KR102046155B1 - Additional safety valve and gas conduit system having the same - Google Patents

Abstract

A double safety valve and a gas piping system having the same are disclosed. The double safety valve according to the exemplary embodiment of the present invention is installed in a gas delivery line including a first pipe part 140 disposed upstream in the gas flow direction and a second pipe part 150 disposed downstream. As the double safety valve 200, the first body portion 211 is coupled to the first pipe portion 140 and the valve hole 213 is formed at the tip and the second coupling portion 140 is coupled to the second pipe portion (140) A valve body 210 having a two body portion 212; A valve member 220 for opening and closing the valve hole 213; A piston member (250) coupled to the valve member (220) and slidably received in the valve body (210); And an elastic member 260 elastically supporting the piston member 250 toward the second pipe part 150.

Description

Dual safety valve and gas piping system having same {{ADDITIONAL SAFETY VALVE AND GAS CONDUIT SYSTEM HAVING THE SAME}

The present invention relates to a double safety valve and a gas piping system having the same, and more particularly, to the gas delivery between the gas meter and the gas cooker, in addition to the fuse cock, a mechanically operated double safety valve and a gas having the same Relates to a piping system.

In general, a gas cooker using a city gas, such as a gas range, is generally supplied with the city gas through the gas piping system 1 as shown in FIG. 1.

As shown in FIG. 1, the gas piping system 1 measures a gas supply line 30 for supplying city gas transferred from a city gas supply source into a use facility such as a building, and an amount of gas used at the use facility. And a gas delivery line connecting the gas meter 10 and the gas cooker 20.

The gas supply line 30 is provided with a meter valve 60 for intermittent supply of gas to the gas meter 10.

The gas delivery line connects the first pipe part 40 connected to the gas meter 10, the second pipe part 50 connecting the first pipe part 40 and the gas cooker 20 and equipped with a fuse cock 70. ), And the first pipe part 40 and the second pipe part 50 may be separated from each other if necessary.

As shown in FIG. 1A, the first pipe part 40 and the second pipe part 50 constituting the gas delivery line are normally connected to each other.

Meanwhile, as shown in FIG. 1B, when the gas cooker 20 is installed, dismantled, or replaced, the first pipe part 40 and the second pipe part 50 may be separated from each other. Can be.

Typically, an operator who performs such work separates the second pipe portion 50 from the first pipe portion 40 as shown in FIG. 1 (b), and then the first pipe portion 40 in the open state. The terminal opening is temporarily packed with a packing material such as silicon, and the packing material is removed when the second pipe part 50 is reconnected to the first pipe part 40.

By the way, this pipe packing work has a somewhat cumbersome side and acts as a factor to reduce the work efficiency.

Above all, since the pipe packing operation is performed after the first pipe part 40 and the second pipe part 50 are separated, the gas remaining in the first pipe part 40 leaks into the interior of the facility. The disadvantage is that it can not be prevented. These gas leaks pose significant fire hazards as they cause fires.

Korean Utility Model Registration No. 20-0295925 (2002.11.22) Korea Patent Registration No. 10-1078814 (2011.11.01)

Accordingly, the present invention has a main object to provide a solution that can solve the disadvantages of the pipe packing operation performed when the installation, removal, or replacement of the gas cooker in the city gas use facility.

In order to achieve the above object, the present invention, is provided in the gas delivery line including a first pipe portion 140 disposed on the upstream side in the gas flow direction and a second pipe portion 150 disposed on the downstream side As the safety valve 200, the first body portion 211 is coupled to the first pipe portion 140, the valve hole 213 is formed at the front end, and the second body coupled to the second pipe portion 140. A valve body 210 having a portion 212; A valve member 220 for opening and closing the valve hole 213; A piston member (250) coupled to the valve member (220) and slidably received in the valve body (210); And an elastic member 260 elastically supporting the piston member 250 toward the second pipe part 150.

The double safety valve may further include a screw-shaped coupling member 230 for coupling the valve member 220 to the piston member 250.

The valve member 220 may be coupled to the sealing member 240 of the O-ring shape for sealing the edge of the valve hole 213.

The elastic member 260 may be provided as a coil spring.

A locking jaw 214 may be formed on an inner surface of the valve body 210 to support an upper end of the elastic member 260.

The piston member 250, the central portion 255 of the columnar shape; And a plurality of wing portions 251 radially extending from the central portion 255.

A locking protrusion 252 may be formed at a lower end of each wing 251 to support a lower end of the elastic member 260.

In order to achieve the above object, the present invention also provides a gas meter (110); A first pipe part 140 connected to the gas meter 110; A second pipe part 150 connecting the first pipe part 140 to a gas cooker 120 and detachably coupled to the first pipe part 140; A fuse cock 170 mounted to the second pipe part 150; And a double safety valve 200 mounted to the first pipe part 140 and operated mechanically, the double safety valve according to any one of the above-described embodiments. Provided is a gas piping system.

According to the present invention, if the gas pipe connected to the gas cooker is disconnected from the gas delivery line due to the demolition work or replacement work of the gas cooker, the double safety valve is automatically closed by the mechanical operation of the double safety valve interlocking with the separation. Can be switched.

Therefore, the plug is coupled to the double safety valve in the process of separating the gas pipe connected to the gas cooker to prevent the residual gas in the gas delivery line to leak into the room.

1 is a view schematically showing an example of a gas piping system according to the prior art, which is provided in a use facility supplied with city gas.
2 is a view schematically showing a gas piping system according to an embodiment of the present invention.
3 to 5 illustrate embodiments of double safety valves suitable for use in the gas piping system of FIG. 2.
6 is a view for explaining the opening and closing operation of the double safety valve according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in more detail an embodiment of the present invention.

■ Gas Piping System

2 to 6, the gas piping system 100 according to the embodiment of the present invention is a piping system for providing the city gas transferred from the city gas supplier to the gas cooker 120 in the facility.

The gas piping system 100 according to the present embodiment includes a gas supply line 130 for supplying city gas transferred from a city gas supply source into a use facility such as a building, and a gas meter for measuring the amount of gas used in the use facility ( 110). The gas supply line 130 is provided with a meter valve 160 for regulating the supply of gas to the gas meter 110.

The gas piping system 100 according to the present embodiment also includes a gas delivery line connecting the gas meter 110 and the gas cooker 120.

The gas delivery line connects the first pipe part 140 connected to the gas meter 110 and the first pipe part 140 to the gas cooker 120 and is detachably coupled to the first pipe part 140. It includes a second pipe portion 150 to be.

The fuse cock 170 is mounted on the second pipe part 150, and a double safety valve 200 is mounted between the first pipe part 140 and the second pipe part 150.

Here, the fuse cock 170 is a valve that is opened when the cooker is used and closed for safety when not in use. As such, the fuse cock 170 is frequently operated by the user to control the gas supply to the gas cooker 120.

On the other hand, the double safety valve 200 mounted on the first pipe portion 140 is normally maintained in the open state, but the mechanical operation when the second pipe portion 150 is separated from the first pipe portion 140. Is automatically switched to the closed state. In addition, when the second pipe part 150 is connected to the first pipe part 140, the double safety valve 200 is automatically switched from the closed state to the open state by a mechanical operation.

As described above, the double safety valve 200 is a mechanically operated valve, and the related configuration is simpler and more advantageous in terms of cost as compared to the case in which the electronic safety valve is provided, and there is no fear of malfunction even in a power failure.

■ Construction of double safety valve

The configuration of the double safety valve 200 will be described in detail with reference to FIGS. 3 to 5.

The dual safety valve 200 includes a valve body 210, a piston member 250, a valve member 220 and an elastic member 260.

The valve body 210 includes a first body portion 211 and a second body portion 212.

Since the second body portion 212 is slightly larger than the first body portion 211, there is a step between the first body portion 211 and the second body portion 212.

Although not shown in the drawings, a male thread for fastening with the upstream first pipe part 140 is formed on an outer surface of the first body part 211, and a second downstream part is provided on an inner circumferential surface of the second body part 212. A female thread for fastening with the pipe part 150 is formed.

A locking jaw 214 (see FIG. 5) is formed in a boundary area between the first body part 211 and the second body part 212 in the valve body 210.

At the front end of the valve body 210, that is, the front end of the first body part 211, a circular valve hole 213 and a seating surface 211a surrounding the valve hole 213 are formed. When the double safety valve 200 is in the closed state, the valve member 220 is seated on the seating surface 211a provided at the front end of the first body portion 211.

The piston member 250 is accommodated in the valve body 210 to be slidable in the front-rear direction.

The piston member 250 includes a central portion 255 having a substantially cylindrical shape, and a plurality of wing portions 251 protruding in the radial direction of the central portion 255.

Gas movement channels through which gas may pass are formed between the plurality of wing parts 251. Each wing 251 has a substantially long rectangular plate, that is, a side wall shape, and a locking protrusion 252 is provided at the bottom thereof.
In addition, the lower end of each wing 251, the locking projection 252 for supporting the lower end of the elastic member 260 is formed, the gas movement channels through which a gas can pass is formed between the plurality of wing 251. According to this embodiment, a portion of the upper end of each wing 251 is exposed to the outside of the valve body 210 when the piston member 250 is slid, and in the opposite direction to the direction in which the piston member 250 is slid. Gas is introduced in one direction along the gas moving channels (see FIG. 5).

In the present embodiment, three wing portions 251 are provided, but the number thereof may be changed to four.

A fastening hole 253 is formed at the tip of the piston member 250. The fastening hole 253 is provided with a female thread for screwing. As shown in FIG. 4, the fastening hole 253 may be formed at the tip of the central portion 255 of the piston member 250.

The valve member 220 is coupled to the tip of the piston member 250. Therefore, it has a movement that cooperates with the sliding movement of the piston member 250. A more detailed description thereof will be described later.

The valve member 220 includes a front portion 221 having a shape corresponding to the seating surface 211a of the valve body 210 and a rear portion 222 having a size slightly smaller than that.

A coupling member 230 is provided to couple the valve member 220 and the sliding member 250.

As shown in Figure 4, the coupling member 230 is provided in the form of a screw consisting of the head portion 231 and the shaft portion 232. A male thread is formed in the shaft portion 232 for screwing the sliding member 253 to the fastening hole 253.

The valve member 220 is coupled to the sliding member 250 by screwing the coupling member 230 and the sliding member 250. The valve member 220 has a screw hole 223 through which the shaft portion 232 of the coupling member 230 passes to form the coupling member.

A washer member 235 is also provided to seal this screw hole 223.

The elastic member 260 is a member that elastically supports the piston member 250.

As shown in FIG. 4, the elastic member 260 may be provided as a coil spring mounted to the piston member 250, and the tip of the elastic member 260 may be provided at the latching jaw 214 (see FIG. 5) of the valve body 210. It is supported and the rear end is supported by the locking projection 252 of the piston member 250.

■ Operation and benefits of double safety valve

The opening and closing operation of the aforementioned double safety valve 200 will be described with reference to FIGS. 5 and 6.

As shown in FIG. 5, the gas delivery line between the gas cooker 120 and the gas meter 110 is normally connected to an upstream first pipe part 140 and a downstream second pipe part 150. Is maintained.

At this time, the downstream end 141 of the first pipe part 140 is fastened to the first body part 211 of the valve body 210 and the second pipe part 150 provided with the fuse cock 170. Upstream end 151 of the valve body 210 is fastened to the second body portion 212.

At this time, the piston member 250 of the double safety valve 200 is connected to the first pipe by an upstream end 151 of the second pipe part 150 having the fuse cock 170 connected into the valve body 210. The state is pressed toward the portion 140.

At this time, the elastic member 260 is maintained in a compressed state by the pressurized piston member 250.

At this time, the valve member 230 coupled to the tip of the piston member 250 is disposed at a predetermined distance in the direction A from the seating surface 211a of the valve body 210.

Therefore, the valve hole 213 of the valve body 210 is kept open. As such, when the first pipe part 140 and the second pipe part 150 are connected to each other, the double safety valve 200 is maintained in an open state.

As illustrated in FIG. 6, when the gas cooker 20 is removed or replaced, the second pipe part 150 is separated from the first pipe part 140. At this time, the separation of the second pipe part 150 is performed by releasing the screwing of the second pipe part 150 to the double safety valve 200.

As such, when the second pipe part 150 is separated, at the same time, the pressing force of the second pipe part 150 acting on the piston member 250 naturally disappears, and thus the elastic member 260 in the compressed state is thereby removed. The piston member 250 is moved in the B direction by the action of the restoring force.

Accordingly, the valve member 220 coupled to the piston member 250 also moves in the B direction to close the seating surface 211a of the valve body 210 to close the valve hole 213 of the valve body 210. .

As such, when the second pipe part 150 is separated from the first pipe part 140 due to the demolition work or the replacement work of the gas cooker, the double safety valve 200 is operated by its mechanical operation at the same time as the separation. The switch automatically closes.

Therefore, it is possible to prevent the risk of fire caused by the leakage of the residual gas in the first pipe portion 140 into the room in the process of separating the second pipe portion 150.

In addition, since the double safety valve 200 is automatically switched to the closed state in the process of removing the second pipe part 150, the distal end portion 141 of the first pipe part 140 is made of a packing material to prevent gas leakage. Since no packing is required, the convenience and efficiency of the work can be greatly improved.

100: gas piping system
130: gas supply line
140: first pipe
150: second piping
160: meter valve
170: fuse cock
200: double safety valve
210: valve body
211: first body portion
211a: seating surface
212: second body portion
213: Valve Ball
214: jamming jaw
220: opening and closing member
230: coupling member
235 washer member
240: sealing member
250: piston member
251: wing section
252: jamming projection
255: center
260: elastic member

Claims (7)

As a double safety valve 200 is installed in the gas delivery line including a first pipe portion 140 disposed upstream in the gas flow direction and a second pipe portion 150 disposed downstream.
The double safety valve 200,
A valve having a first body portion 211 coupled to the first pipe portion 140 and having a valve hole 213 formed at a tip thereof, and a second body portion 212 coupled to the second pipe portion 140. Body 210;
A valve member 220 for opening and closing the valve hole 213;
A piston member (250) coupled to the valve member (220) and slidably received in the valve body (210); And
And an elastic member 260 elastically supporting the piston member 250 toward the second pipe part 150.
The piston member 250,
A continuous cylindrical center portion 255; And
And a plurality of wing portions 251 radially protruding from the central portion 255 and extending in a sidewall shape and extending through the valve hole 213.
The lower end of each wing 251 is formed with a locking projection 252 for supporting the lower end of the elastic member 260,
Gas movement channels through which gas can pass are formed between the plurality of wing portions 251,
A portion of the upper end of each wing portion 251 is exposed to the outside of the valve body 210 when the piston member 250 is slid, and the gas movement channel in a direction opposite to the direction in which the piston member 250 is slid. The gas flows in one direction along the
Double safety valve.
The method of claim 1,
Further comprising a screw-shaped coupling member 230 for coupling the valve member 220 to the piston member 250,
Double safety valve.
The method of claim 1,
The valve member 220 is coupled to the sealing member 240 of the O-ring shape for sealing the edge of the valve hole 213,
Double safety valve.
The method of claim 1,
The elastic member 260 is provided with a coil spring,
Double safety valve.
The method of claim 4, wherein
The inner surface of the valve body 210 is formed with a locking step 214 for supporting the upper end of the elastic member 260,
Double safety valve.
delete Gas meter 110;
A first pipe part 140 connected to the gas meter 110;
A second pipe part 150 that connects the first pipe part 140 to the gas cooker 120 and is detachably coupled to the first pipe part 140;
A fuse cock 170 mounted to the second pipe part 150; And
Includes; a double safety valve 200 is mounted to the first pipe portion 140 and mechanically operated.
The double safety valve 200 is a double safety valve according to any one of claims 1 to 5,
Gas piping system with double gas safety valve.

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