KR102416042B1 - Apparatus for Testing SF6 Gas Density Monitor in Gas Insulation Switchgear - Google Patents

Abstract

A gas pressure gauge checking device for checking a gas pressure gauge (or Gas Density Monitor: GD) connected to a Gas Insulation Switchgear (GIS) through the first valve to monitor the filling amount of SF ₆ gas, A connection port for closing the first valve during inspection and connecting to a second valve for discharging the SF ₆ gas filled from the first valve to the gas pressure gauge, a pump for lowering the internal pressure to below atmospheric pressure, and Connecting to the second valve through the connection port and lowering the internal pressure to below atmospheric pressure by the pump in a state in which the first valve is closed, then opening the second valve to receive the SF ₆ gas released and a volume controller, configured to return the SF ₆ gas received in the volume controller by the pump into the flow path from the first valve to the gas pressure gauge through the second valve after inspection.

Description

SF6 Gas Density Monitor in Gas Insulation Switchgear {Apparatus for Testing SF6 Gas Density Monitor in Gas Insulation Switchgear}

The present invention relates to a device for checking the SF ₆ gas pressure gauge of a gas insulated switchgear.

Due to the rapid increase in power demand due to the advancement of the industry, large-capacity and ultra-high voltage of the power system are made. Accordingly, the main circuit and control unit of the ultra-high voltage substation are sealed and electronic, and the insulation medium is changing to a gas insulated type.

The filling part of the Gas Insulation Switchgear (GIS) is supported by a solid insulator, a spacer, and the inside of the tank is filled and sealed with SF ₆ gas, an inert gas with excellent insulation performance, with an insulating medium.

SF ₆ gas is basically non-toxic, colorless, tasteless and odorless, and is an inert and non-flammable gas. SF ₆ gas is characterized by excellent dielectric strength and extinguishing ability and is the most stable compound.

Since GIS is filled with SF ₆ gas at a predetermined pressure (density) for the purpose of insulation and fire extinguishing, when the gas pressure is lowered, insulation performance and fire extinguishing performance are significantly affected. Therefore, GIS is manufactured by applying advanced sealing technology, and even when in use, the gas pressure is checked regularly using a gas leak detector (Gas Leak Detector) and a gas pressure gauge (Gas Density Monitor: GD). An alarm is issued (for example, refer patent document 1).

Therefore, it is necessary to secure the soundness of the gas pressure gauge through periodic inspection and maintenance of the gas pressure gauge, which plays an important role between the GIS facility preservation and the power system by monitoring the filling amount of the SF ₆ gas in real time.

However, in the conventional gas pressure gauge inspection method, since the gas pressure gauge is checked by opening the gas inlet valve during inspection, the pressure is reduced due to the release of the gas residual pressure to the atmosphere, and there is a risk of internal contact and low pressure alarm operation, as well as SF ₆ The emission of gases into the atmosphere causes unnecessary greenhouse gases to be generated.

: Republic of Korea Patent Publication No. 10-2036311

The present invention has been devised to solve the above problems, and one technical problem to be achieved by the present invention is to check the gas pressure gauge without releasing the SF ₆ gas to the atmosphere during the inspection of the SF ₆ gas pressure gauge of the gas insulated switchgear. It is intended to provide a device for checking the SF ₆ gas pressure gauge of a possible gas insulated switchgear.

Another technical problem to be achieved by the present invention is to provide an SF ₆ gas pressure gauge inspection device of a gas insulated switchgear that can check the gas pressure gauge without releasing the SF ₆ gas to the atmosphere online during operation.

Another technical problem to be achieved by the present invention is to provide a SF ₆ gas pressure gauge inspection device of a gas insulated switchgear capable of checking the abnormality and accuracy of the gas pressure gauge without releasing the SF ₆ gas to the atmosphere by incorporating a standard pressure gauge. .

The problems to be solved of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those of ordinary skill in the art from the following description.

According to at least one embodiment of the present invention, a gas pressure gauge (or Gas Density Monitor: GD) connected to a gas insulation switchgear (GIS) through a first valve to monitor the filling amount of SF ₆ gas ) in the gas pressure gauge inspection device for checking, a connection port for closing the first valve during inspection and connecting to a second valve for discharging SF ₆ gas filled from the first valve to the gas pressure gauge, a pump for lowering the internal pressure to below atmospheric pressure, and the second valve connected to the second valve through the connection port and the second valve after lowering the internal pressure to below atmospheric pressure by the pump with the first valve closed a volume controller for accommodating the SF ₆ gas _released by opening A device for checking the gas pressure gauge is provided.

In at least one embodiment of the present invention, the gas pressure gauge checking device further includes a volume control unit for adjusting an internal volume of the volume controller.

In at least one embodiment of the present invention, the volume control unit includes a handle for adjusting an internal volume of the volume controller by a screw action by rotation.

In at least one embodiment of the present invention, the volume control unit includes a motor driving unit for adjusting the internal volume of the volume controller by a screw action by rotation.

In at least one embodiment of the present invention, the gas pressure gauge checking device further comprises a standard pressure gauge for measuring the pressure inside the volume controller.

In at least one embodiment of the present invention, the gas pressure gauge checking device is connected to the volume controller and the SF ₆ gas released by opening the second valve exceeds the internal volume of the volume controller. It further includes a volume buffer for providing.

In at least one embodiment of the present invention, the volume buffer comprises a volume buffer valve for connecting in series with the volume controller in the longitudinal direction.

In at least one embodiment of the present invention, in the gas pressure gauge inspection device, the volume controller and the volume buffer are arranged in parallel, the volume buffer connecting the volume controller and the volume buffer in a direction perpendicular to the longitudinal direction A connection part is further provided.

In at least one embodiment of the present invention, the volume buffer connection unit is disposed at a position connected to the volume buffer when the maximum internal volume of the volume controller is exceeded.

In at least one embodiment of the present invention, the volume buffer connection unit is automatically connected to the volume buffer when the maximum internal volume of the volume controller is exceeded.

In at least one embodiment of the present invention, the volume buffer connection unit includes a connection valve for connecting to the volume buffer when the maximum internal volume of the volume controller is exceeded.

According to at least one embodiment of the present invention, a gas pressure gauge (or Gas Density Monitor: GD) connected to a gas insulation switchgear (GIS) through a first valve to monitor the filling amount of SF ₆ gas ) in the gas pressure gauge inspection method for checking, a connection port for closing the first valve during inspection and connecting to a second valve for discharging the SF ₆ gas filled from the first valve to the gas pressure gauge, a pump for lowering the internal pressure to below atmospheric pressure, and the second valve connected to the second valve through the connection port and the second valve after lowering the internal pressure to below atmospheric pressure by the pump with the first valve closed Using a gas pressure gauge checking device having a volume controller for accommodating the SF ₆ gas released by opening a first step of connecting a device to the second valve, after the first step, a second step of closing the first valve and lowering the interior of the volume controller to below the atmospheric pressure through the pump, after the second step, A third step of releasing the SF ₆ gas filled from the first valve to the gas pressure gauge by opening the second valve and accommodating it into the volume controller. After checking the gas pressure gauge, the pump is used to supply the volume controller to the volume controller. A fourth step of returning the received SF ₆ gas into a flow path from the first valve to the gas pressure gauge through the second valve, and a fifth step of closing the second valve after the fourth step, A method for checking a gas pressure gauge is provided.

According to at least one embodiment of the present invention, the gas pressure gauge checking method is connected to a gas insulation switchgear (GIS) through a first valve to monitor the filling amount of SF ₆ gas (or gas density) In the gas pressure gauge inspection method for checking a gas density monitor (GD), the second valve for closing the first valve and discharging the SF ₆ gas filled from the first valve to the gas pressure gauge during inspection a connection port for connecting to, a pump for lowering the internal pressure to below atmospheric pressure, and the second valve connected to the second valve through the connection port, and the internal pressure is lowered to below atmospheric pressure by the pump with the first valve closed By using a gas pressure gauge checking device having a volume controller for receiving the SF ₆ gas discharged by opening the second valve after lowering, the connection port in a state where both the first and second valves are closed A first step of connecting the gas pressure gauge checking device to the second valve through A third step of releasing the SF ₆ gas filled from the first valve to the gas pressure gauge by opening the second valve and accommodating it into the volume controller. After checking the gas pressure gauge, the pump is used to supply the volume controller to the volume controller. A fourth step of returning the received SF ₆ gas into a flow path from the first valve to the gas pressure gauge through the second valve, and a fifth step of closing the second valve after the fourth step, A method for checking a gas pressure gauge is provided.

In at least one embodiment of the present invention, the method for checking a gas pressure gauge further includes, after the fifth step, a sixth step of opening the first valve.

In the present specification, each embodiment is independently described, but each embodiment can be combined with each other, and the combined embodiment is also included in the scope of the present invention.

The above summary is for illustrative purposes only and is not intended to be limiting in any way. In addition to the descriptive aspects, embodiments and features described above, further aspects, embodiments and features will become apparent by reference to the drawings and the detailed description below.

According to at least one embodiment of the present invention, when checking the SF ₆ gas pressure gauge of the gas insulated switchgear, it is possible to check the SF ₆ gas pressure gauge of the gas insulated switchgear without releasing the SF ₆ gas to the atmosphere. There is an effect that can be done.

In addition, according to at least one embodiment of the present invention, there is an effect that it is possible to provide an SF ₆ gas pressure gauge inspection device of a gas insulated switchgear that can check the gas pressure gauge without releasing the SF ₆ gas to the atmosphere online during operation. .

In addition, according to at least one embodiment of the present invention, the SF ₆ gas pressure gauge inspection device of the gas insulated switchgear capable of checking the abnormality and accuracy of the gas pressure gauge without releasing the SF ₆ gas to the atmosphere by incorporating a standard pressure gauge can be provided. there is an effect

Effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those of ordinary skill in the art from the following description.

1 is a schematic diagram of a gas insulated switchgear and an SF ₆ gas pressure gauge inspection device according to at least one embodiment of the present invention.
Figure 2 is a conceptual diagram for explaining the SF ₆ gas pressure gauge inspection method of the conventional gas insulated switchgear.
3 is a conceptual diagram for explaining a method of checking the SF ₆ gas pressure gauge of the gas insulated switchgear according to at least one embodiment of the present invention.
4 is a top view of an SF ₆ gas pressure gauge checking device of a gas insulated switchgear according to at least one embodiment of the present invention.
5 is an actual image of an SF ₆ gas pressure gauge inspection device of a gas insulated switchgear according to at least one embodiment of the present invention.
6 is a top view of an SF ₆ gas pressure gauge checking device of a gas insulated switchgear according to at least one embodiment of the present invention.
7 is a top view of an SF ₆ gas pressure gauge checking device of a gas insulated switchgear according to at least one embodiment of the present invention.
8 is a flowchart for explaining a method of checking the SF ₆ gas pressure gauge of the gas insulated switchgear according to at least one embodiment of the present invention.
9 is a flowchart for explaining a method for checking the SF ₆ gas pressure gauge of the gas insulated switchgear according to at least one embodiment of the present invention.

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

1 is a schematic diagram of a gas insulation switchgear (GIS) 100 and an SF ₆ gas pressure gauge inspection device 200 according to at least one embodiment of the present invention. Figure 2 is a conceptual diagram for explaining the SF ₆ gas pressure gauge inspection method of the conventional gas insulated switchgear. 3 is a conceptual diagram for explaining a method of checking the SF ₆ gas pressure gauge of the gas insulated switchgear according to at least one embodiment of the present invention. 4 is a top view of an SF ₆ gas pressure gauge checking device 200 of a gas insulated switchgear according to at least one embodiment of the present invention. 5 is an actual image of an SF ₆ gas pressure gauge checking device 200 of a gas insulated switchgear according to at least one embodiment of the present invention.

1, a gas pressure gauge (or a gas density monitor: GD) 110 is connected to the GIS 100 to continuously monitor the filling amount of the SF ₆ gas. GIS 100 and GD A first valve 120 is installed between the 110 and the first valve 120 to open and close the flow path, and the first valve 120 is closed when the GD 110 is inspected and between the first valve 120 and the GD 110 . A second valve 130 for discharging the SF ₆ gas is installed.

During normal operation, the first valve 120 is opened and the second valve 130 is closed so that the GD 110 indicates a predetermined pressure, but when the GD 110 is checked, the first valve ( 120) is closed to block the flow path with the GIS 100, and the second valve 130 is opened to release the SF ₆ gas between the first valve 120 and the GD 110 to determine whether the GD 110 operates normally. do.

At this time, in the conventional GD 110 inspection method, as shown in FIG. 2 , the first valve 120 is closed to block the flow path with the GIS 100 , and then the second valve 130 is opened to open the first Since the SF ₆ gas between the valve 120 and the GD 110 is released to the atmosphere, as a result, the corresponding greenhouse gas is released into the atmosphere.

On the other hand, in the SF ₆ gas pressure gauge inspection method of the gas insulated switchgear according to at least one embodiment of the present invention, as shown in FIG. 3 , the first valve 120 is closed to block the flow path with the GIS 100 . Next, the SF ₆ gas between the first valve 120 and the GD 110 that is released by opening the second valve 130 is checked by an SF ₆ gas pressure gauge checking device ( 200) and returned to the flow path between the first valve 120 and the GD 110 after inspection, and then closes the second valve 130, so SF ₆ gas is not released to the atmosphere, so greenhouse gases are emitted into the atmosphere It is also possible to obtain a reduction effect of SF ₆ gas.

As shown in FIG. 4 , the SF ₆ gas pressure gauge checking device 200 of the gas insulated switchgear according to at least one embodiment of the present invention is connected to the GIS 100 through the first valve 120 and the SF ₆ As a gas pressure gauge inspection device for checking the GD 110 for monitoring the filling amount of gas, the SF ₆ gas filled from the first valve 120 to the GD 110 is checked by closing the first valve 120 during inspection. A connection port for connection to the second valve 130 for discharging (including a connection pipe for connection to the volume controller valve 230 and the second valve 130), a pump 215 for lowering the internal pressure to below atmospheric pressure ) and the pump switch 216 for driving the pump 215, and the second valve 130 through the connection port, and the pressure inside by the pump 215 in the state in which the first valve 120 is closed After lowering the pressure to below atmospheric pressure, the second valve 130 is opened to accommodate the SF ₆ gas emitted by the volume controller 240 .

In at least one embodiment of the present invention, the SF ₆ gas pressure gauge inspection device 200, after the inspection, the SF ₆ gas received in the volume controller 240 by the pump 215 through the second valve 130 It returns into the flow path from the 1st valve 120 to GD110.

That is, in at least one embodiment of the present invention, the pump 215 may function as a compressor and a vacuum pump via a pressure port 217 and a vacuum port 218 .

That is, when the GD 110 is checked, the pressure inside the volume controller 240 is lowered to atmospheric pressure or lower through the vacuum port 218 and the pump valve 220, or the second valve 130 is opened and released to a vacuum state. The SF ₆ gas to be used is sucked into the volume controller 240, and after the GD 110 is checked, the SF ₆ gas accommodated in the volume controller 240 through the pressure port 217 and the pump valve 220 is transferred to the first valve ( 120) to the flow path from GD 110.

In at least one embodiment of the present invention, the SF ₆ gas pressure gauge checking apparatus 200 further includes a volume control unit for adjusting the internal volume of the volume controller 240 .

As shown in FIG. 4 , the volume control unit of the SF ₆ gas pressure gauge checking device 200 includes a handle 280 for adjusting the internal volume of the volume controller 240 by a screw action by rotation.

In at least one embodiment of the present invention, the SF ₆ gas pressure gauge checking device 200 further includes a standard pressure gauge 250 for measuring the pressure inside the volume controller 240 . The standard pressure gauge 250 is a digital gas density meter (Digital Gas Density Meter), and can be used for calibration of the GD 110 by comparing the standard pressure with the pressure indicated by the GD 110 when the GD 110 is checked.

In at least one embodiment of the present invention, the SF ₆ gas pressure gauge checking device 200 is connected to the volume controller 240 and the SF ₆ gas released by opening the second valve 130 of the volume controller 240 . When the internal volume is exceeded, it further includes a volume buffer 260 for providing an extra volume.

In at least one embodiment of the present invention, the volume buffer 260 includes a volume buffer valve 270 for longitudinal serial connection with the volume controller 240 .

6 is a top view of an SF ₆ gas pressure gauge checking device 600 of a gas insulated switchgear according to at least one embodiment of the present invention.

In the SF ₆ gas pressure gauge inspection device 600 shown in FIG. 6 , the volume controller 240 and the volume buffer 260 are arranged in parallel, and the volume controller 240 and the volume buffer 260 are perpendicular to the longitudinal direction. ) and a volume buffer connection unit 610 for connecting them.

In at least one embodiment of the present invention, as shown in FIG. 6 , the volume buffer connection unit 610 is disposed at a position connected to the volume buffer 260 when the maximum internal volume of the volume controller 240 is exceeded. do.

That is, the volume buffer connection unit 610 is configured to be automatically connected to the volume buffer 260 when the maximum internal volume of the volume controller 240 is exceeded.

In at least one embodiment of the present invention, the volume buffer connection unit 610 may include a connection valve (not shown) for connecting to the volume buffer 260 when the maximum internal volume of the volume controller 240 is exceeded. have.

7 is a top view of an SF ₆ gas pressure gauge inspection device 700 of a gas insulated switchgear according to at least one embodiment of the present invention.

In the SF ₆ gas pressure gauge inspection apparatus 700 illustrated in FIG. 7 , the volume control unit includes a motor driving unit 710 for adjusting the internal volume of the volume controller 240 by screw action by rotation.

The motor driving unit 710 includes a motor (not shown) for providing a rotational force and a switch (not shown) for changing the rotational direction of the motor.

As described above, the SF ₆ gas pressure gauge inspection apparatus 200 , 600 , and 700 according to at least one embodiment of the present invention, in the inspection of the GD 110 , the weight of the device, the convenience of operation, and the variety of inspection tests It has a significant effect compared to the conventional GD 110 inspection method in terms of fire (ie, check the lower and upper limit alarms), cost savings (cost per facility and personnel and cost of SF ₆ gas filling), and accuracy.

8 and 9 are flowcharts for explaining a method of checking the SF ₆ gas pressure gauge of the gas insulated switchgear according to at least one embodiment of the present invention.

In the flowchart shown in FIG. 8 , the procedure for performing the inspection of the GD 110 in a state in which the first valve 120 is open and the second valve 130 is closed, that is, in an online state in which the GIS 100 is operating. Explain.

In at least one embodiment of the present invention, the SF ₆ gas pressure gauge checking method is connected to the GIS 100 through the first valve 120 to check the GD 110 for monitoring the filling amount of the SF ₆ gas. As a gas pressure gauge inspection method, a connection for closing the first valve 120 during inspection and connecting to the second valve 130 for discharging the SF ₆ gas filled from the first valve 120 to the GD 110 The port, the pump 215 for lowering the internal pressure to below atmospheric pressure, and the second valve 130 through the connection port and the first valve 120 closed by the pump 215 to increase the internal pressure Using the SF ₆ gas pressure gauge checking device 200 , 600 , 700 having a volume controller 240 for accommodating the SF ₆ gas discharged by opening the second valve 130 after lowering the pressure to below atmospheric pressure, the first The first step (step) of connecting the SF ₆ gas pressure gauge checking device 200 , 600 , 700 to the second valve 130 through the connection port in a state in which the valve 120 is open and the second valve 130 is closed S810), after step S810, a second step of closing the first valve 120 and lowering the inside of the volume controller 240 to below atmospheric pressure through the pump 215 (step S820), after step S820, the second valve 130 ) to release the SF ₆ gas filled from the first valve 120 to the GD 110 by opening the third step (step S830) of accommodating the volume controller 240 inside, after checking the GD 110, the pump A fourth step of returning the SF ₆ gas received in the volume controller 240 by the 215 into the flow path from the first valve 120 to the GD 110 through the second valve 130 (step S840), and After step S840, a fifth step (step S850) of closing the second valve 130 is included.

In the flowchart shown in FIG. 9 , a procedure for performing the inspection of the GD 110 in a state in which both the first valve 120 and the second valve 130 are closed will be described.

In at least one embodiment of the present invention, the SF ₆ gas pressure gauge checking method is connected to the GIS 100 through the first valve 120 to check the GD 110 for monitoring the filling amount of the SF ₆ gas. As a gas pressure gauge inspection method, a connection for closing the first valve 120 during inspection and connecting to the second valve 130 for discharging the SF ₆ gas filled from the first valve 120 to the GD 110 The port, the pump 215 for lowering the internal pressure to below atmospheric pressure, and the second valve 130 through the connection port and the first valve 120 closed by the pump 215 to increase the internal pressure Using the SF ₆ gas pressure gauge checking device 200 , 600 , 700 having a volume controller 240 for accommodating the SF ₆ gas discharged by opening the second valve 130 after lowering the pressure to below atmospheric pressure, the first The first step (step S910) of connecting the SF ₆ gas pressure gauge checking devices 200, 600, and 700 to the second valve 130 through the connection port in a state in which the valve 120 and the second valve 130 are both closed. ), after step S910, the second step of lowering the inside of the volume controller 240 to below atmospheric pressure through the pump 215 (step S920), after step S920, the second valve 130 is opened to the first valve 120 The third step (step S930) of discharging the SF ₆ gas filled to the GD 110 and accommodating it into the volume controller 240 (step S930), after the inspection of the GD 110, the volume controller 240 by the pump 215 ) in the fourth step (step S940) of returning the SF ₆ gas accommodated in the second valve 130 into the flow path from the first valve 120 to the GD 110, and after the step S940, the second valve 130 ) and a fifth step (step S950) of closing.

As described above, according to at least one embodiment of the present invention, when checking the SF ₆ gas pressure gauge of the gas insulated switchgear, the SF ₆ gas of the gas insulated switchgear can be checked without releasing the SF ₆ gas to the atmosphere. A pressure gauge checking device may be provided.

In addition, according to at least one embodiment of the present invention, it is possible to provide an SF ₆ gas pressure gauge inspection device of a gas insulated switchgear capable of checking the gas pressure gauge without releasing the SF ₆ gas to the atmosphere online during operation.

In addition, according to at least one embodiment of the present invention, the SF ₆ gas pressure gauge inspection device of the gas insulated switchgear capable of checking the abnormality and accuracy of the gas pressure gauge without releasing the SF ₆ gas to the atmosphere by incorporating a standard pressure gauge can be provided. have.

In addition, according to at least one embodiment of the present invention, the SF ₆ gas pressure gauge inspection device of the gas insulated switchgear capable of checking the gas pressure gauge without releasing the SF ₆ gas to the atmosphere regardless of the online or offline state of the gas insulated switchgear can provide

The present invention has been described above using several examples, but these examples are illustrative and not restrictive. As such, those of ordinary skill in the art to which the present invention pertains will understand that various changes and modifications can be made in accordance with the doctrine of equivalents without departing from the spirit of the present invention and the scope of rights set forth in the appended claims.

100: Gas Insulation Switchgear (GIS)
110: gas pressure gauge (or gas density monitor (GD))
120: first valve
130: second valve
200: SF ₆ gas pressure gauge check device
215: compressor & vacuum pump
216: pump switch
217: pressure port
218: vacuum port
220: pump valve
230: volume controller valve
240: volume controller
250: standard pressure (density) gauge
260: volume buffer
270: volume buffer valve
280: handle
610: volume buffer connection
710: motor driving unit

Claims (14)

In a gas pressure gauge checking device for checking a gas pressure gauge (or Gas Density Monitor: GD) that is connected to a Gas Insulation Switchgear (GIS) through the first valve and monitors the filling amount of SF ₆ gas ,
a connection port for closing the first valve during inspection and connecting to a second valve for discharging the SF ₆ gas filled from the first valve to the gas pressure gauge;
a pump for reducing the internal pressure to below atmospheric pressure; and
Connecting to the second valve through the connection port and lowering the internal pressure to below atmospheric pressure by the pump in a state in which the first valve is closed, then opening the second valve to receive the SF ₆ gas released volume controller
to provide
After inspection, returning the SF ₆ gas received in the volume controller by the pump into the flow path from the first valve to the gas pressure gauge through the second valve,
Gas pressure gauge check device. According to claim 1,
Further comprising a volume control unit for adjusting the internal volume of the volume controller,
Gas pressure gauge check device. 3. The method of claim 2,
The volume control unit includes a handle for adjusting the internal volume of the volume controller by a screw action by rotation,
Gas pressure gauge check device. 3. The method of claim 2,
The volume control unit includes a motor driving unit for adjusting the internal volume of the volume controller by a screw action by rotation,
Gas pressure gauge check device. According to claim 1,
Further comprising a standard pressure gauge for measuring the pressure inside the volume controller,
Gas pressure gauge check device. According to claim 1,
Further comprising a volume buffer for providing an extra volume when the SF ₆ gas connected to the volume controller and released by opening the second valve exceeds the internal volume of the volume controller,
Gas pressure gauge check device. 7. The method of claim 6,
The volume buffer comprises a volume buffer valve for connecting in series with the volume controller in the longitudinal direction,
Gas pressure gauge check device. 7. The method of claim 6,
The volume controller and the volume buffer are arranged in parallel, and further comprising a volume buffer connection unit for connecting the volume controller and the volume buffer in a direction perpendicular to the longitudinal direction,
Gas pressure gauge check device. 9. The method of claim 8,
The volume buffer connection unit is disposed at a position connected to the volume buffer when the maximum internal volume of the volume controller is exceeded,
Gas pressure gauge check device. 10. The method of claim 9,
The volume buffer connection unit is automatically connected to the volume buffer when the maximum internal volume of the volume controller is exceeded,
Gas pressure gauge check device. 10. The method of claim 9,
The volume buffer connection unit includes a connection valve for connecting to the volume buffer when the maximum internal volume of the volume controller is exceeded,
Gas pressure gauge check device. In a gas pressure gauge checking method for checking a gas pressure gauge (or Gas Density Monitor: GD) that is connected to a Gas Insulation Switchgear (GIS) through the first valve to monitor the filling amount of SF ₆ gas ,
A connection port for closing the first valve during inspection and connecting to a second valve for discharging the SF ₆ gas filled from the first valve to the gas pressure gauge, a pump for lowering the internal pressure to below atmospheric pressure, and Connecting to the second valve through the connection port and lowering the internal pressure to below atmospheric pressure by the pump in a state in which the first valve is closed, then opening the second valve to receive the SF ₆ gas released Using a gas pressure gauge checking device having a volume controller,
a first step of connecting the gas pressure gauge checking device to the second valve through the connection port in a state in which the first valve is open and the second valve is closed;
a second step of closing the first valve after the first step and lowering the inside of the volume controller to below atmospheric pressure through the pump;
a third step of releasing the SF ₆ gas filled from the first valve to the gas pressure gauge by opening the second valve after the second step and receiving it into the volume controller;
a fourth step of returning the SF ₆ gas received in the volume controller by the pump into a flow path from the first valve to the gas pressure gauge through the second valve after the gas pressure gauge is checked; and
After the fourth step, a fifth step of closing the second valve
provided with
How to check a gas pressure gauge. In a gas pressure gauge checking method for checking a gas pressure gauge (or Gas Density Monitor: GD) that is connected to a Gas Insulation Switchgear (GIS) through the first valve to monitor the filling amount of SF ₆ gas ,
A connection port for closing the first valve during inspection and connecting to a second valve for discharging the SF ₆ gas filled from the first valve to the gas pressure gauge, a pump for lowering the internal pressure to below atmospheric pressure, and Connecting to the second valve through the connection port and lowering the internal pressure to below atmospheric pressure by the pump in a state in which the first valve is closed, then opening the second valve to receive the SF ₆ gas released Using a gas pressure gauge checking device having a volume controller,
a first step of connecting the gas pressure gauge checking device to the second valve through the connection port in a state where both the first valve and the second valve are closed;
after the first step, a second step of lowering the inside of the volume controller to below the atmospheric pressure through the pump;
a third step of releasing the SF ₆ gas filled from the first valve to the gas pressure gauge by opening the second valve after the second step and receiving it into the volume controller;
a fourth step of returning the SF ₆ gas received in the volume controller by the pump into a flow path from the first valve to the gas pressure gauge through the second valve after the gas pressure gauge is checked; and
After the fourth step, a fifth step of closing the second valve
provided with
How to check a gas pressure gauge. 14. The method of claim 12 or 13,
After the fifth step, further comprising a sixth step of opening the first valve,
How to check a gas pressure gauge.

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