KR20100083502A - Regulator - Google Patents

Abstract

PURPOSE: A regulator is provided to prevent damage to an O-ring due to pressure difference based on a through-hole as a boundary by closing the through-hole when the O-ring contacts the through-hole. CONSTITUTION: A regulator comprises a housing(100) and an opening and closing unit(200). In the housing, a gas flow path(180) is formed from an input port(122) to an output port(124). The opening and closing unit opens and closes the gas flow path. The opening and closing unit comprises a movable insulating member(220) to open and close a through-hole(188). The insulating member comprises a support unit(222), a protrusion(224), and a front end part(226). The support unit is arranged on the upper part of the through-hole. The protrusion is projected to the lateral part of the support part. The front end is arranged at the lower part of the through-hole.

Description

Regulator {REGULATOR}

The present invention relates to a regulator for stably supplying a gas from a high-pressure gas supply source to a low-pressure operating pressure and supplying it to a user equipment. Regulators are widely used in homes and industries for controlling the pressure of combustion gases such as city gas and LPG gas and general gases such as air and carbon dioxide gas.

A commonly used regulator includes an input port, a main body, and an output port, and a gas supply source such as a gas cylinder is connected to the input port to supply a high pressure gas, and the high pressure gas is converted into a low pressure working pressure in the main body. The low pressure gas is supplied to the equipment through the output port. The main body is equipped with a pressure control unit, the user can set the desired pressure.

1 shows a blocking member 20 used in a conventional regulator. The blocking member 20 has a support 22, a protrusion 24 and a tip 26. One end of the support part 22 is inserted into the groove 28 of the fixing protrusion 27 so as to be reciprocated, and a protrusion 24 is formed at the other end of the support part 22. The protrusion 24 protrudes laterally to open and close the through hole 30 and has a conical shape. The protrusions 24 are typically provided with an elastic material such as rubber inserted into the exterior of the blocking member 20. The tip portion 26 extends through the through hole 30 to the outside.

The support portion 22 is provided with a spring 40 which is an elastic member. The spring 40 is installed in a constant pressure-compressed state so that a part of the protrusion 24 is inserted into the through hole 30 to close the through hole 30 when no force is applied from the outside. On the other hand, when a predetermined force for compressing the spring 40 is applied to the tip portion 26, the spring 40 is further compressed and the through hole 30 is opened to form a gas flow path. As such, the force applied to the tip portion 26 may be adjusted to open or close the through hole 30.

However, since the pressure difference is large around the through hole 30, the protrusion 24 disposed in the through hole 30 is easily peeled off by this pressure difference or damage due to friction occurs easily. If the protruding portion 24 is peeled off or damaged, the blocking member 20 may no longer serve to open and close the through hole 30 and thus need to be replaced or repaired.

The present invention is devised to solve the problems of the prior art, and provides a regulator which is disposed near the through hole so that the protrusion of the blocking member for opening or closing the through hole is not easily damaged or peeled off by the pressure difference at the boundary of the through hole. For the purpose of

According to a first aspect of the present invention for achieving the above object, it comprises a housing for forming a gas flow path from an input port to an output port, and an opening and closing portion for opening and closing the gas flow path, wherein the opening and closing portion is in the middle of the gas flow path And a blocking member movable to open and close the formed hole, wherein the blocking member includes a support disposed on an upstream side of the through hole, a protrusion projecting to the side of the support, and a tip disposed on a downstream side of the through hole. The protrusion has a concave portion on a side opposite to the through hole, the concave portion is provided with an O-ring, and the through-hole is closed by contacting the circumference of the through hole.

According to a second aspect of the present invention, a protrusion is installed around the through hole that the O-ring contacts.

According to a third aspect of the invention, the O-ring is made of an elastic body.

According to a fourth aspect of the present invention, the opening and closing portion, an elastic member for pressing the support portion toward the through-hole so that the protrusion closes the through-hole, and pressurizing the front end to the through-hole side so that the protruding portion opens the through-hole. It further comprises a member.

According to the present invention, since the O-ring is provided inside the protruding portion of the blocking member and the O-ring is closed by contacting the circumference of the through-hole, the O-ring is not peeled off or damaged by the pressure difference surrounding the through-hole.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 are longitudinal cross-sectional views of the regulator 10 according to an embodiment of the present invention, and FIG. 2 shows a state in which the gas flow path is closed, and FIG. 3 shows a state in which the gas flow path is opened.

2 and 3, the regulator 10 includes a housing 100 and an opening and closing part 200. The housing 100 includes a body 120 and a cover 140. The left outer wall of the body portion 120 and the right inner wall of the cover portion 140 is formed with a screw portion, the body portion 120 and the cover portion 140 may be screwed. In the body 120, an input port 122 and an output port 124 are formed to protrude. The input port 122 is connected to, for example, a gas cylinder of carbon dioxide gas, and the output port 124 is connected to, for example, a carbonated water production apparatus. The carbonated water production apparatus introduces carbon dioxide gas from the output port 124 into water to produce carbonated water. In the body part 120, a gas flow path 180 is provided to flow gas from the input port 122 to the output port 124. The regulator 10 converts the high-pressure gas flowing into a predetermined low pressure to supply the carbonated water production apparatus.

The gas flow path 180 has an inlet line 182, an outlet line 184, and a buffer space 186. Spaces recessed inward are provided at the left side of the body portion 120 and the right side portion of the cover portion 140, respectively, and the spaces are buffer space 186 by the combination of the body portion 120 and the cover portion 140. To form. The inlet line 182 extends a predetermined distance from the input port 122 in the direction toward the inner side of the body 120, and extends vertically from the end thereof to connect with the buffer space 186. It has a vertical portion 182b. The outlet line 184 extends from the output port 124 in the direction toward the inner side of the body 120 to the output port extension 184a, and extends perpendicularly from the end thereof to connect with the buffer space 186. It has a vertical portion 184b. The vertical portion 182b of the inlet line is connected to the center of the buffer space 186 and the vertical portion 184b of the outlet line is connected to the edge of the buffer space 186. The through hole 188 is formed at the left end of the vertical portion 182b of the inflow line by the inner edge portion 190 protruding up and down.

The gas flow passage 180 in the body 120 is opened and closed by the opening and closing portion 200. The opening and closing part 200 includes a blocking member 220, an elastic member 240, and a pressing member 260.

The blocking member 220 has a support 222, a protrusion 224, and a tip 226. One end of the support 222 is reciprocally inserted into the groove 272 of the fixing protrusion 270 provided at the right end of the vertical portion 182b of the inflow line. The other end of the support 222 is provided with a protrusion 224, the protrusion 224 may protrude laterally to open and close the through hole 188. The support 222 and the protrusion 224 are disposed in the vertical portion 182b.

A concave portion is formed on a surface of the protrusion 224 toward the through hole 188, and a protrusion 192 is formed at the end of the inner edge portion 190, which is the circumference of the through hole 188, toward the vertical portion 182 b, and thus the protrusion 224. The concave portion of) and the protrusion 192 of the inner edge portion 190 are arranged to be in contact. The concave portion of the protrusion 224, which the protrusion 192 contacts, is provided with an o-ring 225, so that the protrusion 192 contacts the o-ring 225 when the protrusion 192 contacts the concave portion of the protrusion 224. The o-ring 225 may be fixedly installed in the recess with an adhesive or the like, and may be made of an elastic body such as rubber. Therefore, when the O-ring 225 and the projection 192 is in contact with each other, the O-ring 225 is elastically deformed by the protrusion 192 and compressed, so that the air gap between the protrusion 224 and the protrusion 192 is sealed by the O-ring 225. , The vertical portion 182b of the inlet line and the buffer space 186 are blocked.

In this way, since the concave portion is formed in the protrusion 224 and the rubber O-ring 225 is disposed in the concave portion, the contact portion is securely sealed by the O-ring 225 during contact, and the O-ring 225 is released when the contact is released. It does not come off.

The tip portion 226 extends from the protrusion 224 toward the buffer space 186. Thus, the support 222 and the protrusion 224 are disposed in the vertical portion 182b of the inlet line, and the tip portion 226 is disposed in the buffer space 186.

The support 222 is provided with an elastic member 240. A spring is used as the elastic member 240, one end of the spring 240 is fixed to the bottom surface of the protrusion 224, and the other end is fixed to the top surface of the fixing protrusion 270. The spring 240 is installed in a constant pressure-compressed state so that the concave portion of the protrusion 224 and the protrusion 192 of the inner edge portion 190 contact and close the through hole 188 when no force is applied from the outside. .

The pressure member 260 has a pressure block 261, a diaphragm 262, a load spring 263, a cone washer 264, and a pressure regulator 265. The press block 261 is disposed on the left side in the buffer space 186 and has an outer diameter similar to the inner diameter of the buffer space 186. A groove is formed around the pressing block 261, and an O-ring 267 is inserted into the groove. The press block 261 is movable to the left and right while sealing the buffer space 186 through the O-ring 267. A diaphragm 262 is provided between the pressing block 261 and the tip portion 226 of the blocking member 220, and a ring-shaped fastener 270 is installed at the edge of the diaphragm 262 to buffer the diaphragm 262. And fixed in 186. When the pressure block 261 moves to the right, the pressure block 261 presses the tip end portion 226 of the blocking member 220 via the diaphragm 262 as an intermediate medium, thereby opening the opening 188.

In the cover part 140, a left space having a cross section smaller than the buffer space 186 is provided extending from the buffer space 186 to the left side. The cone washer 264 and the load spring 263 are installed in the left space. The cone washer 264 is disposed on the left side in the left space, and the load spring 263 is disposed between the cone washer 264 and the pressure block 261. The left side of the cover portion 140 penetrates the cover portion 140 and the adjusting groove 148 is formed on the inner wall is formed, the pressure adjusting portion 265 is inserted into the adjusting groove 148. The pressure regulating part 265 has a pressing part 265a, the rod part 265b, and the handle part 265c. The pressing portion 265a is located in the left space and has a cone shape at the distal end and presses the washer 264. The rod portion 265b extends to the left side from the pressing portion 265a and is inserted into the adjustment groove 148. The outer wall of the rod portion 265b is formed with a screw portion is fastened to the adjustment groove 148. The handle portion 265c is coupled to the end of the rod portion 265b to allow the user to easily rotate the rod portion 265b. The pressure block 261 is moved to the left and right by the rotation of the handle portion 265c.

In FIG. 3, an arrow indicates a gas movement path when the gas flow path 180 is opened. Referring to FIG. 3, when the diaphragm 262 is pressed by the pressure block 261, the diaphragm 262 contacts the tip 226 of the blocking member 220, and the blocking member 220 moves to the right. The aperture 188 is opened. The gas flowing into the regulator 10 from the gas cylinder flows sequentially through the inlet line 182, the through hole 188, the buffer space 186, and the outlet line 184, and then adjusts the pressure and flow rate to the carbonated water production apparatus. Supplied.

1 shows a blocking member used in a conventional regulator.

2 is a longitudinal sectional view of the regulator according to the present invention, showing a state in which the gas flow path is closed.

3 is a longitudinal sectional view of the regulator according to the present invention, showing a state in which a gas flow path is opened.

Explanation of symbols on the main parts of the drawings

10 regulator 100 housing

180 gas euro 188 through

192 protrusion 200 opening and closing part

220 blocking member 222 support

224 protrusion 225 O-ring

226 Tip 240 Elastic Member

260 pressure member

Claims (4)

A housing 100 forming a gas flow path 180 from an input port 122 to an output port 124, and an opening / closing part 200 that opens and closes the gas flow path 180. The opening and closing unit 200 is provided with a blocking member 220 movable to open and close the through-hole 188 formed in the middle of the gas flow path 180, The blocking member 220 is disposed at a support portion 222 disposed upstream of the through hole 188, a protrusion 224 protruding to the side of the support portion 222, and a downstream side of the through hole 188. Having a tip portion 226, The protrusion 224 is provided with a recess on the side opposite to the through hole 188, the recess is provided with an O-ring 225, And the through hole (188) is closed by contacting the circumference of the through hole (188). The method according to claim 1, Regulator is characterized in that the projection (192) is installed around the through-hole (188) in contact with the O-ring (225). The method according to claim 1 or 2, The O-ring regulator is characterized in that made of an elastic body. The method according to claim 1 or 2, The opening and closing part 200 includes an elastic member 240 for pressing the support part 222 toward the through hole 188 so that the protrusion 224 closes the through hole 188, and the protrusion 224 has the through hole. And a pressing member (260) for pressing the tip portion (226) toward the through hole (188) side to open the opening (188).

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