US3303309A

US3303309A - Series connected switches of different types

Info

Publication number: US3303309A
Application number: US366325A
Authority: US
Inventors: Flurscheim Cedric Harald; Roxburgh Albert
Original assignee: Associated Electrical Industries Ltd
Current assignee: Associated Electrical Industries Ltd
Priority date: 1963-05-14
Filing date: 1964-05-11
Publication date: 1967-02-07
Anticipated expiration: 1984-02-07
Also published as: GB1084543A; CH431665A

Description

7 "Feb. 7, 1967 c. H. FLURSCHEIM ET AL 3,303,309

SERIES CONNECTED SWITCHES OF DIFFERENT TYPES Filed May 11, 1964 4 Sheets-Sheet l 1967 c. H. FLURSCHEIM ET AL 3,303,309

SERIES CONNECTED SWITCHES OF DIFFERENT TYPES Filed May 11, 1964 4 Sheets-Sheet 2 Feb. 7, 1967 Q FLURSCHEIM ETAL 3,303,309

SERIES CONNECTED SWITCHES OF DIFFERENT TYPES Filed May 11, 1964 4 Sheets-Sheet 5 Feb. 7, 1967 c. H. FLURSCHEIM ET AL 3,303,309

SERIES CONNECTED SWITCHES OF DIFFERENT TYPES Filed May 11, 1964 4 Sheets-Sheet 4 (on. LEVEL) 1 48 United States Patent 3,303,309 SERIES CONNECTED SWITCHES OF DIFFERENT TYPES Cedric Harald Flurscheim, Hale, and Albert Roxburgh, Stanmore, Middlesex, England, assignors to Associated Electrical Industries Limited, London, 'England, a British company Filed May 11, 1964, Ser. No. 366,325 Claims priority, application Great Britain, May 14, 1963,

1 Claim. (Cl. 200-144) This invention relates to electric isolators, with contacts designed to open and close under no-load conditions, connected in series with circuit breaker contacts which are constructed to interrupt and reconnect power current flow. It aims at 'an improvement which allows savings, particularly in space, while ensuring increased safety under high voltage-conditions.

Accordingly the invention resides in an electric switching arrangement comprising an isolator switch and at least one vacuum switch unit connected in series with each other and controlled by a common mechanism, a sealed container enclosing the said switch and unit, also an insulating fluid which is diflerent from air.

A hollow bushing may be mounted on the container to insulate a terminal extending therethrough and then the isolator is advantageously situated adjacent to or in the hollow of the bushing.

Usually the container is filled with an insulating fluid, such as oil, or an insulating gas, then this insulant also surrounds the isolator contacts and improves the flashover value of the isolator.

Automatic operation of the isolator can readily be provided for, and the invention is particularly advantageous where the circuit breaker contacts are provided by vaccum switches, as more specifically described herein and in our copending patent application No. 366,324, filed May 11, 1964.

More details will become apparent and the invention will be better understood from the following description referring to the accompanying drawings, in which:

FIG. 1 shows an embodiment of the invention having an isolator mounted on the end of a terminal bushing in a circuit breaker tank,

FIG. 2 shows another embodiment where the isolator is partly contained in the hollow of a bushing,

FIGS. 3, 4 show modifications of the arrangement of FIG. 1, and

FIG. 5 shows diagrammatically the pairs of isolator and circuit breaker contacts enclosed in a common container.

In the various figures similar reference characters indicate similar parts.

FIG. 1 shows a hollow bushing 1 which serves for insulating a terminal conductor 2 extending through the top wall (not shown) of a tank 24 which encloses circuit breaker contacts (not shown). The movable contact of the isolator comprises a rod 7 of conducting material, which can be longitudinally reciprocated by a rod 9 of insulating material. Two stationary contacts are provided, the lower one comprising contact pieces 6 spring biased against the rod 7, and the other comprising a tulip contact 4 mounted on an adapter piece 3 which is conductively joined to the lower end of the terminal conductor 2, and is fastened to the lower end of the bushing 1. The lower contacts 6 are held by a shroud 5 of insulating material which is supported by the bushing 1. A terminal screw 3 is provided for connecting the isolator contact 6 to circuit breaker contacts in the tank 24, the latter being preferably formed by vacuum switches,

as described in the specification of our abovementioned patent application.

Lowering and raising the movable rod contact 7 for opening and closing the isolator, is effected preferably with the aid of hydraulic or pneumatic means.

To this end, the rod of a piston 14 is connected through lever linkage means 10 to the actuating rod 9 coupled to red 7. One end of a cylinder 15 in which piston 14 works, communicates through a pipe 16 and valve 12 with a pressure reservoir 11, while the other end of the cylinder 15 communicates through a pipe 17 and valve 13 with the reservoir. .When valve 12 opens, piston 14 moves to the right and causes opening of the isolator, the conducting rod 7 being withdrawn from the tulip contact 4 while still engaging the contacts 6. When valve 12 is closed the isolator remains in its open position. When valve 13 opens pressure fluid is supplied to the right-hand of piston 14 to reclos e the isolator. Valve 12 may be controlled in dependence upon a mechanism which is trippable to open a circuit breaker before the isolator contacts are separated from one another.

According to FIG. 2, the tulip contact 4 is situated in the hollow of insulating bushing 1, the contact pieces 6 being now pivoted to an adaptor 3 which is secured to the lower end of bushing 1. A shroud 18 of insulating material supported by the bushing extends below the isolator contacts 6.

FIG. 3 shows a double break isolator whose movable contact comprises a bridge or cross bar 19 at the upper end of a rod 9 of electrically insulating material. Stationary contacts 20, 21 of rounded shape and horizontally spaced from each other, are supported through

insulators

22, 23 by the top of a tank 24 which is oil or gas filled and contains circuit breaker contacts constituted for instance by vacuum switches, as described in the specification our abovementioned patent application.

Tubular contact pieces

25, 26 mounted on the cross bar 19 are arranged to engage the contacts 20, 21 when rod 9 is raised. Cylinder 15 now extends through the bottom of the tank and is coaxial with the rod 9. The upper end of the cylinder communicates through a pipe 16 and an opening valve 12, and the lower end of cylinder 15 communicates through a pipe 17 and a closing valve 13 with the pressure supply reservoir 11. As the two

contacts

25, 26 move simultaneously a double break is provided. An operation similar to that described with reference to FIG. 1 is achieved, while the interlinking lever arrangement 10 is omitted.

Where vacuum switches are arranged to be operated by pressure transmitted through an insulating fluid filling the tank, pressure which causes opening of the isolator can also be derived from said insulating fluid, as shown in FIG. 4, in which parts previously described in conjunction with the other embodiments are similarly referenced. A cylinder 15 in which the isolator operating piston 14 is reciprocable, has now its left-hand end communicating with the tank 24 through a channel 27. The actuating rod 9 is interconnected with the rod of piston 14 through a lever linkage as shown in FIG. 1. Pressure applied to the contents of tank 24 is transmitted through channel 27 to the left-hand face of piston 14 and causes opening of the isolator. When the pressure is released, the circuit breaker contacts, specifically the vacuum switches, recluse, as described in the beforementioned specification, but the isolator remains open. The righthand end of the cylinder 15 communicates through a closing valve 13 with pressure supply tank 11. When valve 13 is opened piston 14 moves to the left and recloses the isolator. During the opening operation when piston 14 moves to the right, pressure medium at the righthand end of cylinder 15 can escape through pipe 17 and a port 28 of valve 13 which opens as the valve member 29 engages its seat 30 to interrupt the communication between pressure reservoir 11 and pipe 17.

Referring to FIG. a container or tank 24 enclosing the isolator contacts and circuit breaker contacts has a cover 40. Bushings 1 extending through the cover 40 insulate conductors 2 which lead to external terminals 41. The lower ends of the bushings support

stationary isolator contacts

4, 6 as in the FIG. 1 embodiment. A vacuum switch unit 42, preferably comprising two or more vacum switches connected in series, has

end contacts

43, 44 conductively connected through conductors 49 to the lower isolator ocntacts 6; The vacuum switch unit 42 may be suspended from the cover 40 by an insulating post 45. A lever linkage 46 is provided to operate both the vacuum switch units and the isolators. While rod 9 is shown only for the left-hand isolator it will be understood that the rod 7 shown at the right-hand bushing 1 will be coupled through a rod 9 to the linkage 46 so that isolator contacts at both bushings are operated simultaneously. In the present arrangement clockwise rotation of an actuating shaft 47 causes first interruption by the circuit breaker contacts of the unit 42 and thereafter, because of the lost motion provided *by the pin and slot connection at 50, separation between the

isolator contacts

4, 7. The level of an insulating liquid is indicated at 48 so that the unit 42 and the

isolator contacts

4, 6 are immersed in theliquid,

Modifications are-possible without departing from the invention. While a single-phase arrangement has been shown the invention is applicable to polyphase systems. The cross bar carrying two movable contacts to provide for a double break isolator, as shown in FIG. 3, could be actuated through a lever linkage, as shown in FIG. 1, and the opening end of cylinder 15 of FIGS. 1 and 3 could communicate directly with the fluid in tank 24 to be operated by pressure increase in the tank, the opening of the isolator being delayed in relation to the opening of the circuit breakercontacts, such as by allowing for some initial movement before the isolator contacts disengage.

If desired a means can be provided to indicate outside the tank, or isolator enclosure, whether the isolator contacts are open or closed. Stress grading cylinders of conducting material can be arranged in the hollow terminal.

Circuit breaker or isolator contact operating means, or any other detail, shown in one of the figures can be used with any constructional detail shown in one of the other figures.

What we claim is:

An electric switch gear for high voltage power circuits comprising an outer container, a pair of insulating bushingsextending into said container, a terminal in each bushing extending into the container, a vacuum circuit breaker within said container, a fluid insulant surrounding said vacuum circuit breaker and within the space of said outer container, first and second isolator circuit breakers within said outer container with one contact of each of said isolator breakers electrically connected to a respective terminal, said isolator breakers and vacuum switch being in series with each other and the vacuum switch being electrically positioned between the two isolator breakers and a common operating mechanism which opens the vacuum switch prior to opening of the isolator breakers and closes the vacuum switch after closing the isolator breakers.

References Cited by the Examiner UNITED STATES PATENTS 1,801,736 4/1931 Greenwood 200144 2,977,446 3/1961 Baker 200-146 2,981,815 4/1961 Leeds et al 200-148 3,206,580 9/1965 McCarty 200-144 ROBERT K. SCHAEFER, Primary Examiner. KATHLEEN H. CLAFFY, Examiner.

ROBERT S. MACON, P. E. CRAWFORD,

' Assistant Examiners.