KR200306092Y1 - A fire-extinguisher - Google Patents

Abstract

The present invention relates to a fire extinguisher in which the extinguishing fluid is standing in a non-pressure state and fire extinguishing the piston by extinguishing the extinguishing fluid by spraying the piston to extinguish the fire and then refilling the extinguishing fluid by reversing the piston. It is an object of the present invention to provide a fire extinguisher which can be easily reset by general users and can be used repeatedly.

The fire extinguisher of the present invention is divided into a first chamber (3) and a second chamber (5) via a piston (2), the extinguishing cylinder (1) in which the extinguishing fluid is embedded in the second chamber, and the first chamber in case of fire. Extruded air inlet (4) for applying pressure to the piston through the, and the extinguishing fluid injection check valve 6 and the extinguishing fluid injection check valve (7) configured in the second chamber. The piston is moved according to the pressure applied to the piston and the space of the second chamber 5 is reduced so that the extinguishing liquid material is sprayed to the outside through the extinguishing liquid ejecting means, and the second chamber is a predetermined space. And a pressure reducing valve 30 for releasing the pressure applied to the piston 2 when it is reduced within, and the extinguishing liquid in the second chamber through the extinguishing fluid injection check valve 7 when the piston moves to its original position. The ash is configured to refill.

Description

Fire extinguisher {A fire-extinguisher}

The present invention relates to a fire extinguisher capable of extinguishing a fire in the event of a fire. In particular, when a fire is detected in a non-pressure state and a fire is detected, the extinguishing fluid is pushed out by spraying a piston to extinguish the fire. It relates to a fire extinguisher to refill the digestive fluid by reversing.

In general, a fire extinguisher is built in the extinguishing liquid material in the tank of the high pressure, the fire extinguishing material in the tank of the high pressure when the fire is detected is configured to be sprayed to the outside by the high pressure.

Therefore, the fire extinguisher composed of a pressure type is complicated to refill the extinguishing agent once used, and in some cases, there is a structural problem that the general consumer can not easily refill the extinguishing fluid.

The present invention provides a piston type fire extinguisher structure to solve the above problems.

The piston type fire extinguisher is filled with the extinguishing liquid in the chamber and is waiting at atmospheric pressure. When a fire occurs, an external pressure pump for driving the piston operates according to the fire detection signal. The pressure reducing valve configured in the piston is operated to prevent a pressure increase in the chamber due to the operation of the pressure pump. In addition, after injecting all the extinguishing fluid material, the extinguisher system is configured so that the extinguishing fluid is automatically refilled in the process of reversing the piston so that it can be used repeatedly.

The piston type fire extinguisher may be configured as a system capable of driving manually and automatically, or may be configured in a structure capable of mixing automatic and manual operation.

The extinguishing fluid ejection port and the extinguishing fluid refilling part are constituted by a check valve, and after all extinguishing fluid is ejected, the pressure reducing valve opening and closing means for opening the pressure reducing valve formed on the piston is opened. It is automatically opened so that the extinguishing fluid is refilled in the digestive system. The return of the piston to the original position is made by the reverse rotation of the pressure pump.

Accordingly, an object of the present invention is to configure the fire extinguisher system to ensure the stability by keeping the extinguishing fluid in a non-pressure state before the user can easily reset and repeat use, and before the fire detection (before the fire extinguisher).

1 is a view showing the set initial state of the fire extinguisher in the present invention,

2 is a view showing a state in which the pressure reducing valve is opened after the fire extinguisher is operated in the present invention,

3 is a view for explaining a process of re-injecting the extinguishing fluid material after the fire extinguisher is operated in the present invention,

4 is a view for explaining the structure of the pressure reducing valve of the fire extinguisher of the present invention.

* Description of the symbols for the main parts of the drawings *

1-fire extinguisher pail 2-piston

3-1st chamber 4-Extruded air entrance

5-2nd chamber 6,7-Check valve

8,18-Ball 9, 19,29-Spring

10, 20-Fluid passage 11, 21, 31, 41-O-ring

25-Protrusion 30-Pressure Reducing Valve

The fire extinguisher of the present invention is divided into a first chamber and a second chamber via a piston, and a fire extinguishing cylinder in which the extinguishing liquid is embedded in the second chamber, and pressure means for applying pressure to the piston through the first chamber in case of fire. Extinguishing liquid material ejecting means and extinguishing liquid material injection means configured in the second chamber,

The piston is moved according to the pressure applied to the piston and the space of the second chamber is reduced so that the extinguishing material is injected to the outside through the extinguishing material ejecting means, and the second chamber is reduced within a predetermined space. The pressure releasing means for releasing the pressure applied to the piston when the piston is moved to the original position is characterized in that configured to refill the extinguishing liquid in the second chamber through the extinguishing liquid injection means.

The pressure means is formed by connecting a pressure pump capable of forward and reverse rotation to the first chamber.

The pressure releasing means includes a pressure reducing valve configured in the piston and a protrusion formed in the bottom of the second chamber, and the pressure applied to the piston when the pressure reducing valve contacts the protrusion and the pressure reducing valve is opened. Configured to be released.

The extinguishing fluid material ejecting means and extinguishing fluid material injecting means are made of a check valve, and when the extinguishing fluid is built in the second chamber at atmospheric pressure, all of the check valves are kept closed, and pressure is applied to the piston. The check valve installed in the ground extinguishing fluid injection port is maintained in a closed state, but the check valve provided in the extinguishing fluid ejection port is configured to be in an open state.

After the extinguishing material is ejected, the piston moves in its original position by rotating the pressure pump so that the pressure of the first chamber is lower than atmospheric pressure.

In addition, when the piston moves to the original position of the initial state, the check valve installed in the extinguishing fluid ejection port is kept closed, but the check valve installed at the extinguishing fluid inlet is open until the extinguishing fluid is refilled in the second chamber. Configure to

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 4.

The non-pressure fire extinguisher of the present invention is configured to be able to slide along the inner surface of the fire extinguisher body by installing a piston (2) inside the fire extinguisher barrel (1). The piston is fitted with an o-ring 41 in contact with the inner surface of the fire extinguisher to maintain airtightness as it moves along the inner surface of the fire extinguisher. On the upper side of the piston, an inlet (4) of extruded air, which can control the internal pressure of the first chamber (3) by a pressure pump (not shown), is configured.

In addition, the second chamber 5 of the fire extinguisher includes a check valve 6 constituting the extinguishing liquid ejecting means and a check valve 7 constituting the extinguishing liquid injection means.

The check valve (6) is made of a spring (9) and a ball (8) is installed between the fluid passage 10, the ball (8) O-ring 11 is a passage to maintain the fluid passage and airtight state It is fitted at the entrance.

When the check valve 6 is configured as described above, the ball 8 is pushed toward the spring to open the check valve when pressure is applied in the fluid passage on the side where the O-ring is fitted, and the pressure is released by the restoring force of the spring 9. The check valve is configured to close again.

On the other hand, the check valve 7 has an O-ring 21 sandwiched between the spring 19 and the ball 18 so that the second chamber 5 contains the extinguishing fluid in the atmospheric pressure state or when the pressure is applied, The fluid passage 20 is configured to maintain the closed state by the pressure. When the pressure applied to the second chamber is released after the extinguishing liquid is injected into the second chamber, the fluid passage 20 is opened by the restoring force of the spring 19.

A pressure reducing valve 30 is formed in the piston 2, and the pressure reducing valve reduces the pressure in the first chamber 3 when it comes into contact with the protrusion 25 of the second chamber in which the check valve 7 is installed. It acts as a stabilizer to prevent overloading in the first chamber.

That is, in order to release the pressure applied to the first chamber after discharging all the extinguishing material, the first chamber is formed by forming a protrusion at the bottom of the second chamber and opening the pressure reducing valve when the pressure reducing valve contacts the protrusion. To prevent overload.

Therefore, the pressure release means of the first chamber of the present invention is constituted by a pressure reducing valve 30 formed in the piston, and a protrusion 25 formed in the lower portion of the second chamber.

As shown in FIG. 4, the pressure reducing valve is fixed to the upper plate portion 25a and the lower plate portion 25b by bolt coupling, and a spring 29 is fitted between the upper plate portion and the lower plate portion.

The pressure reducing valve configured as described above is fitted to the central plate 2a of the piston 2. Between the central plate 2a of the piston 2 and the upper plate 25a of the pressure reducing valve, the pressure reducing valve is closed by the action of the O-ring 31 and the spring 29 so as to close the first chamber 3 and the second chamber. When the pressure reducing valve is in contact with the protrusion 25 and the pressure reducing valve is opened, the first chamber 3 and the second chamber 5 communicate with each other, and the first chamber 3 is maintained. ) Compressed air is discharged to the outside through the check valve (6).

Referring to the operation of the non-pressure type fire extinguisher of the present invention configured as described above in more detail as shown in FIG. 1 in the state in which the extinguishing fluid is built in the second chamber and the first chamber (3) and the second chamber (5) ) Maintains the atmospheric pressure state, and the check valve 6 constituting the extinguishing liquid ejecting means and the check valve 7 constituting the extinguishing liquid injection means are kept closed.

As shown in FIG. 1, if the fire is detected while the pressure is not applied, a pressure pump (not shown) connected to the extruded air inlet and outlet 4 of the second chamber is driven to increase the pressure of the first chamber 3. .

When the pressure of the first chamber is increased, the piston 2 starts to move toward the second chamber 5, and the ball 8 of the check valve 6 is pushed out by the pressure in the second chamber, so that the check valve 6 Is opened. When the extinguishing liquid in the second chamber is ejected by the opening of the check valve 6 and the piston 2 approaches the bottom of the second chamber, the protrusion 25 formed at the bottom of the piston moves the pressure reducing valve 30 upward. Push up to open the pressure reducing valve as shown in FIG.

When the pressure reducing valve is opened, the pressure applied to the second chamber is released to close the check valve 6 according to the restoring force of the spring 9.

In the state of FIG. 2, when the pressure pump is reversed, the piston 2 starts to move to the original position, and the pressure of the second chamber is lower than atmospheric pressure, so that the spring 19 of the check valve pushes up the ball 18 to raise the fluid. The extinguishing material flows into the second chamber 5 through the passage 20.

3 shows a state where the check valve 7 is opened while the extinguishing fluid is refilled while the piston moves to its original position.

The present invention has a fire extinguisher by incorporating a fire extinguishing agent in a non-pressure state by constructing a fire extinguisher as described above. It is possible to secure the safety and to increase the recyclability.

Claims (6)

A fire extinguishing cylinder which is divided into a first chamber and a second chamber via a piston, and a fire extinguishing material is embedded in the second chamber, pressure means for applying pressure to the piston through the first chamber in the event of a fire, and the second chamber. And extinguishing liquid material injection means and extinguishing liquid material injection means, The piston is moved according to the pressure applied to the piston and the space of the second chamber is reduced so that the extinguishing material is injected to the outside through the extinguishing material ejecting means, and the second chamber is reduced within a predetermined space. And a pressure releasing means for releasing the pressure applied to the piston, and configured to refill the extinguishing liquid in the second chamber through the extinguishing liquid injection means when the piston moves to its original position. The method of claim 1, The pressure means is a fire extinguisher characterized in that the pressure pump capable of forward and reverse rotation is connected to the first chamber. The method of claim 1, The pressure releasing means includes a pressure reducing valve configured in the piston and a protrusion formed in the bottom of the second chamber, and the pressure applied to the piston when the pressure reducing valve contacts the protrusion and the pressure reducing valve is opened. Fire extinguisher, characterized in that configured to be released. The method of claim 1, The extinguishing material ejecting means and the extinguishing material injection means is a fire extinguisher, characterized in that consisting of a check valve. delete delete