KR100572260B1 - Power transformer thermometer - Google Patents

Abstract

The present invention relates to a thermometer for a power transformer.

According to the present invention, an auxiliary capillary pipe is additionally arranged in parallel with the capillary pipe of the temperature sensing unit, and the auxiliary capillary pipe is directly connected to the compensating bellows pipe so as to be connected to the measuring bellows pipe as well as the ambient temperature change outside the case of the power transformer thermometer. Capable of compensating the internal winding temperature of the power transformer detected by the measuring bellows pipe according to the change in the ambient temperature of about a meter or so installed,

Accordingly, there is an advantage that can measure and display the internal winding temperature of the power transformer more accurately than the conventional power transformer thermometer.

Power transformer, thermometer, bellows, current transformer, load current, capillary piping, insulating oil

Description

Thermometer for Power Transformers {TEMPERATURE INDICATOR FOR POWER TRANSFORMER}             

1 is a block diagram showing a temperature measuring method of a conventional power transformer thermometer.

Figure 2 is a plan view showing a conventional power transformer thermometer.

Figure 3 is an exploded view showing a conventional power transformer thermometer.

4 is a plan view illustrating the measurement bellows tube of FIG. 3 to which a capillary tube and a heating wire are connected.

FIG. 5 is a side view schematically showing an interlocking state of a scale plate of a transformer temperature display unit and a drum unit and a microswitching unit according to a shaft movement of the measuring bellows tube of FIG. 3; FIG.

6 is a plan view showing the shaft movement of the measuring bellows tube according to the shaft movement of the compensating bellows tube of FIG.

7 is a plan view of a thermometer for power transformer according to the present invention.

8 is a plan view illustrating the compensation bellows tube of FIG. 3 to which a capillary tube according to the present invention is connected;

<Explanation of symbols for the main parts of the drawings>

100: power transformer 200: transformer tank                 

300: 400, 400 'temperature thermometer

The present invention relates to a thermometer, and more particularly to a thermometer for a power transformer.

As is well known, a power transformer is a power device used as a part of a transmission system or a distribution system, and is installed inside a tank filled with insulating oil, and is appropriately boosted or stepped down an AC voltage for economic transmission and distribution. Or, it supplies the voltage required for the home, and the lifetime is determined by the internal winding temperature, which in particular depends on the insulation degradation.

The most important thing in the operation of the power transformer is to measure and manage not only the internal winding temperature but also the insulating oil temperature to compensate for the internal winding temperature, and according to the measured internal winding temperature, an alarm for various cooling devices or abnormalities or It is to prevent the operation of the power transformer and the progress of the accident in the event of an accident or the operation of the power transformer by interlocking various control devices that perform operation blocking.

On the other hand, the power transformer thermometer is a measuring instrument for measuring the internal winding temperature of the power transformer as described above, as shown in Figure 1, it is possible to directly measure the internal winding temperature of the power transformer located in the tank filled with the insulating oil Since it cannot be, the load current of the power transformer 100 sensed through the current transformer CT mounted on the bushing 202 of the transformer tank 200 is transferred to the internal heating element via the matching variable resistor VR. After sensing the temperature of the heat generated from the heating wire (HL) after flowing to the heating wire (HL) used, at the same time, the temperature-sensitive pipe mounted inside the protective tube 206 formed in the highest portion of the insulating oil temperature of the tank ( Indirectly detects the highest insulating oil temperature through the temperature sensing unit 300, which is connected to the 302 and the capillary pipe 304 filled with a liquid therein, and sums the two sensing temperatures. And it displays the measured temperature of the winding unit.

2 to 4, the temperature reduction part 300 of the thermometer 400 for the power transformer is a temperature-sensitive pipe 302 mounted inside the protection tube 206 formed at the highest portion of the insulating oil temperature of the transformer tank 200. It is composed of a capillary tube 304 connected to the) and filled with a liquid inside and covered by the flexible tube 306.

The measurement bellows pipe 420 of the power transformer thermometer 400 is connected to a heating wire 421 and has a built-in heating wire HL used as an internal heating element, and is connected to the capillary pipe 304 in the heating wire 421. Internal winding temperature of the power transformer 100 by advancing or reversing the shaft 422 according to the temperature of the heat generated in the HL and the highest insulating oil temperature indirectly detected through the capillary pipe 304 of the temperature reduction part 300. It is installed inside the case 410 to indicate.

The compensation bellows pipe 430 of the power transformer thermometer 400 compensates for the movement of the shaft 422 of the measurement bellows pipe 420 according to a change in ambient temperature outside the case 410 to compensate for the internal winding temperature. do.

The transformer temperature display linkage 440 of the thermometer 400 for the power transformer is interlocked with the shaft 422 of the measuring bellows pipe 420.

The transformer temperature display unit 450 of the thermometer 400 for the power transformer has a shaft 422 of the measurement bellows pipe 420 in accordance with the rotational movement of the adjuster 451 in conjunction with the transformer temperature display linkage 440. The indicating internal winding temperature is indicated by the indicator needle 453 of the scale plate 452.

The microswitching unit 460 of the thermometer 400 for the power transformer is the plurality of switches 461 of the plurality of switches 461 when the internal winding temperature indicated by the shaft 422 of the measuring bellows pipe 420 is detected as a predetermined predetermined temperature A switch 461 corresponding to a particular sensed temperature is turned on to drive an alarm or transformer control (eg, cooling fan).

The alarm temperature setting drum unit 470 of the power transformer thermometer 400 is fixed to the drum shaft 471, which rotates in conjunction with the transformer temperature display linkage 440, respectively, and is switched on / off at a specific position of the circumference. An off latching jaw 472a is formed and includes a plurality of drums 472 that correspond one-to-one to the plurality of switches 461 of the microswitching unit 460, and thus the shaft of the measuring bellows pipe 420 ( When the internal winding temperature indicated by 422 is detected as a predetermined specific temperature, the switch 461 corresponding to the specific sensing temperature of the plurality of switches 461 of the microswitching unit 460 is turned on.

The terminal block 480 for supplying the transformer load current of the thermometer 400 for the power transformer receives the load current of the power transformer 100 sensed through the current transformer CT mounted on the bushing 202 of the transformer tank 200. A heating device 421 and a plurality of switches 461 of the microswitching unit 460 which flow through the matching variable resistor VR to the heating wire HL built in the measuring bellows pipe 420 are alarm devices. Alternatively, wires connected to the control device are connected through the plurality of connectors 411 of the case 410.

The conventional power transformer thermometer 400 configured as described above operates as follows to measure and display the internal winding temperature of the power transformer 100.

Referring to FIG. 5, the measurement bellows pipe 420 connected to the capillary pipe 304 of the temperature sensing unit 300 is filled in the measurement bellows pipe 420 through the capillary pipe 304. The power transformer 100 sensed through the current transformer CT mounted on the bushing 202 of the transformer tank 200 while indirectly detecting the highest insulating oil temperature of the transformer tank 200 through the liquid inside. When the load current is applied to the measuring bellows pipe 420 through the heating wire 421 via the matching variable resistor (VR) of the terminal block for supplying the transformer load current 480 is used as the internal heating element The hot wire HL is heated to generate heat.

Accordingly, the liquid in the measuring bellows pipe 420 having the same temperature as the liquid in the capillary pipe 304 is heated and thermally expanded by the heat generated by the heating wire HL, and as a result, the measuring bellows pipe ( The bellows embedded in 420 retracts and pushes the shaft 422 forward (see arrow a in FIG. 5).

In this case, the pushing force of the shaft 422 is a lower end portion of the first link 441 and the upper end of the first link 441 of the transformer temperature display linkage 440 directly connected to the shaft 422, respectively It is simultaneously transmitted to the transformer temperature display unit 450 and the alarm temperature setting drum unit 470 through the second link 442 and the third link 443 to be connected.

The measuring bellows pipe 420 connected to the capillary pipe 304 of the temperature sensing part 300.

In fact, when the second link 442 connected to the upper end of the first link 441 by the pushing force of the shaft 422 of the measuring bellows pipe 420 moves as shown by arrow b of FIG. 5, the second link ( The adjuster 451 of the transformer temperature display unit 450 connected to 442 performs a rotational movement, and the internal winding temperature indicated by the shaft 422 of the measuring bellows pipe 420 is changed to the indicator needle 453 of the scale plate 452. Display.

In addition, when the third link 443 connected to the upper end of the first link 441 by the pushing force of the shaft 422 of the measuring bellows pipe 420 moves as shown by arrow c in FIG. The drum shaft 471 of the alarm temperature setting drum unit 470 connected to the third link 443 is rotated as shown by arrow d of FIG. 5, and as a result, to drive the alarm device or control device. The switch 461 of the microswitching unit 460 is pushed by the pushing force of the locking projection 472a for switching on / off the drum 472 to which the indicator plate 472a indicating a specific temperature is fastened. It is switched on by pressing down as shown by arrow e of 5. If the switched-on drum 470 is a drum 470 having a specific temperature set to drive an alarm device for overheating the power transformer 100 or a cooling fan of the power transformer 100, The alarm device or the cooling fan connected to the switch 461 corresponding to the drum 470 switched on through the transformer load current supply terminal block 480 is driven.

On the other hand, while the conventional power transformer thermometer 400 operates as described above to measure and display the internal winding temperature of the power transformer 100, the movement of the shaft 422 of the measuring bellows pipe 420 may cause By the shaft movement of the compensation bellows pipe 430 to compensate for the internal winding temperature of the power transformer 100 by compensating for the movement of the shaft 422 of the measurement bellows pipe 420 according to the external ambient temperature change. Controlled.

Referring to FIG. 6, when the ambient temperature outside the case 410 of the conventional power transformer thermometer 400 rises, the temperature of the internal liquid of the measurement bellows pipe 420 rises together, so that the measurement bellows pipe 420 is provided. The internal winding temperature of the power transformer 100 sensed by the controller appears to be higher by the ambient temperature outside the case 410 than the actual value.

In this case, the liquid filled in the compensation bellows pipe 430 is heated and thermally expanded by the ambient temperature outside the case 410, and as a result, the bellows embedded in the compensation bellows pipe 430 shrinks, and the compensation bellows pipe is closed. Push the shaft 431 of 430 forward (see arrow a 'in FIG. 6).

At this time, one end of the link perpendicular to each other with respect to the central rotation axis is connected to the shaft 431 of the compensation bellows pipe 430, and the other end of the link is connected to the measurement bellows pipe 420. The power transformer sensed by the measuring bellows pipe 420 by pulling back the measuring bellows pipe 420 (see arrow c 'in FIG. 6) while rotating as shown by arrow b' of FIG. The change in the internal winding temperature of 100 is compensated with the actual value according to the change in the ambient temperature outside the case 410.

However, the actual power transformer by compensating the movement of the shaft 422 of the measuring bellows tube 420 with the compensation bellows tube 430 in which the movement of the shaft 431 changes only according to the ambient temperature outside the case 410 as described above. In the case of compensating for the change in the internal winding temperature of 100, the temperature reduction pipe 302 of the temperature sensing unit 300 is typically mounted inside the protective tube 206 of the transformer tank 200. And the capillary pipe 304 is connected to the measuring bellows pipe 420 in a state where the capillary pipe 304 is installed at about 10 meters away from each other, so that the liquid inside the capillary pipe 304 may be As the temperature is changed, there is a problem that the internal winding temperature of the actual power transformer 100 is increased by a change in the ambient temperature of about ten meters or more where the capillary pipe 304 is installed.

In fact, when the compensation of the internal winding temperature of the power transformer 100 is compensated by the compensation bellows pipe 430 in which the movement of the shaft 431 changes only according to the ambient temperature outside the case 410, the measurement bellows as described above. The capillary pipe 304 connected to the pipe 420 has a disadvantage in that it does not compensate for the change in the internal winding temperature of the power transformer 100 according to the change in the ambient temperature of about a dozen meters.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to further arrange an auxiliary capillary pipe in parallel with the capillary pipe of the temperature sensing portion, and to connect the auxiliary capillary pipe directly to the compensation bellows pipe thermometer for power transformer For power transformers to compensate for the internal winding temperature of the power transformer sensed by the measuring bellows pipe in accordance with the ambient temperature change of around a meter or more with a capillary pipe connected to the measuring bellows pipe as well as a change in the ambient temperature outside the case To provide a thermometer.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention (in the present invention, the same components as in the prior art reference to the reference numerals of Figures 1 to 6) will be described in detail.

Referring to FIGS. 7 and 8, the temperature reduction part 300 of the power transformer thermometer 400 ′ according to the present invention is mounted inside the protection pipe 206 formed at the highest portion of the insulating oil temperature of the power transformer tank 200. The capillary tube 304 connected to the thermosensitive pipe 302 and filled with a liquid and covered by the flexible tube 306 and the capillary tube 304 without being directly connected to the thermosensitive pipe 302. Auxiliary capillary tube 308 is disposed.

The measurement bellows pipe 420 of the power transformer thermometer 400 'is connected to a heating wire 421 and has a built-in heating wire HL to be used as an internal heating element, and is connected to the capillary pipe 304 in the heating wire 421. Internal winding temperature of the power transformer 100 by advancing or reversing the shaft 422 according to the temperature of the heat generated in the HL and the highest insulating oil temperature indirectly detected through the capillary pipe 304 of the temperature reduction part 300. It is installed inside the case 410 to indicate.

The compensation bellows pipe 430 'of the power transformer thermometer 400' is connected to the auxiliary capillary pipe 308 in order to compensate for the internal winding temperature. Compensating for the movement of the shaft 422 of the measuring bellows pipe 420 according to the change in the ambient temperature outside the capillary pipe 304 of 300.

The transformer temperature display linkage 440 of the power transformer thermometer 400 ′ works with the shaft 422 of the measuring bellows pipe 420.

The transformer temperature display unit 450 of the power transformer thermometer 400 ′ has a shaft 422 of the measurement bellows pipe 420 in accordance with the rotational movement of the adjuster 451 in conjunction with the transformer temperature display linkage 440. The indicating internal winding temperature is indicated by the indicator needle 453 of the scale plate 452.

The microswitching unit 460 of the power transformer thermometer 400 ′ is configured to generate an internal winding temperature indicated by the shaft 422 of the measuring bellows pipe 420 at a predetermined temperature. The switch 461 corresponding to the specific sensing temperature is turned on to drive the alarm device or the transformer control device.

The alarm temperature setting drum unit 470 of the power transformer thermometer 400 'is fixed to the drum shaft 471 which rotates in conjunction with the transformer temperature display linkage 440, respectively, and is switched on / off at a specific position of the circumference. An off hooking jaw 472a is formed and includes a plurality of drums 472 that correspond one-to-one to a plurality of switches 461 of the microswitching portion 460 to form a shaft 422 of the measuring bellows pipe 420. When the internal winding temperature indicated by) is detected as a preset specific temperature, the switch 461 corresponding to the specific sensing temperature of the plurality of switches 461 of the microswitching unit 460 is turned on.

The terminal block 480 for supplying the transformer load current of the thermometer 400 'for the power transformer is a load current of the power transformer 100 sensed through the current transformer CT mounted on the bushing 202 of the power transformer tank 200. A heating wire 421 and a plurality of switches 461 of the microswitching unit 460 which flow into the heating wire HL built in the measurement bellows pipe 420 via the matching variable resistor VR. Wires connecting the device or the control device are connected through the plurality of connectors 411 of the case 410.

By the above configuration, the power transformer thermometer 400 'according to the present invention operates as follows to measure and display the internal winding temperature of the power transformer 100.

In the present invention, the first link 441 and the second link 442 by the pushing force of the shaft 422 of the measuring bellows pipe 420 connected to the capillary pipe 304 of the temperature sensitive portion 300 The adjuster 451 of the transformer temperature display unit 450 to interlock rotates to display the internal winding temperature indicated by the shaft 422 of the measurement bellows pipe 420 by the indicator hand 453 of the scale plate 452. The operation to proceed is the same as in the prior art.

In addition, in the present invention, the alarm in conjunction with the first link 441 and the third link 443 and the drum shaft stator 471a by the pushing force of the shaft 422 of the measuring bellows pipe 420. As the drum shaft 471 of the temperature setting drum unit 470 rotates, the switch 461 of the microswitching unit 460 is pushed by a pushing force of the latching jaw 472a for switching on / off the drum 472. ) Is switched on to drive the alarm or cooling fan connected to the corresponding switch 461 also in the same manner as in the prior art.

On the other hand, the ambient temperature outside the case 410 of the power transformer thermometer 400 'according to the present invention rises and the outside temperature of the capillary pipe 304 of the temperature sensing part 300 connected to the measurement bellows pipe 420 is increased. When the temperature rises, the temperature of the liquid inside the measuring bellows pipe 420 rises together, so that the internal winding temperature of the power transformer 100 sensed by the measuring bellows pipe 420 is larger than the actual value. It is higher than the ambient temperature and the ambient temperature outside the capillary tube 304.

In this case, not only the ambient temperature outside the case 410 but also the auxiliary capillary pipe 308 disposed in parallel with the capillary pipe 304 without being directly connected to the temperature-sensitive pipe 302 and covered by the flexible view 306. The liquid filled inside the compensation bellows pipe 430 is heated and thermally expanded by the ambient temperature outside the capillary pipe 304 which is transferred to the compensation bellows pipe 430 'through the internal liquid of As the bellows embedded in 430 contracts, the shaft 431 of the compensating bellows pipe 430 is pushed forward (see arrow a 'in FIG. 6).

At this time, one end of the link perpendicular to each other with respect to the central rotation axis is connected to the shaft 431 of the compensation bellows pipe 430, and the other end of the link is connected to the measurement bellows pipe 420. The power transformer sensed by the measuring bellows pipe 420 by pulling back the measuring bellows pipe 420 (see arrow c 'in FIG. 6) while rotating as shown by arrow b' of FIG. The change in the internal winding temperature of 100 is compensated with the actual value according to the change in the ambient temperature outside the case 410 and the change in the ambient temperature outside the capillary tube 304.

As described above, in the power transformer thermometer according to the present invention, an auxiliary capillary tube is additionally arranged in parallel with a capillary pipe of the temperature sensing unit, and the auxiliary capillary pipe is directly connected to a compensation bellows pipe to allow the ambient temperature outside the case of the power transformer thermometer. In addition to the change, since the capillary pipe connected to the measuring bellows pipe is installed to compensate for the internal winding temperature of the power transformer detected by the measuring bellows pipe according to a change in the ambient temperature of about 10 meters or so, a conventional power transformer thermometer. Compared to the measurement, the internal winding temperature of the power transformer can be measured and displayed more precisely.

What has been described above is just one embodiment for implementing the power transformer thermometer according to the present invention, the present invention is not limited to the above-described embodiment, the scope of the invention as claimed in the following claims Without this, anyone skilled in the art to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (1)

Capillary tube 304 connected to the thermal pipe 302 mounted inside the protection tube 206 formed at the highest portion of the insulating oil temperature of the power transformer tank 200 and filled with liquid and covered by the flexible tube 306. And a thermosensitive part 300 including an auxiliary capillary pipe 308 disposed side by side with the capillary pipe 304 without being directly connected to the thermosensitive pipe 302; The heat wire HL, which is connected to the heating wire 421 and used as an internal heating element, is built-in, and the temperature of the heat generated in the heat wire HL in the state connected to the capillary pipe 304 and the capillary of the temperature sensing part 300. Measurement bellows pipe 420 installed inside the case 410 to indicate the internal winding temperature of the power transformer 100 by moving the shaft 422 forward or backward according to the highest insulating oil temperature indirectly detected through the pipe 304. ); The measurement according to the change in the ambient temperature outside the case 410 and the change in the ambient temperature outside the capillary pipe 304 of the temperature reduction part 300 to compensate for the internal winding temperature in the state connected with the auxiliary capillary pipe 308. A compensation bellows pipe 430 'that compensates for the movement of the shaft 422 of the bellows pipe 420; A linkage 440 for transformer temperature display interworking with the shaft 422 of the measurement bellows pipe 420; The indicator needle 453 of the scale plate 452 indicates the internal winding temperature indicated by the shaft 422 of the measuring bellows pipe 420 according to the rotational movement of the adjuster 451 interlocked with the transformer temperature display linkage 440. Transformer temperature display unit 450 to display; When the internal winding temperature indicated by the shaft 422 of the measuring bellows pipe 420 is detected as a preset specific temperature, a switch 461 corresponding to the specific sensing temperature of the plurality of switches 461 is turned on to provide an alarm device or A microswitching unit 460 for driving a transformer control device; The latching jaw 472a for switch on / off is formed at a specific position around the drum shaft 471 which rotates in association with the transformer temperature display linkage 440, and the microswitching portion 460 The microswitching unit may include a plurality of drums 472 corresponding to the switches 461 in a one-to-one manner, when the internal winding temperature indicated by the shaft 422 of the measurement bellows pipe 420 is detected as a predetermined temperature. An alarm temperature setting drum unit 470 for turning on a switch 461 corresponding to the specific sensing temperature among a plurality of switches 461 of 460; And The load current of the power transformer 100 sensed through the current transformer CT mounted on the bushing 202 of the power transformer tank 200 is supplied to the measurement bellows pipe 420 via a matching variable resistor VR. The heating wire 421 flowing through the built-in heating wire HL and the wires connecting the plurality of switches 461 of the microswitching unit 460 to an alarm device or a control device are connected to the plurality of connectors of the case 410. Terminal block 480 for supplying transformer load current connected through 411 Power transformer thermometer, characterized in that consisting of.

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