KR920006001Y1 - Gas cock - Google Patents

Abstract

No content.

Description

Gascoque

1 and 2 illustrate an embodiment of the present invention, and FIG. 1 is a cross-sectional view showing a gas scoop in an open state under normal use.

2 is a cross-sectional view corresponding to FIG. 1 under a safety device operating state.

* Explanation of symbols for main parts of the drawings

1: Gascoque 10: Gascoque body

13: valve body storage space 14: inlet

15 outlet 20 valve body

21: flow path 30a, 30b: valve support

40: safety device 41: casing

41c: flow path 43: safety valve

The present invention relates to gascoques.

In the conventional general gas coke, an inlet and an outlet are formed in the gas coke main body of the gas coke, and a valve body accommodating space is formed between the inlet and the outlet and a valve having a flow path in the valve body accommodating space. The sieve is rotatably supported.

The valve body generally has a conical shape cutting the tip portion, that is, a conical shape cutting the head portion, the valve body is rotated in close contact with the gas scotch powder to communicate or block the flow path and inlet and outlet of the valve body and have.

In recent years, gas-coquels with stabilizers have been developed due to safety measures. This type of safety device has a safety valve, which is normally supported by a spring to open the flow path, and the pressure on the outlet side drops rapidly, such as when the gas hose is released from the gas appliance. When an abnormality occurs, the safety valve is moved against the elastic force of the spring to block the flow path to shut off the gas supply.

However, as described above, when the shape of the valve body of the gas scope is a conical shape with a cut head, the shape of the gas body main body becomes complicated and at the same time the valve body accommodating space is maintained in order to maintain a close state between the valve body and the gas body. There was a drawback that the manufacturing cost of the gas scope was increased due to having to form the inner surface with high precision.

The present invention has been devised to solve the above problems, the gist of which forms an inlet and an outlet in the gas cock body, and forms a valve body receiving space between the inlet and the outlet, the valve body receiving space and the inlet side and The valve support is disposed on the outlet side and a round valve body having a flow path is disposed between the valve supports, and the inlet port allows the valve support and the valve body to be inserted into the valve body receiving space through the inlet port. Is formed in a larger dimension than the storage space, the inlet is equipped with a safety device, the safety device is provided with a casing with a flow path and a safety valve for opening and closing the flow path and the casing is filled with screws in the inlet The valve support on the inlet side is pressed to the outlet side and the valve body is fitted to both valve supports A gas cock, characterized in that which is supported rotatably in a closed state.

If the gas pressure on the outlet side drops rapidly, the flow path of the casing is blocked by the pressure difference between the upstream and downstream of the safety valve to block the flow of gas.

The gas cylinder's valve body is rounded and sealed through the valve support, so that the gas body can be easily manufactured, thereby reducing the manufacturing cost of the gas scope.

In the assembling of the gas scoker, the gas cylinder is first stored in the valve body accommodating space in the order of the valve support on the outlet side, the round valve body, and the valve support on the idle port side. At this time, since the size of the inlet is larger than the storage space, both valve supports and the valve body can be inserted into the storage space through the inlet, thereby facilitating the assembly of the gas scope.

Next, screw the casing of the safety device to the inlet and push the valve support on the inlet side to the outlet side with this casing. As a result, the valve body is supported by being fitted to both valve supports, and at the same time, the valve body and each valve support are tightly closed to ensure a sealed state.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In FIG. 1, the code | symbol 1 is a gas stalk, and this gas stalk 1 has the gas stalk main body 10. In FIG.

The gas scouring body 10 has a connecting end 11 and a hose end 12, and a storage space 13 for the valve body 20 described later is formed inside the gas scoping body 10. The connection portion 1 is formed with an inlet 14 composed of a tapered thread portion 14a having a larger diameter than the storage space 13 and a straight thread portion 14b, and the straight thread portion 14b has the storage space 13. The gas supply pipe (not shown) is connected to the tapered screw portion 14a. In addition, the hose end 12 is formed with an outlet 15, which is connected to the storage space 13 and smaller in diameter than the storage space 13.

An annular stepped portion 16 is formed at the boundary between the outlet 15 and the storage space 13, and one end of a gas hose (not shown) is connected to the hose end portion 12. The other end is connected to a gas mechanism (not shown).

On the inlet 14 side and the outlet 15 side of the storage space 13, valve supports 30a and 30b each having a ring shape made of resin are arranged, and a round valve body having a flow passage 21 is provided. 20 is rotatably fitted in the valve support 30a, 30b.

The upper portion of the valve body 20 is connected to a stem 50 having a non-circular cross section, and the stem 50 is connected to an operating knob 60 attached to an upper portion of the gas cock body 10. Connected via).

Therefore, the valve body 20 rotates by the rotation operation of the operation knob 60.

In addition, a safety device 40 is attached to the inlet port 14 of the gas scouring body 10.

Specifically, the safety device 40 has a cylindrical casing 41, and the casing 41 has a head portion 47a screwed to the straight thread portion 14b of the inlet 14 and the head portion 41a. ) Has an edge portion 41b extending rearward (leftward in the figure). The end of the head portion 41a pushes the valve support 30a disposed on the inlet 14 side, and as a result, each valve support 30a, 30b and the valve body 20 are in close contact with each other in a sealed state.

The casing 41 has a flow passage 41c penetrating the head portion 41a and the edge portion 41b, and a valve having a tapered surface at a predetermined position of the flow passage 41c formed in the head portion 41a. A base 41d is formed.

On the rear side (left side in the drawing) of the valve support 41d in the flow passage 41c of the casing 41, a supporting tool 42 having a structure capable of gas flow is fitted.

This support 42 slidably supports the shaft 43a of the safety valve 43 in the axial direction (the direction in which gas flows). The safety valve 43 is pushed backward by the spring 44 wound around the shaft 43a.

The head portion 43b of the safety valve 43 has an arrowhead shape in cross section, and the tip of the protrusion 43c formed at the center thereof is rounded in a hemispherical shape.

In addition, as shown in FIG. 1, when the safety valve 43 is retracted by the spring 44, the said projection part 43c is accommodated in the support 42. As shown in FIG.

In addition, the identification of the safety valve 43 is controlled by the pressure difference between the gas pressure in front of the head part 43b and the back gas pressure, and the elastic force of the spring 44. FIG.

In assembling the gas scoke 1 having the above-described configuration, the valve support 30b is first inserted into the stepped portion 16 of the storage space 13 through the inlet 14, and then the inlet 14 is provided. ), The outlet port 15 and the flow path 21 of the valve body 20 are aligned so that the valve body 20 is stored in the storage space 13, and then another valve support 30a is fitted. Next, the stem 50 is inserted in the upper part of the gas scouring body 10, and it connects to the valve body 20.

Then, the casing 41 of the stabilizer 40 assembled in advance is screwed and fastened to the straight threaded portion 14b of the inlet 14, and the head 41a of the casing 41 is valved on the inlet 14 side. Push on the base (30a). Thereafter, the rotary shaft 70 and the operation knob 60 are attached to the upper side of the gas scope body 10.

By assembling in this way, the position of the valve support 30b on the outlet 15 side is determined by the terminal portion 16, and the valve support 30a on the inlet 14 side is caused by the casing 41. Valve body 20 is sandwiched and supported by both valve supports 30a and 30b, furthermore, the valve body 20 is very strongly close to the valve body 20 and each of the valve supports 30a and 30b. Preferred sealing is ensured.

Further, as described above, the valve supports 30a and 30b and the valve body 20 can be inserted into the storage space 13 through the inlet 15 so that the assembly can be facilitated.

Moreover, since the casing 41 also serves as a pressing member of the valve support 30a, the number of parts can be reduced, so that assembly is further facilitated.

On the other hand, in the use of the gas scope 1, in the open state in which the flow passage 21 of the valve body 20 communicates with the inlet port 14 and the outlet port 15, the gas is casing 41 of the safety device 40. In the flow passage 41c formed in the above, the outlet port 15 is reached through the flow passage 21 of the valve body 20 and then supplied to the gas appliance through the gas hose.

In the normal use state of the gas mechanism, the pressure difference between the gas pressure in the rear and the gas pressure in the front is smaller than that of the head portion 43b of the safety valve 43.

Therefore, the force in the direction of the outlet 15 generated in the safety valve 43 due to this pressure difference is less than the elastic force of the spring 44, and the safety valve 43 is positioned backward and stopped as shown in FIG. (I) state is maintained, and the safety device 40 is maintained in an inoperative state, and the flow of gas through the flow path 41c of the casing 41 is ensured.

In case of an abnormality such as an accident that the tip of the gas hose is pulled out of the gas mechanism, the gas pressure in front of the head 43b of the safety valve 43 is lowered by the pressure loss generated in the gas mechanism during normal use. The pressure difference of the gas pressure before and after the part 43b becomes large.

The pressure difference in the direction of the outlet port 15 generated by the safety valve 43 overcomes the elastic force of the spout 44 and advances the safety valve 43 to maximize the forward movement as shown in FIG. At the time, the head portion 43b is brought into close contact with the valve support 41d to close the gas flow passage 41c.

As a result of the operation of the safety device 40, the supply of gas is cut off.

In the operating state of the safety device 40, the protrusion 43c of the safety valve 43 protrudes from the valve support 30a on the inlet 14 side.

Thereafter, when the operation knob 60 is artificially operated to rotate the valve body 20 by 90 ° (indicated by a virtual line), the inlet 14 and the outlet 15 are blocked by the valve body 20 to supply gas. Will definitely stop.

During the rotation of the valve body 20, the open end 21a of the flow passage 21 of the valve body 20 touches the protrusion 43c of the head 43b of the safety valve 43. Since the protrusion 43c is rounded, when the valve body 20 is rotated again after contact, the opening end 21a of the valve body 20 pushes the safety valve 43 backward without being bitten by the protrusion 43c. Slide.

As a result, the safety valve 43 is pushed backward, and the head 43b of the safety valve 43 is detached from the valve support 41d.

And gas returns to the front of the head part 43b through the clearance gap between this head part 43b and the valve support 41d, and is safe when gas flow is interrupted | blocked by the valve body 20. FIG. The pressure difference between the front and rear of the valve 43 disappears, the safety valve 43 is retracted by the elastic force of the spring 44, and the safety device 40 is reset to the non-operation state again.

In addition, even when the head 43b of the safety valve 43 is inserted into the valve support 41d of the casing 41 when the safety device 40 is operated, the operation knob 60 is rotated in the same manner as described above. The head 43b and the valve support 41d can be reliably dropped by this.

The present invention is not limited to the above embodiments and can be modified in various forms. For example, the opening end 21a of the flow path 21 of the valve body 20 may be chamfered to make a taper shape, and the slidability with the protrusion 43c of the safety valve 43 may be improved.

As described above, according to the present invention, the valve body has a round shape, and a valve support serving as a sealing member is disposed between the valve body and the gas scoping main body, and the valve body and the gas scoping main body are configured in a non-contact state. Production of the gas scope can be made very easy, and the manufacturing cost of the gas scope can be reduced.

In addition, the valve support, the valve body, and the safety device can be inserted through the inlet port in assembling the gas scotch, and the casing of the safety device also serves to press the valve support. To be good.

In addition, the valve support on the inlet side is pushed to the outlet side by the casing, so that the valve body and each valve support strongly adhere to each other by this pressing force, so that the gas seal is very well sealed.

Claims (1)

An inlet 14 and an outlet 15 are formed in the gaseous main body 10, and a valve body accommodating space 13 is formed between the inlet 14 and the outlet 15, and the valve body accommodating space 13 At the inlet 14 and the outlet 15 side valve support 30a (30b) is disposed and at the same time a round valve body 20 formed with a flow path 21 between the valve support 30a (30b) The inlet 14 is disposed in the valve body 30a and 30b so that the valve body 30 can be inserted into the valve body accommodating space 13 through the inlet port 14. It is formed in a larger size than the storage space 13, the safety device 40 is mounted inside the inlet 14, the safety device 40 is a casing 41 formed with a flow path (41c) is the inlet ( 14 is screwed to the valve support (30a) of the inlet port 14 side is pushed toward the outlet 15, the valve body 20 is fitted to both valve support (30a) (30b) Gas cock according to claim which is supported rotatably in a closed state.