KR20060014513A - Inspecting device of error for diaphragm type gas-meter - Google Patents

Abstract

The present invention relates to a train inspection apparatus for a dry gas meter, and more particularly, to maintain the expanded uncertainty more precisely when inspecting a train (ERROR) of a gas meter, and to provide a plurality of gas meters based on the principle of a sonic nozzle. The present invention relates to a train inspection apparatus for a dry gas meter configured to inspect at the same time in real time.

An object of the present invention is to minimize the flow rate of gas during the train inspection of a dry gas meter, and to automatically adjust the flow rate, and also to test a number of dry gas meters at a time to improve the efficiency dry gas meter To provide a train inspection system.

In order to achieve the above object, the present invention provides a plurality of filters (2) and dryers (3) and a filter (2) and a dryer (3) installed to remove moisture and foreign matter from the air generated by the air compressor (1). Tank 4 for storing the air purified by 3), and is installed to maintain a low pressure and flow rate of the gas supplied from the tank 4, the supply means and the gas passed through the control means And a supply pipe arranged in parallel so that the gas passing through the sonic nozzle 5 and the sonic nozzle 5 installed to form a reference pressure are supplied to the plurality of dry gas meters G through the valve 6 ( 7), the pressure sensor 9, the differential pressure sensor 10, the temperature sensor 11, which are provided to detect the pressure, the differential pressure, and the temperature from the pressure gauges and thermometers of the above-described dry gas meter G, and the aforementioned various types. Check the flow rate of the dry gas meter (G) by the data from the sensor. It is outside the reference range, characterized in that it consists of a surface defect computer 8 installed to the diagnosis.

Gas Meter Inspection System, Dry Gas Meter

Description

Train inspection device for dry gas meter {INSPECTING DEVICE OF ERROR FOR DIAPHRAGM TYPE GAS-METER}

1 is a block diagram showing a train inspection apparatus of a dry gas meter according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: air compressor 2: filter

3: dryer 4: tank

5: Sonic Nozzle 6: Valve

7: plumbing 8: computer

9: pressure sensor 10: differential pressure sensor

11: temperature sensor 12: regulator

13: Flow control valve 14: Automatic regulator

G: Dry Gas Meter

The present invention relates to a train inspection apparatus for a dry gas meter, and more particularly, to maintain the expanded uncertainty more precisely when inspecting a train (ERROR) of a gas meter, and to provide a plurality of gas meters based on the principle of a sonic nozzle. The present invention relates to a train inspection apparatus for a dry gas meter configured to inspect at the same time in real time.

In general, the gas meter for measuring the flow rate of the gas is divided into dry and wet bar, the dry gas meter is provided with a diaphragm in the metering chamber, the inlet and outlet on both sides of the diaphragm and the inlet and And to measure the vibration of the diaphragm by the pressure difference at the outlet.

That is, the diaphragm installed in the metering chamber converts the vibration caused by the pressure difference between the gas inlet and the outlet into a mechanical device to indicate the amount of gas used.

The dry gas meter is widely used for home use and is configured to detect a flow rate of about 1.5-100 ㎥ / h. The dry gas meter is used as a train (ERROR) inspection device at regular intervals to secure the reliability of the dry gas meter. Will be checked.

That is, the dry gas meter should be calibrated according to the use temperature, pressure, flow rate, etc. at the use position of the dry gas meter, for which the train inspection device is used.

In general, the train inspection apparatus performs a test using a wet gas meter. When performing the inspection, the gas is constantly regulated when the gas passes through the wet gas meter, and the gas is constantly regulated. To be supplied to the dry gas meter.

When the gas is constantly supplied to the dry gas meter, the diaphragm of the dry gas meter is vibrated by the pressure difference between the inlet and the outlet, and by measuring this, the train of the dry gas meter is examined.

Here, the structure of a wet gas meter is typically filled with water in a cylindrical drum about half, and then supplying a gas with a pressure higher than the outlet pressure to the inlet to indicate the flow rate as the drum rotates, accurate and less train variation Because of its advantages, it is used to provide a reference pressure when inspecting a dry gas meter train.

However, as described above, when the reference pressure of the gas supplied to the dry gas meter is supplied to the wet gas meter, the flow rate of the gas supplied to the dry gas meter cannot be changed or controlled automatically. As the proficiency of the city worker becomes very important, there is a problem that the reliability of the train inspection becomes inaccurate depending on the worker.

In addition, the wet gas meter is not only inconvenient to move it to the installation site of the dry gas meter because it is very bulky and heavy weight, it is also difficult to maintain and check the dry gas meter.

In addition, when a wet gas meter is used as a reference pressure, only one dry gas meter can be inspected for a train, so there is a problem in that a lot of time required for train inspection is unnecessarily wasted.

Accordingly, an object of the present invention is to solve the above problems, while minimizing the flow rate of the gas during the inspection of the dry gas meter and to automatically adjust the flow rate, it is possible to inspect a plurality of dry gas meters at once. The present invention provides a train inspection apparatus for a dry gas meter, which improves efficiency.                         

In order to achieve the above object, the present invention provides a plurality of filters and dryers installed to remove moisture and foreign matter from the air generated by the air compressor, a tank for storing the air purified by the filter and the dryer, and It is installed to keep the pressure and flow rate of the gas supplied from the tank low, the adjusting means, a sonic nozzle installed so that the gas passing through the adjusting means is supplied to form a reference pressure, and the gas passing through the sonic nozzle is a valve Supply pipes arranged in parallel to be supplied to a plurality of dry gas meters through a pressure sensor, a pressure sensor, a differential pressure sensor, a temperature sensor installed to detect pressure, a differential pressure, and a temperature from the pressure gauges and thermometers of the plurality of dry gas meters; The flow rate of the dry gas meter is checked by data from various sensors, and if it is out of the reference range, it is read as defective. And it characterized in that it consists to that computer.

1 is a block diagram illustrating a train inspection apparatus for a dry gas meter according to the present invention, which includes an air compressor (1) for producing air of a constant pressure, and moisture and foreign matter in the air generated by the air compressor (1). A plurality of filters (2) and a dryer (3) installed to remove, a tank (4) for storing the air purified by the filter (2) and the dryer (3), and the tank (4) It is installed to maintain the pressure and flow rate of the gas within 1%, the sonic nozzle (5) and the sonic nozzle (5) installed so as to form a reference pressure by supplying the gas through the adjusting means, the gas passing through the adjusting means The supply pipe 7 arranged in parallel so that the gas (reference pressure) which has passed through is supplied to the plurality of dry gas meters G through the valve 6, and is installed on the plurality of dry gas meters G itself. Detects pressure, differential pressure and temperature from pressure gauges and thermometers It consists of pressure provided to transmit to the 8 sensor 9, the differential pressure sensor 10, temperature sensor 11.

Of course, the pressure sensor and the temperature sensor are also installed in the sonic nozzle 5 so as to measure the pressure and temperature of the gas supplied to the sonic nozzle 5 and transmit it to the computer 8.

The regulating means includes a regulator 12 for maintaining a constant pressure of the gas discharged from the tank 4, a flow regulating valve 13 for adjusting the flow rate while the gas passing through the regulator 12 passes therethrough, It consists of an automatic regulator 14 connected to automatically adjust the pressure flow rate of the gas passing through the flow control valve (13).

That is, the flow rate of the gas flow rate passing through the flow control valve 13 by the automatic regulator 14 in a state in which the predetermined flow rate is set to pass through the flow rate control valve 13 is automatically adjusted to within 1%. will be.

The sonic nozzle (brand name) 5 is a product developed in Korea, and is configured to maintain the flow rate within ㅁ 0.25% by allowing the fluid to flow at the speed of sound.

Of course, when the pressure and temperature measurement values by the various sensors 9, 10 and 11 are transmitted to the computer 8, the computer can output a calibration curve by a program input to the computer 8 in advance.

Referring to the operation and effect of the present invention as described above, when the gas in the state in which foreign matter and moisture is removed by the filter (2) and the dryer (3) is stored in the tank (4), the pipe to the sonic nozzle (5) Through (7) to install a plurality of dry gas meter (G) to be inspected.

When a plurality of dry gas meters G are installed, the pressure sensor 9, the differential pressure sensor 10, and the temperature sensor 11 connected to the computer 8 are installed therein. In this state, the tank 4 is installed. When the gas is discharged from), it passes through the regulator 12 and becomes a constant pressure.

When the gas which has become a constant pressure by the regulator 12 passes through the flow regulating valve 13, it is supplied to the sonic nozzle 5. As shown in FIG.

At this time, the automatic regulator 14 checks the flow rate of the gas passing through the flow regulating valve 13, so that the gas having a constant pressure has a constant flow rate (constant flow rate) by the automatic regulator 14. Will be inside).

That is, when the automatic regulator 14 automatically adjusts to within the set flow rate, when the gas having a constant pressure and a constant flow rate are supplied to the sonic nozzle 5, the flow rate at the sonic nozzle 5 is also very low, which is almost 0.25%. Will have a flow rate of.

As described above, when the flow rate of the gas is automatically adjusted within the flow rate set by the automatic regulator 14, the skilled worker does not need to adjust the flow rate as in the prior art, so that accurate inspection work is performed regardless of the skill of the operator. Will be.

When the flow rate in the sonic nozzle 5 passes at a very low rate, gas is supplied through the pipe 7 to each of the plurality of dry gas meters G via the valve 6.

When gas is supplied to the dry gas meter (G) through the pipe (7), the pressure, differential pressure, and temperature in the dry gas meter (G) are measured by the pressure sensor (9), the differential pressure sensor (10), and the temperature sensor (11) in real time. Is measured and transmitted to the computer 8.

Of course, the data from the various sensors are transmitted to the computer 8 via a predetermined interface, and the transmitted data is automatically calculated by pressure, differential pressure, and temperature by predetermined software built into the computer 8, and thus the flow rate is increased. Is calculated.

Here, if the flow rate of the dry gas meter (G) currently being inspected by the computer (8) is calculated, it is read as normal if it is within a predetermined range built into the computer (8), but if it is out of the range, the calibration target The buzzer will sound or a separate warning will be issued.

The range of the above-described calibration target will be about 0.006-7 m 3 / h, where the dry gas in the state where the flow rate of the gas is controlled very low by the automatic regulator 14 and the sonic nozzle 5 described above. The gas will be supplied to the meter G, so that the reliability of the train inspection of the dry gas meter G can be greatly improved.

That is, since the flow rate of the gas supplied to the dry gas meter (G) is extremely low, as a result it is possible to accurately check only the train of the dry gas meter (G) itself, bar inspection of the dry gas meter (G) Reliability is greatly improved.

In addition, since the gas supplied through the sonic nozzle 5 has a very low flow rate, the reliability of the inspection is not lowered even if a plurality of dry gas meters G are sequentially or simultaneously inspected through the pipe 7. If there is no failure of the dry gas meters G connected in parallel, approximately seven dry gas meters G can be inspected at the same time.

Of course, the computer 8 should be connected to seven sets of pressure, differential pressure, temperature sensors.

As described above, the present invention improves the train inspection reliability of the dry gas meter by increasing the flow rate of the gas supplied to the dry gas meter through an automatic regulator which constantly adjusts the flow rate of the sonic nozzle and the gas, and also a plurality of dry gas. The advantage is that you can inspect the meter at the same time.

Claims (2)

A plurality of filters and dryers installed to remove moisture and foreign matter from the air compressor, a tank for storing the air purified by the filter and the dryer, and a low pressure and flow rate of the gas supplied from the tank. The adjusting means, the sonic nozzle installed so as to supply a gas passing through the adjusting means to form a reference pressure, and the gas passing through the sonic nozzle are supplied to a plurality of dry gas meters through a valve. A dry gas meter by means of a supply pipe arranged at a pressure gauge, a pressure sensor, a differential pressure sensor, a temperature sensor, and data from the aforementioned various sensors, which are installed to detect pressure, differential pressure, and temperature from the pressure gauges and thermometers of the plurality of dry gas meters described above. It consists of a computer installed to check the flow rate of the reading if it is out of the standard range Dry gas meter train inspection system. The method of claim 1, The regulating means includes a regulator for keeping the pressure of the gas discharged from the tank constant, a flow regulating valve for adjusting the flow rate while the gas passing through the regulator passes, and a pressure flow rate of the gas passing through the flow regulating valve. Dry gas meter train inspection device, characterized in that consisting of an automatic regulator connected to automatically adjust the installation.

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