KR101405760B1 - A Regulator - Google Patents

Abstract

The present invention relates to a regulator for depressurizing city gas into predetermined pressure and, more specifically, to a regulator including a laminar flow induction means capable of stably supplying gas by preventing hunting in the regulator by transmitting the gas of second pressure transmitted to the regulator by including the laminar flow induction means in a sensing pipe, which connects the regulator to a second head, with the laminar flow. The present invention comprises a first head in which the gas of first pressure is transferred; a regulator for depressurizing the gas of the first pressure into the second pressure, which has lower pressure than the first pressure, by connecting to a rear end of the first head; a second head in which the gas of the second pressure depressurized by the regulator by connecting to the rear end of the regulator is transferred; and a sensing pipe for transferring the gas of the second pressure to the regulator by connecting to the regulator and the second head respectively. Provided is the regulator including the laminar flow induction means comprising: at least one laminar flow induction means, which induces the gas of the second pressure transferred to the regulator to be converted into the laminar flow, in the middle of the sensing pipe.

Description

A regulator having laminar flow inducing means {A Regulator}

The present invention relates to a regulator for reducing the pressure of a city gas to a predetermined pressure. More specifically, the present invention relates to a regulator for reducing the pressure of a city gas to a predetermined pressure, The present invention relates to a regulator having laminar flow inducing means capable of stably supplying a gas by preventing hunting in a regulator.

A regulator is a facility that combines a regulator for reducing the pressure of medium pressure gas to the working pressure and an accessory device such as a safety device and a pressure recorder. The regulator is divided into district, region, and single regulator depending on the application.

The regulator is connected to the secondary pipe through the sensing tube, and automatically controls the flow rate by controlling the opening and closing of the control valve so that the set pressure is maintained through the pressure of the gas transmitted from the sensing pipe.

However, in the conventional regulator, since the gas sent from the secondary pipe immediately flows into the regulator side, a hunting phenomenon occurs in which the pressure is shaken up and down when it is transmitted to a turbulent flow or a downstream flow. If the hunting phenomenon is severe, it is recognized that the safety device is abnormal pressure despite the normal pressure.

This poses a problem that stable gas supply can not be achieved as a result of the receiving station.

KR 10-1212075 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a laminar flow inducing means in a sensing tube for connecting a regulator and a secondary head so that secondary pressure gas transferred to the regulator side is transferred in laminar flow, And to provide a regenerator having laminar flow inducing means capable of stably supplying gas.

It is another object of the present invention to provide a regulator having laminar flow inducing means capable of stably operating a regulator by arranging a flow rate control means in the middle of the sensing tube and preventing gas above a certain pressure from being transmitted to the regulator side.

According to an aspect of the present invention, A regulator connected to a rear end side of the primary head for reducing the pressure of the primary pressure gas to a secondary pressure of a relatively low pressure; A secondary head which is connected to a rear end side of the regulator and in which a gas of a secondary pressure reduced by the regulator flows; And a sensing pipe connected at both ends to the regulator and the secondary head to transmit the gas of the secondary pressure to the regulator side, wherein a gas of the secondary pressure transmitted to the regulator side in the length of the sensing pipe is laminar And at least one laminar flow inducing means for inducing the laminar flow inducing means to be converted into the laminar flow inducing means.

Preferably, the laminar flow inducing means may be provided as a perforated plate having a plurality of through holes formed in a plate-shaped body.

Preferably, the flow rate control means may further include a flow rate control means for preventing a secondary pressure gas from being transmitted to the regulator side from being transmitted at a predetermined pressure or more in the middle of the sensing pipe.

Preferably, the flow rate control means includes a first body having at least one inlet hole through which the gas of the secondary pressure passes, and a plurality of outflow holes through which the gas of the secondary pressure introduced through the inlet hole passes A plunger disposed in a space formed between the first body and the second body, and a spring member pressing the plunger downward.

Preferably, the plurality of outflow holes are provided with a control hole passing through the center portion and a plurality of passing holes surrounding the control hole, and when the gas of the secondary pressure flowing through the inlet hole is above a predetermined pressure, And the upper end of the plunger can close the control hole.

According to the present invention, the sensing tube connecting the regulator and the secondary head is provided with the laminar flow inducing means so that the secondary pressure gas transferred to the regulator side is transferred in a laminar flow, thereby preventing hunting in the regulator, There is an advantage.

Further, the present invention is advantageous in that the flow regulator is disposed in the middle of the length of the sensing tube to prevent the gas above a certain pressure from being transmitted to the regulator side, thereby stably operating the regulator.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a regulator having laminar flow inducing means according to the present invention; Fig.
Fig. 2 is an overall perspective view showing the flow rate control means in Fig. 1; Fig.
Fig. 3 is an exploded perspective view of Fig. 2; Fig.
4 is an operational state diagram of Fig.

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

In order to facilitate understanding of the present invention, the same reference numerals will be used to denote the same constituent elements even if they are shown in different drawings.

The regulator 100 having the laminar flow inducing means according to the present invention is provided with the laminar flow inducing means 150 in the sensing pipe 140 connecting the regulator 120 and the secondary head 130, The secondary pressure gas sent to the regulator 120 side is transferred in a laminar flow, so that hunting in the regulator can be prevented and the gas can be stably supplied.

The regulator 100 having laminar flow inducing means according to the present invention includes a primary head 110, a regulator 120, a secondary head 130, and a sensing tube 140, as shown in FIGS. .

The primary head 110 and the secondary head 130 are connected to a primary head 110 connected to a front end of the regulator 120. The primary head 110 and the secondary head 130, The flowing gas has a relatively higher pressure than the gas flowing inside the secondary head 130 connected to the rear end of the regulator 120.

Accordingly, the gas having the relatively higher primary pressure introduced into the regulator 120 through the primary head 110 is decompressed in the regulator 120 and converted into a relatively lower secondary pressure, 130 to the destination.

Here, the regulator 120 is configured to reduce the pressure of the gas introduced from the primary head 110 and supply the reduced pressure to the secondary head 130, and may be constructed by selecting any one of various well-known regulators . Since such a regulator 120 is typically provided in a regulator, a detailed description thereof will be omitted.

Meanwhile, in the present invention, a sensing tube 140 for interconnecting the secondary head 130 and the regulator 120 is provided.

The sensing tube 140 supplies a secondary pressure gas flowing through the secondary head 130 to the regulator 120 so that the primary pressure gas through the regulator 120 flows into the secondary pressure gas It is possible to confirm whether or not the regulator 120 is operating properly by confirming whether or not the pressure is appropriately reduced.

At this time, at least one laminar flow inducing means 150 is provided in the middle of the sensing tube 140 so that the gas flowing into the regulator 120 from the secondary head 130 can be introduced into the laminar flow.

When the gas flowing from the secondary head 130 to the regulator 120 through the sensing tube 140 flows into the turbulent flow or the downstream flow, the hysteresis phenomenon occurs in which the pressure of the regulator 120 swings up and down. This means that the gas supplied to the storage device through the secondary head 130 can not be maintained at a constant pressure, thereby making it difficult to stably supply the gas. In addition, when such a hunting phenomenon occurs severely, the regulator 120 senses the pressure of the gas flowing in the secondary head 130 as an abnormal pressure to operate the emergency shut-off valve (not shown) So that the supply of the gas to the reception destination is interrupted.

In the present invention, at least one laminar flow inducing means 150 is disposed in the middle of the sensing tube 140 to prevent this. The laminar flow inducing means 150 converts the flow of the gas flowing along the inside of the sensing pipe 140 into laminar flow, thereby preventing the hunting phenomenon of the regulator 120 in advance.

1, the laminar flow inducing unit 150 is provided with a perforated plate having a plurality of through holes 154 passing through a plate-shaped body 152 having a predetermined area.

Accordingly, the secondary pressure gas introduced into the sensing tube 140 from the secondary head 130 is converted into laminar flow while passing through the plurality of through holes 154, and then flows into the regulator 120 side do.

The regulator 100 having the laminar flow inducing means according to the present invention can prevent the gas of the secondary pressure transmitted to the regulator 120 from being transmitted at a predetermined pressure or more in the middle of the length of the sensing line 140 The flow rate control means 160 may be additionally provided.

1 to 4, the flow rate control means 160 includes a first main body 130 having at least one inflow hole 163 through which gas of the secondary pressure introduced from the secondary head 130 passes, A second body 162 having a plurality of outflow holes 165 through which gas of a secondary pressure introduced through the inlet holes 163 is passed, And a spring member 167 for pressing the plunger 166 downward. As shown in FIG.

The first body 161 and the second body 162 are detachably coupled at one end thereof to facilitate engagement and disconnection of the plunger 166 and the spring member 167 disposed therein.

The plunger 166 includes a stem 166b having a predetermined height and a guide portion 166a extending downward from the lower end of the stem 166b by a predetermined length. And is arranged to surround the stem 166b. In addition, the guide portion 166a is inserted into the insertion hole 164 formed in the first body 161 so as to be reciprocated upward and downward. It is preferable that the insertion hole 164 is formed at the center of the inflow hole 163 when a plurality of the inflow holes 163 are provided. Accordingly, when the secondary pressure gas flows through the inflow hole 163, the stem 166b moves to the upper side by the oil pressure of the gas, so that the gas that has passed through the inflow hole 163 flows into the outflow hole 165, Through the flow rate control means 160.

At this time, the plurality of outflow holes 165 are provided with a control hole 165a formed at the central portion and a plurality of through holes 165b surrounding the control hole 165a. Accordingly, when the secondary pressure gas flowing through the inflow hole 163 is equal to or higher than a predetermined pressure, the upper end of the plunger 166, more specifically, the upper end of the stem 166b, And the gas is passed only through the passage hole 165b side, thereby reducing the flow rate of the gas, thereby preventing the excessive pressure gas from flowing into the regulator 120 side. The control valve 165a is closed by the stem 166 and the gas is supplied only to the side of the through hole 165b by the stem 166b when the gas above the set pressure is introduced through the sensing pipe 140, So that the laminar flow gas can be introduced into the regulator 120 side.

Here, the allowable pressure of the gas flowing through the inflow hole 163 is controlled by the elastic force of the spring member 167, and the spring member 167 having an appropriate elastic force required for the allowable pressure is arranged It is obvious that it can be done.

According to the present invention, the sensing tube connecting the regulator and the secondary head is provided with the laminar flow inducing means so that the gas of the secondary pressure transmitted to the regulator side is transferred in laminar flow, thereby preventing hunting in the regulator, There is an advantage.

Further, the present invention is advantageous in that the flow regulator is disposed in the middle of the length of the sensing tube to prevent the gas above a certain pressure from being transmitted to the regulator side, thereby stably operating the regulator.

While the foregoing is directed in detail to a particular embodiment of the invention with reference to the drawings, it is not intended to limit the invention to this specific construction. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is to be expressly understood, however, that equivalents, modifications and substitutions through such simple design variations or modifications are expressly included within the scope of the present invention.

100: a regulator having laminar flow inducing means
110: primary head 120: regulator
130: secondary head 140: sensing tube
150: laminar flow inducing means 152: body
154: through hole 160: flow rate control means
161: first main body 162: second main body
163: Inflow hole 164: Insertion hole
165: Outflow ball 165a: Control ball
165b: through hole 166: plunger
166a: Guide part 166b: Stem
167: spring member

Claims (5)

A primary head through which a gas having a primary pressure flows;
A regulator connected to a rear end side of the primary head for reducing the pressure of the primary pressure gas to a secondary pressure of a relatively low pressure;
A secondary head which is connected to a rear end side of the regulator and in which a gas of a secondary pressure reduced by the regulator flows;
A sensing tube connected at both ends to the regulator and the secondary head to transmit the secondary pressure gas to the regulator;
At least one laminar flow inducing means provided in the middle of the length of the sensing pipe to induce a secondary pressure gas to be converted into a laminar flow; And
A flow rate control means provided in the middle of the sensing tube to prevent a secondary pressure gas from being transmitted to the regulator side from being transmitted over a predetermined pressure; / RTI >
The flow rate control means includes a second body having a first body having at least one inflow hole through which the gas of the second pressure passes and a plurality of outflow holes through which the gas of the second pressure introduced through the inflow hole passes, A plunger disposed in a space formed between the first body and the second body, and a spring member pressing the plunger downward,
Wherein the plurality of outflow holes are provided with a control hole formed at a central portion thereof and a plurality of through holes surrounding the control hole, and when a gas of a secondary pressure introduced through the inlet hole is at a predetermined pressure or more, Wherein the control valve closes the control hole. The method according to claim 1,
Wherein the laminar flow inducing means comprises a porous plate having a plurality of through holes formed through a plate-shaped body. delete delete delete

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