distribution system for a data center of claim 4, wherein: the thickness of the cold-rolled steel plate is 2.0mm.

6. A power distribution system for a data center according to claim 1, wherein: the first circuit breaker (11), the second circuit breaker (21) and the third circuit breaker (32) are one of a frame circuit breaker or a molded case circuit breaker.

7. The power distribution system for a data center of claim 1, wherein: and the first power inlet cabinet (1), the main control contact cabinet (3) and the second power inlet cabinet (2) are respectively provided with an acousto-optic alarm (6).

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