CN214100898U - Novel IDC data center storage battery management system - Google Patents

Abstract

The utility model discloses a novel IDC data center battery management system, including control terminal, control terminal is connected with memory, signal collector is connected with the battery in order to gather the battery parameter, the IDC data center treater is connected to the battery in order to supply power, the battery is installed in the rack, control terminal still electrically connected with cold source system, cold source system installs in the rack in order to realize the battery cooling, simple structure, and the practicality is strong, can reduce to the manual work time that the scene manual measurement and inspection battery need; the health state of the battery can be known in real time without the need of on-site inspection according to a calendar, so that the cost is saved; the storage battery temperature can be lowered, quick heat dissipation is achieved, and the problem that the machine room breaks down and data is lost due to the fact that the power supply for the IDC machine room often has poor heat dissipation is solved.

Description

Novel IDC data center storage battery management system

Technical Field

The utility model relates to a management system, more specifically say a bit, relate to a novel IDC data center battery management system.

Background

The IDC data center is not only a data storage center, but also a data circulation center, should appear in the most centralized place of data exchange in the Internet network, and is generated along with the situation that people put higher requirements on host hosting and virtual host service, but the power supply for the IDC computer room often causes the computer room to be out of order due to poor heat dissipation. At present, the UPS storage battery plays a role in protecting IDC data center equipment from running smoothly, and on the premise of ensuring power equipment facilities of a machine room, the UPS storage battery and a switching power supply system play a role in preventing voltage surges, waves, peaks (drops) and transients and undervoltages (overvoltage) of a mains supply power grid together, thereby effectively protecting communication equipment and preventing station breakdown accidents.

However, once the UPS battery is installed and put into operation in the communication base station, replacement is not involved in several years, the communication power supply is the basis of the communication network, the backup battery is the last barrier of the whole communication power supply, and particularly, once an accident caused by the UPS battery in the communication equipment room occurs, a huge loss is caused, so that maintenance of the battery UPS needs to be strengthened.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior art problem, the utility model provides a novel IDC data center battery management system who has can real-time supervision battery state, can be for technical characterstic such as battery cooling.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model provides a novel IDC data center battery management system, includes control terminal, control terminal is connected with memory, signal collector is connected with the battery in order to gather the battery parameter, IDC data center treater is connected with the power supply to the battery, the battery is installed in the rack, control terminal still electric connection has cold source system, cold source system installation is in order to realize the battery cooling in the rack.

As an improvement, the cold source system includes fan, transformer, microprocessor and a plurality of heat piece, fan, transformer all with microprocessor electric connection, transformer and battery electric connection, microprocessor and control terminal electric connection, the laminating of heat piece just encircles the battery setting, top-down the heat piece interval is arranged, the fan is close to the heat piece setting and bloies towards the heat piece.

As an improvement, the heat radiating fin is provided with a plurality of through holes.

As an improvement, the storage battery is a UPS storage battery.

As an improvement, the control terminal is a tablet personal computer, and the control terminal is in wireless connection with the signal collector through a network.

As an improvement, the control terminal is a tablet personal computer and is connected with the signal collector through a line.

As an improvement, the battery is equipped with a plurality ofly, a plurality of battery series connection, all is connected with a signal collector on each battery 4, and the fan heating plate outside every battery corresponds and is equipped with a fan.

Has the advantages that: the structure is simple, the practicability is high, and the manual time required for manually measuring and checking the storage battery on site can be reduced; the health state of the battery can be known in real time without the need of on-site inspection according to a calendar, so that the cost is saved; the storage battery temperature can be lowered, quick heat dissipation is achieved, and the problem that the machine room breaks down and data is lost due to the fact that the power supply for the IDC machine room often has poor heat dissipation is solved.

Drawings

Fig. 1 is a schematic view of the connection structure of the present invention.

Fig. 2 is a schematic diagram of the structure of the cooling source system of the present invention.

Detailed Description

The present invention will be further described with reference to the drawings attached to the specification, but the present invention is not limited to the following embodiments.

As shown in fig. 1-2, a specific embodiment of a novel IDC data center battery management system is provided, which includes a control terminal 1, the control terminal 1 is connected with a memory 2 and a signal collector 3, the memory 2 stores data in real time, the signal collector 3 can collect information of a battery, the signal collector 3 is connected with a battery 4 to collect parameters of the battery 4, the signal collector 3 can select a TA module, and the automatic periodic measurement and monitoring of the state of the battery 4 are performed by objects that: (1) and the internal resistance of the battery gives out early warning to the degraded battery. (2) And monitoring the temperature of the cathode of the single battery, comparing the temperature of the battery shell, wherein the temperature of the cathode is closer to the internal temperature of the battery, reflecting the real change of the internal part of the battery, and finding out the thermal runaway battery in time. (3) The method comprises the steps of recording discharge, automatically recording voltage, pack voltage, discharge current and discharged capacity of each battery in the discharge process, compared with the traditional manual disassembly of the storage battery monitoring, reducing manual time required by on-site manual measurement and storage battery inspection, knowing the health state of the battery in real time without on-site inspection according to a calendar, thereby saving cost, connecting the storage battery 4 with an IDC data center processor for power supply, installing the storage battery 4 in a cabinet, electrically connecting a control terminal 1 with a cold source system, installing the cold source system in the cabinet to realize cooling of the storage battery 4, wherein the cold source system comprises a fan 6, a transformer 7, a microprocessor 8 and a plurality of fan heating sheets 5, electrically connecting the fan 6 and the transformer 5 with the microprocessor 8, electrically connecting the transformer 7 with the storage battery 4, and electrically connecting the microprocessor 8 with the control terminal 1, 5 laminating of fan heating piece and surrounding battery 4 setting, top-down 5 intervals of fan heating piece are arranged, fan 6 is close to 5 settings of fan heating piece and bloies towards fan heating piece 5, when signal collector 3 detected the battery high temperature (specifically can set up the threshold value), fan 6 starts, begins to blow to fan heating piece 5 and realizes the rapid cooling to battery 4, and creative a plurality of through-hole 9 has been seted up on fan heating piece 5 for the air current can flow from top to bottom when colliding 4 outer walls of battery, cooling with higher speed, battery 4 is the UPS battery, and control terminal 1 is the panel computer, and control terminal 1 passes through network wireless connection with signal collector 3, perhaps control terminal 1 passes through the line connection with signal collector 3.

As an improved embodiment mode, the storage batteries 4 are arranged in a plurality of series connection mode, the storage batteries 4 are connected in series, each storage battery 4 is connected with one signal collector 3, and the fan 6 is correspondingly arranged on the fan heating piece 5 outside each storage battery 4, so that the independent operation can be realized, the heat dissipation is accurate, and the energy consumption is reduced.

Finally, it should be noted that the present invention is not limited to the above embodiments, and many variations are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (7)

1. The utility model provides a novel IDC data center battery management system which characterized in that: including control terminal (1), control terminal (1) is connected with memory (2), signal collector (3) are connected with battery (4) in order to gather battery (4) parameter, IDC data center treater is connected with the power supply in battery (4), battery (4) are installed in the rack, control terminal (1) still electric connection has cold source system, cold source system mounting is in order to realize battery (4) cooling in the rack.

2. The novel IDC data center battery management system of claim 1, wherein: the cold source system comprises a fan (6), a transformer (7), a microprocessor (8) and a plurality of heat dissipation pieces (5), the fan (6), the transformer (7) and the microprocessor (8) are electrically connected, the transformer (7) is electrically connected with a storage battery (4), the microprocessor (8) is electrically connected with a control terminal (1), the heat dissipation pieces (5) are attached to and surround the storage battery (4), the heat dissipation pieces (5) are arranged at intervals from top to bottom, and the fan (6) is close to the heat dissipation pieces (5) and blows towards the heat dissipation pieces (5).

3. The novel IDC data center battery management system of claim 2, wherein: the fan heating piece (5) is provided with a plurality of through holes (9).

4. A novel IDC data center battery management system as per claims 1 or 2 wherein: the storage battery (4) is a UPS storage battery.

5. The novel IDC data center battery management system of claim 1, wherein: the control terminal (1) is a tablet personal computer, and the control terminal (1) is in wireless connection with the signal collector (3) through a network.

6. The novel IDC data center battery management system of claim 1, wherein: the control terminal (1) is a tablet personal computer, and the control terminal (1) is connected with the signal collector (3) through a line.

7. A novel IDC data center battery management system as per claims 1, 2 or 3 wherein: the storage battery (4) is provided with a plurality of storage batteries (4) which are connected in series, each storage battery (4) is connected with a signal collector (3), and a fan (6) is correspondingly arranged on the outer fan heating piece (5) of each storage battery (4).

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