KR102101592B1 - Apparatus for analyzing gas of electric power equipment and method of the same - Google Patents

Abstract

Disclosed is an invention for a gas analysis device and method for a power plant. Gas analysis device for a power facility of the present invention is coupled to a gas collection valve provided in the power facility, a gas collection path portion and a gas collection path portion to provide a path for the gas inside the power facility to flow out of the power equipment Accordingly, a gas collecting storage unit for collecting and storing gas leaked to the outside of a power facility, and a driving unit including a vacuum pump generating a suction force for gas collection so that gas is sucked into the gas collecting storage unit, and a gas collecting storage unit. A gas concentration sensing unit that receives the collected gas and measures the concentration of the gas, a display unit that displays the concentration of the gas measured by the gas concentration sensor unit, a gas collection path unit, a gas collection storage unit, a driving unit, It characterized in that it comprises a gas analysis housing in which the gas concentration sensing unit and the display unit are installed.

Description

Gas analysis device and method for electric power equipment {APPARATUS FOR ANALYZING GAS OF ELECTRIC POWER EQUIPMENT AND METHOD OF THE SAME}

The present invention relates to a gas analysis device and method for a power facility, and more specifically, a gas analysis device and method for a power facility that can capture and analyze the gas inside the power facility and directly check the presence or absence of an internal abnormality in the power facility. It is about.

In general, the gas generated by arc discharge or the like is filled in the inside of an electric power facility such as a terrestrial cable termination junction box or a transformer, and when it is desired to check whether there is an abnormality in the power facility, after collecting the gas inside the electric power facility at the site , Transport the collected gas and analyze it using expensive equipment such as a chromatograph provided in the laboratory.

In addition, when only a small amount of gas exists in the power generation facility, analysis of the gas becomes difficult, and gas composition may change in the process of collecting the gas at the site and transporting it to the laboratory. Therefore, when analyzing a small amount of gas, there is a problem that the accuracy is lowered.

In addition, when collecting the gas inside the power facility by the conventional method, since the pumping method using the bellows, the sample result may be distorted by the gas that may be generated in the gas collector itself according to the material characteristics of the bellows and the bellows driving motor There was a problem that could be.

Background art of the present invention is published in Republic of Korea Patent Publication No. 2002-0041074 (2002.06.01 published, the name of the invention: oil recovery equipment of power generation equipment).

The present invention was created to improve the problems as described above, and an object of the present invention is to collect and measure the gas inside a power facility and analyze the gas for a power facility that can directly measure the presence or absence of an abnormality in the power facility. And to provide a method.

The gas analysis device for a power facility according to the present invention is coupled to a gas collection valve provided in the power facility, and a gas collection path part providing a path through which gas inside the power facility flows out of the power facility, and a gas collection path A gas collecting storage unit for collecting and storing gas leaked to the outside of a power facility along a portion, and a driving unit including a vacuum pump generating a suction force for gas collection so that gas is sucked into the gas collecting storage unit, and a gas collecting storage unit The gas concentration sensing unit that receives the gas collected from the gas and measures the concentration of the gas, a display unit that displays the concentration of the gas measured by the gas concentration sensor unit, a gas collection path unit, a gas collection storage unit, and a driving unit , A gas analysis housing in which a gas concentration sensing unit and a display unit are installed.

In addition, it characterized in that it further comprises a control unit for controlling the operation of the driving unit and the display unit.

In addition, the gas collection path part is characterized in that it comprises a socket valve coupled to the gas collection valve provided in the power facility, and a gas collection tube connecting the socket valve and the gas collection storage.

In addition, the driving unit is characterized in that it further comprises a driving fan for driving the driving fan and a driving fan for discharging the analyzed gas remaining in the gas collecting path unit or the gas collecting storage unit to the outside.

The gas analysis method for a power facility according to the present invention includes: a gas collection path part including a socket valve and a gas collection tube, a gas collection storage part, a driving part including a vacuum pump and a driving fan, and a gas concentration sensing part, A display unit, a placement step of disposing a gas analysis device for a power facility including a gas analysis housing, a gas collection valve installation step of installing a gas collection valve in a drain valve provided in the power facility, and a gas collection tube for the socket valve The socket valve separation step of separating from the remaining gas discharge step of discharging the gas remaining in the gas collection path part and the gas collection storage part by operating the driving fan of the driving part, and the socket valve coupling the socket valve to the gas collection tube Step, the socket valve connecting step of connecting the socket valve to the gas extraction valve, and operating the vacuum pump of the drive unit to the power equipment It characterized in that it comprises a gas collecting step of collecting the gas filled in the portion into the gas collecting storage unit, and a gas concentration measuring step of transferring the gas collected in the gas collecting storage unit to the gas concentration sensing unit to measure the concentration of the collected gas. .

In addition, after the gas concentration measurement step, it characterized in that it further comprises a gas concentration display step of displaying the measured gas concentration through the display unit.

In addition, after the gas concentration display step, it characterized in that it further comprises a gas concentration data storage step of storing the measured gas concentration data through the control unit.

Gas analysis device and method for power facilities according to the present invention, after collecting the gas inside the power facility at the site, by analyzing the gas collected immediately at the site, the cost of power equipment inspection is unnecessary because the use of expensive equipment is unnecessary And save time.

In addition, by preventing changes in the gas composition that may occur in the process of collecting gas from the field and transporting it to the laboratory, it is possible to increase the accuracy of analysis even when only a small amount of gas is collected.

In addition, by replacing the conventionally used pumping method analysis method using bellows, it is possible to prevent distortion of the result of the gas sample due to the problem of the gas collector itself, which has been a problem in the related art.

1 is a view showing a gas analysis device for a power facility according to an embodiment of the present invention.
2 is a view showing a gas analysis method for a power facility according to an embodiment of the present invention.

Hereinafter, a gas analysis apparatus and method for power facilities according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition of these terms should be made based on the contents throughout the present specification.

1 is a view showing a gas analysis device for a power facility according to an embodiment of the present invention, Figure 2 is a view showing a gas analysis method for a power facility according to an embodiment of the present invention.

Referring to FIG. 1, a gas analysis device for a power facility according to an embodiment of the present invention includes a gas collection path unit 100, a gas collection storage unit 200, a driving unit 300, and a gas concentration sensing unit ( 400), a display unit 500, and a gas analysis housing 600.

The gas collection path part 100 includes a socket valve 110 configured to be coupled to a gas collection valve (not shown) provided in a power facility (not shown), a socket valve 110 and a gas collection storage part 200 It includes a gas collection tube 120 for connecting.

The socket valve 110 is preferably made of a metal material and has a structure corresponding to the opening / closing structure of the gas collection valve so that the gas collection valve can be opened when completely in close contact with the gas collection valve provided in the power facility.

The gas collection tube 120 penetrates one side of the gas analysis housing 600, a part of which is exposed outside the gas analysis housing 600, and the other part is located inside the gas analysis housing 600 to store the gas collection. It is connected to the unit 200.

The gas collection storage 200 is installed inside the gas analysis housing 600. The gas collection and storage unit 200 is preferably made of a tedlar bag or an aluminum bag to prevent gas leakage and prevent gas deterioration.

The gas collection storage unit 200 may be provided with a valve (not shown) at a portion connected to the gas collection tube 120, and when the gas collection tube 120 is connected to the gas collection storage unit 200, external air is removed. It is preferable to connect the gas collection tube 120 in a state where the valve is closed so that it does not flow into the gas collection and storage unit 200.

The driving unit 300 is installed inside the gas analysis housing 600, and is connected via a gas collection storage unit 200 and a transfer tube 340.

The driving unit 300 includes a vacuum pump 310 that generates a suction force for gas collection so that gas is sucked into the gas collection storage unit 200, and a gas analysis housing 600 that stores the gas remaining in the gas collection storage unit 200. It includes a driving fan 320 for extracting to the outside, and a driving motor 330 for operating the driving fan 320.

A battery (not shown) serving as a power source capable of operating the vacuum pump 310 and the driving motor 330 may be installed inside the gas analysis housing 600, and the battery is preferably configured to be rechargeable. Do.

The gas concentration sensing unit 400 is installed inside the gas analysis housing 600, and the gas collection storage unit 200 and the connection tube 420 are provided to receive the gas collected from the gas collection storage unit 200. It is connected by mediation.

The movement of the gas from the gas collection and storage unit 200 to the gas concentration sensing unit 400 may be performed by a separate gas moving unit, but may be configured to move naturally by a pressure difference.

The gas concentration sensing unit 400 is a gas concentration sensor of a MEMS (Micro Mechanical System) structure capable of measuring gas concentrations of CH series such as C ₂ H ₂ , CH ₄ , C ₂ H ₆ , C ₂ H ₄ , and H ₂ It may include 410.

The display unit 500 is installed to expose a portion of the gas analysis housing 600 to display the concentration of the gas measured by the gas concentration sensor unit.

The gas analysis housing 600 is formed in a rectangular parallelepiped shape, and is preferably made of a structure that can be opened and closed to install or withdraw the gas collection storage unit 200. In addition, a transparent window (not shown) may be installed in the gas analysis housing 600 to visually check the degree of gas collection by the gas collection storage unit 200.

The gas analysis housing 600 may be configured to be dustproof and waterproof, and is preferably configured to be portable.

The gas analysis housing 600 is provided with a gas suction switch 610 for the operation of the vacuum pump 310 and a gas discharge switch 620 for the operation of the driving motor 320, and the gas collection tube 120 ), A through hole 630 and a discharge fan 640 for discharging residual gas or air to the outside of the gas analysis housing 600 are formed by the driving fan 320.

In the gas analysis housing 600, a control unit 700 that controls the operation of the driving unit 300 and the operation of the display unit 500 may be further installed, and the control unit 700 may store data on the measured gas concentration. A storage unit may be provided.

Hereinafter, a gas analysis method for a power facility according to an embodiment of the present invention will be described in detail with reference to FIG. 2 and with reference to FIG. 1 described above.

Gas analysis method for a power facility according to an embodiment of the present invention is a batch step (S10), a gas extraction valve installation step (S20), a socket valve separation step (S30), the residual gas discharge step (S40), It includes a socket valve coupling step (S50), a socket valve connecting step (S60), a gas collecting step (S70), and a gas concentration measuring step (S80), a gas concentration display step (S90), and gas concentration data storage Step S100 may be further included.

In the arrangement step (S10), a gas analysis device for a power facility shown in FIG. 1 is disposed near a power facility on site.

The gas analysis device for a power facility includes a gas collection path part 100 including a socket valve 110 and a gas collection tube 120, a gas collection storage part 200, a vacuum pump 310 and a driving fan 320 It includes a driving unit 300, a gas concentration sensing unit 400, a display unit 500, a gas analysis housing 600, and a control unit 700.

The gas collection valve installation step (S20) is a step of installing a gas collection valve in a drain valve (not shown) provided in the power facility, and the gas collection valve is connected to the drain valve through a screw connection.

When installing the gas collection valve to the drain valve, it is necessary to check and install the gas collection valve in a closed state, and if it is installed in a state where the gas collection valve is not closed, it is necessary to be careful that gas may leak.

The socket valve separation step (S30) is a step of separating the socket valve 110 of the gas collection path part 100 from the gas collection tube 120. Since the socket valve 110 is always closed when not connected to the gas collection valve, the gas collection tube 120 is previously separated in order to discharge the residual gas while sucking air through the residual gas discharge step (S40). shall.

Residual gas discharge step (S40) by pressing the switch 620 for discharging the gas in the gas analysis housing 600 to operate the drive fan 320 of the driving unit 30, the gas collecting tube of the gas collecting path unit 100 ( 110) and the gas remaining in the gas collecting and storing unit 200 is discharged to the outside.

Through the remaining gas discharge step (S40), it is possible to prevent mixing of the remaining gas and the new gas to be measured, so that inaccurate measurement results can be prevented.

The socket valve coupling step (S50) is a step of coupling the socket valve 110 that has been separated for the collection of new gas to be measured to the gas collection tube 120.

When the gas collection tube 120 is loosely coupled in the socket valve coupling step (S50), it is preferable to replace the gas collection tube 120 with a new gas collection tube 120 to prevent leakage and pressure drop.

The socket valve connection step (S60) is a step of connecting the socket valve 110 to a gas collection valve provided in a power facility for gas collection.

Since the gas valve is opened only when the socket valve 110 is completely in contact with the gas collection valve, attention must be paid to whether or not the socket valve 110 is in full contact in the socket valve connection step S60.

Gas collecting step (S70) by operating the vacuum pump 310 of the driving unit 30 by pressing the gas intake switch 610 of the gas analysis housing 600, the gas in the power facility gas collecting storage unit 200 ).

The gas concentration measurement step (S80) is a step of measuring the concentration of the collected gas by transferring the gas collected in the gas collection and storage unit 200 to the gas concentration sensing unit 400.

In the gas concentration measurement step (S80), CH series such as C ₂ H ₂ , CH ₄ , C ₂ H ₆ , C ₂ H ₄ , H ₂ collected by the gas concentration sensor 410 of the gas concentration sensing unit 400 The gas concentration of is measured immediately on site.

After the gas concentration measuring step S80, the gas concentration displaying step S90 may be further included, and the gas concentration displaying step S90 is a step of displaying the measured gas concentration through the display unit 500.

For the gas concentration display step (S90), the control unit 700 is connected to the gas concentration sensing unit 400 and the display unit 500.

After the gas concentration display step S90, the gas concentration data storage step S100 may be further included, and the gas concentration data storage step S100 may include storing the measured gas concentration data through the control unit 700. In addition, a separate storage unit 710 may be provided in the control unit 700 to store gas concentration data.

As described above, according to the present invention, after collecting the gas inside the power facility at the site, and analyzing the gas collected immediately at the site, the use of expensive equipment is unnecessary, thereby reducing the cost and time for checking the power facility. You can. In addition, by preventing changes in the gas composition that may occur in the process of collecting gas from the field and transporting it to the laboratory, it is possible to increase the accuracy of analysis even when only a small amount of gas is collected. In addition, by replacing the conventionally used pumping method analysis method using bellows, it is possible to prevent distortion of the result of the gas sample due to the problem of the gas collector itself, which has been a problem in the related art.

The present invention has been described with reference to the embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art to which the art belongs understand that various modifications and other equivalent embodiments are possible therefrom. will be. Therefore, the true technical protection scope of the present invention should be defined by the following claims.

100: gas collecting path 110: socket valve
120: gas collection tube 200: gas collection storage
300: drive unit 310: vacuum pump
320: driving fan 330: driving motor
340: transfer tube 400: gas concentration sensing unit
410: gas concentration sensor 420: connecting tube
500: display unit 600: gas analysis housing
610: gas intake switch 620: gas exhaust switch
630: through hole 640: discharge hole
700: control unit 710: storage unit

Claims (7)

A gas collection path unit coupled to a gas collection valve provided in the power facility, and providing a path through which gas inside the power facility flows out of the power facility;
A gas collection and storage unit for collecting and storing gas leaked out of the power facility along the gas collection path unit;
A driving unit including a vacuum pump that generates a suction force for gas collection so that gas is sucked into the gas collection storage unit;
A gas concentration sensing unit that receives the gas collected from the gas collection storage unit and measures the concentration of the gas;
A display unit that displays the concentration of the gas measured by the gas concentration sensor unit; And
It includes; a gas analysis housing in which the gas collecting path part, the gas collecting storage part, the driving part, the gas concentration sensing part, and the display part are installed;
The gas collecting path part is formed in a structure corresponding to the opening / closing structure of the gas collecting valve provided in the power facility, and a gas collecting tube connecting a socket valve detachably attached to the gas collecting valve and the socket valve and the gas collecting storage part Including,
The driving unit further includes a driving fan for discharging the gas remaining analyzed in the gas collecting path unit or the gas collecting storage unit to the outside, and a driving motor for operating the driving fan,
The gas analysis housing is a gas analysis device for a power facility, characterized in that it is made of a structure that can be opened and closed to install or withdraw the gas collection storage.
According to claim 1,
Gas analysis device for a power facility, characterized in that it further comprises a control unit for controlling the operation of the driving unit and the display unit.
delete delete It includes a gas collection path part including a socket valve and a gas collection tube, a gas collection storage part, a drive part including a vacuum pump and a driving fan, a gas concentration sensing part, a display part, a gas analysis housing, and a control part A deployment step of disposing a gas analysis device for a power facility;
A gas collection valve installation step of installing a gas collection valve in the drain valve provided in the power facility;
A socket valve separation step of separating the socket valve from the gas collection tube;
A residual gas discharging step of discharging the gas remaining in the gas collecting path part and the gas collecting storage part by operating the driving fan of the driving part;
A socket valve coupling step of coupling the socket valve to the gas collection tube;
A socket valve connection step of connecting the socket valve to the gas collection valve;
A gas collecting step of operating the vacuum pump of the driving unit to collect the gas inside the power facility into the gas collecting storage unit; And
It includes; a gas concentration measuring step of measuring the concentration of the collected gas by transferring the gas collected in the gas collecting storage to the gas concentration sensing unit;
The socket valve is formed in a structure corresponding to the opening / closing structure of the gas collection valve provided in the power facility, and is detachable from the gas collection valve.
The driving unit includes a driving motor,
The driving fan sucks air through the gas collecting tube,
The gas analysis housing is formed in a portable size, gas analysis method for a power facility, characterized in that it is made of a structure that can be opened and closed to install or withdraw the gas collection storage.
The method of claim 5,
After the gas concentration measuring step, the gas concentration display step of displaying the measured gas concentration through the display unit; Gas analysis method for a power facility further comprising.
The method of claim 6,
After the gas concentration display step, the gas concentration data storage step of storing the measured gas concentration data through the control unit; Gas analysis method for a power facility further comprising.

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