KR101103866B1 - Leck dector for condenser tube - Google Patents

Abstract

The present invention relates to a leak detector of a condenser tube used in a nuclear power plant or the like.

The present invention, in the leak detector for detecting the leakage of the plurality of heat exchange tubes 10 built in the condenser to reduce the steam to water, the plurality of insertion holes 21 to correspond to the plurality of heat exchange tubes (10) The perforated connecting plate 20, one end is provided with a first connector 31 formed to be connected to the heat exchange tube 10 while being fitted into each of the plurality of insertion holes 21, the other end is provided with a second connector ( 32 is provided with a plurality of flexible flexible pipe 30, one end is connected to each of the plurality of second connector 32 and the other end is exposed to the reference pressure liquid to detect the leakage of the heat exchange tube 10 Is filled with a plurality of manometers 40 is detachably mounted to the main body 50, each of the water level sensor 60, the water level sensor (60) for detecting the level of the liquid changed by the pressure mounted on the manometer 40 From 60 A control module 70 outputting a control signal according to the received signal, and a plurality of display lamps 80 flashing to respectively display the leakage of the manometer 40 according to the control signal output from the control module 70. do.

Condenser, heat exchanger tube, leakage, detector, manometer.

Description

Leak detector of the condenser tube {LECK DECTOR FOR CONDENSER TUBE}

The present invention relates to a leak detector of a condenser tube used in a nuclear power plant and the like, and more particularly, to a leak detector of a condenser tube capable of quickly and accurately detecting a leaked portion of the condenser tube.

As is well known, a thermal power plant or a nuclear power plant, etc., is used to take the steam evaporation heat to reduce the steam to water is used to improve the efficiency of the turbine and to reduce the cost of water supply and water treatment according to the reuse of steam.

The condenser is formed into a sealed container, and includes approximately 44,640 or more heat exchange tubes, and aims to lower the pressure below atmospheric pressure by reducing steam to water.

The condenser performs the task of finding the leaked part of the heat exchange tube in the uninterrupted state during the maintenance work due to the simple or regular inspection, the restoration work due to the sudden situation.

In the maintenance or repair work as described above, there is a problem in that it takes a lot of work time since the single manometer is connected to about 10,000 heat exchange tubes one by one to find a leaked part. In other words, the inside of the sealed container of the condenser is a high temperature, high humidity and contaminated by sea water, so the working environment is very poor, and accordingly, a long time to connect a single manometer to about 40 thousand heat exchange tubes at a time. This will lead to accidents caused by exhaustion and fall of workers.

In addition, the conventional manometer is connected to a single manometer to the 40 thousand heat exchange tubes for one day to check the movement of the liquid with the naked eye, so it is difficult to accurately determine the leakage, there was a problem difficult to expect reliability.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to quickly and accurately detect leaking parts of about 40 thousand heat exchange tubes to improve the workability, and accurately determine the leakage part of the heat exchange tubes It is to provide a leak detector of the condenser tube.

In order to achieve the above object, the present invention, in the leak detector for detecting the leakage of the plurality of heat exchange tubes built in the plurality of devices to reduce the steam to water, the connecting plate is a plurality of insertion holes perforated to correspond to the plurality of heat exchange tubes One end is provided with a first connector formed to be connected to the heat exchange tube while being fitted into the plurality of insertion holes, respectively, and a second connector is provided at the other end thereof, and a plurality of connection tubes having one end portion are provided with the plurality of second connectors. A sensing base which is connected to the connector and the other end is demountably mounted with a plurality of manometers filled with liquid so as to detect leakage of the heat exchange tube by being exposed to the reference pressure, and the liquid level changed by the pressure mounted on each manometer Water level sensor for detecting, the control signal according to the signal received from the water level sensor And a plurality of display lamps flashing to display the leakage of the corresponding manometer according to the control module outputting the control signal output from the control module.

The water level sensor according to an embodiment of the present invention, an ultrasonic sensor for detecting the float floated on the liquid on the side of the manometer connected to the connecting pipe, the float moved by the pressure generated in the heat exchange tube to output to the control module It includes.

The embodiment of the present invention further includes a fixing means for fixing the sensing main body to the heat exchange tube so as to be decomposable, wherein the fixing means has a fixture provided at one end thereof so as to be fitted into the inner diameter of the heat exchanging tube. It is preferably made of a fixed bar provided on both sides of the.

At this time, a slider is provided at the other end of the fixing bar, and a vertical guide rail may be formed at both sides of the sensing body to guide the vertical sliding of the slider.

On the other hand, the control module according to an embodiment of the present invention, a control unit for outputting a control signal according to the detection signal input from the water level sensor, and a driving unit for driving the display lamp flashing by the control signal output from the control unit Include.

According to the present invention implemented by the above means, it is possible to connect a plurality of manometers at a time by using a connecting plate and a connecting pipe to a plurality of heat exchange tubes to reduce the working time, thereby to be generated in a poor working environment There is a very useful effect that can prevent accidents caused by exhaustion and fall of the worker in advance.

In addition, according to the present invention, since the leakage portion of the heat exchange tube can be confirmed by turning on or off the display lamp, the accuracy and reliability of the determination of the leakage portion of the heat exchange tube can be improved.

In addition, the present invention provides a convenience to the operator because the sensing base is fixed to the heat exchange tube by a fixed bar, it is possible to vertically slide the fixed bar has the effect that the working radius to be connected to the heat exchange tube can be widened.

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

1 and 2, the leak detector of the plurality of heat exchanger tubes of the present invention has a plurality of insertion holes 21 perforated to correspond to the plurality of heat exchange tubes 10 embedded in the plurality of heaters to reduce steam to water. Connecting plate 20, one end is provided with a first connector 31 formed to be connected to the heat exchange tube 10 while being fitted into the insertion hole 21, and the other end is provided with a second connector 32 at the other end A plurality of manometers 40 each having a liquid L filled with a plurality of connecting pipes 30 and one end connected to the second connector 32 and the other end exposed to a reference pressure to detect leakage of the heat exchange tube 10. ) Is detected from the water level sensor 60 and the water level sensor 60 to detect the water level of the liquid (L) changed by the pressure mounted on the respective manometer 40 To output the control signal according to the detected detection signal And that is configured to control module 70, the control module 70 a plurality of display lamps 80 that flash to each show a leakage of the heat exchange tube 10 in accordance with the output control signal from the technical spirit.

The connecting plate 20 is formed of a rectangular parallelepiped having a predetermined thickness as shown in FIG. 1, so that a plurality of insertion holes 21 are drilled, and the insertion holes 21 are formed of a plurality of heat exchange tubes 10 embedded in the condenser. Perforated at equal intervals along the vertical or horizontal direction of the connecting plate 20 so as to match the arrangement of the). In the drawings, although the ten insertion holes 21 are drilled in the connecting plate 20 while showing one embodiment, the number of the insertion holes 21 may be appropriately added or subtracted as necessary.

The connection pipe 30 is made of a flexible material, and consists of a plurality of connecting the plurality of heat exchange tubes 10 and the manometer 40, respectively, one end of which is provided with a first connector 31 and the other end is made of a first 2 connector 32 is provided. Here, the first connector 31 and the second connector 32 have a cylindrical shape as a whole, and the outer surface is formed in a tapered shape in which the outer diameter decreases in the outer end direction. Accordingly, the first connector 31 is fitted into the insertion hole 21 of the connecting plate 20 to penetrate the outer end thereof, and is coupled to the inner diameter of the end of the heat exchange tube 10 penetrated by the insertion hole 21. And the second connector 32 is coupled to the inner diameter of one end of the manometer 40 to be described later.

The sensing body 50 is formed as a substantially rectangular parallelepiped as shown in FIG. 1, and a plurality of mounting grooves 51 are formed on one surface at predetermined intervals along the up, down, left, and right directions, and the manometer 40 is mounted on the mounting groove 51. ) Is detachably mounted. The manometer 40 is formed of a transparent cylindrical tube 41 bent in a 'U' shape, and the cylindrical tube 41 is filled with a liquid L having a known density. The second connector 32 is connected to one end of the original tube 41 and the other end is exposed to a reference pressure (atmospheric pressure), so that the level of the liquid L pushed up by the pressure difference is detected by the water level sensor 60. By detecting the leaked portion of the heat exchange tube (10).

Here, the water level sensor 60, as shown in Figure 2, the float 61 having a buoyancy to float above the liquid (L) on the side of the manometer 40, the second connector 32 is connected, and the heat exchange tube 10 Ultrasonic sensor 62 detects the float 61 moved by the pressure generated by the output to the control module 70. In FIG. 2, the ultrasonic sensor 62 is mounted on the other side of the original tube 41 in which the float 61 is floated, but the position thereof may be mounted in consideration of the density of the liquid L. In FIG. In addition, the ultrasonic sensor 62 is mounted to the tube 41 by the sensor holder 63, and the mounting bar 64 is horizontally provided at one side of the sensor holder 63 to mount the groove 51 of the sensing base 50. Removably mounted on). Accordingly, if there is no leakage portion in the heat exchange tube 10, the liquid L in the original tube 41 is invariably or weakly moved, whereas if there is a leakage portion in the original tube 41 as shown in FIG. The liquid L is pushed up by the pressure difference, and at this time, the ultrasonic sensor 62 detects the presence or absence of the moving float 61 and outputs a detection signal to the control module 70.

In addition, a plurality of display lamps 80 are provided on the other surface of the sensing base 50, preferably on the upper surface, to visually easily detect the heat exchange tube 10 in which the leaked portion is detected. You will be confirmed.

In addition, the sensing base 50 is fixed to the heat exchange tube 10 by a fixing means to be decomposable. The fixing means is provided with a fastener 52 at one end thereof, and fixing bars 53 connected to both sides of the sensing base 50. Is implemented as Here, the fixture 52 is formed in a substantially conical truncated shape to be fitted into the inner diameter of the heat exchange tube (10). A slider 54 is provided at the other end of the fixing bar 53, and guide rails 55 are formed at both sides of the sensing base 50 to guide the vertical sliding of the slider 54. Although not shown in the figure, it is preferable that stoppers (not shown) are provided at both upper and lower ends of the guide rail 55 to control the separation of the slider 54.

The control module 70 outputs a detection signal input from the water level sensor 60 to the display lamp 80. The control module 70 outputs a control signal according to the detection signal input from the water level sensor 60. A control unit 71 for outputting, and a driving unit 72 for driving the display lamp 80 to blink in response to a control signal output from the control unit 71. The control unit 71 determines the detection signal input from the water level sensor 60 and outputs a control signal to the driving unit 72. The driving unit 72 displays the display lamp 80 according to the control signal output from the control unit 71. The driving signal is output to the display lamp 80 so as to light on or off.

Hereinafter will be described in detail with reference to the accompanying drawings the overall operating relationship of the present invention.

First, the first connector 31 of the connecting pipe 30 is inserted into the insertion hole 21 of the connecting plate 20, wherein the outer end of the first connector 31 is inserted through the insertion hole 21. Should be.

Subsequently, a liquid L having a known density is injected into the tube 41 of the manometer 40 to mount the mounting bar 64 into the mounting groove 51 of the sensing base 50.

Subsequently, the second connector 32 of the connector 30 is coupled to one end of the original tube 41 into which the liquid L is injected, and the plurality of first connectors 31 are respectively coupled to the heat exchange tube 10. do.

Combining the respective components as described above, if there is no leakage in the heat exchange tube 10, the pressure in the heat exchange tube 10 and the original tube 41 is in equilibrium, so the liquid L does not move in either direction. Will not.

However, when there is a leaking part in the heat exchange tube 10, a pressure difference occurs between the heat exchange tube 10 and the original tube 40, so that the liquid L moves in one direction and along the moving direction of the liquid L. The float 61 also moves simultaneously.

At this time, when the ultrasonic sensor 62 detects the presence or absence of the float 61 and outputs a detection signal to the control module 70, the control unit 71 drives the control signal according to the detection signal input from the water level sensor 60. 72, and the driving unit 72 to which the control signal is inputted outputs the driving signal to drive the blinking of the display lamp 80.

Therefore, the present invention can connect the plurality of manometers 40 at a time by using the connecting plate 20 and the connection pipe 30 to the plurality of heat exchange tubes 10, several heat exchange tubes ( 10) to shorten the working time required to connect the manometer 40 one by one, thereby preventing accidents due to exhaustion and fall of workers that can occur in a poor working environment.

In addition, according to the present invention, since the leaked portion of the heat exchange tube 10 can be confirmed by turning on or off the display lamp 80, the cumbersomeness of having to visually check the plurality of manometers 40 as in the prior art and Together, this improves the accuracy of the judgment on the leakage.

The present invention is not limited only to the above-described embodiments, and various modifications, changes, substitutions, and additions can be made in various forms without departing from the spirit of the present invention. I can understand. If such improvement, change, replacement, or addition is carried out within the scope of the following claims, it is obvious that the technical idea also belongs to the present invention.

1 is an exploded perspective view of the present invention.

2 is a cross-sectional view showing a manometer of the present invention.

3 is an operation of FIG.

4 is a block diagram of a control module and a display lamp of the present invention.

♠ Explanation of symbols on the main parts of the drawing ♠

10: heat exchange tube 20: connecting plate

30 connector 40 manometer

50: sensing base 50: fixed bar

60: water level sensor 70: control module

80: indicator lamp L: liquid

Claims (5)

In the leak detector for detecting the leakage of the plurality of heat exchange tubes (10) built in the condenser to reduce the steam to water, A connecting plate 20 having a plurality of insertion holes 21 perforated so as to correspond to the plurality of heat exchange tubes 10, and one end of the connecting plate 20 is fitted into the plurality of insertion holes 21 and connected to the heat exchange tube 10. The first connector 31 is formed to be provided, and the other end is provided with a second connector 32 is provided with a plurality of connectors 30 having flexibility, one end is connected to the plurality of second connector 32 and the other An end portion is mounted to each of the manometers 40, the sensing main body 50 of which a plurality of manometers 40 filled with liquid are decomposably mounted so as to detect leakage of the heat exchange tube 10 by being exposed to the reference pressure. The water level sensor 60 for detecting the level of the liquid changed by the control, the control module 70 for outputting a control signal according to the signal received from the water level sensor 60, according to the control signal output from the control module 70 Each leak of the manometer 40 A plurality of display lamps 80 flashing to be displayed, and the fixture 52 is fitted at one end to be fitted to the inner diameter of the heat exchange tube 10 in order to decomposably fix the sensing base 50 to the heat exchange tube 10. The leak detector of the heat exchanger tube, characterized in that it comprises a fixed bar (53) provided on both sides of the sensing main body (50). The method according to claim 1, The water level sensor 60 is moved by the float 61 floated on the upper portion of the liquid L on the side of the manometer 40 to which the connection pipe 30 is connected, and the pressure generated in the heat exchange tube 10. Leak detection of the heat exchanger tube, characterized in that it comprises an ultrasonic sensor 62 for detecting the float 61 and output to the control module (70). delete The method according to claim 1, Sliders 54 are provided at the other end of the fixing bar 53, and vertical guide rails 55 are formed at both sides of the sensing base 50 to guide the vertical sliding of the slider 54. Leak detector of the condenser heat exchange tube. The method according to claim 1, The control module 70, The controller 71 outputs a control signal according to the detection signal input from the water level sensor 60, and the driver 72 drives the display lamp 80 to blink by the control signal output from the controller 71. Leak detector of the plurality of heat exchanger tube, characterized in that it comprises a.

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