KR101395739B1 - Apparatus and method for detecting leakage of gas meter - Google Patents

Abstract

The present invention relates to a gas meter leakage inspecting apparatus and a gas meter leakage inspecting method which are to inspect the leakage of a gas meter connected to the gas meter leakage inspecting apparatus. The gas meter leakage inspecting apparatus according to the present invention comprises: a gas source connecting part connected to a gas source; a gas tank connected to the gas source connecting part, and having a certain capacity; a gas meter connecting part connected to the inlet part and the outlet part of the gas meter; a connecting pipe connecting the gas tank and the gas meter connecting part; a differential pressure gauge connected to the connecting pipe in parallel; a front and a rear end valve installed at the front and the rear end of the differential pressure gauge respectively; and a control valve installed at the connecting valve, and connected to the differential pressure gauge in parallel. The gas meter leakage inspecting apparatus according to the present invention determines the leakage of the gas meter by measuring a differential pressure between pressure as a reference pressure at the front end of the differential pressure gauge and pressure as a measurement pressure at the rear end of the differential pressure gauge, thereby quickly and accurately inspecting the leakage of the gas meter.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to an apparatus and method for inspecting leakage of a gas meter in connection with a gas meter.

A gas meter is a meter that integrates and displays the amount of gas passing through a gas pipe. Generally, gas meters are dry gas meters and wet gas meters.

The wet gas meter is a device for measuring the amount of gas passing by the number of revolutions of a rotary drum immersed in water by about half of water in a cylindrical case and is used for measuring a large amount of gas. The dry gas meter is a device that measures the amount of gas passing by the number of movements of the diaphragm by gas and is installed in a general customer.

The gas meter is an important test item for gas leakage together with accurate measurement of gas amount. Conventionally, in order to test leakage of a gas meter, there is a method in which a gas meter is put into water under a condition that a gas pressure is applied to a plurality of gas meters, and whether bubbles are visually observed. At this time, the degree of leakage is determined by counting the size of bubbles and the number of bubbles generated during a predetermined time.

However, such a conventional gas meter leakage inspection method has a problem in that it takes a long time to test for leakage, there is a high possibility that an error occurs when observing bubbles with the naked eye, and the number of gas meters that can be inspected at one time is limited .

Therefore, a gas meter leakage inspection apparatus which can inspect several gas meters at the same time and has high accuracy of inspection is required.

Korean Patent No. 10-0907875

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a gas meter leakage inspection apparatus and method capable of automating gas meter leakage inspection and capable of promptly and accurately inspecting multiple gas meters at the same time There is a purpose in.

According to an aspect of the present invention, there is provided an apparatus for inspecting gas meter leakage comprising: a gas source connection part for connecting to a gas source; A gas tank connected to the gas source connection and having a constant volume; A gas meter connection part connected to the suction part and the discharge part of the gas meter; A connection pipe connecting the gas tank and the gas meter connection portion; A differential pressure meter connected in parallel with the connection pipe; A front end valve and a rear end valve provided at the front end and the rear end of the differential pressure meter, respectively; A control valve installed in the connection pipe and connected in parallel with the differential pressure meter; .

Further, the connection pipe is branched into a plurality of pipes, and the differential pressure meter is connected in parallel to each branched connection pipe.

Further, when the gas meter is filled with gas, the control valve is opened, and when the leakage of the gas meter is inspected, the control valve is closed, and the front end valve and the rear end valve are opened.

A lifting cylinder for connecting and disconnecting the gas meter to and from the gas meter connection portion by a lifting operation; .

A first valve and a second valve provided at the front end and the rear end of the gas tank, respectively; .

According to another aspect of the present invention, there is provided a method for testing leakage of a gas meter, comprising: filling a gas tank having a predetermined volume with gas; Filling the gas meter with a gas through a connection pipe connected to the gas tank; Opening a front end valve and a rear end valve provided at the front end and the rear end of the differential pressure meter connected in parallel to the connection pipe; Closing the control valve installed in the connection pipe and connected in parallel with the differential pressure meter; Measuring a pressure difference between a front end and a rear end of the differential pressure meter to determine whether the gas meter is leaked; .

According to the present invention, since the pressure of the front end of the differential pressure gauge which becomes the reference pressure and the differential pressure at the rear end of the differential pressure gauge which is the measurement pressure are measured to determine whether or not the gas meter is leaked, Device can be provided.

In addition, a gas meter leak test which can perform leakage inspection of several gas meters at a time by judging whether or not each gas meter is leaked by a connecting pipe branched into a plurality of pipes and a differential pressure meter connected in parallel to each of the connecting pipes, Device can be provided.

1 is a front view of a gas meter leakage test apparatus according to an embodiment of the present invention.
2 is a view showing a configuration of a gas meter leakage test apparatus according to an embodiment of the present invention.
Fig. 3 is a view showing a path through which the gas moves in Fig. 2. Fig.
4 is a schematic side view of a gas meter leakage inspection apparatus according to an embodiment of the present invention.
5 is a view sequentially showing a leakage testing method of a gas meter according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

1 is a front view of a gas meter leakage test apparatus according to an embodiment of the present invention. 2 is a view showing a configuration of a gas meter leakage test apparatus according to an embodiment of the present invention. Fig. 3 is a view showing a path through which the gas moves in Fig. 2. Fig. 4 is a schematic side view of a gas meter leakage inspection apparatus according to an embodiment of the present invention.

1 to 4, a gas meter leakage inspection apparatus (hereinafter referred to as a leakage inspection apparatus) 100 of the present invention includes a main body 110, a gas source connection portion 120, regulators 121 and 122, A gas tank 130, a connection pipe 140, a differential pressure gauge 150, a control valve 141, a front end valve 151, a rear end valve 152, a gas meter connection part 160, and the like.

The main body 110 has a receiving space for accommodating various components therein. The body 110 may have a variety of shapes, for example, a rectangular shape. A wheel may be attached to the lower portion of the main body 110 to facilitate movement.

A display 101 may be installed on the front surface of the main body 110. Through the display 101, it is possible to perform operations such as an operation for inspecting leakage of the gas meter 10, monitoring of leakage inspection, and confirmation of the result of leakage inspection. An operation unit 102 may be provided on the front surface of the main body 110 for operating the leakage testing apparatus 100. [

The gas source connection 120 is connected to a gas source such as, for example, a compressor. In this embodiment, the gas source is located outside the leakage testing apparatus 100, but such a gas source may be embedded in the leakage testing apparatus 100. [

When a gas source is connected to the gas source connection unit 120, gas of a predetermined pressure, for example, air, can be supplied to the gas tank 130 through the connection pipe 123.

The gas tank 130 has a certain volume so as to store the gas. The shape of the gas tank 130 can be freely selected, but it can be, for example, a long cylindrical shape. The gas tank 130 stores the gas supplied from the gas source so as to maintain a constant pressure and temperature. A thermometer 132 and a pressure gauge 131 may be installed to monitor the temperature and pressure in the gas tank 130.

A plurality of, for example, three, gas tanks 130 may be provided. At this time, the respective gas tanks 130 are connected to each other by a pipe. The provision of a plurality of gas tanks 130 is intended to minimize changes in the pressure and temperature of the gas in the gas tank 130, which becomes the reference pressure when inspecting the leakage of the gas meter 10.

The first valve 135 and the second valve 136 may be installed at the front end and the rear end of the gas tank 130, respectively. The first valve 135 may be installed at a front end of the gas tank 130 to adjust the amount of gas supplied from the gas source or shut off the supply of the gas. The second valve 136 may be installed at a rear end of the gas tank 130 to adjust the amount of gas discharged from the gas tank 130 or to block the discharge of the gas.

The gas pressure (reference pressure) stored in the gas tank 130 can be set to, for example, 75 kPa or 250 kPa. Generally, the gas pressure supplied from the gas source may be 700 to 900 kPa, so that the gas pressure is reduced through the regulators 121 and 122 and supplied to the gas tank 130. For example, when the gas pressure supplied from the gas source is 800 kPa, the pressure can be reduced to 100 kPa while passing through the regulator 121, reduced again to 75 kPa while passing through the regulators 121 and 122 and supplied to the gas tank 130 have. Only one regulator 121, 122 may be provided.

The connection pipe 140 connects the gas tank 130 and the gas meter connection portion 160. The gas meter connection part 160 is connected to the suction part and the discharge part of the gas meter 10 when checking the leakage of the gas meter 10. A regulating valve 141 is provided at the front end of the gas meter connecting part 160 to regulate or completely shut off the amount of gas flowing into the gas meter 10.

The differential pressure gauge 150 is connected in parallel with the control valve 141 provided in the connection pipe 140. The differential pressure gauge 150 is connected in parallel to the control valve 141 through a differential pressure pipe 153. A front end valve 151 and a rear end valve 152 are installed at the front end and the rear end of the differential pressure gauge 150, respectively.

An elevating cylinder 170 may be installed on the main body 110 (see FIG. 4). The lifting cylinder 170 connects and disconnects the gas meter 10 to and from the gas meter connector 160 by the lifting operation. That is, when the gas meter 10 is mounted on the main body 110 to check the leakage of the gas meter 10, the elevating cylinder 170 rises to connect the gas meter 10 to the gas meter connecting part 160. When the gas meter 10 is connected to the gas meter connection 160 to check the leakage of the gas meter 10, the lift cylinder 170 presses the gas meter 10 with a strong force, ) Does not occur.

When the leakage inspection of the gas meter 10 is completed, the lifting cylinder 170 descends to separate the gas meter 10 from the gas meter connector 160. The operation of connecting and disconnecting the gas meter 10 to and from the gas meter connector 160 by the lifting cylinder 170 can be easily and automatically performed.

The leakage inspection apparatus 100 of this embodiment can inspect several gas meters 10, for example eight at a time. The control valve 141, the differential pressure gauge 150, the front-end valve 151, the rear-end valve 152, and the gas meter connection unit 160 are provided in a plurality of connection pipes 140 . During inspection of the leakage of the gas meter 10, each of the inspection information of eight units may be output to the display 101.

5 is a view sequentially showing a leakage testing method of a gas meter according to an embodiment of the present invention. Hereinafter, a method of inspecting leakage of the gas meter 10 using the leakage inspection apparatus 100 of the present embodiment will be described with reference to Figs. 2 to 5. Fig.

First, the gas source connection portion 120 is connected to the gas source. When the first valve 135 is opened in this state, the gas flows into the gas tank 130 from the gas source. At this time, the gas pressure supplied from the gas source is decompressed through the regulators 121 and 122 and enters the gas tank 130. The gas pressure passing through the regulators 121 and 122 and entering the gas tank 130 may be, for example, 75 kPa. When a predetermined time has elapsed, the three gas tanks 130 are filled with the gas supplied from the gas source (S10).

The gas in the gas tank 130 flows into each of the gas meters 10 connected to the gas meter connection part 160 through the connection pipe 140 with the second valve 136 and the control valve 141 opened The gas meter 10 is filled with gas (S20). At this time, in order to protect the differential pressure gauge 150, the front end valve 151 and the rear end valve 152 provided at the front and rear ends of the differential pressure gauge 150 are closed. The gas is supplied until the pressure of the gas meter 10 becomes equal to the pressure of the gas tank 130 which becomes the reference pressure, that is, the pressure of the gas meter 10 becomes 75 kPa.

Next, when the pressure of the gas tank 130 becomes equal to the pressure of the gas meter 10, the front-end valve 151 and the rear-end valve 152 connected to the differential pressure gauge 150 are periodically And gradually opens for a time (for example, 20 seconds) (S30). Next, the pressure and the temperature of the gas meter 10 subjected to the compression process are awaited for a certain time (for example, 20 seconds) so as to be stabilized.

Next, the control valve 141 is gradually closed for a predetermined time (for example, 20 seconds) (S40).

Next, after waiting for a predetermined period of time (for example, 20 seconds), the differential pressure between the gas tank 130 and the gas meter 10 is measured using the differential pressure gauge 150 to determine whether leakage has occurred (S50). At this time, the pressure on the front end side (+ side) of the differential pressure gauge 150 becomes the reference pressure as the pressure provided from the gas tank 130, and the pressure on the rear end side (- As the pressure supplied from the pressure sensor.

It is judged that there is leakage when the differential pressure becomes equal to or higher than the judgment standard (for example, 10 Pa) for a predetermined time (for example, 30 seconds) All of these processes are automated and data displayed by the differential pressure gauge 150, passing or failing of the gas meter 10, and the number of failed gas meters 10 are also displayed on the display 101 by the program, Inspection information can also be databaseized by a program.

When the measurement of the leakage of the gas meter 10 is completed, the discharge valve 145 may be opened to discharge the gas in each gas meter 10. [

As described above, according to the leakage testing apparatus 100 of the present invention, the connection pipe 140 branched into a plurality of pipes and the differential pressure gauge 150 connected in parallel to each of the connection pipes 140 are used to connect the respective gas meters 10 of the gas meter 10 can be leak-tested at a time. The operation of connecting and disconnecting the gas meter 10 to and from the gas meter connector 160 can be performed automatically by the lifting cylinder 170.

The leak test of the gas meter 10 is performed automatically by measuring the pressure at the front end of the differential pressure gauge 150 serving as the reference pressure and the differential pressure at the rear end of the differential pressure gauge 150 serving as the measurement pressure. . At this time, the pressure at the front end of the differential pressure gauge 150 becomes the pressure of the gas tank 130 which becomes the reference pressure, and the pressure at the rear end of the differential pressure gauge 150 becomes the pressure of the gas meter 10 which becomes the measurement pressure.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

10: Gas meter
100: Gas meter leakage inspection system
101: Display
102:
110:
120: gas source connection
121, 122: regulator
130: Gas tank
135: first valve
136: Second valve
140: Connection piping
141: Regulating valve
145: Discharge valve
150: Differential pressure gauge
151: Shear valve
152: rear end valve
153: Differential pressure piping
160: Gas meter connection

Claims (6)

A gas meter leakage test apparatus comprising:
A gas source connection for connection to a gas source;
A gas tank connected to the gas source connection and having a constant volume;
A gas meter connection part connected to the suction part and the discharge part of the gas meter;
A connection pipe connecting the gas tank and the gas meter connection portion;
A differential pressure meter connected in parallel with the connection pipe;
A front end valve and a rear end valve provided at the front end and the rear end of the differential pressure meter, respectively;
A control valve installed in the connection pipe and connected in parallel with the differential pressure meter;
Lt; / RTI >
Wherein the connection pipe is branched into a plurality of pipes,
Wherein the differential pressure meter is connected in parallel to each of the branched connection pipes. delete The method according to claim 1,
When the gas meter is filled with gas, the control valve is opened,
Wherein when the leakage of the gas meter is inspected, the control valve is closed, and the front-end valve and the rear-end valve are opened. The method according to claim 1 or 3,
An elevating cylinder for connecting and disconnecting the gas meter to and from the gas meter connecting portion by an elevating operation;
Further comprising: a gas meter; The method according to claim 1 or 3,
A first valve and a second valve respectively installed at the front end and the rear end of the gas tank;
Further comprising: a gas meter; delete

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