KR20230058818A - Low-pressure relief valve for exhausting residual gas - Google Patents

Abstract

In the present invention, the valve body 111 formed from the top to the bottom through which residual gas of low pressure is exhausted and the valve body 111 formed at the bottom of the valve body 111 are screwed to the outlet of the storage tank in which residual gas is generated. In the valve body 110 and the through hole 113, which is composed of a coupling portion 112 and a stopper 114 extending from the inside of the upper end of the valve body 111 toward the center and having a through hole 113 formed therein The stem shaft 121 inserted and coupled in the longitudinal direction, the lifting plate 122 coupled to one side of the stem shaft 121 adjacent to the lower end of the valve body 111 in a disc shape, and the other side of the stem shaft 121 The upper surface of the stem 120 and the elevation plate 122 and the through hole, which extends from the stem 120 and is supported by the through hole 113 to open and close the exhaust port formed on the top of the valve body 111. A spring interposed between the lower surfaces of 113 to close the exhaust port by lowering the lift plate 122 by the elastic force, and to open the exhaust port by raising the cap 123 by the pressure of the residual gas exceeding the elastic force ( Including 130), a low-pressure relief valve for exhausting residual gas is disclosed, which exhausts the residual gas at a low pressure exceeding a certain pressure to minimize the fullness of the tank.

Description

Low pressure relief valve for residual gas exhaust {LOW-PRESSURE RELIEF VALVE FOR EXHAUSTING RESIDUAL GAS}

The present invention exhausts the residual gas from the storage tank in which the low-pressure residual gas is generated to prevent the storage tank from being full, and the stem is made of aluminum to react sensitively to the pressure of the residual gas to be realized for low pressure. It relates to a low pressure relief valve for exhausting residual gas.

As is well known, gas stations or various industrial sites using oil are equipped with an oil supply system, and such an oil supply system is equipped with an oil storage tank for storing oil.

On the other hand, as oil is stored or discharged in the oil storage tank, when the pressure in the oil storage tank exceeds the set range due to residual gas such as oil vapor, the oil storage tank becomes full, and the pressure in the oil storage tank is set within a specific set range. Residual gas needs to be discharged to maintain

Accordingly, a relief valve is installed to keep the pressure in the oil storage tank constant at the set pressure, and when the pressure in the oil storage tank is higher than the set pressure, residual gas is forcibly discharged, and the pressure in the oil storage tank is less than the set pressure. In some cases, it may be configured to introduce outside air.

However, the conventional relief valve has a very complex internal structure, so manufacturing costs are high, and there are technical limitations in responding sensitively to low-pressure residual gas.

Therefore, it can be implemented for low pressure by exhausting the residual gas from the storage tank where the low pressure residual gas is generated to prevent the storage tank from being full, and by making the stem sensitive to the pressure of the residual gas by configuring the stem with aluminum. skills are required

Korean Patent Registration No. 10-1098380 (Pressure relief valve for oil storage tank, 2011.12.23) Korean Patent Registration No. 10-0955515 (Pressure relief valve, 2010.04.30)

The technical problem to be achieved by the spirit of the present invention is to exhaust the residual gas from the storage tank in which the low pressure residual gas is generated to prevent the storage tank from becoming full, and to configure the stem with aluminum to be sensitive to the pressure of the residual gas. It is an object of the present invention to provide a low pressure relief valve for exhausting residual gas, which can be implemented for low pressure by reacting appropriately.

In order to achieve the above object, an embodiment of the present invention is formed through a valve body formed from the top to the bottom to exhaust low-pressure residual gas, and an outlet of a storage tank formed at the bottom of the valve body to generate residual gas. A valve body composed of a coupling portion screwed into and coupled to, and a stopper extending from the inside of the upper end of the valve body toward the center and having a through hole formed therein; A stem shaft inserted into and coupled to the through hole in the longitudinal direction, a lifting plate coupled to one side of the stem shaft adjacent to the lower end of the valve body in a disc shape, and formed extending from the other side of the stem shaft to be supported by the through hole a stem composed of a cap that opens and closes an exhaust port formed at an upper end of the valve body; And it is interposed between the upper surface of the lifting plate and the lower surface of the through hole to close the exhaust port by lowering the lifting plate by an elastic force, and to open the exhaust port by raising the cap by the pressure of residual gas exceeding the elastic force. It provides a low-pressure relief valve for exhausting residual gas, including a spring formed to do so.

Here, the spring is a coil spring, and the modulus of elasticity may be 0.2 kgf/mm ² to 0.5 kgf/mm ² .

Also, the stem may be made of a light alloy.

In addition, the cap is formed of a conical structure extending from the top of the stem shaft and having a tapered cross section, and has a lower cap that comes into contact with the through hole, and a diameter larger than the diameter of the exhaust port extending from the lower cap, It may be made of a cylindrical upper cap covering the exhaust port.

In addition, the upper cap may be made of aluminum.

In addition, a seal may be interposed on a lower surface of the upper cap that comes into contact with an upper surface of the valve body.

In addition, a pressure gauge for measuring the pressure of residual gas may be formed on an upper surface or side surface of the cap.

In addition, a hexagonal nut-shaped fastening portion may be formed on an outer circumferential surface of the valve body.

In addition, the stem shaft and the lifting plate are coupled by screwing each other, and the compression length of the spring may be adjusted by adjusting a gap between the stopper and the lifting plate by rotation of the stem shaft.

According to the present invention, the residual gas is exhausted from the storage tank in which the low-pressure residual gas is generated to prevent the storage tank from being full, and the stem is made of aluminum to react sensitively to the pressure of the residual gas. There is an effect that can be implemented with

1 is a perspective view of a low pressure relief valve for exhausting residual gas according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the low pressure relief valve for exhausting residual gas of FIG. 1 .
FIG. 3 shows a cross-sectional structure of the low pressure relief valve for exhausting residual gas of FIG. 1 .
FIG. 4 illustrates residual gas exhaust of the low pressure relief valve for residual gas exhaust of FIG. 1 .

Hereinafter, embodiments of the present invention having the above-described characteristics will be described in more detail with reference to the accompanying drawings.

The low-pressure relief valve for exhausting residual gas according to an embodiment of the present invention includes a valve body 111 through which low-pressure residual gas is exhausted through the valve body 111 formed from the top to the bottom, and formed at the lower end of the valve body 111 to discharge residual gas. Consisting of a coupling part 112 screwed and coupled to the outlet of the storage tank to be created, and a stopper 114 extending from the inside of the upper end of the valve body 111 toward the center and having a through hole 113 formed therein, The valve body 110, the stem shaft 121 inserted into and coupled to the through hole 113 in the longitudinal direction, and the lifting plate coupled to one side of the stem shaft 121 adjacent to the lower end of the valve body 111 in the form of a disk. 122 and a cap 123 extending from the other side of the stem shaft 121 and supported by the through hole 113 to open and close the exhaust port formed on the top of the valve body 111, the stem 120 , And interposed between the upper surface of the lifting plate 122 and the lower surface of the through hole 113, the lifting plate 122 is lowered by the elastic force to close the exhaust port, and the cap 123 by the pressure of the residual gas exceeding the elastic force ), including the spring 130, formed to open the exhaust port by raising the pressure, to exhaust the residual gas at a low pressure exceeding a certain pressure, thereby minimizing the fullness of the tank.

Hereinafter, with reference to FIG. 1 and FIG. 4, the detailed description of the low pressure relief valve for exhausting residual gas having the above configuration is as follows.

First, the valve body 110 is configured to be connected to an outlet of a storage tank (not shown) in which residual gas such as oil vapor is generated. Referring to FIGS. A valve body 111 through which gas is exhausted, and a coupler 112 that extends from the lower end of the valve body 111 and has a screw thread formed on the outside to be screwed and coupled to the outlet of the storage tank where residual gas is generated. , It consists of a stopper 114 extending from the inside of the upper end of the valve body 111 toward the center and having a through hole 113 formed therein.

Meanwhile, a hexagonal nut-shaped fastening portion 115 is formed on the outer circumferential surface of the valve body 110 so that it can be easily engaged and separated from the outlet of the storage tank.

Next, the stem 120 ascends and descends according to the pressure of the residual gas to open and close the through hole 113 to exhaust the residual gas through the through hole 113, and is inserted into the through hole 113 in the longitudinal direction for coupling. a stem shaft 121, a lifting plate 122 coupled to one side of the stem shaft 121 adjacent to the lower end of the valve body 111 in a disc shape, and a through hole extending from the other side of the stem shaft 121 It is supported by the valve body 113 and consists of a cap 123 that opens and closes the exhaust port formed at the top of the valve body 111.

Next, the spring 130 is interposed between the upper surface of the lifting plate 122 and the lower surface of the through hole 113, and lowers the lifting plate 122 by an elastic force to close the exhaust port, and the pressure of the residual gas exceeds the elastic force. By raising the cap 123 to open the exhaust port, as illustrated in FIG. 4 , the exhaust gas is exhausted through the space between the upper end of the valve body 111 and the lower end of the cap 123 .

Here, the spring 130 is a coil spring 130, and the elastic modulus may be 0.2 kgf/mm ² to 0.5 kgf/mm ² , so that a low pressure exceeding 0.2 bar to 0.5 bar remains inside the storage tank. If gas is generated, exhaust it to the outside.

In addition, as shown in FIGS. 3 and 4, the cap 123 extends from the top of the stem shaft 121 and has a conical structure having a tapered cross section, and the lower cap abuts the through hole 113 ( 123a) and a cylindrical upper cap 123b extending from the lower cap 123a and having a relatively larger diameter than the diameter of the exhaust port at the open top of the valve body 113 to cover the exhaust port, When the pressure of the gas is below a certain pressure, the spring 130 pushes the elevation plate 122 to close the through hole 113, and when the pressure exceeds a certain pressure, the stem 120 rises by the pressure of the residual gas, and the through hole ( 113) and a space between the upper end of the valve body 111 and the lower end of the cap 123 is opened so that the exhaust gas is exhausted.

Meanwhile, since it is designed for low pressure, the stem 120 may be made of a light alloy, and the upper cap 123b may be preferably made of aluminum.

In addition, as shown enlarged in FIGS. 2 and 3, the seal 125 is inserted into the circular groove 124 on the lower surface of the upper cap 123b, and the upper cap abuts against the upper surface of the valve body 111 ( A seal 125 may be interposed on the lower surface of 123b) to prevent leakage due to an unexpected external force.

In addition, referring to FIG. 1, a pressure gauge 140 for measuring the pressure of the residual gas is formed on the top or side surface of the cap 123 so that the pressure of the residual gas in the storage tank can be easily checked and the residual gas It is also possible to perform maintenance such as replacement by identifying normal operation according to pressure.

On the other hand, although not shown, the stem shaft 121 and the lifting plate 122 are coupled by screwing each other, and the rotation of the stem shaft 121 causes the lifting plate 122 to move up and down, so that the stem shaft 121 By adjusting the distance between the stopper 114 and the elevation plate 122 through the rotation of the spring 130, the compression length of the spring 130 is adjusted, so that the pressure of the residual gas to be exhausted to the outside without replacing the spring 130 Accordingly, the elastic force of the spring 130 may be adjusted.

Therefore, by the configuration of the low-pressure relief valve for exhausting the residual gas as described above, the residual gas is exhausted from the storage tank in which the residual gas of low pressure is generated to prevent the storage tank from becoming full, and the stem is made of aluminum. It can be implemented for low pressure by reacting sensitively to the pressure of residual gas.

The embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents that can replace them at the time of this application. It should be understood that there may be waters and variations.

110: valve body 111: valve body
112: coupling part 113: through hole
114: stopper 115: tightening unit
120: stem 121: stem shaft
122: lifting plate 123: cap
124: circular groove 125: sealing
130: spring 140: pressure gauge

Claims (9)

A valve body formed from the top to the bottom through which residual gas of low pressure is exhausted, a coupling portion formed at the bottom of the valve body and screwed to an outlet of a storage tank in which residual gas is generated, and a coupling portion of the valve body A valve body formed of a stopper extending from the inside of the top toward the center and having a through hole formed therein;
A stem shaft inserted into and coupled to the through hole in the longitudinal direction, a lifting plate coupled to one side of the stem shaft adjacent to the lower end of the valve body in a disc shape, and formed extending from the other side of the stem shaft to be supported by the through hole a stem composed of a cap that opens and closes an exhaust port formed at an upper end of the valve body; and
Interposed between the upper surface of the lifting plate and the lower surface of the through hole, the lifting plate is lowered by an elastic force to close the exhaust port, and the cap is raised by the pressure of the residual gas exceeding the elastic force to open the exhaust port. Formed, spring; including,
Low pressure relief valve for residual gas exhaust.
According to claim 1,
The spring is a coil spring, and the modulus of elasticity is 0.2 kgf / mm ² to 0.5 kgf / mm ² Characterized in that,
Low pressure relief valve for residual gas exhaust.
According to claim 2,
Characterized in that the stem is composed of a light alloy,
Low pressure relief valve for residual gas exhaust.
According to claim 3,
The cap extends from the top of the stem shaft and has a conical structure having a tapered cross section, and includes a lower cap that comes into contact with the through hole, and a lower cap that extends from the lower cap and has a diameter larger than the diameter of the exhaust port. Characterized in that it consists of a cylindrical upper cap covering the
Low pressure relief valve for residual gas exhaust.
According to claim 4,
Characterized in that the upper cap is made of aluminum,
Low pressure relief valve for residual gas exhaust.
According to claim 5,
Characterized in that the sealing is interposed on the lower surface of the upper cap in contact with the upper surface of the valve body,
Low pressure relief valve for residual gas exhaust.
According to claim 1,
Characterized in that a pressure gauge for measuring the pressure of the residual gas is formed on the top or side surface of the cap.
Low pressure relief valve for residual gas exhaust.
According to claim 1,
Characterized in that a hexagonal nut-shaped fastening portion is formed on the outer circumferential surface of the valve body,
Low pressure relief valve for residual gas exhaust.
According to claim 1,
Characterized in that the stem shaft and the lifting plate are coupled by screwing each other, and the compression length of the spring is adjusted by adjusting the distance between the stopper and the lifting plate by rotation of the stem shaft.
Low pressure relief valve for residual gas exhaust.

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