KR200387629Y1 - A valve for going out gas - Google Patents

Abstract

The present invention is to provide a valve for filling gas, the outer shape has a shape of the tip portion is smaller than the body portion while forming a single step, the inside is provided with a hollow in which the first internal step and the second internal step is formed A passage through which a gas can pass is provided, and a hollow portion at one end of the body portion is formed with a screw thread, and the hollow portion at the tip portion has a streamlined second valve body in which an inner diameter gradually increases; It is a material that can move up, down, left and right, is hermetically coupled to the outer circumferential surface of the second valve body end portion, and the inside is provided with a passage through which gas can pass in a hollow shape, and the outer shape has a conical shape whose diameter gradually decreases. Wow; A steel rod having a cap inserted into the second inner step of the valve body and having an O-ring fitted therein; It is arranged in close contact with the cap of the steel bar is made of a spring for supporting the steel bar.

Description

A valve for going out gas

The present invention relates to a gas discharge valve, in more detail attached to the nipple formed on one side of the main valve, the inside is installed so that the steel rod penetrates to the discharge port, the O-ring and the steel bar fitted to the steel bar to move the discharge port up, down, left and right The present invention relates to a gas discharge valve capable of injecting gas through a gap generated therebetween to inject gas into a balloon or a tube.

In general, a tube used as a balloon or a playground equipment that is frequently used for various events is used by injecting gas such as air, hydrogen, and helium. One of those used for injecting the gas into the balloon or the tube is a gas discharge valve.

1 is a conceptual diagram of a conventional gas discharge valve.

As shown therein, the conventional gas discharge valve 10 includes a vessel 14 filled with gas; A body (11) having a passage (not shown in the drawing) connected to the container (14) through which hollow gas can pass, a valve stopper (13) coupled to the body (11), and the body Attached to one side of (11) is composed of a discharge port 15 formed with a passage (not shown in the figure) through which gas can flow.

That is, in the conventional gas discharge valve as described above, gas such as hydrogen or helium is filled in the container 14. The gas flows through a hollow passage (not shown in the drawing) formed inside the body 11. And the valve stopper 13 is coupled to the body (11). Thus, when the valve cap 13 is opened, the gas flows out through the discharge port 15.

Thus, when the gas is not injected into the balloon or the tube, the valve cap 13 is closed. When the gas is injected into the balloon or the tube, the valve plug 13 is fastened to the discharge port 15, and the valve cap 13 is closed. Open. Then, the gas flows out through a passage (not shown in the drawing) formed inside the discharge port 15 attached to one side of the body 11. Therefore, the gas is injected into a balloon or a tube. When the gas injection is finished, the valve cap 13 is locked and fixed again. The conventional gas discharge valve 10 is a non-disposable rechargeable valve.

However, the conventional gas filling valve as described above has a problem in that it is necessary to inject gas into a balloon or a tube, or to open and close the valve stem whenever the injection is completed.

The present invention has been proposed to solve the conventional problems as described above, an object of the present invention is attached to one side of the main valve, the inside of the steel rod is installed to pass through the discharge port, the discharge port in the up, down, left and right When moving, the gas is ejected through the gap generated between the O-ring and the steel rod fitted to the steel bar to provide a gas discharge valve that can inject gas into the balloon or tube.

That is, the present invention is to provide a gas discharge valve that can inject gas into the balloon or tube only by the movement of the discharge port without the need to open and close the valve stem of the main valve every time the gas is injected.

Gas discharge valve according to the present invention,

The outer shape has a shape of the tip portion is smaller than the body portion while forming a single step, the inside is provided with a hollow through which the first internal step and the second internal step is formed, the passage through which gas can be provided, the body A hollow is formed at the one end of the lower side to be screwed, and the hollow at the distal end has a streamlined second valve body having an increased inner diameter; It is a material that can move up, down, left and right, is hermetically coupled to the outer circumferential surface of the second valve body end portion, and the inside is provided with a passage through which gas can pass in a hollow shape, and the outer shape has a conical shape whose diameter gradually decreases. Wow; A steel rod having a cap inserted into the second inner step of the valve body and having an O-ring fitted therein; It is arranged in close contact with the cap of the steel bar is made of a spring for supporting the steel bar.

And, it is preferable to use the discharge port made of a rubber material.

In addition, the spring is preferably a conical spring.

In addition, the airtight coupling between the outer circumferential surface of the second valve body tip portion and the discharge port is preferably airtight coupling using an instant adhesive.

In addition, the gas discharge valve is preferably a spring is arranged to be in close contact with the cap portion of the steel rod, the C-type stop ring, flat washer, and the angle ring is preferably disposed and fastened.

Hereinafter, an embodiment according to the present invention as described above, the technical spirit of the gas discharge valve with reference to the drawings as follows.

2 is a cross-sectional view of the gas discharge valve according to an embodiment of the present invention attached to one side of the main valve.

As shown therein, the container 50 filled with gas; A main valve connected to the container 50 and having a passage 140 through which a hollow gas can pass; It consists of a gas discharge valve 200 attached to one side of the main valve (100 ＇).

And the main valve (100 ＇) is connected to the container 50 and the first valve body 110 is formed with a passage 140 through which the hollow gas can pass; A valve tip 120 installed to block one end of an outlet side of the passage 140 through which the gas passes; A valve stem 130 positioned above the valve tip 120 and installed to fit with the valve tip 120; It is attached to one side of the primary valve body (110 ＇) consists of a nipple (150＇) formed with a passage 160 through which gas can pass.

In addition, the gas discharge valve 200 is screwed in the form of surrounding the outer circumferential surface of the nipple (150 ＇) and the outer shape forms one step 215 while the diameter of the tip portion 210-2 is the body portion 210. -1) has a smaller shape, the inside is provided with a hollow in which the first internal step 212 and the second internal step 213 is formed, a passage 211 through which gas can pass, and the body portion side A screw thread (not shown in the drawing) is formed at one end of the hollow to be screwed, and the hollow 214 of the tip side side 210-2 is a streamlined second valve body 210 having an increased inner diameter. Wow; It is made of a material that can move up, down, left and right, is hermetically coupled to the outer circumferential surface of the second valve body tip portion 210-2, and the inside is provided with a passage 221 through which gas can pass in a hollow shape, and the outer shape has a progressive diameter. A discharge port 220 having a conical shape reduced in size; A steel rod 230 inserted into and coupled to the second internal step 213 of the second valve body to form a cap 230-1 having an O-ring 231 fitted therein; It is disposed in close contact with the cap (230-1) of the steel bar is composed of a spring 232 for supporting the steel bar.

In addition, the discharge port 220 is preferably made of a rubber material to enable the movement up, down, left and right.

In addition, the spring 232 preferably uses a conical spring to maximize the tension.

In addition, the airtight coupling between the outer circumferential surface of the second valve body tip portion 210-2 and the discharge port 220 may be airtightly coupled using an instant adhesive.

In addition, the steel bar 230 is coupled to the hollow passage 211 formed in the second valve body 210 together with the fastening means such as the spring 232 or the O-ring 231, so that the front end of the second valve body ( The hollow 214 formed in the 210-2 and the passage 221 inside the discharge hole 220 are coupled to each other.

3 is an exploded perspective view of a gas discharge valve according to an embodiment of the present invention.

As shown therein, an outer circumferential surface of the tip portion 210-2 of the second valve body and the discharge port 220 are hermetically coupled to each other, and a passage 211 in the second valve body 210 (shown in FIG. 2) is shown. Fastening means such as angle ring 235, flat washer 234, C-type stop ring 233, spring 232, O-ring 231 is coupled to the steel rod 230 is coupled. Therefore, the steel bar 230 in which the O-ring 233 is inserted is coupled to penetrate the inside of the discharge port 220. And fastening means such as angle ring 235, flat washer 234, spring 232, O-ring 233 is fastened to the cap 230-1 of the steel bar.

That is, the spring 232 is disposed to closely contact the cap 230-1 of the steel rod, and the C-type stop ring 233, the flat washer 234, and the angle ring 235 are disposed and fastened thereon.

Referring to the operation principle of the valve for filling gas according to the present invention configured as described above in detail with reference to the accompanying drawings as follows.

First, after opening the valve stem 130 of the main valve (100 ＇) coupled to the container 50 configured as shown in Figure 2 to a certain height, it is fixed through a screw (not shown in the figure). The valve tip 120 then rises by the pressure of the gas in the vessel 50. And the gas proceeds through the gas passage 140. And the gas is a hollow passage 160 formed in the nipple (150 ＇) attached to one side of the first valve body (110＇), and the second valve body connected to the passage 160 It proceeds to the passage 211 of 210. However, the steel rod 230 is blocked in the next gas traveling path so that the gas can no longer flow. Therefore, even if the valve stem 130 is opened, the gas in the container 50 is not discharged to the outside.

When gas is injected into a balloon or a tube in the above state, the balloon or the tube is fastened to the discharge port 220. Then, the discharge port 220 is moved up, down, left and right. Then, the steel bar 230 to which the O-ring 231 inserted into the discharge hole 220 is moved together. In this case, a gap is formed in the O-ring 231 inserted between the steel rods 230, and the gas is discharged therebetween to be injected into a balloon or a tube. After the gas injection is finished, if the discharge port 220 is left still, the gas cannot be discharged to the outside again.

While the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Therefore, the above description does not limit the scope of the present invention as defined by the limitations of the following claims.

As described above, the gas discharge valve according to the present invention is attached to one side of the main valve and the inside is installed so that the steel rod penetrates through the discharge port, the O-ring and steel fitted to the steel bar when the discharge port is moved up, down, left and right When the gas is ejected through the gap generated between the rods so that the gas can be injected into the balloon or the tube, the valve valve of the primary valve is opened without the need to open and close the primary valve each time the gas is ejected. By moving only the discharge port up, down, left and right there is an advantage that can be injected into the balloon or tube.

1 is a conceptual diagram of a conventional gas filling valve.

Figure 2 is a cross-sectional view of the gas discharge valve according to an embodiment of the present invention attached to one side of the main valve.

Figure 3 is an exploded perspective view of the gas discharge valve according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100 kV: main valve 110 kV: first valve body

120: valve tip 130: valve stem

140, 160, 211, 221: passage 150 ＇: nipple

200 gas discharge valve 210 second valve body

210-1: body portion 210-2: tip portion

212: first internal step 213: second internal step

214: hollow 215: step

220: discharge port 230: steel bar

230-1: Cap 231: O-ring

232: spring 233: C-type stop ring

234: flat washer 235: angle ring

Claims (5)

The outer shape has a shape of the tip portion is smaller than the body portion while forming a single step, the inside is provided with a hollow through which the first internal step and the second internal step is formed, the passage through which gas can be provided, the body A hollow is formed at the one end of the lower side to be screwed, and the hollow at the distal end has a streamlined second valve body having an increased inner diameter; It is a material that can move up, down, left and right, is hermetically coupled to the outer circumferential surface of the second valve body end portion, and the inside is provided with a passage through which gas can pass in a hollow shape, and the outer shape has a conical shape whose diameter gradually decreases. Wow; A steel rod having a cap inserted into the second inner step of the valve body and having an O-ring fitted therein; The gas discharge valve, characterized in that made in close contact with the cap of the steel rod made of a spring for supporting the steel rod. The method of claim 1, wherein the discharge port A gas discharge valve, characterized in that the rubber material. The method of claim 1, wherein the spring A gas discharge valve, characterized in that the conical spring. The method of claim 1, wherein the closed coupling of the outer peripheral surface and the discharge port of the second valve body tip portion Valve for gas discharge, characterized in that the sealing is coupled using the instant adhesive The gas discharge valve according to any one of claims 1 to 4, wherein A spring is disposed to be in close contact with the cap portion of the steel rod, and the C-type stop ring, flat washer, and angle ring is disposed thereon.