KR102008889B1 - Gas Meter Performance Tester - Google Patents

Abstract

The present invention relates to a gas meter performance tester apparatus, comprising: a pressure supply unit (100) with an overall structure of a tube to use compressed air and to supply a pressure which meets a gas meter testing condition; a flow rate measuring unit (200) with an overall structure of a tube to be connected to an end unit on an exit side of the pressure supply unit (100) and to measure the flow rate, pressure, and temperature of the compressed air which passes through; a sample mounting unit (300) with an overall structure of a tube to be connected to an end unit on an exit side of the flow rate measuring unit (200) and to mount a gas meter; a flow rate adjustment unit (400) with an overall structure of a tube to be connected to an end unit on an exit side of the sample mounting unit (300), to be connected in parallel to a plurality of flow rate adjustment valves (88), and to set a flow rate at a value which meets the measurement range; and a test control unit (500) which generates and transmits a control command needed for operating the pressure supply unit (100), the flow rate measuring unit (200), the sample mounting unit (300), and the flow rate adjustment unit (400) to receive and store the measured data. The present invention aims to provide a gas meter performance tester apparatus which is able to perform tests and evaluations of various items to be evaluated.

Description

Gas Meter Performance Tester {Gas Meter Performance Tester}

The present invention relates to a device for testing and evaluating the performance of a gas meter, and is characterized in that various test evaluations, such as a flow blocking performance, a micro-leak detection performance, an airtight performance, and durability, are possible.

The gas meter cannot measure accurately unless its precision and reliability are ensured. Therefore, it is necessary to test and evaluate the performance in various ways.

These performance test evaluations are made according to evaluation items such as flow shutoff performance, microleakage detection performance, airtightness performance and durability. If a device is developed that can perform all of these test evaluation items with a gas meter installed, Test evaluation can be made more conveniently and quickly.

According to the publication of Korean Patent Publication No. 10-1999-0009935, which is related to the performance test of a gas meter, a flow meter (2) and a reference meter (3) are positioned on a test bench (1), and a manometer (4) and a counter are positioned thereon. (5) and thermometer 12 are placed and the inspection meter 10 to be inspected is placed on the bench 1 and inside the bench 1 a computer 6, a blower 7, a printer 8 and a battery ( 9) is positioned so that the battery (9) supplies the necessary power to the various devices through the inverter (11) stably and can be charged when moving the vehicle and the blower (7) is suction-type air in the piping of the mechanism part The flow meter (2) controls the test flow rate constantly and accurately supplies the standard flow rate for each class according to KS industry standard, and the reference meter (3) compensates the error value to the inspection meter and pulses the flow rate. Generate and transmit, and the manometer (4) The pressure of the quasi-meter (3) and the inspection meter (10) is represented by the liquid column, and the counter (5) receives the flow rate of the reference meter (3) in pulses, measures the inspection meter, and the thermometer (12) measures the reference meter (3). The flow rate temperature and the temperature of the inspection meter 10 are displayed and calibrated. The computer 6 runs the built-in inspection data program under a window environment, and the printer 8 outputs the test results automatically. An inspection apparatus is described, and in the publication of Korean Patent Publication No. 10-2000-0001136, a compressor 10 for supplying air of a constant pressure; A cooling and dryer control unit 20 connected to the compressor and configured to control the air supplied from the compressor to be applied to the reference meter unit 40 while maintaining the conditions of constant temperature and constant humidity; A main body pipe part 50 connected to the reference meter part 40 and including a pipe 52 for supplying air supplied from the reference meter part 40 to each gas meter 60; A camera (70) installed by the jig to be rotatable in the vicinity of the gas meter (60) mounted to be in series with the pipe (52) of the main body pipe portion (50); A flow control valve 90 for controlling the amount of air flowing through the pipe 52; PLC which is connected to the reference meter unit 40 and the main body piping unit 50 and displays the temperature value and the pressure value of air flowing through the reference meter unit 40 and the main body piping unit 50 on the display unit 84. Although an automatic gas meter performance inspection apparatus is described, which is connected to the unit 80 and the PLC unit 80, and is composed of a PC 82 in which an image recognition algorithm, a PSI control program, and a data management program are embedded, There is a limitation in that it is not possible to evaluate the various evaluation items in the equipped state.

In addition, Korean Patent Laid-Open Publication No. 10-2009-0051992 discloses a cover 1, a wheel and a fixed base 2 installed below the cover 1, an intermediate plate 3 installed inside the cover 1, A gas meter fixing device (C) provided at the upper and lower portions of the intermediate plate (3), an upper plate (4) installed at regular intervals on the upper portion of the intermediate plate (3), and a measurement provided at the upper and lower portions of the upper plate (4) And a gas injection pipe (5, 5`) installed perpendicularly to both ends of the upper plate (4) and the intermediate plate (3), the measuring pipe (B) is the lower middle one side It is installed through the upper plate 4, the upper portion of the upper plate (4) and the fixed tube 100, the upper side of the fixed tube 100 is installed to extend to the outside and a plurality of rings 108 at the end The fixed connection pipe 103 is provided, and the fixed connection pipe 103 is connected in the form of interpolation, the movement is provided with a mobile connection pipe 112 installed to extend to the outside on one side (110) and the moving tube 110 wraps around the moving tube 110 in the lower portion of the moving tube 110, and four frames are formed in a rectangular shape, and the fixing tube 100 and the upper portion of the moving tube 110. Installed pressure valve and gauge (105, 115), and the lower portion of the fixed pipe 100 and the moving pipe 110 is installed through the upper plate (4) and comprises a gas meter connection part (109, 119) connected to the gas meter (A) Although it is possible to measure gas meters of various standards, there are limitations in that various evaluation items cannot be tested.

[Preceding technical literature]

Patent Publication No. 10-1999-0009935

Patent Publication No. 10-2000-0001136

Patent Publication No. 10-2009-0051992

The present invention created to solve the above problems provides a gas meter performance test evaluation apparatus of a new concept capable of performing test evaluation for various evaluation items while selecting a measurement range in the state equipped with a plurality of gas meters. For the purpose of.

Technical composition of the present invention created to achieve the above object is as follows.

The present invention relates to a gas meter performance test and evaluation apparatus, comprising: a pressure tube (100) for supplying a pressure suitable for a gas meter test condition using compressed air as a structure composed entirely of tubes; A structure consisting entirely of a tube and connected to an outlet end of the pressure supply part 100 and measuring a flow rate, pressure, and temperature of the compressed air passing therethrough; A sample mounting part 300 having a structure formed entirely of a tube and connected to an outlet end of the flow rate measuring part 200 and for mounting a gas meter; It is composed of a tube (tube) as a whole, is connected to the outlet end of the sample mounting portion 300, a plurality of flow control valve 88 is connected in parallel to the flow rate adjusting unit for setting the flow rate to a value suitable for the measurement range 400; And generating and transmitting a control command necessary for the operation of the pressure supply part 100, the flow rate measuring part 200, the sample mounting part 300, and the flow rate adjusting part 400, and receiving the measured data. It is characterized in that it comprises a; test control unit 500 to store.

Technical effects according to the configuration of the present invention are as follows.

First, the sample mounting unit 300 may improve the reliability of the gas meter performance evaluation data by measuring pressure at each of the front and rear ends of the sample in a state in which a plurality of gas meters (samples) are mounted in series.

Second, an electronic flow meter 55 is provided in each of the flow rate measuring part 200 and the flow rate adjusting part 400 connected to each of the front and rear ends of the sample mounting part 300 to check the flow rate of the gas meter to check the micro flow rate. It can improve the reliability.

Third, flow control valves 88 having different pressure control ranges are provided for each branch pipe of the flow control unit 400 so that continuous test evaluation can be performed while appropriately adjusting the flow rate as necessary.

Fourth, even without supplying compressed air from the outside, a blower 610 may be provided to generate compressed air by itself and perform a durability test, and if necessary, the compressed air discharged from the flow controller 400 may be subjected to the durability test. Energy can be saved by recycling the required compressed air.

1 is a block diagram showing the overall configuration of the present invention.
2 shows a structure of a pressure supply part 100 constituting the present invention.
Figure 3 shows the structure of the flow rate measuring unit 200 constituting the present invention.
4 illustrates a structure of a sample mounting part 300 constituting the present invention.
5 shows a structure of a flow control unit 400 constituting the present invention.
6 shows the structure of the durability test unit 600 constituting the present invention.
7 shows the structure of a large flow rate test part 700 constituting the present invention.

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

The present invention relates to a gas meter performance test evaluation apparatus, and as shown in FIG. 1, the pressure supply unit 100, the flow rate measurement unit 200, the sample mounting unit 300, the flow rate control unit 400, and the test control unit 500. It is configured to include a durability test unit 600, the rest of the configuration except the test control unit 500 is a structure consisting of a tube (tube) as a whole, designed in a straight form in which the bent or narrowed portion is removed as much as possible the sharp temperature Changes or changes in pressure can be minimized.

The pressure supply unit 100 is composed of a tube as a whole, and serves to supply pressure suitable for the test conditions of the gas meter using compressed air.

As shown in FIG. 2, the pressure supply unit 100 is provided with a branch pipe having a parallel structure which is branched into two pipes and then merged. Each branch pipe forming the parallel structure has a flow path selection valve 11 for opening and closing a flow path. It is provided.

Although not shown separately in the accompanying drawings, it may be a parallel structure provided with two or more branch pipes.

The first regulator 110 is provided at the inlet side of the pressure supply unit 100 to perform a function of primarily adjusting the pressure of the compressed air passing through the first regulator 110, and passes through the first regulator 110 in a pressure range of 5 to 70 KPa. It can be adjusted first.

The second regulator 120 is provided in one of the branch pipes forming a parallel structure to perform a secondary control function of the pressure of the compressed air passing therethrough, while passing through the second regulator 120 in a pressure range of 0.5 to 5 KPa. Can be second ordered.

The automatic valve 130 is provided on the outlet side of the pressure supply unit 100 to automatically open and close the flow path according to the control command of the test control unit 500, and in units of days, hours and minutes according to the control command of the test control unit 500. Opening and closing can be controlled at preset intervals.

It is possible to select a branch pipe through which compressed air passes by opening or closing each of the flow path selection valves 11 provided in the pressure supply unit 100. When the branch pipe without the second regulator 120 is opened (another branch) The engine is closed) When the pressure of the compressed air passing through only the first regulator 110 is adjusted (pressure range 5 to 70 KPa), and the branch pipe provided with the second regulator 120 is opened (the other branch pipe is closed). After first adjusting the pressure of the compressed air with the first regulator 110, the second regulator 120 (second pressure range 0.5 to 5KPa) is possible.

The inlet side of the pressure supply part 100 is provided with a flow path selection valve 11 to remove foreign substances contained in the air introduced therein.

The flow rate measuring part 200 is connected to the outlet end of the pressure supply part 100 and has a configuration as shown in FIG. 3.

The flow rate measuring unit 200 measures the flow rate, pressure, and temperature of the compressed air passing through as a structure composed entirely of tubes.

The flow rate measuring unit 200 is provided with a branching pipe having a parallel structure which is branched into three tubes and then merged as shown in FIG. 3, and each branch pipe forming the parallel structure has a flow path selection valve 11 for opening and closing a flow path. Is provided.

Although not shown separately in the accompanying drawings, it may be a parallel structure provided with three or more branch pipes.

The inlet side of the flow measuring unit 200 is provided with a pressure transmitter 33 for measuring the pressure of the compressed air passing through the test control unit 500, the temperature of the compressed air passing through the outlet side of the flow measuring unit 200 Is provided with a temperature transmitter 44 for measuring and transmitting to the test control unit 500.

Each branch pipe forming the parallel structure is provided with an electronic flow meter 55 for measuring the flow rate of the compressed air passing through the test pipe 500 to the test control unit 500.

Electronic flowmeters 55 provided in each branch pipe can be used to select a suitable electronic flowmeter 55 according to the measurement range of the flow rate by applying a product having a different measurement range, each 0.012 in a specific embodiment of the present invention The flow rate in the range of 0.012 to 25 Nm ³ / h can be measured using an electronic flowmeter 55 that can measure up to Nm ³ / h, 012Nm ³ / h, 25Nm ³ / h.

Flow control valve 88 for adjusting the flow rate of the compressed air passing through may be provided in some of the branch pipes forming a parallel structure.

The branch pipe to which compressed air passes is determined by opening / closing each of the flow path selection valves 11, and when the branch pipe without the flow control valve 88 is opened (all the other branch pipes are closed), the flow measuring unit ( Compressed air introduced into the 200 is passed through the sample supply unit 300 is supplied as it is, and when the branch pipe provided with the flow control valve 88 is opened after adjusting the flow rate of the compressed air with the flow control valve 88 The sample mounting unit 300 may be supplied.

The sample mounting unit 300 is configured as shown in FIG.

The sample mounting part 300 has a structure composed entirely of a tube, and is connected to an outlet end of the flow rate measuring part 200, and is equipped with a gas meter.

As shown in Fig. 4, the gas meter is mounted such that a plurality of gas meters are connected in series so that the test evaluation can be performed at the same time.

A pressure transmitter 33 is provided at each of the inlet side and the outlet side of the sample mounting unit 300 to measure the pressure of the compressed air passing therethrough, and to transmit the pressure to the test control unit 500. The pressure transmitter provided at each of the inlet side and the outlet side is provided. A plurality of gas meters can be installed in series between (33) to measure and compare the pressure before and after passing the gas meter, and to test the micro flow leakage more accurately to improve the reliability of performance evaluation.

The connecting jig equipped with the gas meter (sample) is manufactured to connect the sample of 15A to 25A, which is the standard of the gas connector.

In addition, so that the gas meter (sample) is also not installed by removing the compressed air pressure in the measuring apparatus the shut-off valve 77 at the respective side end portions in the state in which the mounting portion can smoothly replace the sample.

In addition to the pressure transmitter 33, a plurality of pressure gauges 66 having different measurement ranges (for example, 10 KPa and 100 KPa) are provided at each of the inlet and outlet sides of the sample mounting unit 300, so that the pressure of the compressed air is visible to the naked eye. can confirm.

Flow control unit 400 is configured as shown in FIG.

Flow control unit 400 is a structure consisting of a tube (tube) as a whole, is connected to the outlet end of the sample mounting unit 300, a plurality of flow control valve 88 is connected in parallel to the value suitable for the measurement range It plays a role of setting.

The flow rate control unit 400 is provided with a branching pipe of a parallel structure that is branched into a plurality of pipes and merged, each branch pipe forming a parallel structure flow path selection valve 11 for opening and closing the flow path, the flow rate of the compressed air passing through It is provided with an electronic flow meter 55 for measuring and transmitting to the test control unit 500, and a flow control valve 88 for adjusting the flow rate of the compressed air passing through.

The electronic flowmeter 55 and the flow control valve 88 are provided with different measuring ranges and pressure adjusting ranges for each branch pipe, and the branch pipes suitable for the measurement range are selected and compressed by opening or closing the flow path selection valve 11. It can be used as a passage of air, in a specific embodiment of the present invention shown in Figure 5 it is possible to test the flow rate in the range of 0,002 to 33Nm ³ / h through a total of six branch pipes.

In addition, a plurality of pressure gauges 66 having different measurement ranges (for example, 10 KPa and 100 KPa) are provided at the inlet side of the flow control unit 400, so that the pressure can be directly checked by the naked eye.

The test control unit 500 generates and transmits a control command necessary for the operation of the pressure supply unit 100, the flow measurement unit 200, the sample mounting unit 300, and the flow control unit 400, and receives the measured data. It serves to store.

In a specific embodiment of the present invention, the received data is collected in the GRAPHTEC's radar logger (GL240) to correct the volume of the gas and record the flow rate and flow rate in real time. You can check the stored data using the dedicated software (GL100 240 840Mn) by connecting it to a separate PC and graph it on the built-in display. The data collection cycle is from 0,01 seconds to 1 hour interval. In addition, the automatic valve opening and closing of the pressure supply unit 100 may be controlled through a timer.

The durability test unit 600 is configured as shown in FIG.

The durability test unit 600 may be provided with only one line, as shown in Figure 6, may be provided in parallel with a plurality of lines capable of different flow rate tests.

That is, 1.7Nm ³ / h at a maximum at 16Nm ³ / h of the flow test the possible lines and 5.7Nm ³ / h the flow rate test is possible line up to 40Nm ³ / h is provided in parallel operation to the line as required You may.

Durability test unit 600 is a structure consisting entirely of a tube (tube), as shown in Figure 6 may be connected to the outlet side end of the flow control unit 400. The durability test unit 600 may be manufactured in a separate line in some cases irrespective of the flow rate measuring unit 200.

In this case, the outlet side end of the flow control unit 400 is divided into two branch pipes as shown in FIG. 5, and each branch pipe is provided with a flow path selection valve 11 for opening and closing a flow path. Each opening and closing determines the branch pipe through which compressed air passes.

One of the branch pipes divided into two is a passage for discharging the compressed air to the outside, the other is connected to the durability test unit 600.

The durability test unit 600 is divided into two branch pipes at the inlet side, one of the divided branch pipes is a passage through which the outside air is directly introduced, and the other one of the outlet branch pipes of the flow control unit 400. Connected with the other.

When connected to the flow control unit 400 as described above it is possible to recycle the compressed air discharged from the flow control unit 400 to the durability test as needed.

The blower 610 is installed in the branch pipe in which the outside air is directly introduced from the inlet side branch pipe of the durability test unit 600 serves to generate and supply compressed air by itself (flow generating device). The type and size of the blower 610 are not specifically limited, and any product capable of generating sufficient flow for the durability test may be freely selected. In the present invention, a product having a suitable standard among ring blowers currently commercialized may be selected. Selected.

At the outlet side of the durability test unit 600, an electronic flow meter 55 for measuring the flow rate of the compressed air passing through the test control unit 500 and a flow control valve 88 for controlling the flow rate of the compressed air passing therethrough are provided. In a specific embodiment of the present invention, an electronic flow meter 55 capable of measuring a flow rate in the range of 6 to 50 Nm ^{3 /} h was used.

The gas meter (sample) is mounted so that a plurality of gas meters (samples) are connected in series between the blower 610 and the electronic flow meter 55, and the durability test is performed.

7 can be composed of a large flow rate test section 700, a pressure supply unit, the flow rate measurement unit and a flow control unit coupled to the possible flow rate of up to 70Nm ³ / h at 0.5Nm ³ / h test line that illustrates the structure of .

The large flow rate test part 700 is designed in a straight line shape by eliminating the bending or narrowing portion as much as possible to minimize the sudden change in temperature or the change in pressure.

The gas meter (sample) is installed between the flow measurement part and the flow control part. The gas connector is connected from 25A to 40A.

As described above, specific embodiments of the present invention have been described with reference to the accompanying drawings, but the scope of protection of the present invention is not necessarily limited to these embodiments, and various design changes and disclosures are made without departing from the technical spirit of the present invention. In the case of addition or deletion of technology, and simple numerical limitations, the scope of the present invention is clearly clarified.

11: Euro selector valve
22: air filter
33: pressure transmitter
44: temperature transmitter
55: electronic flowmeter
66: pressure gauge
77: shut-off valve
88: flow control valve
100: pressure supply
110: first regulator
120: second regulator
130: Automatic valve
200: flow measurement unit
300: sample attachment part
400: flow rate control unit
500: test control unit
600: Durability test part
610: a blower
620: flow control valve
700: large flow rate test part

Claims (7)

Regarding the gas meter performance test evaluation apparatus,
A pressure supply unit 100 having a structure composed entirely of a tube and supplying a pressure suitable for a gas meter test condition using compressed air;
A structure consisting entirely of a tube and connected to an outlet end of the pressure supply part 100 and measuring a flow rate, pressure, and temperature of the compressed air passing therethrough;
A sample mounting part 300 having a structure formed entirely of a tube and connected to an outlet end of the flow rate measuring part 200 and for mounting a gas meter;
It is composed of a tube (tube) as a whole, is connected to the outlet end of the sample mounting portion 300, a plurality of flow control valve 88 is connected in parallel to the flow rate adjusting unit for setting the flow rate to a value suitable for the measurement range 400;
To generate and transmit a control command necessary for the operation of the pressure supply unit 100, the flow rate measuring unit 200, the sample mounting unit 300, and the flow rate control unit 400, and to receive and store the measured data Test control unit 500; And,
It is made of a tube (tube) as a whole, the durability test unit 600 is connected to the outlet side end of the flow control unit 400;
Consists of including
The pressure supply unit 100,
It is provided with a parallel branching pipe branched into a plurality of pipes and merged,
Each branch pipe forming a parallel structure is provided with a flow path selection valve 11 for opening and closing the flow path,
A first regulator (110) provided at the inlet side of the pressure supply part (100) to primarily control the pressure of the compressed air passing therethrough;
A second regulator 120 which is provided at a part of the branch pipes forming a parallel structure and controls the pressure of the compressed air passing through the second pipe; And,
An automatic valve 130 provided at an outlet side of the pressure supply part 100 to open and close a flow path according to a control command of the test control part 500;
Consists of including,
Determine branch pipes through which compressed air passes through whether the flow path selection valves 11 are opened or closed,
When the branch pipe is not provided with the second regulator 120 is opened to adjust the pressure of the compressed air passing through only the first regulator 110,
When the branch pipe provided with the second regulator 120 is opened, the pressure of the compressed air is first adjusted by the first regulator 110, and then the second regulator 120 may be secondarily adjusted.
The flow measurement unit 200,
It is provided with a parallel branching pipe branched into a plurality of pipes and merged,
Each branch pipe forming a parallel structure is provided with a flow path selection valve 11 for opening and closing the flow path,
At the inlet side of the flow measurement unit 200 is provided with a pressure transmitter 33 for measuring the pressure of the compressed air passing through the test control unit 500,
An outlet side of the flow rate measuring unit 200 is provided with a temperature transmitter 44 for measuring the temperature of the compressed air passing through the test control unit 500,
Each branch pipe forming a parallel structure is provided with an electronic flow meter (55) for measuring the flow rate of the compressed air passing through the test control unit 500,
It is provided with a flow rate control valve 88 for adjusting the flow rate of the compressed air passing through some of the branch pipes forming a parallel structure,
Determine branch pipes through which compressed air passes through whether the flow path selection valves 11 are opened or closed,
When the branch pipe which is not provided with the flow control valve 88 is opened, the compressed air introduced into the flow measuring unit 200 passes as it is,
When the branch pipe provided with the flow control valve 88 is opened, the flow rate of the compressed air can be adjusted by the flow control valve 88,
The sample mounting unit 300,
A pressure transmitter 33 for measuring the pressure of the compressed air passing through each of the inlet side and the outlet side of the sample mounting unit 300 and transmits it to the test control unit 500,
A plurality of gas meters are mounted in series between the pressure transmitters 33,
The flow control unit 400,
It is provided with a parallel branching pipe branched into a plurality of pipes and merged,
In each branch pipe forming a parallel structure,
Flow path selection valve 11 for opening and closing the flow path,
Electronic flowmeter 55 for measuring the flow rate of the compressed air passing through the test control unit 500, and
Is provided with a flow control valve 88 for adjusting the flow rate of the compressed air passing through,
The electronic flow meter 55 and the flow control valve 88 are provided with a different measuring range and pressure control range for each branch pipe, the branch pipe suitable for the measurement range by opening or closing each of the flow path selection valve (11). Can decide,
The outlet side end of the flow control unit 400 is divided into two branch pipes,
One of the divided branch pipe is a passage for discharging the compressed air to the outside, the other is connected to the durability test unit 600,
Branch pipes for passing the compressed air are determined by opening or closing each of the flow path selection valves 11,
The inlet side end of the durability test unit 600 is divided into two branch pipes, each branch pipe is provided with a flow path selection valve 11 for selecting a flow path,
One of the divided branch pipes is a passage through which outside air is directly introduced, and the other one is connected to the other one of the outlet branch pipes of the flow control unit 400.
The blower 610 which generates and supplies compressed air by itself is provided in the branch pipe into which outside air is directly introduced among the branch pipes of the inlet side branch of the durability test unit 600.
At the outlet side of the durability test unit 600, an electronic flow meter 55 for measuring the flow rate of the compressed air passing through the test control unit 500, and a flow control valve 88 for adjusting the flow rate of the compressed air passing therethrough. Is provided,
Gas meter performance test and evaluation device, characterized in that the blower (610) and the electronic flow meter (55) is mounted so that a plurality of gas meters to be tested for durability is connected in series. delete delete delete delete delete delete

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