KR101478060B1 - black box for the power board and switch board - Google Patents

Abstract

The present invention relates to a black box for a switchgear which is mounted inside a switchboard and can monitor the inside of the switchboard and the normal operation of the parts, This device has an external structure which is composed of a body, an air cooling chamber and a data collecting chamber in the order from the outside to the inside, and the body is made of stainless steel, refractory layer, thermoelectric layer and heat radiating layer from outside to inside; A monitoring device for monitoring the normal operation of parts of the water distribution board is installed inside the data collection room. This device collects and stores information from a specific time on the water and the switchboard, from the specific time on the day before the fire.

Description

[0001] The present invention relates to a black box for a power distribution board,

The present invention relates to a black box for a switchgear, and more particularly, to a black box for a switchgear, more specifically, it can be mounted inside a switchboard, To a black box for a switchboard in which information is stored.

Conventionally, there is no black box inside the water tank or the switchboard.

Therefore, if a fire occurs in the water front or in the cabinet, the cause of the fire is unclear, and the number and distribution situation, for example, the temperature sensing information of the component and the amount of current of the component are monitored and stored in the database. This database is inside the switchboard, but it can be turned on in the case of fire, and if there is a database on the outside, there are many problems because the cause of fire in communication equipment is unclear and monitoring data is damaged.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a monitoring apparatus, And to provide a black box for a switchboard that can be stored.

In order to achieve the above object, the present invention is a black box for a switchboard for fire prevention and fire data collection in a switchboard.
The apparatus has an external structure formed from an exterior to an interior of the main body, an air cooling chamber, and a data collecting device chamber in this order, and the main body is made of stainless steel, refractory layer, thermoelectric layer and heat radiating layer from the outside to the inside; A monitoring device for monitoring the normal operation of parts of the water distribution board is installed inside the data collection room. This unit collects information from the starting time of the power supplied from the water and the switchboard to the time immediately before the fire .
In the embodiment, the stainless steel is a stainless steel having a thickness of 1 mm to 3 mm from which impurities have been removed, and an outer case layer of a black box is formed using one of SUS 316L and SUS 410. The melting temperature of the stainless steel is 1,427 ~ 1,510 degrees. Stainless steel is used as an outer case layer, which prevents fire inflow into the black box when a fire occurs in the switchboard.
In an embodiment, the refractory layer is made of any one of SK 32 ~ 36 chamois materials of 5 mm to 10 mm.
In the embodiment, the thermoelectric layer is made of a thermoelectric element having a Peltier effect. In the thermoelectric layer, a thermally conductive surface is bonded to the refractory layer and a heat-generating surface is formed on the back surface. When two different metals are bonded and electricity is applied, The energy flow discontinuity occurs between the two metals, resulting in an electromotive force. At this time, the heat surface is generated by the external fire, and the remaining surface (= back surface) becomes cold, And is mounted so as to be wide in contact with the layer.
In an exemplary embodiment, the heat dissipation layer is connected to a black box internal battery through a temperature sensor that discharges heat to the outside by a fan installed at an adjacent position, and allows the fan to conduct electricity only at a temperature of 150 degrees or higher.
In the embodiment, the air-cooling chamber is provided with a fan, and an air-cooling chamber, which is a space filled with the powder gypsum blown by the fan, is formed. The air-cooling chamber is filled with half of the powder gypsum, And the powder gypsum is blown by the operation of the fan, so that the gypsum flies and minimizes the heat conduction in the inner direction.
In the embodiment, the material of the data collecting device room is AL composite fiber, which is a mixture of AL (Al) grains and carbon fiber to prevent the direct transfer of the residual heat to the monitoring device installed in the data collecting device room And the aluminum (AL) grains are 1 mm ² , and 1 to 3 per 1 cm ² of the carbon fiber material are mixed to perform the function of cooling the residual heat.
In the embodiment, the data collecting device room mounts a monitoring device, which collects information from the starting time of the power supplied from the power supply to the number and the power distribution panel, Condition, temperature, voltage / current status, bolted condition, number including door open / close, and information about fire occurrence of switchboard.

The present invention is advantageous in that the black box serves as a black box for the water and the switchboard, and the inside of the black box does not always generate heat above a certain temperature, and can be mounted inside the switchboard, It is advantageous to lower the number of firearms reaching each floor in multiple layers to contain the monitored information and to preserve the information, and it is advantageous to acquire situation information until the fire just before the fire by evolving the firebox.

1 is a perspective view showing an external structure of a black box for a switchboard according to the present invention.
2 is a perspective view illustrating an outer layer of a black box for a switchboard according to the present invention.
3 is a perspective view illustrating an outer rear surface of a black box for a switchboard according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

For reference, a black box, a data collection device room, and a monitoring device to be described in this specification will be briefly described first.
As described above, the present invention relates to a black box, in which a data collection device room is provided, and a monitoring device is provided in the data collection device room. do.
3, the main body 1 is formed with a structure for opening and closing the dragger 2, a data collecting device chamber 3 is fixed to the inside of the dragger 2, A ventilation hole 4 is provided.

The black box for a switchboard of the present invention is equipped with a monitoring device in the data collection device room 3 to prevent the worst situation, that is, a situation in which all the evidence is lost due to a fire, Collecting function to identify the cause of the fire.

The arrangement structure for accommodating and storing the monitoring device of the black box for the switchboard will be described.

A stainless steel 11, a refractory layer 12, a thermoelectric layer 13, a heat dissipation layer 14, and a heat dissipation layer 14 are arranged in this order from the outside to the inside of the main body 1, the air cooling chamber 15, Constitute the main body 1. A battery in the black box for supplying electricity is connected to the thermoelectric layer 13. Since the connection type is a known technology, a detailed description will be omitted.
Inside the data collection device room 3, there is mounted a monitoring device for monitoring the internal state of the water distribution board, and the normal operation of the components. If you remove the black box from the water and switchboard and connect it to the computer (PC), it will be recognized as the external hard drive of this computer. In addition, this monitoring device has information on the start of driving, that is, a specific time from the day when the power is supplied from the power distribution board to the time immediately before the fire occurs. This information is information about the number, number of parts inside the switchboard, temperature, voltage / current status, bolted condition, number of door open / close,

The stainless steel 11 forms an outer layer of the main body of the black box by using any one of SUS 316L and SUS 410. The melting temperature of this stainless steel is 1,427 to 1,510 degrees, and stainless steel (11) forms the outer case layer, which prevents fire inflow into the black box when a fire occurs in the water and the switchboard.

The refractory layer 12 is made of any one of SK 32 to 36 chamfered materials, and the entire inner surface of the stainless steel is formed to have a thickness of 5 mm to 10 mm. In the event of fire, the refractory layer acts to attenuate the flame near the outer surface of the stainless steel firstly in the stainless steel and secondarily attenuate the inside of the stainless steel.

The thermoelectric layer 13 is made of a thermoelectric element having a Peltier effect. The thermally conductive layer 13 has a thermally conductive surface and a heat-generating surface. The surface contacting the refractory layer 12 is a thermally conductive surface, and the surface brought into contact with the heat-radiating layer 14 is a heat-generating surface. According to the Peltier effect, when two different metals are stuck together and electricity is applied, a discontinuity of energy flow occurs between the two metals, resulting in an electromotive force, where the heat is generated by external firearms , The heating surface becomes cold.

The heat dissipation layer 14 is provided for the purpose of releasing the heat transferred. The heat dissipation layer 14 has a plurality of fins protruding from the aluminum disk, and the heat transferred to the aluminum disk is discharged into the air through the plurality of fins.
Further, as shown in FIG. 3, the heat discharged into the air through the plurality of fins causes the fan to discharge to the outside through the ventilation opening 4.
Therefore, it is preferable that the fan is disposed at a position adjacent to the fin of the heat dissipation layer 14. [
The fan receives power from the internal battery of the black box, and a temperature sensor is connected between the fan and the internal battery of the black box. Since the temperature sensor is driven at 150 degrees or more, the fan operates only at a temperature of 150 degrees or more.

The air cooling chamber (15) is located between the main body (1) and the data collecting device chamber (3), and this air cooling chamber is filled with powder gypsum. Since the fan is operated, the filled powdered gypsum is easily blown by the wind. Since the gypsum material has a low thermal conductivity, when the powder gypsum is blown by the operation of the fan, the thermal conductivity is generally lowered.

The AL composite fiber 16 is a material that forms the inner and outer surfaces of the data collection device chamber 3. This is a mixed material of aluminum (AL) particles and carbon fiber, To prevent direct delivery to the data acquisition room.

Here, the stainless steel, the refractory layer, the thermoelectric layer, and the heat-radiating layer constitute the main body 1, and the air-cooling chamber 15 exists between the main body and the data collector chamber 3.

A monitoring device is installed in the data collection device room (3). This monitoring device contains information from a specific time on the water and the switchboard until the time of the fire. This information refers to the number, number of parts inside the switchboard, temperature, voltage / current status, bolted condition, number of door open / close, etc., and information for collecting fire occurrence in the switchboard.

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One ; Body 2; Drager
3; Data collection room 4; Vent
11; Stainless steel 12; Refractory layer
13; Thermoelectric layer 14; The heat-
15; Air cooling chamber 16; Al composite fiber
17; Accommodation space

Claims (8)

In a black box for switchgear for fire prevention and fire data collection in switchboards,
(1), an air cooling chamber (15), and a data collecting device room (3) in the order from the outside to the inside,
The main body 1 comprises a stainless steel 11, a refractory layer 12, a thermoelectric layer 13 and a heat dissipation layer 14 inwardly from the outside
In the data collecting device room 3, a monitoring device for monitoring the normal operation of the water and the parts of the switchboard is mounted, and the monitoring device is installed in the data collecting device room 3, A black box for distribution and distribution systems that collects and stores information.
The method according to claim 1,
The stainless steel 11 is a stainless steel having a thickness of 1 mm to 3 mm from which impurities have been removed, and an outer case layer of a black box is formed using any one of SUS 316L and SUS 410. The melting temperature of the stainless steel is 1,427 ~ 1,510 degrees. Stainless steel (11) forms the outer case layer, which prevents fire inflow into the black box when fire occurs in the switchboard.
The method according to claim 1,
Wherein the refractory layer (12) is made of any one of SK 32 ~ 36 shammproof materials having a thickness of 5 mm to 10 mm.
The method according to claim 1,
The thermoelectric layer 13 is made of a thermoelectric element having a Peltier effect. The thermoelectric layer has a thermally conductive surface bonded to the refractory layer and a heat-generating surface on the rear surface. When two different metals are bonded and electricity is applied, The energy flow is interrupted between the metals, resulting in an electromotive force. At this time, the heat is generated by the external fire and the remaining surface (the back surface) is cold, And a black box for a switchboard mounted on the wide side. The method according to claim 1,
The heat dissipation layer (14) is discharged to the outside by a fan installed at an adjacent position, and a temperature sensor for allowing electricity to flow only at a temperature of 150 degrees or more is connected to a black box .
The method according to claim 1,
The air-cooling chamber (15) is provided with a fan, and an air-cooling chamber, which is a space filled with powder gypsum blown by the fan, is formed. The air- And the gypsum flies so as to minimize thermal conduction in the inner direction because the gypsum is blown by operation of the fan.
The method according to claim 1,
The material of the material collecting apparatus room 3 is AL composite fiber 16 which is a mixed material of aluminum (AL) grains and carbon fibers to prevent direct transfer of residual heat to the monitoring apparatus installed in the data collecting apparatus room And the aluminum (AL) grains are 1 mm ² , and 1 to 3 per 1 cm ² of the carbon fiber material are mixed to function as a function of cooling the residual heat.
The method according to claim 1,
The data collecting device room 3 mounts a monitoring device, which collects information from the starting time of the power supply from the water supply and the power distribution panel to the time immediately before the fire occurs, A black box for distribution and distribution, which collects information on conditions, temperature, voltage / current status, bolt fastening status, number of door open / close,

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