KR20210063083A - Test apparatus and method for gas low alarm system - Google Patents

Abstract

The present invention relates to a test device and test method of a low gas pressure alarm, that can test whether a low gas pressure alarm operates normally without discharging gas to the outside and relates to a test device of a low gas pressure alarm, that is connected to a tank of gas-insulated switchgear through a gas pipe and generates an alarm when a gas pressure drops below a certain level. The test device of a low gas pressure alarm comprises: an on/off valve provided in a gas pipe to open and close the gas pipe; a chamber provided in the gas pipe and having a space to introduce gas stored in the gas pipe; and a cylinder part provided in the chamber and forming a space to introduce the gas into the chamber or operating to discharge the gas stored in the chamber to the gas pipe. It is possible to test whether the low gas pressure alarm operates normally without discharging the gas to the outside, thereby preventing air pollution and reducing environmental costs.

Description

TEST APPARATUS AND METHOD FOR GAS LOW ALARM SYSTEM

The present invention relates to a test apparatus and a test method for a gas low pressure alarm, and more particularly, to a test apparatus and a test method for a gas low pressure alarm capable of testing whether the gas low pressure alarm operates normally without discharging gas to the outside will be.

A gas insulated switchgear (GIS, GAS INSULATED SWITCHGEAR) is a device used to protect the power system of a substation. It is a device that performs an operation to safely protect the power system by safely opening and closing the line in response to the occurrence of a condition.

Such a gas insulated switchgear has a structure in which switching equipment such as circuit breakers and disconnectors, transformers, lightning arresters, main circuit bus, etc. are all housed in a metal tank, and sulfur hexafluoride (SF ₆ ) gas with excellent insulation and fire extinguishing ability is It is filled and sealed inside the tank.

The SF6 gas used as the insulating gas of the gas insulated switchgear also destroys the ozone layer when released into the atmosphere, and has a very large carbon dioxide index of 23,900 and is recognized as the main culprit of global warming. That is, if _{1 g of SF 6} gas leaks into the atmosphere, it can have the same level of effect as 23,900 g of carbon dioxide leak, so SF ₆ gas is managed at a global level.

Such, SF ₆ gas should maintain an appropriate density to maintain the insulation of the energized part of the gas insulated switchgear. _{Therefore, in order to detect the density of the SF 6} gas in the single gas space partitioned into one space in the gas insulated switchgear, it is recommended that a gas low pressure alarm capable of detecting the density _{of the SF 6} gas is installed in each single gas space (each partition). It is common.

That is, the gas insulated switchgear is divided into a plurality of gas compartments, and the gas low pressure alarm provided in the gas insulated switchgear leaks to the outside due to the occurrence of gaps in the _{SF 6 gas filled with high pressure in the single gas space of the gas insulated switchgear.} When the gas density in the space becomes low, the gas low pressure alarm generates a low pressure alarm. Low pressure alarm of gas low pressure alarm is the most important factor for safe operation of gas insulated switchgear.

Therefore, the gas insulated switchgear performs periodic inspection, and at this time, the low pressure alarm test of the installed gas low pressure alarm is additionally performed. That is, when the pressure of the gas stored inside the gas insulated switchgear is lowered to a certain level or less, it is detected and the low pressure alarm test is performed to see if the gas low pressure alarm operates normally and generates an alarm.

_{The low pressure alarm test of the conventional gas low pressure alarm is performed by forcibly leaking the SF 6} gas in the gas pipe installed between the single gas space of the gas insulated switch and the gas low pressure alarm into the atmosphere so that the pressure of the SF ₆ gas in the gas space connected to the gas low pressure alarm is increased. This is done by forcibly lowering it.

However, since the above test method is _{based on leaking SF 6} gas into the atmosphere, a large amount of SF ₆ gas leaked into the atmosphere destroys ozone, goes against the policy of environmental management, and is a social problem.

The present invention was devised to solve the above problems, and it is an object of the present invention to provide a test apparatus and a test method for a gas low pressure alarm that can test whether the gas low pressure alarm operates normally without discharging gas to the outside There is this.

In order to achieve the above object, the test apparatus of a gas low pressure alarm according to a preferred embodiment of the present invention is connected to a tank of a gas insulated switchgear and a gas pipe, and generates an alarm when the pressure of the gas is lowered to a predetermined value or less. An apparatus for testing a gas low pressure alarm, comprising: an opening/closing valve provided in the gas pipe to open and close the gas pipe; a chamber provided in the gas pipe and having a space to introduce the gas stored in the gas pipe; and a cylinder unit provided in the chamber and configured to form a space to allow gas to be introduced into the chamber or to discharge the gas stored in the chamber to the gas pipe.

The chamber may be disposed between the on-off valve and the gas low pressure alarm, and provide a space for varying the pressure of the gas measured by the gas low pressure alarm by operating the cylinder.

In order to achieve the above object, the test method of a gas low pressure alarm according to a preferred embodiment of the present invention is connected to a tank of a gas insulated switchgear and a gas pipe, and generates an alarm when the pressure of the gas is lowered to a certain value or less. A test method for a gas low pressure alarm, comprising: a gas blocking step of closing an on/off valve provided in the gas pipe to block the inflow of gas to the gas low pressure alarm; A gas for lowering the gas pressure of the gas low pressure alarm side to a predetermined value or less by operating a cylinder unit provided in the chamber to introduce gas into the chamber provided in the gas pipe between the gas low pressure alarm and the on/off valve pressure drop step; and a gas low pressure alarm checking step of confirming whether the gas low pressure alarm operates normally by generating an alarm when the gas pressure is lowered to a predetermined value or less.

Here, the gas pressure lowering step may include: a first gas pressure lowering step of operating the cylinder unit so that the gas pressure of the gas low pressure alarm side drops to a first target value to generate a first gas low pressure alarm to confirm normal operation; and a secondary gas pressure lowering step of further operating the cylinder unit so that the gas pressure of the gas low pressure alarm side is lowered to a second target value lower than the first target value to generate a secondary gas low pressure alarm to confirm normal operation. may include.

The method may further include a return step of returning the cylinder part to its original state after completing the checking of the gas low pressure alarm, discharging the gas inside the chamber to the gas pipe, and opening the on-off valve.

According to the test apparatus and test method of the gas low pressure alarm according to the present invention, it is possible to test whether the gas low pressure alarm operates normally without discharging gas to the outside, thereby preventing air pollution and reducing environmental costs. can

1 is a view schematically showing a test apparatus of a gas low pressure alarm according to an embodiment of the present invention;
2 is a view schematically showing a state in which the test apparatus of a gas low pressure alarm according to an embodiment of the present invention is tested;
3 is a view schematically showing a test apparatus of a gas low pressure alarm according to another embodiment of the present invention;
4 is a view schematically showing a state in which a test apparatus of a gas low pressure alarm according to another embodiment of the present invention is tested;
5 is a flowchart schematically illustrating a test method of a gas low pressure alarm according to an embodiment of the present invention.

In order to help understanding of the features of the present invention, a test apparatus and a test method of a gas low pressure alarm related to an embodiment of the present invention will be described in more detail below.

Note that in adding reference numerals to the components of the accompanying drawings to help the understanding of the embodiments described below, the same components are given the same reference numerals as much as possible even though they are indicated in different drawings. . In addition, in describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

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

1 is a view schematically showing a testing apparatus for a gas low pressure alarm according to an embodiment of the present invention, and FIG. 2 is a diagram schematically showing a state in which the testing apparatus of the gas low pressure alarm is tested.

1 and 2, the test apparatus () of the gas low pressure alarm of the present invention is connected to the tank 10 of the gas insulated switchgear and the gas pipe 20, and when the pressure of the gas is lowered to a certain value or less, an alarm The gas low pressure alarm 30 that generates is a test device that operates normally.

More specifically, the test apparatus 100 of the gas low pressure alarm is provided in the gas pipe 20 and an on/off valve 110 that opens and closes the gas pipe 20, and is provided in the gas pipe 20 and the A chamber 120 provided with a space for the gas stored in the gas pipe 20 to flow in, and a space provided in the chamber 120 to allow the gas to flow into the chamber 120 or the chamber 120 . and a cylinder part 130 operable to discharge the gas stored in the gas pipe 20 to the gas pipe 20 .

Here, the chamber 120 is disposed between the on-off valve 110 and the gas low pressure alarm 30 , and the cylinder unit 130 operates to measure the pressure of the gas measured by the low gas pressure alarm 30 . It provides a variable space for

In addition, the cylinder part 130 is disposed inside the chamber 120 and slidingly moves a cylinder 131 , one end of which is rotatably fastened to the cylinder 131 and the other end of the chamber 120 . It is disposed on the outside and consists of a cylinder bar 132 screwed to the chamber (120). With this configuration, when the operator rotates the cylinder bar 132 , the cylinder bar 132 moves linearly with respect to the chamber 120 , so that the cylinder 131 is moved from the inside of the chamber 120 . By varying the internal space of the chamber 120 , the gas may be introduced or discharged into the chamber 120 .

With this configuration, the on/off valve 110 is opened so that the gas low pressure alarm 30 detects the pressure of the gas stored in the tank 10 of the gas insulated switchgear in normal times, and the chamber 120 has The cylinder 131 is moved toward the gas pipe 20 so that gas is not introduced.

And, in the case of testing whether the gas low pressure alarm 30 operates normally, referring to FIG. 2 , the on/off valve 110 is operated to close the gas pipe 20, and the gas pipe 20 ) is closed, when the cylinder 131 is moved in a direction away from the gas pipe 20 by rotating the cylinder bar 132 , a part of the gas stored in the gas pipe 20 is transferred to the chamber 120 . ) is introduced into

Therefore, there is no more gas inflow into the gas pipe 20 , and the volume in which the gas is stored by the chamber 120 increases, so that the pressure sensor 31 provided in the gas low pressure alarm 30 The pressure of the gas being measured is lowered. At this time, when the gas low pressure alarm 30 operates normally, a low pressure alarm is generated.

Then, when it is confirmed that the gas low pressure alarm 30 operates normally, the cylinder bar 132 is rotated to move the cylinder 131 toward the gas pipe 20 to return to its original position, and the low gas pressure The opening/closing valve 110 is opened so that the alarm 30 is connected to the tank 10 .

And, in the case of the low-pressure gas detector 30 generates an alarm of the gas pressure in two stages, for example, the normal pressure of the gas 5.0kg / cm ^2, when the pressure of the gas drops to 4.5kg / cm ² It may be configured to generate a primary gas low pressure alarm, and generate a secondary gas low pressure alarm when the pressure of the gas drops to 4.0kg/cm ^{2 .}

At this time, the first gas low pressure alarm operates normally by rotating the cylinder bar 132 to move the cylinder 131 so that the gas is introduced into the chamber 120 and the pressure of the gas ^{drops to 4.5 kg/cm 2 or less.} test whether Then, by further rotating the cylinder bar 132 to further introduce gas into the chamber 120, ^{the cylinder 131 is moved so that the pressure of the gas is lowered to 4.0 kg/cm 2} or less, so that the secondary gas low pressure alarm is activated. You can test whether it works normally.

Through this configuration, it is possible to test whether the gas low pressure alarm operates normally without discharging gas to the outside, thereby preventing air pollution and reducing environmental costs.

Figure 3 is a view schematically showing a test apparatus of a gas low pressure alarm according to another embodiment of the present invention, Figure 4 is a schematic diagram showing a state in which the test apparatus of the gas low pressure alarm according to the other embodiment is tested the drawing shown.

3 and 4, the test apparatus 200 of the gas low pressure alarm according to another embodiment of the present invention has the same configuration as the test apparatus 100 of the gas low pressure alarm according to the embodiment of the present invention described above. However, a plurality of chambers 220 and 240 may be provided. Through this, the size of the chamber can be formed smaller than that of a single chamber.

For example, as shown in FIGS. 3 and 4 , two chambers 220 and 240 may be provided to face each other based on the gas pipe 20 . At this time, cylinder parts 230 and 250 are provided in the chambers 220 and 240, respectively.

That is, the first chamber 220 and the second chamber 240 are disposed to face each other around the gas pipe 20 , and a first cylinder is provided in each of the first chamber 220 and the second chamber 240 . A portion 230 and a second cylinder portion 250 are provided. And, the first cylinder part 230 is composed of a first cylinder 231 provided in the interior of the first chamber 220 and a first cylinder bar 232 for moving the first cylinder 231, , the second cylinder part 250 also includes a second cylinder 251 and a second cylinder bar 252 .

And, in the case of the low-pressure gas detector 30 generates an alarm of the gas pressure in two stages, for example, the normal pressure of the gas 5.0kg / cm ^2, when the pressure of the gas drops to 4.5kg / cm ² It may be configured to generate a primary gas low pressure alarm, and generate a secondary gas low pressure alarm when the pressure of the gas drops to 4.0kg/cm ^{2 .}

With this configuration, in order to test whether the gas low pressure alarm 30 operates normally, as shown in (a) of FIG. 4, after closing the on-off valve 210, the first chamber 220 The first cylinder bar 232 is rotated so that the gas is primarily introduced into the air to move the first cylinder 231 away from the gas pipe 20 . At this time, the normal pressure of the gas 5.0kg / cm ^2, that the test as the first gas is introduced into the chamber 220 by the pressure of the gas to be dropped to less than 4.5kg / cm ² 1 primary gas low pressure alarm is normally operated do.

And, as shown in (b) of Figure 4, the second cylinder 252 by rotating the second cylinder bar 252 so that gas is introduced secondarily into the second chamber 240, the second cylinder 252 is the gas. Move away from the pipe (20). At this time, as the gas is introduced into the second chamber 240 , the pressure of the gas is lowered to 4.0 kg/cm ² or less to test whether the secondary gas low pressure alarm operates normally.

Through this configuration, it is possible to test whether the gas low pressure alarm operates normally without discharging gas to the outside, thereby preventing air pollution and reducing environmental costs.

5 is a flowchart schematically illustrating a test method of a gas low pressure alarm according to an embodiment of the present invention.

5, the test method of the gas low pressure alarm according to the embodiment of the present invention is connected to the tank of the gas insulated switchgear and the gas pipe, and the gas low pressure alarm that generates an alarm when the pressure of the gas is lowered to a predetermined value or less It is about the test method.

More specifically, the test method of the gas low pressure alarm includes a gas blocking step (S110) of closing the on/off valve provided in the gas pipe to block the gas inflow to the gas low pressure alarm, and the low gas pressure alarm and the on/off valve A gas pressure lowering step (S120) of lowering the gas pressure of the gas low pressure alarm side to a predetermined value or less by operating the cylinder unit provided in the chamber to introduce gas into the chamber provided in the gas pipe between the When the pressure of the gas is lowered to a predetermined value or less, the gas low pressure alarm checking step (S130) is included to check whether the gas low pressure alarm operates normally by generating an alarm. And, after the gas low pressure alarm checking step (S130) is completed, the cylinder part is returned to its original state, the gas inside the chamber is discharged to the gas pipe, and the on-off valve is opened (S140).

Here, in the gas pressure lowering step (S120), the first gas pressure drop is performed by operating the cylinder unit so that the gas pressure of the gas low pressure alarm side drops to a first target value to generate a first gas low pressure alarm to check whether normal operation is performed. Secondary gas pressure drop of further operating the cylinder unit so that the gas pressure of the gas low pressure alarm side is lowered to a second target value lower than the first target value to generate a secondary gas low pressure alarm to confirm normal operation may include steps.

When generating an alarm of the gas pressure in the gas low-pressure alarm in two stages, for example, the normal pressure of the gas 5.0kg / cm ^2, when the pressure of the gas drops to 4.5kg / cm ² 1 primary gas low pressure alarm , and when the gas pressure ^{drops to 4.0kg/cm 2} , it can be tested to generate a secondary gas low pressure alarm.

More specifically, in order to test whether the gas low pressure alarm operates normally, the cylinder part is operated so that gas is primarily introduced into the chamber after closing the on-off valve, so that the gas pressure is 5.0 kg at a normal pressure. Test whether the primary gas low pressure alarm operates normally by dropping it from /cm ² to 4.5kg/cm ^{2 or less.}

In addition, by further rotating the cylinder bar, as the gas is further introduced into the chamber, ^{the cylinder is moved so that the gas pressure is lowered to 4.0 kg/cm 2} or less to test whether the secondary gas low pressure alarm operates normally.

Through this configuration, it is possible to test whether the gas low pressure alarm operates normally without discharging gas to the outside, thereby preventing air pollution and reducing environmental costs.

As described above, although the present invention has been described with reference to the limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: tank 20: gas pipe
30: gas low pressure alarm
100: gas low pressure alarm test device
110: on/off valve 120: chamber
130: cylinder part 131: cylinder
132: cylinder bar
200: gas low pressure alarm test device
210: on/off valve
220: first chamber 230: first cylinder part
231: first cylinder 232: first cylinder bar
240: second chamber 250: second cylinder part
251: second cylinder 252: second cylinder bar

Claims (5)

In the test apparatus of a gas low pressure alarm connected to the tank of the gas insulated switchgear and the gas pipe, an alarm is generated when the pressure of the gas is lowered to a certain value or less,
an opening/closing valve provided in the gas pipe to open and close the gas pipe;
a chamber provided in the gas pipe and having a space to introduce the gas stored in the gas pipe; and
a cylinder part provided in the chamber and configured to form a space to allow gas to be introduced into the chamber or to discharge the gas stored in the chamber to the gas pipe;
A test device for a gas low pressure alarm comprising a.
The method of claim 1,
The chamber,
It is disposed between the on-off valve and the gas low pressure alarm, and the cylinder unit operates to provide a space for varying the pressure of the gas measured by the gas low pressure alarm.
In the test method of a gas low pressure alarm that is connected to the tank of the gas insulated switchgear and the gas pipe, and generates an alarm when the pressure of the gas falls below a certain value,
a gas blocking step of closing the on-off valve provided in the gas pipe to block the inflow of gas to the gas low pressure alarm;
A gas for lowering the gas pressure of the gas low pressure alarm side to a predetermined value or less by operating a cylinder unit provided in the chamber to introduce gas into the chamber provided in the gas pipe between the gas low pressure alarm and the on/off valve pressure drop step; and
a gas low pressure alarm checking step of confirming that the gas low pressure alarm operates normally by generating an alarm when the gas pressure is lowered to a predetermined value or less;
A test method of a gas low pressure alarm comprising a.
The method of claim 3,
The gas pressure lowering step is,
a first gas pressure lowering step of operating the cylinder unit so that the gas pressure of the gas low pressure alarm side drops to a first target value to generate a first gas low pressure alarm to confirm normal operation; and
a second gas pressure lowering step of further operating the cylinder unit so that the gas pressure of the gas low pressure alarm side is lowered to a second target value lower than the first target value to generate a second gas low pressure alarm to confirm normal operation;
A test method of a gas low pressure alarm comprising a.
The method of claim 3,
a return step of returning the cylinder part to its original state after completing the checking of the gas low pressure alarm, discharging the gas inside the chamber to the gas pipe, and opening the on-off valve;
The test method of the gas low pressure alarm, characterized in that it further comprises.

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