CS261993B1 - Apparatus for remote measuring temperature in high voltage places with therm conductor - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for remote temperature measurement at high voltage locations by means of a heat pipe.

The remote temperature measurement devices used hitherto are demanding in terms of transmitting information from the measured location to the measuring instrument, be it an electrical, electromagnetic, acoustic or other signal.

These drawbacks are remedied by the remote temperature measuring device according to the invention, which consists in that the input part of the electrically insulating heat pipe is inserted into the heat transducer, the output part is inserted into one end of the thermal resistance. a second sensor of heat loss sensor is provided at the second end of the heat resistor provided with a heat sink; a temperature sensor connected via a thermometer outlet and a heater connected by a first conduit and a heat input regulator with a heat source; connected to the heating input regulator.

The development of the invention consists in that the electrically insulating heat conduit and the thermal resistance are provided with a thermally insulating jacket.

The advantage of the solution according to the invention is that, due to the use of an electrically insulating heat pipe, any electrical, mechanical or other element whose measurable properties are influenced by temperature can be used as the temperature sensor of the thermometer.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail below with reference to the exemplary embodiment shown in the accompanying drawing.

The apparatus consists of a heat transducer 12 into which the inlet part of the electrically insulating heat pipe 1 is inserted. The outlet part of the electrically insulating heat pipe 1 is inserted into the inlet end of the thermal resistance 2, in which the first sensor 5 of the heat loss sensor is located. In the second outlet end of the heat resistor 2 provided with the heatsink 15 is located a second sensor 6 of the heat loss sensor and a temperature sensor 3 connected via the outlet to the thermometer 7. In the second outlet end of the heat resistor 2 9 and by means of a heat source heating power regulator 8. The first sensor 5 and the second heat loss sensor 6 are connected to the heating power regulator 8 via a second conduit 10. The electrically insulating heat conduit 1 and the thermal resistance 2 are provided with a thermally insulating jacket 14 which prevents heat loss by convection into the environment.

The heat transducer 12 is made of a material with a high thermal conductivity, eg metal, and facilitates the transfer of heat to the electrically insulating heat conduit 1, or constitutes its mechanical protection. The electrically insulating heat conduit 1 may consist, for example, of a vacuum glass tube filled with about one tenth of a liquid, for example water. The thermal resistance 2 can be made, for example, of aluminum or its alloys. The temperature sensor 3 and sensors 5, 6 of the heat loss sensor may be thermistors.

The function of the device is as follows:

The heat output of the measured point 13 passes through the heat transducer 12 to the electrically insulating heat pipe 1 and therefrom to the thermal resistance 2, whereby heat loss occurs between the sensors of the heat loss sensors 5 and 6. This heat loss is maintained at a predetermined constant value by the heating power regulator 8 so that the heat source increases or decreases the heat output to the outlet end of the heat resistor 2 provided with the heat sink 15.

As a result, the temperature sensor 3 senses the temperature of the measured location 13 reduced by the temperature drop caused by the thermal resistance of the electrically insulating heat pipe 1 and the thermal resistance 2. The thermometer 7 can be calibrated with respect to this temperature difference by indicating the temperature of the measured location 13.

If some heat pipes 1 are used, a measurement alternative can be applied in which the temperature difference between the sensors 5 and 6 of the heat loss sensors is zero, so that the thermometer 7 directly measures the temperature of the measured location 13.

A measurement method is also possible in which the temperature difference between the sensors 5 and 6 of the heat loss sensors is negative.

The remote temperature measuring device according to the invention is used in particular for measuring the winding temperature of high-voltage transformers.

Claims (2)

SUBJECT, 1. A device for remote temperature measurement at high voltage locations by means of a heat conduit, characterized in that the input part of the electrically insulating heat conduit (1) is inserted into the heat converter (12), the output part is inserted into one end of the thermal resistance (2) a first sensor (5) of the heat loss sensor is provided, wherein a second temperature sensor (6) is provided in the second end of the thermal resistance (2) provided with a heat sink (15); BACKGROUND OF THE INVENTION to a thermometer (7) and heater (4) interconnected by a first conduit (9) and a heating power regulator (8) with a heat source (11), wherein the first sensor (5) and the second heat loss sensor (6) are the second conduit (TO) is connected to a heating power regulator (8). Device according to claim 1, characterized in that the electrically insulating heat pipe (1) and the thermal resistance (2) are provided with a thermally insulating sheath (14).