KR200421459Y1 - CIO Two Cylinder Valve for Automatic Fire Extinguisher - Google Patents

Abstract

The present invention relates to a cylinder valve of an automatic fire extinguisher to automatically inject a fire extinguishing agent from the cylinder of the fire extinguisher in various places where there is a risk of fire, and more specifically to the carbon dioxide (CO ₂ ) An actuator acting as a pneumatic cylinder is connected to one side of the valve body, and inside the valve body is a valve means for opening and closing the injection passage of the extinguishing agent in accordance with the operation of the piston rod of the actuator. By arranging it in the main body, the structure of the cylinder valve can be simplified to ensure the reliable operation of the cylinder valve while reducing the manufacturing cost, and to operate multiple fire extinguishers simultaneously using a single pneumatic source. This makes it possible to quickly and effectively At the same time, it can be easily installed in various types of fire extinguishers, and its continuous use is possible, so that it is possible to greatly improve the compatibility of cylinder valves and the economics according to its use. CO ₂ ) relates to a cylinder valve.

(Automatic) fire extinguisher, cylinder, extinguishing agent, cylinder valve, actuator

Description

CO2 cylinder valve of auto-extinguisher

1 (a) and (b) is a front view and a side view showing the appearance of the cylinder valve according to the present invention.

Figure 2 is a plan sectional view showing the internal structure of the cylinder valve according to the present invention.

3 (a) and (b) is a front sectional view showing an operating state of the cylinder valve according to the present invention.

Figure 4 (a) and (b) is a cross-sectional view showing an operating state of the cylinder valve according to the present invention.

<Explanation of symbols for main parts of drawing>

1: Valve Body 2: Actuator Joint 3: Cylinder Joint

4 injection nipple 5, 9 injection passage 6 end cap

7: safety plug 8: disc 10: actuator rod

11: fastener 12: packing 13, 19: piston

14: Check Sheet 15: Pilot Check 16: Spring

17 clip 18 actuator 20 piston rod

21: guide stopper

The present invention relates to a cylinder valve for use in an automatic fire extinguisher, and more particularly, an actuator as a pneumatic cylinder which uses carbon dioxide (CO ₂ ) as a driving source is connected to one side of a valve body, and the piston of the actuator is provided inside the valve body. Actuator rod, piston and spring are arranged coaxially as valve means to open and close the injection passage of extinguishing agent in accordance with rod operation, simplifying the structure of cylinder valve and guaranteeing reliable operation of cylinder valve while reducing manufacturing cost. It is possible to simultaneously operate multiple fire extinguishers simultaneously using a single pneumatic source, which is applied to the CO ₂ cylinder valve for automatic fire extinguishers to quickly and effectively extinguish the fire. It is about.

In general, an automatic fire extinguisher is provided in a place where there is a risk of fire, such as an apartment, a kitchen of a restaurant, or a boiler room of various factories, so that the fire can be suppressed at an early stage. Gas cylinder) Accumulated or pressurized and stored in the container and installed in the anticipated area, and in connection with various sensors or detection devices such as a temperature sensor or a gas sensor that detects the occurrence of a fire, the extinguishing agent is sprayed to the corresponding part in case of a fire. It is equipped to make it possible.

Most of the automatic fire extinguishers are composed of a cylinder for storing a fire extinguishing agent and a cylinder valve fixed to the upper end of the cylinder, and the cylinder valve has a cylinder joint fixed through the upper end of the cylinder to the lower side of the valve body. And a injection nipple is formed at one side of the valve body to connect the injection pipe for injection of the extinguishing agent, and an apparatus for opening the injection passage connecting the cylinder joint and the injection nipple in the event of a fire is installed on the valve body. Consists of the configuration.

As a conventional device for opening operation of the cylinder valve installed in the automatic fire extinguisher as described above, an opening device using a driving motor is known, which is when the motor driving unit is operated by various sensors or sensors for detecting a fire, The actuating cam is rotated by the motor driving unit, and the actuating pin closing the injection nipple of the cylinder valve at the lower side of the actuating cam is pushed toward the valve opening direction by the rotation of the actuating cam to open the cylinder valve.

However, the conventional cylinder valve opening device using a drive motor has a problem of increasing the overall manufacturing cost of the cylinder valve including the opening device, since an expensive motor driving unit is essentially installed, and operates according to the operation of the motor driving unit. Since it takes a certain time for the cam to press the operating pin to open the injection nipple, there is a problem that the rapid initial suppression of the fire is difficult.

In other words, a pressurized fire extinguisher using a high-pressure cylinder requires a large amount of power to open the cylinder valve. Thus, by installing an operation cam on a low-speed output gear that uses a drive motor and a plurality of gears to rotate the torque. Since the actuating cam is configured to pressurize the actuating pins, the reaction (response) rate due to the injection of the extinguishing agent from the actuation of the driving motor is remarkably decreased, making it difficult to quickly extinguish the fire.

As another conventional opening means used for the cylinder valve, the metal film that has closed the injection nipple is ruptured by the electronic solenoid valve, or the metal film that has closed the injection nipple is dissolved by the temperature at the time of fire. Explosion-type cylinder valve that causes the gun plate that was blocking the injection nipple to rupture by causing an explosive gun powder to explode or an explosive gun powder exploded by an electrical signal. Is known.

However, in the conventional cylinder valve as described above, when the cylinder valve is operated in the event of a fire, an expensive cylinder such as an F-type valve when the automatic fire extinguisher is re-installed due to melting or rupture of the metal film or the sealing plate which has closed the injection nipple. There was a problem that the valve has to be replaced one by one, and this causes a problem that the cost of using and maintaining the fire extinguishing system is increased.

In addition, when a solenoid valve or an electric sensitive device is not installed, melting of the metal film or rupture of the bar may occur due to the temperature at the time of fire or the ignition of the gunpowder by the fuse, so that a rapid initial response to the fire may be almost impossible. There was a problem that is impossible, in the case of the explosion-injection cylinder valve there was a problem that the risk of safety accidents due to the explosion of the gunpowder is always contained.

The present invention has been made to solve the above-mentioned conventional problems, the CIO ₂ (CO ₂ ) cylinder valve for the automatic fire extinguisher according to the present invention is the actuator as a pneumatic cylinder with carbon dioxide (CO ₂ ) as a drive source of the valve body It is connected to one side, and the valve means for opening and closing the injection passage of the extinguishing agent in accordance with the operation of the piston rod of the actuator inside the valve body by simplifying the structure of the cylinder valve by arranging the actuator rod, piston and spring coaxially. It is possible to guarantee the reliable operation of the cylinder valve while reducing the manufacturing cost, and to operate multiple fire extinguishers simultaneously using a single pneumatic source, thereby quickly and effectively At the same time, it can be easily installed in various types of fire extinguishers. In addition, the technical problem of the present invention is to enable the continuous use thereof, and to greatly improve the compatibility of the cylinder valve and the economics according to the use thereof.

The present invention for achieving the above technical problem, the cylinder joint is fixed to the top of the cylinder of the fire extinguisher is formed on the lower side of the valve body, the injection nipple for the injection of the extinguishing agent is formed on the front surface of the valve body, the valve The valve means for opening and closing the injection passage for connecting the cylinder joint and the injection nipple is provided in the body, the actuator body is formed on one side of the valve body is connected to the actuator as a pneumatic cylinder is projected, the valve body An end cap is fixedly installed on the other side of the actuator, and an actuator rod, a piston, and a spring are sequentially arranged coaxially as a valve means for opening and closing the injection passage in an inner space of a valve body corresponding to the actuator joint and the end cap. And the actuator rod is the body of the valve body It is inserted through to maintain the air tightness and is installed to push the piston in the opening direction of the valve according to the operation of the piston rod by the actuator, the piston has a check seat fixed to the front end of the body of the valve body and the elastic It is characterized in that the insert is installed along the inside of the end cap in a state interposed between the spring so as to close the injection passage.

Hereinafter, with reference to the accompanying drawings, the present invention for achieving the above object will be described in detail.

1 (a) and (b) is a front view and a side view showing the appearance of the cylinder valve according to the present invention, Figure 2 is a planar cross-sectional view showing the internal structure of the cylinder valve according to the present invention, ) And (b) is a front sectional view showing the operating state of the cylinder valve according to the present invention, Figure 4 (a) and (b) is a plan sectional view showing the operating state of the cylinder valve according to the present invention.

In the description of the reference numerals, reference numerals 2a, which are not described, are packing grooves, 2b and 3a and 4a are fastening portions, 6a and 7a are washers, 14a are insertion holes, and 18a and 18b represent pneumatic inlets and outlets, respectively. will be.

The external configuration of the CIO2 (CO ₂ ) cylinder valve for an automatic fire extinguisher according to the present invention, as shown in Fig. 1 (a) and (b), the cylinder joint is fixed fastening through the top of the cylinder of the fire extinguisher (3) is protruded to the lower side of the valve body 1, the injection nipple (4) is connected to the front side of the valve body 1 is connected to the injection pipe for the injection of the extinguishing agent stored in the cylinder.

In addition, the safety plug 7 is fastened and installed at the rear side of the valve body 1, and the actuator joint 2 to which an actuator as a pneumatic cylinder is connected to the left side of the valve body 1 in the drawing is formed. In the drawing, an end cap 6 is fastened to the right side of the valve body 1 with a washer 6a interposed therebetween, and an o-ring (") along the outer circumferential surface of the actuator joint 2. A packing groove 2a for inserting a packing such as a "ring" is formed.

As shown in FIG. 2, the internal structure of the valve body 1 having the external configuration as described above has the injection passage 5 formed from the cylinder joint 3 passing through the interior of the valve body 1 and the injection nipple. Connected to the injection passage 9 corresponding to the inside of the (4), so that the extinguishing agent stored in the cylinder can be injected from the cylinder joint (3) to the injection nipple (4) through the interior of the valve body (1) consist of.

Valve body corresponding between the actuator joint (2) and the end cap (6) provided on both sides of the valve body (1) in a state that the injection passage (5) (9) of the extinguishing agent is made as described above In the internal space of (1), the actuator rod (10), the piston (13) and the spring (16) as valve means for opening and closing the injection passages (5) and (9) from the cylinder joint (3) to the injection nipples (4). ) Are arranged coaxially in sequence.

The actuator rod 10 penetrates the left side of the valve body 1 corresponding to the center of the actuator joint 2 and is slidably inserted along the body of the valve body 1, and the actuator rod 10. Inside the valve body 1 through which the 10 penetrates, the packing 12 as an O-ring (“○” ring) for retaining airtightness is fixed in position by a fastener 11. It is installed, the clip 17 for preventing the separation of the actuator rod 10 is fixed to the central portion of the body of the actuator rod (10).

In addition, the piston 13 has an injection passage formed from the injection passage 5 and the injection nipple 4 in which the check sheet 14 fixedly installed at the front end thereof (the left end in the drawing) is formed from the cylinder joint 3 ( 9) is in close contact with the inner surface of the valve body (1) at the portion corresponding to the intersection of the injection passage (5) (9) is closed, the check sheet 14 is a variety of materials such as metal, plastic or rubber It may be formed as, but it is preferable to use a material such as rubber for the complete closure of the injection passage (5) (9).

Further, the rear side and the end of the piston 13 in a state in which the rear side (right end in the drawing) of the piston 13 is inserted by a predetermined width along the end cap 6 which is fastened to the inside of the valve body 1. The spring 16 is elastically interposed between the inner surfaces of the cap 6 so that the check seat 14 of the piston 13 is elastically in close contact with the inner surface of the body of the valve body 1 and the actuator rod 10 The piston 13 can be pushed in the right direction along the end cap 6 while compressing the spring 16 by the pressing force acting on

As the piston 13 is pushed in the right direction in the drawing by the pressing force acting on the actuator rod 10 as described above, the opening operation of the cylinder valve is performed, and the opening operation of the cylinder valve is coaxially installed. Since it is made by the actuator rod 10 and the piston 13 and the spring 16, the pilot check (15) to make the opening operation of the cylinder valve more quickly and accurately inside the piston (13) (15). ) Is inserted.

The pilot check 15 is such that the central axis of the actuator rod 10 and the spring 16 spaced apart from each other with the piston 13 interposed automatically on the same line during the assembly process of the cylinder valve. 10, the pressing force acting on 10) is directly transmitted to the spring 16 without loss due to the eccentricity, and the front end of the actuator rod 10 (the right end in the drawing) is the central insertion hole 14a of the check sheet 14. It is inserted through the head of the pilot check 15, the spring 16 is inserted into the body of the pilot check 15 through the center of the rear (right side) wall of the piston (13).

In addition, the safety plug 7 is fastened and installed through the body of the valve body 1 with the washer 7a and the disk 8 as a thin metal film interposed therebetween, thereby providing a cylinder valve according to the present invention. When the internal pressure of the container such as the cylinder of the fire extinguisher rises above a certain pressure, the disk 8 as a thin metal film is ruptured so that the internal pressure of the container can be discharged to the outside through the hole of the safety plug 7, This is generally applied to the valve of the high pressure vessel.

Hereinafter, an operation relationship of the CIO cylinder (CO ₂ ) cylinder valve for an automatic fire extinguisher according to the present invention having the above configuration will be described in detail with reference to FIGS. 3 and 4, and FIG. 3 is an injection of the cylinder joint 3. It is shown with reference to the passage (5), Figure 4 is only shown on the basis of the injection passage (9) of the injection nipple (4), the working relationship of the cylinder valve itself according to the present invention is shown in Figs. All four will be the same.

First, in order to actually operate the cylinder valve according to the present invention, as shown in FIGS. 3 and 4, the actuator 18 as a pneumatic cylinder is connected to the actuator joint 2 of the valve body 1. In the actuator 18, the piston 19 having the piston rod 20 inside the body in which the inlet 18a and the outlet 18b for applying the pressure of various gases is formed has an O-ring (" It is provided so as to be movable in the left and right directions on the drawing with the packing 12 such as a "ring" interposed therebetween.

In addition, the piston rod 20 is located on the left side of the piston 19 in the drawing slides along the inside of the body of the actuator 18, and the actuator rod 10 is located on the right side of the piston 19 in the drawing It is divided into a portion for pressurizing, the packing 12, such as an O-ring ("○" ring) of the actuator 18 to maintain the airtight according to the movement of the piston rod 20 on the piston rod 20 side corresponding to the former The piston rod 20 corresponding to the latter is provided inside the body and extends to the actuator joint 2 part through the guide stopper 21 fixedly installed in the actuator 18.

The guide stopper 21 has a stopper function for limiting the stroke distance of the piston 19 and a guide for guiding the right end of the piston rod 20 to be inserted into the actuator joint 2. (Guide) function and the cover of the actuator 18 at the same time, as shown in Figure 3, the actuator 18 may be installed in connection with the actuator joint (2) with the packing 12 interposed therebetween. In addition, as shown in FIG. 4, the actuator 18 may be screwed to the actuator joint 2.

The actuator 18 has an actuator rod installed in the valve body 1 by moving the piston 19 together with the piston rod 20 in accordance with the inflow and discharge operation of gas pressure through the inlet 18a and the outlet 18b. If it is possible to push (10) in the right direction on the drawing, it will be appreciated that other types of actuators can be applied in addition to the form shown in Figs.

3 and 4 (a), respectively, indicate a closed state of the cylinder valve according to the present invention, and as shown, the check seat 14 of the piston 13 has an elastic force of the spring 16. As shown in FIG. By tightly adhering to the inner surface of the valve body (1), the discharge of the extinguishing agent through the injection passage (5) (9) leading from the cylinder joint (3) to the injection nipple (4) is checked by the piston (13) It becomes the state interrupted | blocked by the sheet | seat 14.

After setting up the automatic fire extinguisher in the above state, install the automatic fire extinguisher in the place where there is a risk of fire and connect it with various sensors or detection devices such as temperature sensor or gas detector to detect the fire. When the fire extinguishing agent is injected to the corresponding part when it is generated, the gas which is the driving source of the actuator 18 may be most preferably applied to carbon dioxide (CO ₂ ) having a fire extinguishing function as an inert gas harmless to the human body.

In this situation, a fire occurs and signals are generated from various sensors or sensors, and carbon dioxide is injected through the inlet port 18a of the actuator 18 from a pneumatic source such as a gas tank. The piston 19 of the actuator 18 is pushed to the right in the drawing by the injection pressure, and the carbon dioxide stored in the space corresponding to the piston 19 and the guide stopper 21 is discharged to the outlet 18b. It is discharged to the outside of the actuator 18 through.

As described above, the carbon dioxide discharged to the outside of the actuator 18 is recovered by a device such as a gas tank not shown when one automatic fire extinguisher is installed, and another adjacent fire extinguisher is connected by a pneumatic line. It is used to operate the actuator 18 of the automatic fire extinguisher by flowing through the inlet 18a formed in the actuator 18 of the automatic fire extinguisher.

When carbon dioxide is introduced through the inlet port 18a of the actuator 18 as described above, the piston 19 of the actuator 18 is pushed to the right in the drawing, respectively, as shown in FIGS. 3 and 4 (b). As can be seen, the piston rod 20 connected to the piston 19 is inserted into the actuator joint 2 to push the actuator rod 10 in the right direction in the drawing, and at the same time by the actuator rod 10 By the pressing force, the piston 13 is also pushed in the right direction while compressing the spring 16.

When the piston 13 is pushed to the right in the drawing by the actuator rod 10 as described above, the injection passages 5 and 9 which are closed by the check seat 14 of the piston 13 are opened. The extinguishing agent stored in the cylinder is injected through the cylinder joint (3), the valve body (1), and the injection nipple (4), and thus to the fire-producing area through an unshown injection tube connected to the injection nipple (4). Fire extinguishing agent can be injected.

As described above, the cylinder valve according to the present invention can be operated quickly and accurately by the direct actuation of the piston 13 by the actuator 18 and the actuator rod 10 as a pneumatic cylinder, from the occurrence of fire to the injection of the extinguishing agent. As a result, it is possible to make the reaction (response) speed according to the injection of the extinguishing agent faster than that of the conventional cylinder valve using the drive motor and the low speed output gear, which enables rapid initial suppression of fire.

In addition, by connecting a plurality of automatic fire extinguishers equipped with a cylinder valve according to the present invention with a pneumatic line in a place where there is a risk of a large fire, a plurality of automatic fire extinguishers can be operated simultaneously with only one pneumatic source such as a gas tank. As a result, a more efficient and comprehensive fire suppression is possible, and the cylinder valve according to the present invention including the actuator 18 has a very simple structure compared to a cylinder valve using a drive motor and a low speed output gear. The manufacturing cost of the valve and the cost of the fire extinguishing system can also be reduced.

Then, after the rapid initial extinguishing of the fire by using the automatic fire extinguisher equipped with a cylinder valve according to the present invention, inlet 18a of the first actuator 18 in the state shown in (b) of FIG. 3 and FIG. When the carbon dioxide introduced through the gas is recovered to the gas tank or the carbon dioxide is supplied reversely through the outlet 18b of the actuator 18, the piston 19 of the actuator 18 is shown together with the piston rod 20. It will be pushed upward to the left.

As described above, when the piston 19 of the actuator 18 is pushed to the left in the drawing together with the piston rod 20, the restoring force of the spring 16 as shown in FIGS. 3 and 4 (a) is shown. The actuator rod 10 and the piston 13 are pushed to the left in the drawing, so that the valve seat 14 of the piston 13 is restored to the first position where the injection passages 5 and 9 are closed. Will be.

As described above, the cylinder valve according to the present invention is restored to the original state, and then the cylinder of the fire extinguisher is removed from the cylinder joint 3 of the valve body 1 and replaced with a new one, or FIGS. 3 and FIG. After recharging the extinguishing agent in the cylinder of the fire extinguisher in the open state of the cylinder valve shown in 4 (b), and then closing the injection passages 5 and 9 in the same manner as described above, the cylinder according to the present invention The valve can be installed and used continuously in an automatic fire extinguisher.

Therefore, unlike the conventional cylinder valve to inject the extinguishing agent by dissolution and explosion of metal film or bar plate, there is no need to replace the cylinder valve after fire extinguishing. Not only can the cost be reduced, but also the actuator 18 as a pneumatic cylinder which uses carbon dioxide as a driving source as an inert gas that is harmless to the human body can be applied to various types of fire extinguishing equipment using an automatic fire extinguisher more compatible. You can do it.

Finally, what has been described above relates to the automatic opening and closing operation of the cylinder valve by the actuator 18, but in case the actuator 18 does not operate due to various causes such as leakage of carbon dioxide, It will be appreciated that a manual handle or lever capable of pushing the piston rod 20 together with the piston 19 in the right direction in the drawing may be installed on the actuator 18 together with a means such as a known safety pin.

As described above, CIO2 (CO ₂ ) cylinder valve for automatic fire extinguisher, the valve operation from the occurrence of fire to the injection of the extinguishing agent is quick by the direct pressure operation of the piston by the actuator and the actuator rod as a pneumatic cylinder Because it is precisely achieved, it has the effect of speeding up the response (response) of the fire extinguishing agent compared to the conventional cylinder valve using the drive motor and the low speed output gear, thereby enabling a rapid initial suppression of fire. It works.

In addition, by connecting a plurality of automatic fire extinguishers equipped with a cylinder valve according to the present invention with a pneumatic line in a place where there is a risk of a large fire, a plurality of automatic fire extinguishers can be operated simultaneously with only one pneumatic source such as a gas tank. As a result, a more efficient and comprehensive fire suppression effect is possible, and since the cylinder valve including the actuator has a very simple structure, there is an effect of reducing the cost according to the manufacturing cost and the fire extinguishing equipment of the cylinder valve.

In addition, unlike the conventional cylinder valve to inject the extinguishing agent by dissolution and explosion of the metal film or bar plate, there is no need to replace the cylinder valve after the fire extinguishing. In addition to reducing costs, it is also compatible with various types of fire extinguishing equipment using automatic fire extinguishers by using actuators as pneumatic cylinders that use carbon dioxide as a driving source as an inert gas that is harmless to the human body. There is a very useful effect that makes it possible.

Claims (1)

A cylinder joint 3 fixed to the upper end of the cylinder of the fire extinguisher is formed below the valve body 1, and an injection nipple 4 for injection of the extinguishing agent is formed on the front surface of the valve body 1, and the valve In the interior of the body (1) is provided with valve means for opening and closing the injection passage (5) (9) connecting the cylinder joint (3) and the injection nipple (4), One side of the valve body (1) is an actuator joint (2) which is connected to the actuator 18 as a pneumatic cylinder is formed protruding, the other end of the valve body (1) is fixed to the end cap (6), In the internal space of the valve body 1 corresponding to the actuator joint 2 and the end cap 6, the actuator rod 10 and the piston (a valve means for opening and closing the injection passages 5, 9) 13) and the spring 16 are arranged in sequence on the coaxial, The actuator rod 10 is inserted through the body side of the valve body 1 so that the airtightness is maintained, and the piston 13 opens the valve according to the operation of the piston rod 20 by the actuator 18. Is installed to push in the direction, The piston 13 is interposed between the spring 16 so that the check seat 14 fixed to the tip thereof is elastically in close contact with the inner surface of the body of the valve body 1 to close the injection passages 5 and 9. The CO ₂ cylinder valve for an automatic fire extinguisher, characterized in that the insertion is installed along the inner side of the end cap (6).

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