KR20170123550A - Gas Leakage Sensing System of 3-Way Valve - Google Patents

Abstract

According to the present invention, a gas leakage sensing system of a 3-way valve comprises: a valve body (100) including two paths (A, B) into which fluid is introduced and one path (AB) discharging fluid introduced from the two paths (A, B); a disk (200) mounted in the valve body (100) and opening and closing the paths (A, B, AB) in which the fluid moves while vertically moving; an upper sheet (300A) closing one path (B) into which fluid is introduced by coming in contact with an upper portion of the disk (200) while the disk (200) moves upward; a lower sheet (300B) closing the other path (A) into which the fluid is introduced by coming in contact with a lower portion of the disk (200) when the disk (200) moves downward; pipes (P) extending from the paths (A, B, AB), respectively; a fluid measuring unit (400) formed on the pipe (P) to measure the flow rate of the introduced and discharged fluid; and a control unit (500, not shown) having a communication module and communicating with a smart phone or a server. The gas leakage sensing system of a 3-way valve is installed in the valve to measure whether a valve malfunctions by determining whether fluid is leaked, thereby increasing a devices reliability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a three-

The present invention relates to a leak detection system for a three-way valve.

Leakage to the valve is a common phenomenon occurring in plants. In order to prevent serious accidents in a power plant that handles high pressure and high pressure steam, or a petrochemical plant that treats corrosive gas, solution, or flammable gas, It is required to detect it early.

These internal leaks are caused by inserting foreign substances on the valve seat surface that serves as a seal, damaging the internal parts of the valve due to frequent opening and closing of the valve, cracking of the valve body and valve seat.

If internal leakage occurs, the amount of leakage increases with time, or the pressure at the inlet side of the valve is lowered. As a result, loss of cooling function in the equipment or system, discharge of toxic substances or radioactive substances, And accidents.

In addition, in the case of a turbine generator installation, even when the condensate drain valve is completely closed, steam or water flows, thereby reducing steam flow to the turbine, reducing power generation and reducing energy loss and condenser workload. .

If the internal leakage of the valve is left untouched, the condition of the valve packing and sealing becomes worse, which requires a lot of maintenance work and maintenance becomes difficult compared to the initial leak. In the case of a power plant, the leakage of the valve can lead to the shutdown of the power plant. Especially in a nuclear power plant, leakage of fluid from the valve may cause serious problems such as leakage or contamination of radioactive material.

Valves are installed in the petrochemical and power generation facilities plant, and the loss due to leakage to these valves is estimated to be hundreds of thousands of dollars annually and hundreds of millions of won for the money. And a countermeasure for early diagnosis of internal leakage are essential.

In order to solve the above-mentioned problems, there has been known a conventional technology disclosed in Korean Utility Model Laid-Open No. 20-2011-0004087, which is equipped with a leak detection sensor installed in a raw water supply line for supplying raw water from a raw water supply source to a water purifier An inlet port formed on the bottom surface so as to allow leakage water leaking from the water purifier to flow in, an inlet port communicating with the raw water supply source-side flow path, and an outflow port communicating with the water purifier-side flow path; A plunger inserted in a case mounted on the base and lifted in conjunction with the expansion of the compression body; and a plunger fixed to the compression body A leakage detection unit having an elastic member elastically supported so as to maintain a state of being leaked; A micro switch which is switched on due to contact with the plunger during a volume expansion of the compression body, and detects leakage from the water purifier; And a water blocking portion provided with a solenoid valve for opening and closing a passage for communicating the intake port and the water outlet port by a push pin that flows according to an input of an electrical signal from the micro switch. There,

Korean Patent Registration No. 10-0838260 discloses an intermediate shut-off valve installed in a gas piping for transporting gas from a gas supply source to a predetermined equipment, and supplying and blocking the gas, comprising: And a first opening / closing means for opening and closing a main gas passage, which is fastened to the main gas pipe and to which gas is supplied to a predetermined device, Second opening / closing means for opening / closing a check gas inflow passage formed around the main gas passage for confirming gas leakage in the gas piping and the first opening / closing means portion; A transparent water tub connected to the body and generating bubbles in the inspection solution filled therein when gas is supplied to the main gas passage or the check gas inflow passage; And a pressure display means installed in the water tub to detect and display a change in internal pressure of the water tub, wherein the first opening and closing means comprises an opening / closing handle disposed outside the body, And an overflow cutoff fuse formed on the gas delivery side of the main gas passage. The second opening and closing means includes a check shaft formed in one of the inlet passages, And a check lever for opening and closing the passage by vertically driving the check shaft and the reverse flow shaft to open and close the check valve.

KR 20-2011-0004087U KR 10-0838260 B1 KR 10-2003-0044349 A US 2010/0132813 A1

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems of the prior art.

More specifically, the present invention provides a method of diagnosing whether a valve malfunctions by judging whether a fluid is leaked or not by being installed inside a valve.

In order to achieve the above object, a three-way valve leakage detection system according to the present invention includes two flow paths A and B into which fluids flow, and one flow path that discharges fluids introduced from the two flow paths A and B A valve body 100 forming a flow path AB; A disk 200 mounted inside the valve body 100 for opening and closing the flow paths A, B, and AB through which the fluid moves up and down; An upper sheet 300A that abuts against the upper portion of the disc 200 when the disc 200 is lifted and closes one flow path B into which the fluid flows; A lower sheet 300B that abuts against a lower portion of the disc 200 when the disc 200 descends and closes another flow path A through which the fluid flows; A pipe P extending from the flow paths A, B and AB, respectively; A flow rate measuring unit 400 for measuring a flow rate of fluid flowing in and out of the pipe P; A control unit 500 (not shown) having a communication module and communicating with a smartphone or a server; And a control unit.

As described above, the present invention has an effect of increasing the reliability of the device by detecting whether the fluid is leaked or not, and diagnosing whether the valve is faulty or not by installing the valve inside the valve.

1 is a perspective view of a three-way valve according to an embodiment of the present invention;
2 is a front sectional view of a three-way valve to which a leakage detection system according to an embodiment of the present invention is applied;
3 is a left side sectional view of a three-way valve to which a leakage detection system according to an embodiment of the present invention is applied;
4 is an operational example of a three-way valve according to an embodiment of the present invention;
5 is a flowchart of a leak detection system according to an embodiment of the present invention;
6 is a flowchart of a leak detection system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

Leakage to the valve is a common phenomenon occurring in plants. In order to prevent serious accidents in a power plant that handles high pressure and high pressure steam, or a petrochemical plant that treats corrosive gas, solution, or flammable gas, It is required to detect it early.

These internal leaks are caused by inserting foreign substances on the valve seat surface that serves as a seal, damaging the internal parts of the valve due to frequent opening and closing of the valve, cracking of the valve body and valve seat.

If internal leakage occurs, the amount of leakage increases with time, or the pressure at the inlet side of the valve is lowered. As a result, loss of cooling function in the equipment or system, discharge of toxic substances or radioactive substances, And accidents.

In addition, in the case of a turbine generator installation, even when the condensate drain valve is completely closed, steam or water flows, thereby reducing steam flow to the turbine, reducing power generation and reducing energy loss and condenser workload. .

If the internal leakage of the valve is left untouched, the condition of the valve packing and sealing becomes worse, which requires a lot of maintenance work and maintenance becomes difficult compared to the initial leak. In the case of a power plant, the leakage of the valve can lead to the shutdown of the power plant. Especially in a nuclear power plant, leakage of fluid from the valve may cause serious problems such as leakage or contamination of radioactive material.

Valves are installed in the petrochemical and power generation facilities plant, and the loss due to leakage to these valves is estimated to be hundreds of thousands of dollars annually and hundreds of millions of won for the money. And a countermeasure for early diagnosis of internal leakage are essential.

1 to 3, the leakage detection system of a three-way valve according to the present invention includes two flow paths A and B into which fluids flow, and a flow path that discharges the fluids introduced from the two flow paths A and B A valve body 100 forming a single flow passage AB for supplying a fluid to the valve body 100; A disk 200 mounted inside the valve body 100 for opening and closing the flow paths A, B, and AB through which the fluid moves up and down; An upper sheet 300A that abuts against the upper portion of the disc 200 when the disc 200 is lifted and closes one flow path B into which the fluid flows; A lower sheet 300B that abuts against a lower portion of the disc 200 when the disc 200 descends and closes another flow path A through which the fluid flows; A pipe P extending from the flow paths A, B and AB, respectively; A flow rate measuring unit 400 for measuring a flow rate of fluid flowing in and out of the pipe P; A control unit 500 (not shown) having a communication module and communicating with a smartphone or a server; And a control unit.

Specifically, the control unit 500 compares and calculates the flow rate data measured by the flow rate measurement unit 400 mounted on each pipe P, and when the average value obtained by accumulating the calculated flow rate data exceeds a certain range , It is determined that an abnormality has occurred in the valve (1) and the manager is notified to the smartphone or server.

In the first embodiment of the present invention including the above-described components, as shown in FIG. 5, when the first fluid flows, the flow rate data is collected by the flow rate measuring unit 400 installed for each pipe P, 500, and the control unit 500 compares / computes the flow rate data for each pipe P, accumulates the difference values, and builds the average data. When the average data exceeds the initial allowable range, it is determined that there is an abnormality in the valve (1), and a warning signal is sent to the manager through the smartphone and server, and the system is terminated when the manager confirms the abnormality.

In addition, in the second embodiment of the present invention, in addition to the above-mentioned components, the pipe P is provided with a concentration measuring unit 600 for measuring the concentration of the fluid, P, it is judged that an abnormality has occurred in the valve 1 when the average value derived by accumulating the calculated concentration data exceeds a certain range And informing the administrator via a smartphone or a server.

6, concentration data is collected in the concentration measuring unit 600 installed for each pipe P when the first fluid flows as shown in FIG. 6, and the concentration data is collected by the controller 500 The control unit 500 compares / calculates the concentration data for each pipe P, accumulates the difference data, and builds the average data. When the average data exceeds the initial allowable range, it is determined that there is an abnormality in the valve (1), and a warning signal is sent to the manager through the smartphone and server, and the system is terminated when the manager confirms the abnormality.

It is also possible to combine the first embodiment and the second embodiment to derive the third embodiment in which leakage or leakage is detected by reflecting the flow rate and concentration data together.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

1: Valve
100: Valve body
200: disk
300A: upper sheet
300B:
400: Flow measuring unit
500:
600: concentration measuring unit
A, B, AB: Euro
P: Piping

Claims (4)

A valve body 100 forming two flow paths A and B through which fluids flow and a flow path AB through which the fluids introduced from the two flow paths A and B are discharged;
A disk 200 mounted inside the valve body 100 for opening and closing the flow paths A, B, and AB through which the fluid moves up and down;
An upper sheet 300A that abuts against the upper portion of the disc 200 when the disc 200 is lifted and closes one flow path B into which the fluid flows;
A lower sheet 300B that abuts against a lower portion of the disc 200 when the disc 200 descends and closes another flow path A through which the fluid flows;
A pipe P extending from the flow paths A, B and AB, respectively;
A flow rate measuring unit 400 for measuring a flow rate of fluid flowing in and out of the pipe P;
A control unit 500 (not shown) having a communication module and communicating with a smartphone or a server; And a leakage detection system for detecting the leakage of the three-way valve. The method according to claim 1,
The control unit 500 compares and calculates the flow rate data measured by the flow rate measuring unit 400 installed in each pipe P and when the average value obtained by accumulating the calculated flow rate data exceeds a certain range, (1), and informs the manager of the malfunction of the valve (1) by a smartphone or a server. The method according to claim 1,
Wherein the pipe (P) is provided with a concentration measuring unit (600) for measuring the concentration of the fluid. 4. The method according to any one of claims 1 to 3,
The control unit 500 compares and calculates the concentration data measured by the concentration measuring unit 600 mounted on each of the pipelines P. When the average value obtained by accumulating the calculated concentration data exceeds a certain range (1), and informs the manager of the malfunction of the valve (1) by the smartphone or the server.

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