KR101826434B1 - valve of fire extinguisher - Google Patents

Abstract

The present invention relates to a valve for a fire extinguisher which comprises: a valve body installed at an inlet of a cylinder, and formed with a passage for spraying a fire extinguishing agent filled in the cylinder; a piston rod installed inside the valve body, and closing the passage; a stopper ring installed and fixed to the valve body in a state of being fitted into an outer diameter of the piston rod, and formed with a catching groove formed on the inner surface thereof; a ball caught by the catching groove of the stopper ring through a hole formed in the outer diameter of the piston rod, and restricting a descent of the piston rod; a core shaft positioned to be vertically moved in an inner working space of the piston rod, and pushing and pressing the ball caught by the catching groove of the stopper ring; a bottleneck part formed to have a shape in which the diameter of the core shaft is narrowed in an outer diameter of the core shaft; a coil provided at a lower end of the valve body, and generating a magnetic force with power applied from the outside; a plunger plate positioned to be separated from the below of the coil at a predetermined distance, and adsorbed on a lower surface of the coil by the magnetic force of the coil; and a plunger shaft coupled to the plunger plate, and elevated by an adsorption of the plunger plate, and elevating the core shaft. According to the present invention, a fire can be suppressed at a first stage.

Description

Valve for fire extinguisher

More particularly, the present invention relates to a valve for a fire extinguisher, and more particularly to a valve for a fire extinguisher, and more particularly to a valve for a fire extinguisher, And a fire extinguishing agent is injected by opening the fire extinguishing agent.

Generally, fire extinguishers are installed in places where there is a risk of fire, so that fire extinguishers can be operated manually or automatically. Especially in places where large fire can occur, such as buildings, factories, So that it can be suppressed at the beginning when a fire occurs.

The above-mentioned automatic fire extinguisher is operated in conjunction with various sensors such as a temperature sensor or a gas sensor for detecting the occurrence of a fire, and the fire extinguishing agent is automatically injected when a fire occurs.

Most of these automatic fire extinguishers consist of cylinders in which extinguishing agents are stored, cylinder valves that are fixed to the top of the cylinder and connected to a spray nozzle installed in a fire place, and actuators that automatically actuate cylinder valves in the event of a fire. In conjunction with the sensor described above, the cylinder valve is automatically driven when a fire occurs.

Recently, a valve for a fire extinguisher has been proposed in which a manual control system is combined with a valve installed in an automatic fire extinguisher.

These valves for fire extinguishers are developed for the purpose of preparing the fire extinguishing system which is automatically operated in an area where emergency situation is likely to occur due to external factors such as armored vehicles, to be.

That is, the special equipment as described above may not have enough space to be equipped with a self-extinguishing system that is automatically operated like a general building and a separate extinguishing system that is manually operated. Therefore, the extinguishing system that is automatically operated for space efficiency It is necessary for the fire extinguishing system to be provided integrally.

Even if the operation and manual operation means are installed in the fire extinguishing system as described above, if a malfunction occurs due to a mechanical construction for opening and closing the flow passage, the fire extinguishing agent can not be injected and the fire can not be suppressed at the initial stage have.

Document 1: Korean Patent Registration No. 10-1412977

SUMMARY OF THE INVENTION It is therefore an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems, and an object of the present invention is to provide a valve- And the fire extinguishing agent is sprayed to the fire extinguisher.

According to an aspect of the present invention, there is provided a fire extinguisher valve installed at an inlet of a cylinder (200) filled with an extinguishing medicament, the valve being provided at an inlet of the cylinder and having a flow path for injecting the extinguishing medicament filled in the cylinder A stopper ring fixed to the valve body in a state of being fitted to the outer diameter of the piston rod and having an engaging groove formed on the inner surface thereof; A ball which is caught by a retaining groove of the stopper ring through a hole formed therein and restrains a descent of the piston rod, a ball movable upward and downward in an internal working space of the piston rod, A core shaft for pushing and pushing the ball having the diameter smaller than the outer diameter of the core shaft, A coil which is provided at a lower end of the valve body and generates a magnetic force by a power source applied from the outside, a coil located at a certain distance below the coil and adsorbed on the lower surface of the coil by the magnetic force of the coil, And a flange shaft which is coupled to the flange plate and ascends by an action of the suction of the flange plate and moves the core shaft upwardly. The core shaft is lifted by the flange plate, The ball is located in a bottleneck formed in an outer diameter of the stopper ring and is released from the stop groove of the stopper ring to release the restraint of the piston rod so that the piston rod descends due to the extinguishing agent pressure of the cylinder, So as to open.

According to the present invention, the ball is released from the engagement groove of the stopper ring through the stopper ring having the ball and the engagement groove without using a complicated structure, so that the restraint of the piston rod is released. The piston rod is lowered by the pressure of the extinguishing agent and the flow path of the valve body is immediately opened to inject the extinguishing agent, thereby suppressing the fire in the early stage.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a configuration of a valve for a fire extinguisher according to a preferred embodiment of the present invention. Fig.
Fig. 2 is a detailed view of the main configuration of the valve of Fig. 1; Fig.
3 is an exploded sectional view of Fig.
4 to 5 are views sequentially showing the operation of the fire extinguisher valve according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the entire construction of a valve for a fire extinguisher according to a preferred embodiment of the present invention. FIG. 2 is a view showing the main part of FIG.

As shown in FIGS. 1 and 2, the fire extinguisher valve 100 of the present invention is coupled to an inlet of a cylinder 200 filled with an extinguishing medicament, operates automatically when a fire occurs, and is filled in the cylinder 200 A valve body 10 provided with a flow path 12 through which extinguishing medicines charged in the cylinder 200 are formed, a valve body 10 installed inside the valve body 10, A flow path opening and closing means 20 for opening and closing the flow path 12 of the body 10 and an operating means 50 provided at the lower end of the valve body 10 for operating the flow path opening and closing means 20.

The operating means (50) is a member for automatically and manually operating the flow path opening / closing means (20).

The actuating means 50 includes a case 51 installed at the lower end of the valve body 10, a coil 52 installed in an inner space of the case 51 to generate magnetic force from an external power source, A flange plate 54 installed at a predetermined distance from the lower end of the coil 52 and attracted to the lower end of the coil 52 by the magnetic force of the coil 52, And a flange shaft 56 which moves upward and downward in accordance with the operation of the flange plate 54 and presses the core shaft 40 of the flow path switching means 20 described above.

At the lower end of the actuating means (50), a pressure plate (58) is provided. The push plate 58 is coupled to the lower end of the flange shaft 56 and manually moves the channel opening and closing means 20 by moving the flange shaft 56 upward and downward in accordance with the pushing action of the user . That is, the operating means 50 can automatically operate the flow path opening / closing means 20 by applying current to the coil 52, and if necessary, the pressure plate 58 can be directly pushed by the user to open the flow path opening / 20) can be operated manually.

The flow path opening / closing means 20 is means for opening and closing the flow path 12 of the valve body 10 in accordance with the operation of the operating means 50.

The flow path opening / closing means 20 includes a piston rod 22, a core shaft 40, a stopper ring 32, and a ball 36.

The piston rod 22 is installed in the internal space of the valve body 10 and is fixed to the valve body 10 by the operation of the operating means 50 in the state where the flow path 12 of the valve body 10 is closed. The valve body 10 is pushed down by the extinguishing agent pressure in the cylinder 200 and the flow path 12 of the valve body 10 is opened.

A working space 24 is formed in the piston rod 22 and a spring 28 and a core shaft 40 that is resiliently supported by the spring 28 are installed in the working space 24.

A bumper 26 is provided on the outer diameter of the piston rod 22 and the bumper 26 is pressed against the inner bottom surface of the valve body 10 during the descent of the piston rod 22 by the pressure of the extinguishing agent So as to prevent the piston rod 22 from being damaged. A hole 30 is formed in the outer diameter of the piston rod 22 and a ball 36 for restricting upward and downward movement of the piston rod 22 is inserted into the hole 30.

The upper end of the core shaft 40 is located in the working space 24 of the piston rod 22 and the lower end of the core shaft 40 is exposed to the outside of the lower end of the piston rod 22, The lifting operation of the flange shaft 56 is performed in accordance with the lifting operation of the flange shaft 56. [

A ball 36 inserted in the hole 30 of the piston rod 22 is brought into contact with the outer diameter of the core shaft 40 so that the ball 36 is engaged with the engagement groove 34 of the stopper ring 32 ) So as not to come out of it.

The outer diameter of the core shaft 40 is further formed with a bottleneck portion 42 having a reduced diameter of the core shaft 40. The bottleneck portion 42 is supported by the flange shaft 56, The ball 36 is located on the same line as the ball 36 and provides a space through which the ball 36 can escape from the engagement groove 34 of the stopper ring 32. [ In other words, the ball 36 is pressed against the outer diameter of the core shaft 40 and locked in the retaining groove 34 of the stopper ring 32 while the piston rod 22 is restrained, The ball 36 is released from the engagement groove 34 of the stopper ring 32 and the restraint of the piston rod 22 is released. The piston rod 22 undergoes a downward motion to open the flow path 12 of the valve body 10.

A spring 28 is installed in the operating space 24 of the piston rod 22 in which the upper portion of the core shaft 40 is inserted. When the pressure of the extinguishing agent drops in a state in which the spring 28 is elastically contracted according to the downward movement of the piston rod 22 according to the pressure of the extinguishing agent, the spring 28 automatically lifts the piston rod 22, The flow path 12 is closed.

A guide cover 60 is further provided on the outer diameters of the core shaft 40 and the flange shaft 56. The guide cover 60 supports the core shaft 40 and the flange shaft 56, Guide.

A spring 62 is installed inside the guide cover 60. When the power applied to the coil 52 acting as the operating means is stopped or the pressing pressure of the pressing plate 58 is released, The flange plate 56 with the flange shaft 56 is elastically pressed to automatically return the flange shaft 56 to the initial state.

The stopper ring 32 is a ring member that is fitted to the outer diameter of the piston rod 22 while being fixed in the valve body 10. At least one engaging groove 34 is formed on the inner peripheral surface of the stopper ring 32 And the balls 36 inserted in the holes 30 of the piston rod 22 are inserted into the engaging grooves 34, respectively.

The ball 36 is inserted into a hole 30 formed in the outer diameter of the piston rod 22 and a ball 36 fitted in the hole 30 is engaged with a stopper ring 22 located on the outer diameter of the piston rod 22, Is pressed by the outer diameter of the core shaft (40) located in the operating space (24) of the piston rod (22) in a state of being inserted into the engagement groove (34) of the piston rod (32) So as not to descend.

The ball 36 is moved up and down by the core shaft 40 to contact the bottleneck portion 42 of the core shaft 40 and at the same time through the space between the bottleneck 42 and the inner surface of the piston rod The piston rod 22 is released from the engagement groove 34 of the stopper ring 32 without being subjected to the pressure of the core shaft so that the piston rod 22 can be restrained and the piston rod 22 can be lowered by the pressure of the extinguishing agent do.

Hereinafter, the operation of the fire extinguisher valve according to the present invention will be described with reference to FIGS. 4 to 5 attached hereto.

When a fire occurs, the operating means 50 operates to operate the flow path opening / closing means 20 which has closed the flow path 12 of the valve body 10, thereby automatically discharging the extinguishing medicines stored in the cylinder 200 to the outside Respectively.

4, when power is applied to the coil 52, the flange plate 54 is attracted to the lower surface of the coil 52 and is coupled to the flange plate 54 in this process The flanger shaft 56 performs a lift operation.

When the flange shaft 56 performs a lifting operation, the core shaft 40 which has been in contact with the upper end of the flange shaft 56 ascends in a state of being located in the internal working space 24 of the piston rod 22 The core shaft 40 pushes the ball 36 caught in the engagement groove 34 of the stopper ring 32 through the hole 30 of the piston rod 22, When the bottleneck portion 42 formed narrowly in the outer diameter of the core shaft 40 is positioned on the same line as the ball 36 in the process of ascending by the operation of the shaft 56, 42 of the stopper ring 32 and the piston rod 22 without being subjected to the pressure of the core shaft 40.

At the same time when the ball 36 is released, the restraint of the piston rod 22 is released, so that the piston rod 22 is lowered by the pressure of the extinguishing agent filled in the cylinder 200 The flow path 12 of the valve body 10 is completely opened as shown in FIG. 5, and the extinguishing agent is injected into the fire suppression chamber.

10: valve body 12:
20: flow path opening / closing means 22: piston rod
30: hole 32: stopper ring
34: engaging groove 36: ball
40: core shaft 50: actuating member
52: coil 54: plunger plate
56: Plunger shaft

Claims (1)

A valve for a fire extinguisher which is installed at an inlet of a cylinder filled with an extinguishing medicament,
A valve body installed at an inlet of the cylinder and having a flow path for injecting the extinguishing agent filled in the cylinder;
A piston rod installed inside the valve body and closing the flow path;
A stopper ring fixed to the valve body in a state of being fitted to an outer diameter of the piston rod and having an engagement groove formed on an inner surface thereof;
A ball which is caught by an engagement groove of the stopper ring through a hole formed in an outer diameter of the piston rod and restrains a descent of the piston rod;
A core shaft which is movable upward and downward in an internal working space of the piston rod and which pushes the ball held in the engagement groove of the stopper ring;
A bottleneck portion formed to have a shape in which the diameter of the core shaft is narrowed at an outer diameter of the core shaft;
A coil provided at a lower end of the valve body and generating a magnetic force by an external power source;
A flange plate positioned below the coil at a predetermined distance and being attracted to the lower surface of the coil by the magnetic force of the coil;
And a flange shaft coupled to the flange plate and rising by an action of adsorption of the flange plate and moving up the core shaft,
Wherein the core shaft is positioned on the ball in a manner that the bottleneck portion of the core shaft is lifted by the flange shaft so that the ball is released from the engagement groove of the stopper ring to release the restraint of the piston rod, Wherein the piston rod is lowered by the extinguishing agent pressure of the valve body to open the flow path of the valve body.

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