KR100395211B1 - Device for supplling preparation power - Google Patents

Abstract

The present invention relates to a preliminary power supply device. In particular, the battery 400 for supplying the charged power to the enclosure when the power supplied to the enclosure is interrupted while being charged with the charging power from the power supply unit. ); A temperature sensing unit 300 for sensing the temperature of the battery 400 and the temperature of the room and transmitting temperature data corresponding to the temperature; A control unit 200 for supplying driving power input from the power supply unit when the temperature sensed by the temperature sensing unit 300 falls below a predetermined temperature, and cutting off the driving power when the temperature exceeds a predetermined temperature; And a temperature compensator 500 for compensating a room temperature to a predetermined temperature when the driving power is input from the control unit 200. The present invention includes a temperature compensator mounted inside a battery compartment in which a battery is mounted. By maintaining a uniform temperature, not only can the battery efficiency be optimized, but it also has an excellent effect of stabilizing the system.

Description

Redundant Power Supply {DEVICE FOR SUPPLLING PREPARATION POWER}

The present invention relates to a redundant power supply device installed in a rack-type outdoor base station system, and more particularly, a temperature compensator that generates heat in a hot air type in order to optimize the efficiency of a battery for supplying a spare power. The present invention relates to a preliminary power supply device that maintains the temperature of a battery compartment at room temperature by heating it.

In general, an outdoor mobile communication system is composed of an enclosure and a battery housing in which a system unit is mounted, and the battery housing plays an important role in preventing the equipment from going down by inputting charging power to the communication equipment when the external power is cut off. . In addition, the outdoor mobile communication system is separated and mounted to protect the system unit in the enclosure from the risk of explosion, corrosion, etc. of the battery mounted inside the battery enclosure, and the enclosure is installed outside to optimize the system. Correspondingly, each is configured independently to compensate for the temperature using the chiller and heater.

The conventional power supply apparatus using a heat pad charges the power when it receives power from the power supply device. At this time, when the power supplied to the enclosure from the power supply is interrupted, the conventional reserve power supply device supplies the charged power to the enclosure. However, when the temperature inside the battery enclosure in which the plurality of batteries are mounted or the temperature of the plurality of batteries is lowered, the efficiency or lifespan of the charging voltage supplied through the plurality of batteries is severely damaged. Thus, a conventional power supply using a heat pad is mounted on the bottom of the battery in order to maintain the temperature inside the battery housing or the temperature of the plurality of batteries at room temperature, if the temperature inside the battery housing or When the temperature of a plurality of batteries is lowered, the heat pad is heated to compensate for the temperature.

However, the above-described conventional power supply apparatus using the heat pad has a lower structure of the plurality of batteries and an upper end of the heat pad, so that when the heat pad is heated, the high temperature heat is locally applied to the plurality of batteries. As a result, a plurality of batteries have a problem of being damaged such as explosion, stomach phenomenon or overcharging.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to optimize the battery efficiency by maintaining a uniform temperature by mounting a temperature compensator inside a battery housing in which a plurality of batteries are mounted. To provide a redundant power supply.

In order to achieve the above object, the present invention is a preliminary power supply device is installed in a rack-type outdoor mobile communication system to supply a charged power when the power supply is stopped from the power supply unit,

A battery which receives the charging power from the power supply unit and charges the battery, and supplies the charged power to the enclosure when the power supplied to the enclosure is stopped;

A temperature sensor for detecting a temperature of the battery and a temperature of a room and transmitting temperature data corresponding to the temperature;

A control unit which supplies driving power input from the power supply unit when the temperature sensed by the temperature sensing unit falls below a predetermined temperature and cuts off the driving power when the temperature exceeds a predetermined temperature; And

When the driving power is input from the control unit is characterized in that configured as a temperature compensator for compensating the room temperature to a certain temperature.

In addition, in order to achieve the above object, the present invention, the preliminary power supply device is installed in the outdoor mobile communication system of the rack structure in the preliminary power supply for supplying the charged power when the power supply is stopped from the power supply,

A square battery enclosure in which a plurality of batteries are attached to the center by a bracket;

A plurality of temperature sensing units located at predetermined positions in the battery housing, sensing a temperature therein at respective positions and outputting corresponding temperature data;

Is formed on one side of the battery compartment, the drive power is supplied through a connector of the power supply unit, while being connected to a plurality of temperature sensing unit receives the temperature data from each temperature sensing unit after the temperature corresponding to the temperature data A controller for supplying power when the temperature falls below a predetermined temperature; And

Is formed on the rear side inside the battery compartment, the heater to generate heat through the supplied power when the power is received from the control unit and a fan for convection it to the battery housing when the heat generated by the heater to the temperature inside the battery compartment Characterized in that consisting of a temperature compensator for raising the.

1 is a functional block diagram showing the configuration of a redundant power supply device installed in an outdoor base station system of a rack structure according to an embodiment of the present invention;

2 is a perspective view showing the shape of the redundant power supply device according to FIG. 1;

3 is a view showing a detailed configuration of a temperature compensator of the redundant power supply device according to FIG.

4 is a front view of a rack equipped with a redundant power supply according to FIG. 1, FIG.

FIG. 5 is a rear view of the rack on which the redundant power supply device according to FIG. 1 is mounted.

<Explanation of symbols for the main parts of the drawings>

100: battery housing 200: control unit

300: temperature sensing unit 400: battery

500: temperature compensator

Hereinafter, a preliminary power supply device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of a preliminary power supply apparatus according to an embodiment of the present invention, the preliminary power supply apparatus according to an embodiment of the present invention is a battery enclosure 100, the control unit 200, the temperature sensing unit 300 ), The battery 400 and the temperature compensator 500.

The battery housing 100 is formed in a square and serves to attach the plurality of batteries 400 to the center by a bracket.

In addition, the controller 200 is formed on one side of the battery housing 100, and receives the driving power through a connector of the power supply unit, while being connected to a plurality of temperature sensing unit 300, the respective temperature sensing unit When the temperature data is input from the 300 and the temperature corresponding to the temperature data falls below a predetermined temperature, it serves to supply power to the temperature compensator 500.

In addition, the plurality of temperature sensing units 300 are located at predetermined positions in the battery housing 100, and detect the temperature of the places at respective positions, and output corresponding temperature data to the control unit 200. It plays a role.

In addition, the temperature compensator 500 is formed on the rear side of the battery housing 100, the heater 510 to generate heat through the supplied power when receiving power from the control unit 200 as shown in FIG. ) And a fan 520 that convections the heat to the battery housing 100 when the heat is generated by the heater 510, thereby increasing the temperature inside the battery housing 100.

Next, an operation process of the preliminary power supply device having the above configuration will be described with reference to FIG. 2.

First, the battery 400 receives charging power from the power supply unit and charges it, and when the power supplied to the enclosure 10 is stopped from the outside, the battery 400 supplies the charged power to the enclosure 10.

At this time, the temperature sensor 300 detects the temperature of the battery 400 and the temperature of the battery housing 100 and transmits temperature data corresponding to the temperature to the controller 200.

Then, the controller 200 supplies the driving power input from the power supply unit when the temperature sensed by the temperature sensing unit 300 falls below a predetermined temperature, and cuts off the driving power when the temperature exceeds the predetermined temperature.

Then, when the temperature compensator receives the driving power from the controller 200, the temperature compensator compensates the temperature in the battery enclosure 100 to a predetermined temperature. At this time, Figure 4 is a shape showing a front side in which the preliminary power supply device according to the present invention is mounted in the outdoor mobile communication system, Figure 5 is a shape showing a rear side mounted in the outdoor mobile communication system.

As described above, according to the preliminary power supply device according to the present invention, a temperature compensator may be installed inside a battery enclosure in which a plurality of batteries are mounted to maintain a uniform temperature, thereby optimizing battery efficiency, It has an excellent effect on stabilizing the system.

Claims (2)

A preliminary power supply device installed in a rack-type outdoor mobile communication system and supplying charged power when power supply is interrupted from a power supply unit, A battery which receives the charging power from the power supply unit and charges the battery and supplies the charged power to the enclosure when the power supplied to the enclosure is stopped; A temperature sensor for detecting a temperature of the battery and a temperature of a room and transmitting temperature data corresponding to the temperature; A control unit which supplies driving power input from the power supply unit when the temperature sensed by the temperature sensing unit falls below a predetermined temperature and cuts off the driving power when the temperature exceeds a predetermined temperature; And And a temperature compensator for compensating a room temperature to a predetermined temperature when the driving power is input from the controller. A preliminary power supply device installed in a rack-type outdoor mobile communication system and supplying charged power when power supply is interrupted from a power supply unit, A square battery enclosure in which a plurality of batteries are attached to the center by a bracket; A plurality of temperature sensing units located at predetermined positions in the battery compartment and sensing temperature at respective positions in the battery compartment and outputting corresponding temperature data; Is formed on one side of the battery compartment, the drive power is supplied through a connector of the power supply unit, while being connected to a plurality of temperature sensing unit receives the temperature data from each temperature sensing unit after the temperature corresponding to the temperature data A controller for supplying power when the temperature falls below a predetermined temperature; And Is formed on the rear side inside the battery compartment, the heater to generate heat through the supplied power when the power is received from the control unit and a fan for convection it to the battery housing when the heat generated by the heater to the temperature inside the battery compartment Spare power supply, characterized in that configured as a temperature compensator to raise the.