KR200399891Y1 - Vertical cock for regulating flow of gas for cooking stove - Google Patents

Abstract

The present invention has a body in which a gas flow path including a gas inlet, a gas flow outlet, and a gas stopper is formed therein; In the vertical gas flow adjustment cock for a gas range including a plug which is coupled to the seating portion inside the body to adjust the gas flow rate by rotation, at least one through hole is formed in the seating portion so that no air pressure is generated therein. It is configured to provide a vertical gas flow adjustment cock for a gas range that is easy to assemble the plug, there is no fear of gas leakage to the outside of the body, and noise and component damage does not occur during operation.

Description

Vertical cock for regulating flow of gas for cooking stove}

The present invention relates to a vertical gas flow control coke for a gas range, and more particularly, to the vertical gas flow control coke configured to facilitate assembly of each part and to prevent gas leakage due to damage of the MP oil packing. It is about.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the vertical gas flow rate control coat for gas range according to the present invention.

1 is a perspective view of a vertical gas flow control coke for a conventional gas range, Figure 2 is a cross-sectional view of a vertical gas flow control coke for a conventional gas range cut along the line AA shown in Figure 1, Figure 3 is A cross-sectional view of a vertical gas flow control coke for a conventional gas range cut along the BB line shown in FIG.

As shown in FIGS. 1 to 3, a gas inlet 11 and a gas outlet 12 are formed at both ends of a vertical gas flow adjusting coke for a gas range, and an interruption gas cylinder 13 is formed at an interruption thereof. The body 10 and the packing spring 22 is configured to open and close the suspension gas cylinder 13 by the elastic force of the packing spring 22, MP oil 20 to control the supply of gas, and the vertical direction of the gas flow path It is seated on the seating portion 14 inside the body 10 and is rotated by the rotary lever 31, the plug 30 for adjusting the gas flow rate, the push lever 41 is transported downward by the solenoid 42 And, a transfer bar 43 which is transferred downward by the push lever 41, and a pusher 44 which rotates by the transfer bar 43 and pushes the packing 21 to open the stop gas cylinder mechanism 13. It is configured by.

At this time, the seating portion 14 is formed so that the lower end is sealed by the bottom plate 15 and the air inlet when the plug 30 is coupled to the seating portion 14 inside the body 10 in a direction perpendicular to the gas flow path. 11 and the air outlet 12 are blocked by the plug 30, so that when the plug 30 is seated on the seating portion 14, the air inside the seating portion 14 is either the air inlet 11 or the air outlet. The pressure to push the plug 30 in the opposite direction, ie upward, is generated without failing to exit 12. Therefore, when the plug 30 is assembled, there is a problem that the plug 30 is not coupled to the correct position by the air pressure inside the seating portion 14.

In addition, since the plug 30 has a gas flow path formed at the side wall and the lower end thereof so that the gas flows into the seating part 14, there is a risk that the gas flows out through the bottom of the seating part 14. In addition, the conventional vertical gas flow adjustment cock for the gas range is configured to be in direct contact with the push lever 41 and the transfer bar 42, because the push lever 41 and the transfer bar 42 are all made of a metal material to operate Not only noise is generated when the push lever 41 and the transfer bar 42, there is also a problem that each component may be damaged by the impact force generated when the contact.

The present invention is devised to solve the above problems, the plug is easy to assemble, there is no fear of gas leakage to the outside of the body, the vertical gas for the gas range is configured so that noise and component damage does not occur during operation The purpose is to provide a flow control coke.

In order to achieve the above object, the vertical gas flow adjusting coke for a gas range according to the present invention includes a gas inlet, a gas outlet including a gas outlet, and a gas stopper. In the gas type vertical gas flow adjusting cock for gas range comprising a MP oil for controlling the supply of gas and a plug which is coupled to the seating portion inside the body so as to cross a part of the gas flow path to adjust the gas flow rate by rotation. At least one through hole is formed in the wall of the seat so that the air inside the seat is not compressed.

At this time, the seating portion is provided with a bottom plate spaced apart from the plug end of the side that is introduced into the main body by a predetermined interval, the through hole is preferably formed in the bottom plate.

A push lever coupled to the upper end of the body and transported downward; a transfer bar transported downward by the push lever; It further comprises a buffer block coupled.

In addition, the seating portion is formed with an inlet port for gas inlet and a gas outlet port in the contact with the side wall of the plug, the plug blocks the gas inlet to the seating bottom plate and connect or block the inlet port and the exhaust port according to the rotation angle It is formed into a structure.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the vertical gas flow rate adjustment cock for the gas range according to the present invention.

4 is a cross-sectional view of the vertical gas flow rate adjustment cock for gas range according to the present invention, Figure 5 is a cross-sectional view of the vertical gas flow rate adjustment cock for gas range according to the present invention cut along the line CC shown in FIG. 6 to 8 are partial cross-sectional views of the vertical gas flow rate adjusting cock for the gas range according to the present invention showing the coupling structure of the plug.

As shown in FIG. 4, the vertical gas flow adjusting coke for the gas range according to the present invention includes a body 100 in which a gas flow path is formed, an MP oil 200 for opening and closing a part of the gas flow path, and a gas. It is configured to include a plug 300 coupled to the inside of the body 100 to traverse a portion of the flow path to adjust the flow rate of the gas flowing along the inside of the body (100).

The gas flow path includes a gas inlet and a gas outlet (not shown) respectively formed at both ends of the body, and an interruption gas passage mechanism 130 formed between the gas inlet and the gas outlet, and the plug 100 is formed inside the body 100. The mounting part 140 to which the 300 is coupled is formed to cross the gas flow path. In addition, MPU 200 is coupled to the main body 100 to prevent the suspension gas cylinder 130 by the packing 210, the packing 210 of the suspension gas cylinder 130 by the elastic force of the packing spring 220 It is in close contact with one side entrance.

At this time, the formation position of the gas inlet and the gas outlet as described above, the structure of the plug 300 for adjusting the gas flow rate, the structure of opening and closing the suspended gas vent 130 by the packing 210 is a conventional vertical gas for gas range Since it is the same as the flow control cock, a detailed description thereof will be omitted.

The push lever 410 which is transported downward by the solenoid 420 is coupled to the upper end of the body 100, and the transfer bar 430 which is transported downward by the push lever 410 is provided below the push lever 410. A push rod 440 is coupled to the body 100 with a hinge structure to be pushed and rotated by the lower end of the transfer bar 430 to push the packing 210 to open the stop gas cylinder 130.

Therefore, when the push lever 410 is moved downward by the operation of the solenoid 420, the vertical gas flow adjusting coke for the gas range according to the present invention is transferred to the feed bar 430 downward by the push lever 410. And, the push rod 440 is configured to be pushed by the downward transfer of the transfer bar 430 to open the stop gas cylinder mechanism 130.

In this case, a buffer block 412 having elasticity is provided at a portion where the push lever 410 and the transfer bar 430 contact each other, so that an impact force is not generated between the push lever 410 and the transfer bar 430. If the impact force between the push lever 410 and the transfer bar 430 is not generated as described above, the noise is not generated during the operation of opening the gas cylinder 130, and the damage of each component due to the impact force is prevented. have. The buffer block 412 may be made of any material as long as it can absorb impact force such as rubber or synthetic resin.

In addition, the vertical gas flow rate adjustment cock for the gas range according to the present invention, since the through-hole 152 is formed in the bottom plate 150 of the seating portion 140, as shown in Figure 4, the plug 300 is coupled Air inside the seating portion 140 is drawn out through the through hole 152. Therefore, when the plug 300 is coupled to the seating part 140, since the air inside the seating part 140 is not compressed to prevent the plug 300 from being introduced, the manufacturer may more easily plug the plug 300. ) Can be combined in place. The vertical gas flow rate adjustment cock for the gas range according to the present embodiment is configured such that one through hole 152 is formed in the bottom plate 150 of the seating part 140, but the formation position of the through hole 152 is The present invention is not limited thereto, and may be formed on the sidewall of the seating part 140. The number of the through holes 150 may also be provided in two or more according to a user's selection.

In addition, the packing 210 is formed to cover the periphery of the inlet gas cylinder mechanism 130, and the packing around the inlet of the gas cylinder outlet 130 in contact with the packing 130 surrounds the inlet of the gas cylinder outlet 130 packing A closed curve protrusion 132 is formed to protrude toward 210. Since the compressive force between the packing 210 and the stopping gas cylinder 130 generated by the packing spring 220 is concentrated on the protrusion 132, the sealing property of the stopping gas cylinder 130 is further improved. At this time, since the projection 132 is made of the same metal material as the body 100, even if repeated pressing with the packing 210 is not damaged or deformed. Therefore, the gas flow rate adjusting coke for the gas range according to the present invention has an advantage that the sealing property of the gas stopper 130 is not degraded even when used for a long time.

When the external force pushing the push rod 440 is released, the transfer bar 430 is moved upward by the elastic force of the transfer bar spring 432, and the packing 210 is returned to its original position by the packing spring 220 to stop the gas cylinder. Seal the instrument 130.

In addition, the body 100 is formed with an inlet port 110 through which gas is introduced and an exhaust port 120 through which gas is introduced into the side wall of the seating part 140 (see FIG. 4) of a portion contacting the side wall of the plug 300. 6 to 8, the plug 300 has the entire outer circumferential surface of the end facing the bottom plate 150 of the seating part 140 in close contact with the sidewall of the seating part 140, thereby providing gas to the bottom plate 150. Configured to block inflow. Therefore, the gas introduced through the inlet 110 does not flow out to the bottom plate 150, and thus, the gas does not flow out of the body 100.

In addition, the plug 300 is a part of the side wall of the portion corresponding to the inlet port 110 and the exhaust port 120 is processed into a plane, one end is connected to the inlet port 110 and the other end is processed into a plane according to the rotation angle ( A vent hole 302 is connected to the side wall of the 300. Therefore, when the plug 300 is positioned to block the intake port 110 and the exhaust port 120 as shown in FIG. 6, the gas is not delivered to the gas range, and as shown in FIG. When the plug 300 is rotated to cover the intake port 110 and the exhaust port 120, the entire gas flowing into the intake port 110 is transferred to the gas range through the exhaust port 120, and as illustrated in FIG. 8, the aeration is performed. When the plug 300 is rotated such that one end of the hole 302 is connected to the inlet port 110 and the other end of the vent hole 302 is connected to a plane machined part, only a part of the gas flowing into the inlet port 110 is exhausted ( 120 is delivered to the gas range. That is, as shown in FIG. 6, when the plug 300 is rotated, the gas range is in a fired state, and as shown in FIG. 7, when the plug 300 is rotated, the gas range generates large thermal power. As shown in FIG. 8, when the plug 300 is rotated, the gas range generates a small fire power.

The present invention has been described in detail using the preferred embodiments, but the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended utility model registration claims. In addition, those of ordinary skill in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

The vertical gas flow rate adjusting cock for gas range according to the present invention has no phenomenon that air is compressed in the plug assembly portion, so that the plug is easily assembled and there is no fear of gas leakage to the outside of the body. The advantage is that no component damage occurs.

1 is a perspective view of a vertical gas flow rate adjusting cock for a conventional gas range.

2 is a cross-sectional view of a vertical gas flow adjusting coke for a conventional gas range cut along the line A-A shown in FIG.

3 is a cross-sectional view of a vertical gas flow adjusting coke for a conventional gas range cut along the line B-B shown in FIG.

Figure 4 is a cross-sectional view of the vertical gas flow rate adjustment cock for the gas range according to the present invention.

5 is a cross-sectional view of the vertical gas flow rate adjustment cock for the gas range according to the present invention cut along the line C-C shown in FIG.

6 to 8 are partial cross-sectional views of the vertical gas flow rate adjusting cock for the gas range according to the present invention showing the coupling structure of the plug.

<Description of the symbols for the main parts of the drawings>

100: body 110: intake vent

120: exhaust port 130: suspended gas cylinder mechanism

140: seating portion 150: bottom plate

152: through hole 200: MP

210: Packing 300: Plug

302: vent hole 310: rotary lever

410: push lever 412: buffer block

420: solenoid 430: transfer bar

432: transfer bar spring 440: push rod

Claims (4)

A body having a gas passage including a gas inlet, a gas outlet, and a stop gas vent therein; an MPP for controlling the supply of gas by opening and closing the stop gas vent with a packing; and to cross a portion of the gas flow passage. In the vertical gas flow rate adjustment cock for a gas range including a plug coupled to the seating portion inside the body to adjust the gas flow rate by rotation, At least one through-hole is formed in the wall portion of the seating portion vertical gas flow rate adjustment cock for a gas range, characterized in that configured to not compress the air inside the seating portion. The method according to claim 1, The seating portion is provided with a bottom plate spaced apart from the plug end of the side which is drawn into the main body at a predetermined interval, The through-hole is a vertical gas flow rate adjustment cock for a gas range, characterized in that formed on the bottom plate. The method according to claim 1 or 2, A push lever coupled to the top of the body and transported downward; A transfer bar conveyed downward by the push lever; A push rod for pushing the packing to open the suspended gas vent by the transfer operation of the transfer bar; The vertical gas flow rate adjustment coke for a gas range further comprising a buffer block coupled between the push lever and the transfer bar. The method according to claim 1 or 2, The seating portion is formed with an inlet port for the gas flows into a portion in contact with the side wall of the plug, an exhaust port for exhausting the gas, The plug is a vertical gas flow control cock for a gas range, characterized in that the gas inlet to the seat plate bottom plate is blocked and formed to connect or block the inlet and exhaust in accordance with the rotation angle.