KR960003340Y1 - Discharge device of a fire extinguisher - Google Patents

Abstract

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Description

Discharge device of fire extinguishing powder tank

1 is a block diagram schematically showing the structure of the present invention.

2 is a view showing the structure of a constant pressure valve of the present invention.

Figure 3 is a view showing the structure of the 3WAY solenoid valve of the present invention.

* Explanation of symbols for main parts of the drawings

1: powder tank 2: nitrogen gas tank

3: solenoid valve 4: positive pressure valve

5: 3WAY solenoid valve 6: discharge valve

7: check valve 8: switch box

9: air tank 4-1: nitrogen pressure gauge

4-2: Pressure setting meter 4-3: Main body

4-4: Terminal 4-5: Diaphragm

4-6: Capillary Tube A: Cable Connection

5-1: Terminal Block 5-2: Vent Hole

5-3: Coil section 5-4: Manual snap pin

5-5: Manual Button 5-6: Valve

5-7: air inlet 5-8: air outlet

The present invention relates to a device for discharging a powder tank for fire extinguishing, and particularly to extinguish a fire by installing a powder fire extinguishing agent within a set time when a fire occurs by installing it at a place that cannot be extinguished with a fire extinguishing device.

In the past, especially in the case of a fire occurring in a specific target area such as a plant chemical complex, a storage station, a power plant, a substation, or a textile factory, it was not possible to extinguish a fire using water, and a large amount of fire heat, smoke, or toxic gas. Since it was difficult for humans to extinguish a fire directly with a fire extinguishing tool, the release could not extinguish the fire early, resulting in enormous loss of life and property.

The present invention is designed to solve the conventional problems as described above, by installing a powder tank for fire extinguishing equipped with the present invention in a place that can not extinguish the fire using water as described above, the first fire discoverers or When the fire detector causes the extinguishing powder tank discharge device of the present invention to operate by manually or automatically turning on the operation switch of the present invention, the extinguishing agent filled in the powder tank in a powder state is nitrogen gas. It is intended to protect the human life and property from fire by allowing the fire extinguishing powder and nitrogen gas to extinguish the fire by automatically discharged for a predetermined time at a set pressure with.

Hereinafter, the structure of the present invention will be described based on the accompanying drawings.

1 is a view schematically showing the overall structure of the present invention. As shown in FIG. 1, the discharge device of the fire extinguishing powder tank of the present invention includes a powder tank 1 filled with a fire extinguishing agent in a powder state, a nitrogen gas tank 2 filled with nitrogen gas, and When the switch in the switch box 8 is turned on manually and automatically, the solenoid valve 3 for supplying the compressed air of the air tank 9 through the air pipes B and B 'and the powder tank (1) When the check valve (7) for preventing the reverse flow of nitrogen gas from the (1) and the nitrogen gas supplied into the powder tank (1) is above the set pressure, the contact of the built-in micro switch is attached to the contact signal 3WAY A constant pressure valve 4 which is transmitted to the solenoid valve 5 to open the 3WAY solenoid valve 5 and at the same time regulates the pressure of nitrogen gas supplied into the powder tank 1 from the constant pressure valve 4. When contact signal is applied, it opens and The powder tank is opened by the 3WAY solenoid valve 5 for supplying the compressed air supplied through the pipe B 'to the discharge valve 6 side, and the compressed air supplied through the 3WAY solenoid valve 5. 1) is composed of a discharge valve (6) for releasing the powder for extinguishing in the gas together with nitrogen gas.

Here, the structure of the positive pressure valve 4 and the 3WAY solenoid valve 5 will be described with reference to FIGS. 2 and 3 of the accompanying drawings.

First, as shown in FIG. 2, the positive pressure valve 4 of the present invention has a nitrogen pressure gauge 4-1 for indicating the pressure of nitrogen gas supplied into the powder tank 1 and a pressure setting for displaying the set pressure. A main body 4-3 having a system 4-2 and a JIS C 4505 micro switch (not shown) are built in, and a cable connection part for transmitting the switch contact signal to the 3WAY solenoid valve 5 side ( Between the terminal portion 4-4 having A), the diaphragm portion 4-5 to which the pressure of nitrogen gas in the powder tank is applied, and between the diaphragm portion 4-5 and the main body portion 4-3. It is connected to, and consists of a capillary tube (4-6) filled with liquid mercury therein.

In addition, the 3WAY solenoid valve 5 of the present invention, as shown in Figure 3, the terminal block (5-1) and the compressed air in the pipe interlocked with the switch contact of the terminal portion (4-4) of the positive pressure valve (4) Vent hole (5-2) for discharge into the atmosphere, coil portion (5-3) with a coil, a manual snap pin (5-4), a manual button (5-5) , And a valve (5-6), and the air inlet (5-7) through which the compressed air supplied through the air gap (B ') is introduced into both ends of the valve (5-6), And an air discharge port (5-8) for sending compressed air to the discharge valve (4).

Subsequently, when the linking operation between the positive pressure valve 4 and the 3WAY solenoid valve 5 of the present invention is described in detail, when the nitrogen gas pressure gradually rises as nitrogen gas flows into the powder tank 1, Pressure is applied to the diaphragm portion 4-5 of the positive pressure valve 4, so that the pressure of the liquid mercury in the capillary tube 4-6 increases. As the injection of the nitrogen gas continues, the instructions of the nitrogen pressure gauge 4-1 of the main body 4-3 go up to the set pressure value (14 kg / cm 2) of the pressure setting system 4-2. Finally, if the guideline of the nitrogen pressure gauge 4-1 differs up to a set pressure of 14 kg / cm 2, although not shown, the contact of the micro switch in the terminal portion 4-4 is attached and at the same time, the next 3-way solenoid valve The contact signal is sent to the terminal block 5-1 of (5). The valve 5-6 of the 3WAY solenoid valve 5 is opened according to the contact signal input to the terminal block 5-1. Therefore, as described above, the compressed air flowed into the air inlet (5-7) of the valve (5-6) at a constant pressure (6.5kg / cm ² ) in the direction of the arrow through the air pipe (B '). While being discharged in the direction of the arrow through the air discharge port (5-8), by opening the discharge valve (6) installed on the discharge port side of the powder tank (1) by extinguishing powder chemicals in the powder tank (1) with nitrogen gas It will be released to extinguish the fire. At this time, when the power is manually cut off, while the 3WAY solenoid valve 5 and the solenoid valve 3 of the present invention are blocked, the vent hole 5-2 of the 3WAY solenoid valve 5 is opened. As the compressed air is discharged in each of the air pipes B and B ', the valve and the discharge valve 4 of the nitrogen gas tank 2 are also closed, thereby suppressing the release of any further extinguishing powder medicine. do.

The overall operation of the present invention having the configuration and operation as described above and its working effects will be described with reference to FIG. 1 again as follows.

As described above, when a fire occurs in a specific area where the fire extinguishing powder tank equipped with the present invention is installed, the first fire discoverer manually operates the automatic switch in the switch box 8 separately installed in the present invention. When the operation switch in the switch box 8 is automatically operated by the operation or the fire detection signal of the fire detector, the solenoid valve 3 is opened by the operation of the switch. At the same time, compressed air having an air pressure of about 6.5 kg / cm ² from the air tank 9 is supplied through the air pipes B and B '. Compressed air supplied through the air pipe B 'is supplied to the nitrogen gas tank 2 filled with nitrogen gas, and compressed air supplied through the air pipes B and B' is filled with nitrogen gas. The gas is supplied to the nitrogen gas tank 2 filled therein, and the compressed air supplied through the air pipe B 'is supplied to the 3WAY solenoid valve 5. Then, the valve of the nitrogen gas tank 2 is opened due to the pressure of the compressed air passing through the air pipe B, from the valve 10 and the powder tank 1 from which the nitrogen gas is always opened. It is introduced into the powder tank (1) through a check valve (7) to prevent the back flow of nitrogen gas. At this time, when the pressure of the nitrogen gas flowing into the powder tank 1 reaches the set pressure value (about 14 kg / cm ² ) of the diaphragm type positive pressure valve 4, the micro switch contact point of the positive pressure valve 4 is reached. At the same time, the 3WAY solenoid valve 5 is opened. Then, the compressed air supplied through the air pipe (B ') is discharged through the air outlet (5-8) while being supplied through the air inlet (5-7) of the open solenoid valve (5) to the powder tank The discharge valve 6 installed at the discharge port side of (1) is opened. Therefore, the nitrogen gas is automatically released together with the fire extinguishing powder filled in the fire extinguishing powder tank 1 so as to be sprayed on the object to be protected so that the fire can be completely extinguished at an early stage.

In addition, in the present invention, when it is determined that there is no fire, when the stop switch in the switch box 8 is operated, the solenoid valve 3 and the 3WAY solenoid valve 5 are blocked so that no further extinguishing powder and nitrogen A safety device is provided to prevent the gas from being released from the powder tank 1.

As described above, when the fire-extinguishing powder tank equipped with the present invention is installed in a specific region, even if a fire that is difficult to extinguish with a general fire-extinguishing apparatus occurs, simply by operating the operation switch manually and automatically, By automatically releasing the powdered extinguishing agent and nitrogen gas, the fire can be completely extinguished at an early stage. In addition, the diaphragm-type positive pressure valve 4 and the 3-way solenoid valve 5 are operated in conjunction with each other. By keeping the gas constant at the set pressure and releasing it, there is a useful and practical effect of controlling the extinguishing time in advance.

Claims (1)

When the powder tank 1 filled with a fire extinguishing agent in the powder state, the nitrogen gas tank 2 filled with nitrogen gas, and the switch in the switch box 8 are turned on manually and automatically, A solenoid valve 3 for supplying compressed air of the air tank 9 through air pipes B and B ', a check valve 7 for preventing backflow of nitrogen gas from the powder tank 1; When the nitrogen gas supplied into the powder tank 1 exceeds the set pressure, the contact of the built-in micro switch is attached and the contact signal is transmitted to the 3WAY solenoid valve 5 and the nitrogen gas supplied into the powder tank 1 at the same time. 3WAY for supplying a discharge valve (6) to the positive pressure valve (4) for regulating the pressure of the constant pressure, and the compressed air supplied through the air pipe (B ') is opened when the contact signal is applied from the positive pressure valve (4) Through the solenoid valve 5 and the 3WAY solenoid valve 5 A discharge device for extinguishing a powder tank for fire extinguishing, characterized in that it comprises a discharge valve which is opened by the supplied compressed air and discharges the extinguishing powder medicine in the powder tank together with nitrogen gas.