KR102041295B1 - Automatic intermittent operating system and method of city gas measuring equipment - Google Patents

Abstract

The present invention relates to a system and method for an automatic control operation of the city gas metering facility that can automatically intermittently operate the metering facility of the city gas supply control station in the intermittent operation by manual valve operation when measuring the supply quantity below the minimum flow rate.
According to an embodiment of the present invention, the high pressure gas is reduced to a low pressure to supply to the city gas supply management office, an integrated management device for monitoring the supply pressure for each city gas supply management office; And an operation control device installed for each city gas supply management station and managing a city gas flow rate for sending the city gas supplied from the integrated management device to a city gas demand destination defined for each city gas supply management station, wherein the operation control device includes: A flow rate measuring unit for measuring a city gas flow rate sent to the city gas demand destination, a pressure measurement unit for measuring a supply pressure of the city gas sent to the city gas demand destination, and a valve for controlling the flow rate of the city gas sent to the city gas demand destination And a control unit for controlling opening and closing of the valve according to whether the supply pressure measured by the pressure measuring unit is greater than or equal to a preset reference pressure when the flow rate measured by the flow measuring unit is less than or equal to the minimum flow rate. An automatic intermittent operation system of the metering facility is provided.

Description

AUTOMATIC INTERMITTENT OPERATING SYSTEM AND METHOD OF CITY GAS MEASURING EQUIPMENT}

The present invention relates to an automatic intermittent operation system and method of the city gas metering facility, and more particularly to the automatic intermittent operation of the metering facility of the city gas supply control station in the intermittent operation by manual valve operation when measuring the supply quantity below the minimum flow rate. The present invention relates to a system and method for automatic control of urban gas metering equipment.

As the number of small supply flow control stations in the construction increases due to the nationwide expansion of natural gas supply, the number of supply management stations where the supply quantity is lower than the designed flow rate is increased. If not, unmetered and weighing errors may occur. Therefore, the intermittent operation is performed manually by the station worker or the control station.

According to the line pack with the city gas company at each supply management office, there is a problem of the workers who need to keep an eye on the supply flow value for 24 hours as necessary for intermittent operation, and there is a problem that a supply pressure drop and an unmetered error may occur. have.

Conventionally, in case of automatic operation of the metering equipment of the constant pressure control station, it is automatically operated in order according to each capacity of the metering pipes A, B, and C according to the supply flow of the city gas company. There was no way.

In addition, when a small amount of water supply station is simultaneously supplied from a general management office that is in charge of the supply management station, a reverse metering phenomenon of the turbine flowmeter may occur when the main piping pressure is slightly reversed according to the consumption rise in each region.

Republic of Korea Patent Publication No. 2000-0009081 (2000.02.15) "Safety situation monitoring and analysis device of natural gas supply base"

SUMMARY OF THE INVENTION An object of the present invention is to provide an intermittent operation system and method for an urban gas metering facility that can automatically intermittently operate a metering facility of a city gas supply control station in an intermittent operation by manual valve operation when measuring a supply quantity below a minimum flow rate. .

According to an embodiment of the present invention for achieving the above object, the high-pressure gas is reduced to a low pressure to supply to the city gas supply management station, an integrated management device for monitoring the supply pressure for each city gas supply management station; And an operation control device installed for each city gas supply management station and managing a city gas flow rate for sending the city gas supplied from the integrated management device to a city gas demand destination defined for each city gas supply management station, wherein the operation control device includes: A flow rate measuring unit for measuring a city gas flow rate to be sent to the city gas demand destination, a pressure measurement unit for measuring a supply pressure of the city gas to be sent to the city gas demand destination, and a valve for controlling the flow rate of city gas to be sent to the city gas demand destination And a control unit for controlling opening and closing of the valve according to whether the supply pressure measured by the pressure measuring unit is greater than or equal to a preset reference pressure when the flow rate measured by the flow measuring unit is less than or equal to the minimum flow rate. An automatic intermittent operation system of the metering facility is provided.

The controller may be configured to apply a closing signal to the valve when the supply pressure is greater than or equal to the reference pressure and to apply an opening signal to the valve when the supply pressure is less than the reference pressure.

The valve may be a motor driven valve.

The integrated management device may remotely control the valve provided for each city gas supply management station by monitoring a flow rate and a supply pressure through the operation control device.

The integrated management device may determine a communication error and notify the controller when the supply pressure or flow rate received from the operation control device is the same value for a predetermined time.

According to another embodiment of the present invention, the high-pressure gas is reduced to low pressure to supply to the city gas supply management station, and the integrated management device for monitoring the supply pressure for each city gas supply management station, and installed for each city gas supply management station, A method using an automatic intermittent operation system of a city gas metering facility comprising an operation control device for managing a city gas flow rate to send a city gas supplied from an integrated management device to a city gas demand destination determined for each city gas supply control station. Receiving, by the operation control device, a supply pressure measured from a pressure measuring unit installed in a metering facility of the city gas supply management station when the received flow rate for each supply management station is less than or equal to the minimum flow rate; Determining, by the operation control device, whether the received supply pressure is equal to or greater than a preset reference pressure; And controlling, by the operation control device, a valve for controlling the supply of the pottery gas sent to the supply destination according to the determination result of the determining step.

The controlling may include controlling a closing signal to the valve when the supply pressure is greater than or equal to the reference pressure, and applying an opening signal to the valve when the supply pressure is less than the reference pressure.

According to the embodiment of the present invention, when the quantity of supply below the minimum flow rate is measured, there is an effect of automatically intermittent operation of the metering facility of the city gas supply control station in the intermittent operation by manual valve operation. Thus, unlike the automatic operation method in which the operation control device of the small-capacity supply control station is switched according to the existing supply flow rate, the automatic control operation can be performed smoothly by using the supply pressure currently being supplied, thereby improving the work efficiency and manual control of the workers. Stable weighing system can be operated by preventing supply pressure drop and unmetered value in advance.

In addition, according to an embodiment of the present invention by receiving the flow rate and supply pressure of the distribution centers scattered in several places from the integrated management device located at a remote location to enable the monitoring and control of multiple supply stations at once, additional manpower and equipment investment There are also significant savings.

In addition, according to an embodiment of the present invention by notifying the control unit of the communication error when the same value between the operation control devices or the pressure or flow rate for a predetermined time, by early time indicating the operating system error of the city gas metering equipment metering equipment It also has the effect of ensuring operational reliability.

1 is a configuration diagram for schematically illustrating an automatic control driving system of a city gas lagoon facility according to an embodiment of the present invention.
FIG. 2 is a diagram for describing an operation control apparatus illustrated in FIG. 1.
3 is a diagram illustrating an operating environment of a pottery gas metering facility.
4 is an operation flowchart illustrating an automatic interruption operation method using an automatic interruption operation system of a city gas metering facility according to another exemplary embodiment of the present invention.

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

1 is a block diagram for schematically illustrating an automatic control driving system of a city gas metering facility according to an embodiment of the present invention.

Referring to Figure 1, the automatic control operation system of the city gas metering facility according to an embodiment of the present invention is an integrated management device 10 for managing the city gas supply management office, and installed in each city gas supply management office to show the city gas It includes the operation control device 20 for measuring and managing the city gas flow rate sent to the city gas demand destination determined for each gas supply management station.

The integrated management device 10 is installed in a Governor Station (GS) to operate a pressure reducing and metering facility with a high pressure gas at low pressure. The static pressure station is an incentive station that supplies city gas to the city gas supply station.

The operation control device 20 is a remote terminal unit (RTU), which is installed in a valve station (VS) and automatically intermittently operates a metering facility or the like.

FIG. 2 is a view for explaining the operation control apparatus 20 shown in FIG. 1 and shows a part of the operation control apparatus 20 of a specific city gas supply management office, for example, a beacon management office.

As shown in FIG. 2, the operation control apparatus 20 installed in the control room of the city gas supply control station has a flow rate measuring unit 21 for measuring a flow rate to a city gas source, for example, a city gas company, and city gas in a main pipe. When the flow rate measured by the pressure measuring unit 22 and the flow rate measuring unit 21 to measure the supply pressure of the flow rate is less than the minimum flow rate, it is determined whether the supply pressure measured from the pressure measuring unit 22 is greater than or equal to a preset reference pressure. And a control unit 23 for controlling the valves (B1 and B2 in FIG. 2) installed in the main pipe to be supplied to the supply destination according to the determination result.

The flow rate measuring part 21 is a turbine flowmeter, and can measure the flow volume sent to a predetermined city gas demand destination. The measured flow rate is transmitted to the integrated management device 10 and managed.

The pressure measuring unit 22 is a pressure transmitter and may measure a supply pressure of city gas supplied to a city gas demand destination. The supply pressure thus measured is transmitted to and managed by the integrated management device 10.

When the minimum flow rate of the metering equipment is formed, such as in summer, the integrated management device 10 automatically selects the operation mode of the operation control device 20 of the selected city gas supply control station when the automatic control operation mode for each city gas supply management station is selected by the administrator. Control to change to

The control unit 23 for each operation control device 20 of each city gas supply management station is the flow rate measured by the flow rate measuring unit 21 during operation in accordance with the automatic control operation mode changed from the integrated management device 10 is less than the minimum flow rate. It is determined whether the supply pressure measured from the pressure measuring unit 22 is equal to or greater than the reference pressure. If the supply pressure is equal to or greater than the reference pressure, the closing signal is supplied to the first valve B1 provided at the rear end of the flow rate measuring unit 21. If the supply pressure is less than the reference pressure, the open signal is applied to the first valve (B1).

Here, the control unit 23 is connected to the first valve (B1) and the second valve (B2) provided in front of the flow rate measuring unit 21 in order to prevent the reverse metering phenomenon due to the gas flow in the reverse direction as shown in FIG. To be controlled in conjunction. That is, when the first valve B1 is closed, the second valve B2 is also closed, and when the first valve B1 is opened, the second valve B2 is also opened to prevent the reverse measurement that may be caused by the main pipe pressure difference. .

In more detail, as shown in FIG. 3 through the integrated management device 10 is branched from the West An-dong GS to supply the gas to the intermediate intermediate city gas supply management station, and the gas requirements are relatively large compared to large cities such as Yeongju, Andong In case of small supply station, reverse gas flow phenomenon occurs at terminal station intermittently and reverse metering may occur. To solve this problem, intermittent operation is performed according to the supply pressure of city gas supplied to city gas demand under the minimum flow rate. By intermittently interlocking the first and second valves B1 and B2 provided at the rear end and the front end of the time flow measurement unit 21, it is possible to fundamentally prevent the reverse metering due to the reverse gas flow.

The first and second valves B1 and B2 are motor driving valves, and are opened and closed under the control of the operation control apparatus 20.

In the present embodiment, the first and second valves B1 and B2 are described as being opened under the control of the operation control apparatus 20, but the first valve B1 is controlled by the integrated management apparatus 10. Opening and closing, the second valve (B2) can be implemented to be opened and closed under the control of the operation control device 20.

The operation control apparatus 20 is provided with a flow control valve at the rear end of the first valve B1 and a flow control valve at the front end of the second valve B2, respectively. By controlling the opening degree of the flow control valve by the manager, temporary overspeed can be prevented when a differential pressure occurs.

The integrated management device 10 is determined as a communication error when the supply pressure or flow rate received from the operation control device 20 installed for each city gas supply station is the same value for a predetermined time or when the supply pressure or flow rate is not received for a predetermined time. The controller 23 can be notified.

Preferably, the integrated management apparatus 10 may notify the control unit 23 of the warning that the city gas supply management office having a communication error is distinguished from other city gas supply management offices. Warnings can be displayed on monitoring screens in the control room. Thus, the manager of the static pressure management station, which is the manned control station, can immediately recognize the weighing system error early.

Referring to FIG. 4, an automatic interruption operation method using an automatic interruption operation system of a city gas metering facility having such a configuration is as follows.

4 is a flowchart illustrating an automatic interruption operation method using an automatic interruption operation system of a city gas metering facility according to another exemplary embodiment of the present invention.

4, the integrated management device 10 included in the automatic control operation system of the city gas metering facility according to the present invention is a flow rate measuring unit 21 provided in the operation control device 20 installed for each city gas supply management station Receive the flow rate measured from (S100).

Integrated management device 10 determines whether the received flow rate is less than the minimum flow rate (S103).

When the received flow rate exceeds the minimum flow rate as a result of the determination in step S103, the integrated management device 10 controls the automatic operation mode supplied to the city gas demand destination according to the received flow rate (S104). The automatic operation mode is a mode in which the automatic operation is automatically performed in accordance with each capacity of the column A and B of the metering pipe according to the supply flow rate supplied to the city gas company.

When the received flow rate is less than or equal to the minimum flow rate as a result of the determination in step S103, the integrated management device 10 changes the operation mode of the operation control device 20 of the city gas supply control station having the received flow rate to be less than or equal to the minimum flow rate. Alternatively, the operation mode of the operation control apparatus 20 of the selected city gas supply management station is changed to the automatic interruption operation mode at the request of the manager (S105).

In the automatic intermittent operation mode, a first flow rate measuring unit 21, for example, a first flow rate measuring unit 21 is installed around the flow rate measuring unit 21 according to the supply pressure in order to solve the disadvantage that the turbine flowmeter is counted down even when the gas flows in the reverse direction of the trace amount. And a mode for automatically intermittent operation of the second valves B1 and B2.

More specifically, the safety control device 20 of the city gas supply management station receives the supply pressure measured from the pressure measuring unit 22 installed at the end of the main pipe to the city gas demand destination when the operation mode is changed to the automatic interrupt operation mode. (S107).

The operation control apparatus 20 compares the received supply pressure with a preset reference pressure to determine whether the supply pressure is equal to or greater than the reference pressure (S109).

As a result of the determination in step S109, when the received supply pressure is equal to or greater than the reference pressure, the operation control apparatus 20 controls the first valve B1 to be closed by applying a closing signal to the first valve B1 (S111).

The driving control apparatus 20 controls the second valve B2 in cooperation with the first valve B1 (S113). At this time, in order to prevent overspeed due to the differential pressure before closing the first and second valves B1 and B2, the opening is controlled by the opening degree of the flow regulating valve installed at the rear end of the first valve B1 and the front end of the second valve B2. do.

The above-described step S113 controls the first valve B1 to be closed by applying the closing signal to the first valve B1, so that the second valve B2 is also closed. Therefore, it is possible to fundamentally prevent the gas flow phenomenon in the reverse direction in the terminal city gas supply management office intermittently.

As a result of the determination in step S109, when the received supply pressure is less than the reference pressure, the operation control apparatus 20 controls the first valve B1 to be opened by applying an open signal to the first valve B1 (S114). Thereafter, the process moves to the above-described step S113 to control the second valve B2 in association with the first valve B1. In this case as well, the opening of the flow regulating valve provided at the rear end of the first valve B1 and the front end of the second valve B2 in order to prevent overspeed due to the differential pressure prior to opening the first and second valves B1 and B2. Adjusted by

In the above-described step S114, since the first valve B1 is controlled to be opened by applying an open signal to the first valve B1, the second valve B2 is controlled to open in the same manner.

On the other hand, the integrated management device 10 monitors the environment to perform the above-described step S100 to step S114, and the flow rate value or pressure value received from the operation control device 20 of the city gas supply management station is the same for a predetermined time. If it is a value, it can be determined as a communication error and inform the controller 23.

Accordingly, the manager of the static pressure management station can immediately recognize the operating system error of the city gas metering equipment at an early stage, thereby enabling a quick response.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

10: integrated management device 20: driving control device
21: flow rate measuring unit 22: pressure measuring unit
23: control unit B1, B2: first and second valve

Claims (7)

An integrated management device for reducing the high pressure gas to a low pressure and supplying the gas to a city gas supply control station and monitoring the supply pressure for each city gas supply control station; And
It is installed for each city gas supply management office, including a driving control device for managing the city gas flow rate to send the city gas supplied from the integrated management device to the city gas demand destination determined for each city gas supply management office,
The driving control device,
A flow rate measuring unit for measuring a city gas flow rate sent to the city gas demand destination;
A pressure measuring unit for measuring a supply pressure of the city gas sent to the city gas demand destination;
A first valve disposed at a rear end of the flow rate measuring unit and configured to control a flow rate of city gas sent to the city gas demand destination;
A second valve disposed in front of the flow rate measuring unit and operated in the same manner as the first valve in connection with the operation of the first valve to prevent a reverse measurement due to pressure reversal in the city gas main pipe sent to the city gas demand destination; ;
A flow rate control valve disposed at a rear end of the first valve and a front end of the second valve, for preventing overspeed due to a differential pressure; And
And a control unit for controlling opening and closing of the first valve according to whether the supply pressure measured by the pressure measuring unit is greater than or equal to a preset reference pressure when the flow rate measured by the flow measuring unit is less than or equal to the minimum flow rate. Automatic intermittent operation system of weighing equipment. The method according to claim 1,
The control unit controls to apply a closing signal to the first valve when the supply pressure is equal to or greater than the reference pressure, and to apply an open signal to the first valve when the supply pressure is less than the reference pressure. Automatic intermittent driving system. The method according to claim 2,
And the first and second valves are motor driving valves, respectively. The method according to claim 1,
The integrated management device is to monitor the flow rate and supply pressure through the operation control device to remotely control the first valve provided for each city gas supply management office, automatic control operation system of the city gas metering facility. The method according to claim 1,
And the integrated management device notifies the control unit of determining the communication error when the supply pressure or the flow rate received from the operation control device is the same value for a predetermined time period, automatic control operation system for a city gas metering facility. A high pressure gas is reduced to a low pressure and supplied to a city gas supply management office, and an integrated management device for monitoring supply pressure for each city gas supply management office, and installed for each city gas supply management office, supplying the city gas supplied from the integrated management device. And an operation control apparatus for managing a city gas flow rate sent to a city gas demand destination determined for each city gas supply management station, wherein the operation control device includes: a flow rate measuring unit for measuring a city gas flow rate sent to the city gas demand destination; A pressure measuring unit for measuring a supply pressure of the city gas sent to the demand destination, a first valve disposed at the rear end of the flow rate measuring unit and intermittently controlling the flow rate of the city gas sent to the city gas demand destination; Reverse due to pressure reversal in the city gas main pipe to the gas demand To prevent overspeed due to a differential pressure, respectively disposed at a second valve, a rear end of the first valve, and a front end of the second valve, which operate in the same manner as the first valve in connection with the operation of the first valve to prevent metering; As a method using the automatic control system of the city gas metering equipment comprising a flow control valve for controlling and controlling the opening and closing of the first valve,
Receiving, by the operation control device, the supply pressure measured from the pressure measuring unit when the received flow rate for each city gas supply control station is less than or equal to the minimum flow rate;
Determining, by the operation control device, whether the received supply pressure is equal to or greater than a preset reference pressure; And
And controlling, by the operation control device, the first valve for controlling the supply of pottery gas sent to a city gas demand destination according to the determination result of the determining step. The method according to claim 6,
The controlling may include applying a closing signal to the first valve when the supply pressure is greater than or equal to the reference pressure, and applying an opening signal to the first valve when the supply pressure is less than the reference pressure. Method of automatic intermittent operation of the facility.

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