SWITCHING SYSTEM TEMPERATURE MEASUREMENT

Abstract

A switching system contains a switch for medium voltages and/or high voltages, wherein the switch has a first electrical connection on a first side of the switch, and a second electrical connection on a second side of the switch. A medium voltage or high voltage is supplied to the switch via the first electrical connection, and a medium voltage or high voltage is conducted away from the switch via the second electrical connection, or vice versa. A temperature measuring unit is provided. The temperature measuring unit has a temperature measuring head, a temperature transmission element, a temperature transmission medium, a temperature conversion element, and a temperature signaling device.

Claims

1-11. (canceled)

12. A switching station, comprising: a switch for medium voltages and/or high voltages, said switch having a first electrical connection on a first side of said switch and a second electrical connection on a second side of said switch, a medium voltage or a high voltage being supplied to said switch via said first electrical connection, the medium voltage or the high voltage being conducted away from said switch via said second electrical connection; and a temperature-measuring unit having a temperature-measuring head, a temperature-transmitting element, a temperature-transmitting medium, a temperature-transducing element and a temperature-signaling device, wherein: said temperature-measuring head is disposed on said first electrical connection or on said second electrical connection; said temperature-transmitting element adjoining said temperature-measuring head, said temperature-measuring head being configured to be heat-conducting in such a manner that it assumes a first temperature of said first electrical connection or of said second electrical connection or approaches the first temperature, said temperature-measuring head being configured to transmit the first temperature to said temperature-transmitting medium disposed in said temperature-transmitting element in such a manner that said temperature-transmitting medium assumes a volume that is characteristic of the first temperature, said temperature-transmitting element and said temperature-transmitting medium being configured to be electrically insulating, and said temperature-transmitting element and said temperature-transmitting medium having different coefficients of thermal expansion; and a characteristic volume of said temperature-transmitting medium acting on said temperature-transducing element in such a manner that said temperature-transducing element generates a temperature signal being indicated, signaled and/or stored by said temperature-signaling device.

13. The switching station according to claim 12, wherein said temperature-transmitting element has a negligibly small coefficient of thermal expansion in comparison with a coefficient of thermal expansion of said temperature-transmitting medium.

14. The switching station according to claim 12, wherein said temperature-transducing element contains a barometric cell and/or a piezoelectric switch and/or a pressure sensor.

15. The switching station according to claim 12, wherein said temperature-signaling device has an analog temperature display and/or a digital temperature display.

16. The switching station according to claim 15, wherein: said temperature-measuring unit has a memory and a communication unit; and said temperature-signaling device has a digital temperature display and in that said temperature-signaling device passes on the temperature signal, processed or unprocessed, to said memory and/or said communication unit.

17. The switching station according to claim 16, wherein said communication unit is configured to pass on the temperature signal, processed or unprocessed, to at least one centralized or distributed computer.

18. The switching station according to claim 12, wherein said switch is a vacuum switch.

19. The switching station according to claim 12, wherein said switch is a hermetically sealed gas-insulated switch; further comprising a bushing; and further comprising a gas tank, said temperature-measuring head is disposed in said gas tank filled with an insulating gas, and said temperature-transmitting element with said temperature-transmitting medium is guided out of said gas tank through said bushing, said temperature-transmitting element with said temperature-transmitting medium being disposed in said bushing in a gastight manner.

20. The switching station according to claim 19, wherein said temperature-transmitting element with said temperature-transmitting medium is disposed in said bushing in such a manner that a transmission of mechanical stresses from said bushing to said temperature-transmitting element with said temperature-transmitting medium is minimized.

21. The switching station according to claim 20, wherein for a purpose of attachment to said temperature-transmitting element with said temperature-transmitting medium said bushing has a metal lip which minimizes the transmission of mechanical stresses from said bushing to said temperature-transmitting element with said temperature-transmitting medium.

22. The switching station according to claim 21, wherein said metal lip is a curved or corrugated metal lip.

23. A method for operating a switching station having a switch for medium voltages and/or high voltages, the switch having a first electrical connection on a first side of the switch and a second electrical connection on a second side of the switch, a medium voltage or a high voltage being supplied to the switch via the first electrical connection, and the medium voltage or the high voltage being conducted away from the switch via the second electrical connection, the switching station further containing a temperature-measuring unit having a temperature-measuring head, a temperature-transmitting element, a temperature-transmitting medium, a temperature-transducing element and a temperature-signaling device, which comprises the steps of: analyzing, via at least one centralized or distributed computer, a processed or unprocessed temperature signal with respect to a temperature criterion; and emitting a warning signal to a control room when a fixed or variable threshold value for the temperature criterion is exceeded, and/or initiate a shutdown of the switching station when a further fixed or variable threshold value for the temperature criterion is exceeded.

Description

[0019] The invention will be elucidated in the following by way of example with reference to figures.

[0020] FIG. 1: schematic representation of a front view of a switching station according to the invention;

[0021] FIG. 2: schematic representation of a side view of a switching station according to the invention with partial elevation in the region of a vacuum switch;

[0022] FIG. 3: schematic representation of a temperature-measuring unit for a switching station according to the invention;

[0023] FIG. 4: schematic representation of a retractable switch with a temperature-measuring unit for a switching station according to the invention.

[0024] FIG. 1 shows a schematic representation of a front view of a switching station 1 according to the invention.

[0025] The switching station 1 according to the invention here consists, by way of example, of three power-switching units which are equipped with a common pressure-relief duct 8. Each of the three power-switching units is equipped with a door 3 in front of a compartment with a vacuum switch 5 for medium voltages and/or high voltages. Alternatively, but not shown here, instead of the vacuum switch it may also be a question of a gas-insulated switch. A low-voltage compartment 2 is arranged above the compartment for the vacuum switch 5. In the door 3 a recess has been provided here by way of example, through which it is possible for operating elements of the vacuum switch 5 to be accessed. In or on the door 3 there is also a temperature-signaling device 80; in particular, the latter may have been fastened to the vacuum switch 5 and made visible through a second recess or a window through the door. Likewise, a memory unit 90 and/or a communication unit 95 may optionally have been arranged on, behind or in the door 3. Alternatively, a memory unit 90 and/or a communication unit 95 may also have been arranged at other locations in the switching station and may have been connected in wire-bound and/or wireless manner to a temperature-measuring unit 30 which is only hinted at here and not indicated.

[0026] FIG. 2 shows a schematic representation of a side view of a switching station 1 according to the invention with partial elevation in the region of a vacuum switch 5 with vacuum interrupter 9. It is preferred that the switching station 1 is of single-pole or three-pole design and one or more vacuum interrupters 9 are assigned to each pole. As shown in FIG. 1, the common pressure-relief duct 8, the low-voltage compartment 2 and the door 3 are also represented in FIG. 2.

[0027] In the region of the vacuum switch 5 a part of the side paneling has been removed, in order to make it possible for the vacuum switch 5 with the temperature-measuring unit 30 to be seen.

[0028] The temperature-measuring unit 30 is equipped with a temperature-measuring head 40, a temperature-transmitting element 50 with a temperature-transmitting medium 60 shown in FIG. 3, a temperature-transducing element 70 and a temperature-signaling device 80, which here has been guided through the door 3. The temperature-measuring head 40 in this example is arranged on a first electrical connection 10 on a first side 6 of the vacuum switch 5. Alternatively, the temperature-measuring head 40 may also have been arranged on a second side 7 on a second electrical connection 20. The temperature-measuring head 40 is connected to the temperature-transducing element 70 via the temperature-transmitting element 50. The temperature-transducing element 70 is, in turn, attached to the temperature-signaling device 80. In the example shown, the vacuum switch 5 is arranged on an extensible platform in the switching station 1 and exhibits contact tulips. Alternatively, the vacuum switch 5 may also have been fixedly mounted in the switching station 1.

[0029] FIG. 3 shows a schematic representation of a temperature-measuring unit 30 for a switching station 1 according to the invention, for instance from FIGS. 1 and 2. The temperature-measuring unit 30 exhibits a temperature-measuring head 40 which here can optionally be fastened at the measuring location with two temperature-measuring-head fastening means 41. The temperature-measuring-head fastening means 41 may be, for instance, openings for screws, screws, sleeves or clip-type guides. The temperature-measuring head 40 is configured in such a way that it is able to assume a temperature at a measuring location and pass it on to a temperature-transmitting medium 60, the temperature-transmitting medium 60 being arranged in a temperature-transmitting element 50. The temperature-transmitting medium 60 and the temperature-transmitting element 50 preferably have different coefficients of thermal expansion, so that a heating or cooling of the temperature-transmitting medium 60 and of the temperature-transmitting element 50 leads to a differing expansion in volume, and hence to a differing linear expansion, of the temperature-transmitting medium 60 and of the temperature-transmitting element 50. By virtue of the differing expansion in volume, and hence differing linear expansion, of the temperature-transmitting medium 60 and the temperature-transmitting element 50, the pressure changes on the temperature-transducing element 70 which passes on the registered change in pressure mechanically, hydraulically, magnetically or electrically to the temperature-signaling device 80, represented here in analog form. In order to be able to guarantee the requirements relating to the safety of switching stations, the temperature-transmitting medium 60 and the temperature-transmitting element 50 are designed to be electrically non-conducting.

[0030] FIG. 4 shows a schematic representation of a retractable, three-pole vacuum switch 5 with a temperature-measuring unit 30 for a switching station 1 according to the invention. In this example, the temperature-measuring head 40 is arranged on a second electrical connection 20 on a second side 7 of the vacuum switch 5 and is represented, by way of example only, on a pole of the vacuum switch 5. The region framed by dashed lines permits a view, through the casing, of the heat-dissipating means 45 with the temperature-measuring head 40 and the temperature-transmitting element 50.

[0031] Alternatively, the temperature-measuring head 40 may also have been arranged on a first side 6 on a first electrical connection 10. As a further alternative, a temperature-measuring head 40 is also shown on a retractable tulip, this time without a temperature-transmitting element 50.

LIST OF REFERENCE SYMBOLS

[0032] 1 switching station; [0033] 2 low-voltage compartment; [0034] 3 door in front of a vacuum switch for medium voltages and/or high voltages; [0035] 5 switch for medium voltages and/or high voltages; [0036] 6 first side of the switch (5); [0037] 7 second side of the switch (5); [0038] 8 pressure-relief duct; [0039] 9 vacuum interrupter; [0040] 10 first electrical connection; [0041] 20 second electrical connection; [0042] 30 temperature-measuring unit; [0043] 40 temperature-measuring head; [0044] 41 temperature-measuring-head fastening means; [0045] 45 heat-dissipating means; [0046] 50 temperature-transmitting element; [0047] 60 temperature-transmitting medium; [0048] 70 temperature-transducing element; [0049] 80 temperature-signaling device; [0050] 90 memory unit; [0051] 95 communication unit.