EP4068316A1 - Stufenschalter - Google Patents

Stufenschalter Download PDF

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Publication number
EP4068316A1
EP4068316A1 EP19954055.0A EP19954055A EP4068316A1 EP 4068316 A1 EP4068316 A1 EP 4068316A1 EP 19954055 A EP19954055 A EP 19954055A EP 4068316 A1 EP4068316 A1 EP 4068316A1
Authority
EP
European Patent Office
Prior art keywords
changeover switch
oil tank
receiving seat
container
tap changer
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP19954055.0A
Other languages
English (en)
French (fr)
Other versions
EP4068316A4 (de
Inventor
Tomohiro Tanabe
Shinichiro Abe
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toshiba Corp
Toshiba Energy Systems and Solutions Corp
Original Assignee
Toshiba Corp
Toshiba Energy Systems and Solutions Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toshiba Corp, Toshiba Energy Systems and Solutions Corp filed Critical Toshiba Corp
Publication of EP4068316A1 publication Critical patent/EP4068316A1/de
Publication of EP4068316A4 publication Critical patent/EP4068316A4/de
Pending legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/0005Tap change devices
    • H01H9/0044Casings; Mountings; Disposition in transformer housing
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F29/00Variable transformers or inductances not covered by group H01F21/00
    • H01F29/02Variable transformers or inductances not covered by group H01F21/00 with tappings on coil or winding; with provision for rearrangement or interconnection of windings
    • H01F29/04Variable transformers or inductances not covered by group H01F21/00 with tappings on coil or winding; with provision for rearrangement or interconnection of windings having provision for tap-changing without interrupting the load current
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/0005Tap change devices
    • H01H2009/0061Monitoring tap change switching devices
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/0005Tap change devices
    • H01H9/0027Operating mechanisms

Definitions

  • Embodiments of the present invention relate to an on-load tap changer.
  • An on-load tap changer is a device that changes over a tap during an operation (during load) of a transformer.
  • the on-load tap changer includes a tap selector and a changeover switch.
  • the tap selector selects a tap to operate in a transformer tap winding.
  • the changeover switch changes over a circuit to the selected tap.
  • the changeover switch is contained in an insulating container together with an insulating oil or gas.
  • the changeover switch is mainly driven by a releasing force of a spring. A large force acts on the changeover switch to instantly change over the circuit. Therefore, it is required to firmly install the changeover switch.
  • An object of the present invention is to provide an on-load tap changer in which a changeover switch can be firmly installed.
  • An on-load tap changer includes a changeover switch and a container.
  • the changeover switch performs a tap changeover operation in a winding.
  • the container contains the changeover switch.
  • the container has a bottom portion to which the changeover switch is fastened.
  • Fig. 1 is a schematic view of a transformer according to a first embodiment.
  • a transformer 1 includes a transformer main body (not shown), a tank 2 that contains the transformer main body together with an insulating oil, and an on-load tap changer 3 fixed to the tank 2.
  • the transformer main body has an iron core and a winding mounted on the iron core.
  • the tank 2 includes a top plate 5 extending in a horizontal direction. An opening portion 5a into which the on-load tap changer 3 is inserted from above is formed in the top plate 5.
  • the on-load tap changer 3 closes the opening portion 5a of the top plate 5 in a state where a part of the on-load tap changer 3 is disposed in the tank 2.
  • An electric operation mechanism (not shown) is disposed outside the tank 2 as a drive source that applies power to the on-load tap changer 3.
  • the electric operation mechanism includes a motor. The electric operation mechanism rotates a relay shaft (not shown) connected to the on-load tap changer 3 and transmits power to the on-load tap changer 3.
  • Fig. 2 is a perspective view showing a part of an on-load tap changer according to the first embodiment.
  • the on-load tap changer 3 includes a tap selector 10, a changeover switch 11, and an oil tank 12.
  • the tap selector 10 selects a tap in the winding of the transformer main body.
  • the tap selector 10 is disposed in the tank 2.
  • the changeover switch 11 instantly changes over a circuit to the selected tap as a tap changeover operation.
  • the changeover switch 11 is disposed on the top plate 5 side with respect to the tap selector 10.
  • the oil tank 12 contains the changeover switch 11 together with the insulating oil in the tank 2.
  • the oil tank 12 blocks communication between the inside of the tank 2 and the inside of the oil tank 12.
  • the oil tank 12 completely isolates the changeover switch 11 from the transformer main body.
  • the oil tank 12 supports the tap selector 10 from above.
  • Fig. 3 is a sectional view showing a part of an on-load tap changer according to the first embodiment.
  • the oil tank 12 includes an oil tank main body 20 (a container), an oil tank lid 25, and a flange 27.
  • the oil tank main body 20 includes a bottom wall portion 21 (a bottom portion) located at a lower end portion and a peripheral wall portion 22 extending upward from an outer peripheral portion of the bottom wall portion 21.
  • the bottom wall portion 21 is disposed in the tank 2.
  • the bottom wall portion 21 is disposed between the tap selector 10 and the changeover switch 11.
  • the bottom wall portion 21 is formed in a circular shape when viewed from above.
  • a transmission shaft 16 (a transmission portion) penetrates the bottom wall portion 21.
  • the transmission shaft 16 extends in a vertical direction.
  • the transmission shaft 16 is rotatably supported by the bottom wall portion 21.
  • the transmission shaft 16 transmits power for operating the changeover switch 11 from the outside of the oil tank 12 to the inside of the oil tank 12 (details will be described later).
  • the peripheral wall portion 22 is formed in a cylindrical shape as a whole.
  • the peripheral wall portion 22 surrounds the changeover switch 11 from the outside in the horizontal direction.
  • An oil tank opening portion 23 through which the changeover switch 11 can pass in the vertical direction is formed at an upper end portion of the oil tank main body 20.
  • the oil tank opening portion 23 is open upward.
  • Fig. 4 is a perspective view schematically showing the inside of an oil tank main body of the first embodiment.
  • a receiving seat 40 is disposed on the bottom wall portion 21 of the oil tank main body 20.
  • the receiving seat 40 supports the changeover switch 11 from below.
  • the receiving seat 40 protrudes upward from an upper surface of the bottom wall portion 21.
  • the receiving seat 40 may be integrally formed with the bottom wall portion 21, or may be formed as a separate member from the bottom wall portion 21 and joined to the bottom wall portion 21.
  • a joining method between the bottom wall portion 21 and the receiving seat 40 may be metallurgical joining such as welding in which a joint portion has continuity, or may be mechanical joining such as fastening in which the joint portion has no continuity.
  • Three or more receiving seats 40 are disposed to surround a central axis P of the peripheral wall portion 22 when viewed from above.
  • the receiving seats 40 are disposed at equal angular intervals in a circumferential direction around the central axis P.
  • a recess 41 that is recessed downward is formed in an upper surface of the receiving seat 40.
  • Fig. 5 is a sectional view along a line V-V of Fig. 4 .
  • the recess 41 includes a side surface 42 and a bottom surface 45.
  • the side surface 42 extends downward from an upper end opening edge of the recess 41.
  • the side surface 42 is formed in a circular shape in a cross section.
  • the side surface 42 includes a tapered surface 43 facing the oil tank opening portion 23 side (upward) and a straight surface 44 extending uniformly in the vertical direction.
  • the tapered surface 43 gradually reduces in diameter from the upper end opening edge of the recess 41 toward a downward side.
  • the straight surface 44 extends downward from a lower end edge of the tapered surface 43 with a constant inner diameter.
  • the bottom surface 45 extends inward in a radial direction (the horizontal direction) from a lower end edge of the straight surface 44.
  • a female screw 46 extending downward is formed in the bottom surface 45.
  • the female screw 46 is formed coaxially with the straight surface 44.
  • a pipe 35 is disposed in the oil tank main body 20.
  • the pipe 35 is fixedly disposed with respect to the oil tank main body 20.
  • the pipe 35 extends in the vertical direction in the oil tank main body 20.
  • a lower end portion of the pipe 35 is open near the bottom wall portion 21.
  • the pipe 35 is used for sucking up the insulating oil in the oil tank main body 20.
  • the oil tank lid 25 closes the oil tank opening portion 23.
  • the oil tank lid 25 is disposed at an interval with respect to the changeover switch 11.
  • the oil tank lid 25 is formed in a circular shape concentric with the oil tank main body 20 when viewed from above.
  • the oil tank lid 25 is fastened to the upper end portion of the oil tank main body 20 from above.
  • An outer peripheral portion of the oil tank lid 25 is in close contact with the upper end portion of the peripheral wall portion 22 of the oil tank main body 20 over the entire circumference.
  • the flange 27 projects from an upper portion of the oil tank main body 20 and extends from the vicinity of the oil tank main body 20 over the entire circumference thereof.
  • the flange 27 extends in the horizontal direction.
  • the flange 27 is joined to the top plate 5 of the tank 2.
  • the flange 27 is fastened to the top plate 5 from above.
  • the flange 27 overlaps the entire inner peripheral edge of the opening portion 5a of the top plate 5 when viewed from above.
  • the flange 27 is in close contact with the periphery of the opening portion 5a over the entire circumference in a state where the oil tank main body 20 is inserted into the opening portion 5a of the top plate 5 from above.
  • the flange 27 closes a portion between the opening portion 5a of the top plate 5 and the oil tank main body 20.
  • An outer peripheral edge of the flange 27 is formed to surround the entire tap selector 10 when viewed from above.
  • the oil tank 12 is mainly formed by combining an oil tank main portion 31, an oil tank head portion 32, and a head portion lid 33 as parts.
  • the oil tank main portion 31 includes a portion extending from an intermediate portion to a lower end portion of the oil tank main body 20 in the vertical direction.
  • the entire oil tank main portion 31 is disposed in the tank 2.
  • the oil tank main portion 31 is formed in a cylindrical shape that is open upward.
  • the oil tank head portion 32 includes an upper portion of the oil tank main body 20 and the flange 27.
  • the oil tank head portion 32 is formed in a cylindrical shape as a whole.
  • a lower end portion of the oil tank head portion 32 is closely inserted inside an upper end portion of the oil tank main portion 31.
  • the flange 27 is disposed at an intermediate portion of the oil tank head portion 32 in the vertical direction.
  • the head portion lid 33 is the oil tank lid 25. The head portion lid 33 closes an opening at the upper end portion of the oil tank head portion 32 from above.
  • Fig. 6 is a perspective view showing a changeover switch according to the first embodiment.
  • the changeover switch 11 is fastened to the oil tank main body 20 with bolts 70 (male screws) disposed in the oil tank main body 20.
  • the changeover switch 11 has an upper plate 50, a lower plate 51, a support column 52 (a guide), an energy saving mechanism 53, a changeover unit 54, and a current limiting resistor 55.
  • the upper plate 50 and the lower plate 51 are formed in a disk shape concentric with a central axis O of the peripheral wall portion 22 of the oil tank main body 20 and are disposed to be in line in the vertical direction and parallel to each other.
  • a cutout portion 56 is provided in an outer peripheral edge of each of the upper plate 50 and the lower plate 51. The cutout portions 56 are formed to overlap each other when viewed from above.
  • the pipe 35 (see Fig. 3 ) is disposed in each cutout portion 56.
  • the support column 52 connects the upper plate 50 and the lower plate 51.
  • the support column 52 as a leg of the changeover switch 11 is supported by the receiving seat 40.
  • the support column 52 extends in the vertical direction.
  • the support column 52 includes an upper end portion 60 (a first end portion) that faces the oil tank opening portion 23 side and a lower end portion 61 (a second end portion) that faces the receiving seat 40 side.
  • the upper end portion 60 is formed at a position visible from above through the oil tank opening portion 23.
  • the lower end portion 61 is inserted into the recess 41 of the receiving seat 40.
  • the lower end portion 61 is formed to have a smaller diameter than the straight surface 44 (see Fig. 5 ) of the recess 41.
  • a hollow portion 62 extending over from the upper end portion 60 to the lower end portion 61 is formed in the support column 52.
  • the support column 52 is formed in a cylindrical shape.
  • the hollow portion 62 is open to the oil tank opening portion 23 side at the upper end portion 60.
  • the hollow portion 62 is open to the receiving seat 40 side at the lower end portion 61.
  • a bolt 70 is inserted through the hollow portion 62.
  • the support column 52 guides the bolt 70 inserted into the hollow portion 62 from above to the receiving seat 40.
  • a tip end of the bolt 70 protrudes downward from a lower end opening of the support column 52 and is coupled to the female screw 46 (see Fig. 5 ) of the receiving seat 40.
  • the head of the bolt 70 tightens the upper end portion 60 of the support column 52 downward.
  • the changeover switch 11 is fastened to the bottom wall portion 21 of the oil tank main body 20.
  • the energy saving mechanism 53 is disposed between the lower plate 51 and the bottom wall portion 21 of the oil tank main body 20.
  • the energy saving mechanism 53 is connected to the transmission shaft 16 (see Fig. 3 ).
  • the energy saving mechanism 53 includes an energy saving spring 58.
  • the energy saving mechanism 53 expands or compresses the energy saving spring 58 on the basis of rotation of the transmission shaft 16 along with a tap selection operation of the tap selector 10.
  • the energy saving mechanism 53 releases the energy saving spring 58 in an energy saved state after the tap selection operation of the tap selector 10 is completed.
  • the energy saving mechanism 53 instantly drives the changeover unit 54 with a restoring force (a releasing force) of the energy saving spring 58 at the time of releasing.
  • the changeover unit 54 is disposed between the upper plate 50 and the lower plate 51 and is supported by both.
  • the changeover unit 54 includes a valve 59 which is a vacuum circuit breaker.
  • the changeover unit 54 controls the opening and closing of the valve 59 by the releasing force of the energy saving spring 58.
  • the current limiting resistor 55 is disposed on a side opposite to the changeover unit 54 with the upper plate 50 interposed therebetween.
  • the current limiting resistor 55 is fixed to the upper plate 50.
  • the current limiting resistor 55 is temporarily energized prior to changing over the circuit.
  • the on-load tap changer 3 includes a gear mechanism 13, a drive shaft 14, and a support portion 15.
  • the gear mechanism 13 is disposed in the flange 27.
  • the gear mechanism 13 is disposed between the oil tank main body 20 and the inner peripheral edge of the opening portion 5a of the tank 2 when viewed from above.
  • the relay shaft that is rotated with the power of the electric operation mechanism is connected to the gear mechanism 13 from the outside of the tank 2.
  • the gear mechanism 13 introduces the power of the electric operation mechanism from the outside of the tank 2 into the tank 2.
  • the gear mechanism 13 includes a worm connected to the relay shaft, a worm wheel that meshes with the worm, and a shaft 13a that rotates integrally with the worm wheel.
  • the gear mechanism 13 decelerates the rotation of the relay shaft by the worm and the worm wheel and transmits the rotation to the shaft 13a.
  • the shaft 13a extends in the vertical direction. A lower end portion of the shaft 13a is located in the tank 2 and is connected to the drive shaft 14.
  • the drive shaft 14 is disposed in the tank 2.
  • the drive shaft 14 transmits the power of the electric operation mechanism from the gear mechanism 13 to the tap selector 10 and the changeover switch 11.
  • the drive shaft 14 is disposed outside the oil tank 12.
  • the drive shaft 14 includes a shaft upper portion 80 connected to the lower end portion of the shaft 13a of the gear mechanism 13, a shaft lower portion 81 connected to the tap selector 10, and an intermediate portion 82 disposed between the shaft upper portion 80 and the shaft lower portion 81.
  • the shaft upper portion 80 extends in the vertical direction and is disposed coaxially with the shaft 13a of the gear mechanism 13.
  • the shaft upper portion 80 rotates integrally with the shaft 13a.
  • the shaft lower portion 81 extends in the vertical direction.
  • a gear 17 that transmits the rotation to the changeover switch 11 is fixed to the shaft lower portion 81.
  • the gear 17 meshes with a gear fixed to the transmission shaft 16.
  • the shaft lower portion 81 is disposed closer to the oil tank main body 20 than the shaft upper portion 80.
  • the intermediate portion 82 is connected to the shaft upper portion 80 and the shaft lower portion 81.
  • the intermediate portion 82 is connected to the lower end portion of the shaft upper portion 80 via a first universal joint 83 and is connected to the upper end portion of the shaft lower portion 81 via a second universal joint 84.
  • the shaft lower portion 81 rotates integrally with the shaft upper portion 80.
  • the intermediate portion 82 extends in a direction inclined with respect to the vertical direction. Specifically, the intermediate portion 82 gradually approaches the oil tank main body 20 from the first universal joint 83 toward the second universal joint 84.
  • the support portion 15 is disposed in the tank 2.
  • the support portion 15 rotatably supports the drive shaft 14.
  • the support portion 15 includes an upper support portion 90 that supports the shaft upper portion 80 of the drive shaft 14 and a lower support portion 91 that supports the shaft lower portion 81 of the drive shaft 14.
  • the upper support portion 90 is fixed to the oil tank main body 20. Specifically, the upper support portion 90 is fixed to the lower end portion of the oil tank head portion 32.
  • the upper support portion 90 holds a rolling bearing mounted on the shaft upper portion 80 of the drive shaft 14.
  • the upper support portion 90 rotatably supports the shaft upper portion 80 of the drive shaft 14.
  • the lower support portion 91 is fixed to the oil tank main body 20 and the tap selector 10 (see also Fig. 1 ).
  • the lower support portion 91 is fixed to a lower portion of the oil tank main portion 31 and an upper portion of the tap selector 10.
  • the lower support portion 91 holds a rolling bearing mounted on the shaft lower portion 81 of the drive shaft 14.
  • the lower support portion 91 rotatably supports the shaft lower portion 81 of the drive shaft 14.
  • FIG. 7 is a view illustrating installation work of the changeover switch according to the first embodiment.
  • Figs. 8 to 10 are views showing states in which a receiving seat and a support column are joined in the installation work of the changeover switch according to the first embodiment.
  • the changeover switch 11 is inserted into the oil tank main body 20 from the oil tank opening portion 23 of the oil tank main body 20 in a state where the changeover switch 11 is suspended by a crane or the like.
  • the changeover switch 11 is inserted into the oil tank main body 20 in a state where the pipe 35 enters the cutout portion 56 of each of the upper plate 50 and the lower plate 51 (both see Fig. 6 ).
  • the changeover switch 11 is approximately positioned with respect to the oil tank main body 20.
  • the bolt 70 is inserted into the hollow portion 62 of each support column 52 from above.
  • the tip end of the bolt 70 protrudes downward from the lower end portion 61 of the support column 52 and is inserted into a screw hole of the female screw 46.
  • the tip end of the bolt 70 is screwed into the female screw 46, and the changeover switch 11 is fastened to the bottom wall portion 21 of the oil tank main body 20.
  • the oil tank lid 25 is attached to the oil tank main body 20 to close the oil tank opening portion 23.
  • the on-load tap changer 3 of the present embodiment includes the oil tank main body 20 having the bottom wall portion 21 to which the changeover switch 11 is fastened. According to this configuration, the releasing force of the energy saving spring which is generated when the changeover switch 11 is operated can be directly dispersed to the bottom wall portion 21. Therefore, the changeover switch 11 can be firmly installed in the oil tank main body 20.
  • the changeover switch may be suspended by a long insulation support column. In this case, since a large moment acts on the insulation support column when the changeover switch is operated, the attachment structure of the changeover switch is complicated in order to firmly install the changeover switch.
  • the insulation support column as in the configuration of the related art is not required, the structure of the on-load tap changer 3 can be simplified. Further, with the simplification of the structure, the maintenance interval of the on-load tap changer 3 can be extended, and the maintenance cost can be reduced.
  • the transmission shaft 16 that transmits the power for operating the changeover switch 11 from the outside of the oil tank main body 20 into the oil tank main body 20 is disposed in the bottom wall portion 21. Therefore, the changeover switch 11 can be fastened on the drive portion (the transmission shaft 16) side with respect to the changeover switch 11. Therefore, the changeover switch 11 can be installed more firmly as compared with the configuration in which the changeover switch is fixed on a side opposite to the drive portion.
  • the bottom wall portion 21 supports the support column 52 from below. Therefore, when the changeover switch 11 is operated, even if a force in a direction in which the changeover switch 11 separates from the bottom wall portion 21 acts on the joint portion between the changeover switch 11 and the bottom wall portion 21, the force can be offset with a gravity of the changeover switch 11. Therefore, the changeover switch 11 can be firmly installed.
  • the on-load tap changer 3 includes the receiving seat 40 that supports the changeover switch 11 and the bolt 70 that is coupled to the receiving seat 40.
  • the changeover switch 11 has the support column 52 that guides the bolt 70 to the receiving seat 40. Therefore, when the bolt 70 is attached from a side opposite to the bottom wall portion 21 (that is, above) with the changeover switch 11 interposed therebetween, the bolt 70 can be easily coupled to the receiving seat 40. Therefore, maintenance that requires fastening of the changeover switch 11 can be easily performed. Further, since the bolt 70 can be easily coupled to the receiving seat 40, the risk of dropping the bolt 70, a tool, or the like into the oil tank 12 can be reduced. As a result, the maintenance that requires fastening of the changeover switch 11 can be easily performed. Further, work man-hours and work time of the maintenance can be reduced, and the maintenance cost can be reduced.
  • the hollow portion 62 which extends over from the upper end portion 60 to the lower end portion 61 and through which the bolt 70 is inserted is formed in the support column 52. Therefore, the bolt 70 can be guided to the receiving seat 40 simply by inserting the bolt 70 into the hollow portion 62 from the upper end portion 60 of the support column 52. Therefore, when the bolt 70 is attached from the oil tank opening portion 23, the bolt 70 can be easily coupled to the receiving seat 40.
  • the recess 41 into which the support column 52 is inserted is formed in the receiving seat 40.
  • the female screw 46 that is coupled to the bolt 70 is formed in the bottom surface 45 of the recess 41.
  • the tapered surface 43 that faces the oil tank opening portion 23 side is formed on the side surface 42 of the recess 41.
  • Fig. 11 is a sectional view showing a joint portion between a receiving seat and a support column according to a second embodiment.
  • the female screw 46 is formed in the bottom surface 45 of the recess 41 of the receiving seat 40.
  • the second embodiment shown in Fig. 11 is different from the first embodiment in that a male screw 47 protrudes from the bottom surface 45 of the recess 41 of the receiving seat 40A.
  • the configuration other than those which will be described below is the same as that of the first embodiment.
  • the oil tank main body 20 includes a receiving seat 40A instead of the receiving seat 40 of the first embodiment.
  • the male screw 47 protruding to the oil tank opening portion 23 side is disposed in the receiving seat 40A.
  • the male screw 47 protrudes upward from a center of the bottom surface 45 of the recess 41 of the receiving seat 40A.
  • a tip end of the male screw 47 is located closer to the bottom surface 45 than to the tapered surface 43. That is, the entire male screw 47 is located inside the straight surface 44.
  • the changeover switch 11 includes a support column 52A (a shaft portion) instead of the support column 52 of the first embodiment.
  • the support column 52A is rotatably disposed with respect to the upper plate 50 and the lower plate 51 (both see Fig. 6 ).
  • a female screw 63 that is coupled to the male screw 47 is formed on an inner peripheral surface of a lower portion of the support column 52A.
  • Fig. 12 is a view showing a state in which the receiving seat and the support column are joined in installation work of a changeover switch according to the second embodiment.
  • the changeover switch 11 is lowered toward the bottom wall portion 21 of the oil tank main body 20, and the lower end portion 61 of the support column 52A is inserted into the recess 41 of the receiving seat 40A.
  • the lower end portion 61 of the support column 52A reaches the inside of the straight surface 44 of the recess 41, the lower end portion 61 of the support column 52A comes into contact with the male screw 47. Since the lower end portion 61 of the support column 52A is approximately positioned at the center of the recess 41 when viewed from above, when the support column 52A is rotated, the support column 52A is lowered while the female screw 63 is coupled to the male screw 47.
  • the male screw 47 protruding to a side of the oil tank opening portion 23 is disposed in the receiving seat 40A.
  • the changeover switch 11 has the support column 52A on which the female screw 63 that is coupled to the male screw 47 is formed. Therefore, the changeover switch 11 can be fastened to the receiving seat 40A. Therefore, the same effect as that of the first embodiment is obtained.
  • the male screw 47 protrudes from the bottom surface 45 of the recess 41.
  • the tapered surface 43 that faces the oil tank opening portion 23 side is formed on the side surface 42 of the recess 41. According to this configuration, when the support column 52A is inserted into the recess 41, even if the position of the support column 52A in the horizontal direction is deviated from a specified attachment position, the support column 52A comes into contact with the tapered surface 43 of the recess 41, and thus the support column 52A can be guided to the specified attachment position in the horizontal direction along the inclination of the tapered surface 43.
  • the specified attachment position is a position where the female screw 63 of the support column 52A can be coupled to the male screw 47. Therefore, the opening on the oil tank opening portion 23 side in the recess 41 can be formed sufficiently larger than an outer shape of the lower end portion 61 of the support column 52A, and the work of disposing the support column 52A at the specified position can be easily performed.
  • Fig. 13 is a sectional view showing a part of an on-load tap changer according to a third embodiment.
  • the third embodiment shown in Fig. 13 differs from the first embodiment in that the on-load tap changer 3 includes a state monitoring device 6 for monitoring a state in the oil tank 12.
  • the configuration other than those which will be described below is the same as that of the first embodiment.
  • the state monitoring device 6 includes a sensor 7.
  • the sensor 7 is disposed in the oil tank 12.
  • the sensor 7 is disposed between the changeover switch 11 and the oil tank lid 25.
  • a disposition space for the sensor 7 is a space formed by installing the changeover switch 11 without suspending it in the oil tank 12.
  • the sensor 7 monitors the state inside the oil tank 12.
  • the sensor 7 includes an optical sensor, an acoustic sensor, and the like.
  • the optical sensor detects arc generation of the changeover switch 11.
  • the acoustic sensor detects an operating sound of the changeover switch 11, an impact associated with the arc generation of the changeover switch 11, and the like.
  • the state monitoring device 6 converts a monitoring result (a detection signal of the sensor 7) obtained by the sensor 7 into an electric signal.
  • the state monitoring device 6 transmits the electric signal to the outside of the transformer 1 through a communication cable, wireless transmission, or the like.
  • the on-load tap changer 3 of the present embodiment information such as whether or not the changeover switch 11 is normal and the deterioration status of the changeover switch 11 can be collected at any time even during the operation of the transformer 1. As a result, it possible to make a rational maintenance plan according to the usage status of the changeover switch 11. Therefore, the burden of maintenance and management of a user can be reduced.
  • the disposition of the receiving seats is not limited to the disposition in each of the above embodiments.
  • the plurality of receiving seats may be disposed such that a polygon having the plurality of receiving seats as vertices overlaps a center of a gravity of the changeover switch 11 when viewed from above.
  • the tapered surface is formed in the recess of each of at least two receiving seats among the plurality of receiving seats, the above-mentioned effect can be obtained.
  • the shape of the recess of the receiving seat is not limited to the shape in each of the above embodiments.
  • a surface extending upward from an upper end edge of the tapered surface with a constant inner diameter may be formed between the tapered surface and the upper end opening edge of the recess.
  • a cross-sectional shape of the side surface of the recess may be, for example, an oval shape or a polygonal shape.
  • the side surface of the recess does not have to be provided with the straight surface. That is, the bottom surface may extend from the lower end edge of the tapered surface.
  • the support column 52 is formed in a cylindrical shape, but the present invention is not limited to this.
  • the support column may be formed in a square cylinder shape.
  • the transformer is an oil-filled insulation transformer, but the transformer may be a gas insulation transformer.
  • the embodiment since the embodiment includes the oil tank main body in which the changeover switch is contained and which has the bottom wall portion to which the changeover switch is fastened, the force generated when operating the changeover switch can be directly dispersed on the bottom wall portion. Therefore, the changeover switch can be firmly installed in the oil tank main body.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Housings And Mounting Of Transformers (AREA)
EP19954055.0A 2019-11-26 2019-11-26 Stufenschalter Pending EP4068316A4 (de)

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JPS584180Y2 (ja) * 1977-07-15 1983-01-24 三菱電機株式会社 タツプ切換器の制振装置
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