US2071965A - Electric circuit interrupter - Google Patents

Electric circuit interrupter Download PDF

Info

Publication number
US2071965A
US2071965A US741793A US74179334A US2071965A US 2071965 A US2071965 A US 2071965A US 741793 A US741793 A US 741793A US 74179334 A US74179334 A US 74179334A US 2071965 A US2071965 A US 2071965A
Authority
US
United States
Prior art keywords
cylinder
insulating
insulator
contact
piston
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.)
Expired - Lifetime
Application number
US741793A
Inventor
Biermanns Josef
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.)
General Electric Co
Original Assignee
General Electric Co
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 General Electric Co filed Critical General Electric Co
Application granted granted Critical
Publication of US2071965A publication Critical patent/US2071965A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/008Pedestal mounted switch gear combinations
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/02Details
    • H01H33/022Details particular to three-phase circuit breakers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/02Details
    • H01H33/027Integrated apparatus for measuring current or voltage
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/02Details
    • H01H33/28Power arrangements internal to the switch for operating the driving mechanism
    • H01H33/30Power arrangements internal to the switch for operating the driving mechanism using fluid actuator
    • H01H33/302Power arrangements internal to the switch for operating the driving mechanism using fluid actuator for fluid insulated switchgear, wherein the insulating fluid is also the working fluid

Definitions

  • My invention relates to electric circuit interrupters, more particularly to high voltage circuit interrupters oi' the gas-blast type wherein a gasblast is directed across the arc upon opening of 5 the circuit, and has for its principal object the provision of an improved circuit interrupter of the aforesaid type which shall be compact in design, rugged in construction, and eiliciently insulated for high voltages.
  • the single figure thereof is an elevational view partly in section of a high voltage gas-blast circuit interrupter embodying my invention.
  • the height of the structure and the consequent size are reduced by locating the contact actuating means as for example a cylinder and piston wholly or 5 partially within the supporting insulator and by designing the supporting insulator as a bushing of the type adapted to contain an eilicient insulating liquid, as oil.
  • a gas-'blast circuit interrupter comprising a storage reservoir I for the supply of compressed gas mounted so as to support the vertically arranged circuit interrupting structure having the stationary contact structure 45 2 at its upper end.
  • the contact 2 is electrically connected to the terminal 3, the terminal structure including a contact supporting end plate l which is carried at the upper end of a cylindrical insulator 5 of ceramic material.
  • the other terminal 6 is electrically connected in the circuit in a manner hereinafter'described and is mounted on an intermediate conducting housing structure 1 which supports the insulator 5 as illustrated.
  • the structure 1 is in turn car- 55 ried by the high voltage cylindrical or ⁇ shell-like insulator II of ceramic material which is mounted on the upper portion of the gas reservoir I.
  • the movable contact structure coacting with the contact 2 comprises a rod contact 9 adapted to engage at its contact portion III the inner contact surface of the nozzle-shaped contact 2.
  • the rod contact 9 is. provided with gear teeth I3 coacting with pinion I4 connected to an actuating shaft I5 common to the other phases.
  • the cylinder I2 in the present instance is mounted within and concentrically of a second cylinder I6 which is insulated at I6 with respect to the structure 1 and carries at its lower end in alinement a current transformer I1 closing that end of the cylinder.
  • the current transformer extends within the gas reservoir I and is housed in a metallic casing I8 Welded or otherwise suitably secured to the reservoir casing I.
  • the outer cylinder I6 and current transformer may be covered with a layer of suitable insulating material as paper impregnated with a synthetic resin.
  • concentric tubes I2 and I6 comprise the current conductors to the current transformer, the tube I6, which is electrically connected at I9 to the terminal 6, forming the supply conductor to one terminal (not shown) of the current transformer, and the inner conducting cylinder I2 forming with connection I2 a supply conductor to the other terminal (not shown) of the current transformer.
  • the cylinder I2 which is electrically connected to the intermediate conducting structure 1 is electrically connected to the movable rod contact 9 through the wiping contacts 20. Accordingly, in the closed circuit position illustrated the circuit between the main terminals 3 and 6 comprises the stationary contact structure 2, movable rod contact 9, wiping contacts 20, conducting structure 1, inner conducting cylinder I2, current transformer I1, outer conducting cylinder I6, and terminal connection I9.
  • the opening mechanism for the circuit interrupter comprises valve structure 2l and the main gas conduit 22 for controlling the admission of gas from the reservoir I to the switching or blast chamber 23 which is formed within the insulator 5 by a tubular insulating member 24 of strong brous material.
  • the insulating cylinder member 24 which is interposed between the intermediate structure 'I and the upper stationary structures 2 and 4 is adapted to relieve the outer cornparatively brittle insulating shell 5 of stresses incident to the circuit interrupting operation.
  • a resilient connection such as a gasket of suitable material may be provided at 5 between the insulator 5 andplate d.
  • the tube 2d is rigidly secured as illustrated to the parts l and l, the load stresses are transmitted directly to the mounting at l through said tube.
  • the annular space between the insulators 5 and 2li is lled with a high grade insulating oil 2d.
  • a valve 2li of the valve structure 2l is opened by upward pressure from any suitable means, a manual or remote controlled electrical device being contemplated for operating the opening valve.
  • a manual or remote controlled electrical device being contemplated for operating the opening valve.
  • the pressure at the underside of the piston 2li is relieved andthe pressure of the gas within the reservoir l acting on the piston causes it to open quickly against the bias of its closing spring 28.
  • the gas pressure on opposite sides of the piston tends to equalize by reason of a small bleed vent (not shown) admitting gas under pressure to the lower side of piston 2l.
  • the piston 2li is guided for reciprocal movement on a stationary member 29, in which is disposed a spring 30, tending to close the valve 26.
  • valve 21 Communication between the main valve housing of the structure 2l and the pressure-relief passage controlled by valve 26 is by way of ports 3i which are closed by the piston 2l when the same is moved toits fully open position. Accordingly, after a single operation of the valve 26, resulting in opening of valve 2l and gas discharge from the reservoir through the conduit 22, the valve 21 is closed under bias of spring 28 in readiness for another operation.
  • the gas discharge from the reservoir not only fills the chamber 23 with gas under pressure in readiness to exhaust through the nozzle contact 2 upon withdrawal of the rod contact 9, but also acts on the upper side of Contact piston I I by way of port 9. Accordingly, coincident with downward movement of the nod Contact 9 under the influence of the gas pressure acting on piston I I, the gas-blast is directed from the chamber 23 radially across the arc and through the nozzle contact 2.
  • the nozzle-like passage formed by the contact 2 may exhaust into a muiiier arrangement comprising a plurality of stacked and spaced rings 32 mounted on the terminal conductor 4 and disposed within an inverted or dome-like casing 33 communicating with atmosphere through an annular passage 34.
  • the circuit closing operation is eiected merely by admitting gas under pressure to the lower side of the piston II.
  • This is accomplishedin the present instance by means of a valve 35 controlling the admission of gas from reservoir I to the conduit 36 which is connected at 31 so as to be in communication with the annular space between the cylinders I2 and I6.
  • the cylinder I2 which is open at its lower end, therefore is in communication with. the source of gas pressure when valve 35 is opened, resulting in upward movement of the piston II and closing of the rod contact 9.
  • the concentric cylinders I2 and I6 therefore serve two main purposes, namely that of providing conducting leads for the current transformer l'l and that of providing a simplified gas conduit to the closing side of the piston I I.
  • the insulator 8 is protected from operating stresses by means of a strong insulating cylinder 38 disposed between the intermediate structure 'I and reservoir I.
  • a resilient gasket may likewise be provided at 8 between the insulator 8 and structure I.
  • the insulator 38, including the casing I8 extending into the reservoir, is nlled as illustrated with oil or other suitable insulating liquid 39 so that the current transformer and associated conductors are adequately insulated.
  • the annular space between the insulators 8 and 38 is connected to atmosphere as at B'.
  • the main gas conduit 22 comprises an intermediate insulating section having a strong inner insulating cylinder 40 and an outer ceramic insulator itl
  • the main conduit 22 may be connected as at 22 to the gas conduits of the other units.
  • An electric circuit interrupter comprising a source of iluid pressure, a high voltage shelllike insulator mounted in vertical position, relatively movable contact structure and means forming a switching chamber for said contact structure mounted at the upper end of said insulator, contact actuating means including a piston and cylinder extending within and longitudinally of said insulator, a second. cylinder of larger diameter arranged concentrically of said piston cylinder, the space between said cylinders forming a fluid passage to said piston, and means for admitting fluid under pressure from said source to said space at one end of said high voltage insulator.
  • An electric circuit interrupter of the gasblast type comprising relatively movable contact structure, contact actuating means including a piston and cylinder, a second cylinder of larger diameter arranged concentrically of said rstnamed cylinder, said cylinders being of conducting material, and a current transformer electrically connected to said contact structure through said cylinders.
  • An electric circuit interrupter of the gasblast type comprising a high voltage insulator, relatively movable contact structure mounted on said insulator, contact actuating means including a piston and cylinder extending within and longitudinally of said insulator, a. second cylinder of larger diameter arranged concentrically of said rst-named cylinder, said cylinders being of conducting material, and a. current transformer in alinement with said cylinders and electrically connected through the same to said Contact structure.
  • An electric circuit interrupter of the gasblast type comprising a compressed gas supply reservoir, a high voltage insulator mounted on said reservoir in vertical position, relatively movable contact structure and means forming a.
  • ccntact actuating means including a piston and cylinder extending within and longitudinally of said insulator, a second cylinder of larger diameter arranged concentrically of said piston cylinder, the space between said cylinders communicating with the interior of said piston cylinder, means for admitting gas under pressure from said reservoir to said space and to said switching chamber for effecting circuit controlling operations, and a current transformer depending i within said reservoir and electrically connected to said contact structure through said cylinders.
  • An electric circuit breaker comprising relatively movable contact structure, an insulating supporting structure therefor comprising a cylinder composed of mechanically strong brous insulating material, an insulating shell of ceramic material of larger diameter disposed concentrically of said cylinder, the annular space between said cylinder and shell containing an insulating uid, a mounting for said insulating supporting structure to which said cylinder is secured at one end, and resilient means interposed between said mounting and shell arranged with respect to said cylinder so that all load -.”esses are taken by said cylinder.
  • An electric circuit breaker comprising relatively movable contact structure, an insulating housing for said structure comprising a cylinder of mechanically strong brous insulating material, an insulating shell of ceramic material of larger diameter surrounding said cylinder, an insulating oil in the space between said cylinder and shell, and a mounting at one end of said insulating housing to which said cylinder is rigidly secured, said shell resiiiently connected with respect to said mounting so that all load stresses are transmitted to said mounting by said rigidly connected cylinders.
  • An electric circuit breaker comprising relatively movable contact structure, operating mechanism therefor, a pair of insulating housings for said Contact structure, metallic housing structure for said 'operating mechanism intermediate said insulating housings, each insulating housing comprising a cylinder of mechanically strong fibrous material rigidly secured at one end to said housing, and an insulating shell of ceramic material of greater diameter surrounding said cylinder, the space between said cylinders and shells containing an insulating liquid, and resilient means for cushioning said ceramic shells with respect to said metallic structure arranged so that all load stresses are transmitted to said housing structure by said cylinders.
  • a high voltage electric circuit breaker comprising relatively movable contact structure, a tubular supporting housing for said structure, a current transformer mounted in said housing, and means connecting the high voltage primary of said current transformer in series with said contact structure, comprising a pair of concentrically arranged conductors directly connecting said contact structure and current transformer, said concentrically arranged lead conductors extending longitudinally and concentrically of said tubular housing.

Landscapes

  • Gas-Insulated Switchgears (AREA)
  • Insulators (AREA)
  • Circuit Breakers (AREA)

Description

Feb. 23, 1937. J. BIERMANNS 2,071,965
ELECTRIC C IRCUIT INTERRUPTER Filed Aug. 28, 1954 Inventor; Joseyr` Bievmomhs,
Patented Feb. 23, 1937 UNITED .STATES PATENT OFFICE L 2,071,965 ELECTRIC CIRCUIT INTERRUPTER Application August 28, 1934, Serial No. 741,793. In Germany October 23, 1933 8 Claims.
My invention relates to electric circuit interrupters, more particularly to high voltage circuit interrupters oi' the gas-blast type wherein a gasblast is directed across the arc upon opening of 5 the circuit, and has for its principal object the provision of an improved circuit interrupter of the aforesaid type which shall be compact in design, rugged in construction, and eiliciently insulated for high voltages.
l0 Myinvention will be more fully set forth in the following description referring to the accompanying drawing, and the features of novelty which characterize my invention will be pointed out with particularity in the claims annexed to l5 and forming a part of this speciflcation.
Referring to the drawing, the single figure thereof is an elevational view partly in section of a high voltage gas-blast circuit interrupter embodying my invention.
Heretofore high voltage gas-blast circuit interrupters have been proposed wherein a supporting insulator carries the mechanism for actuating the movable contact structure, the 05 switching or blast chamber and the stationary contact structure being mounted above said mechanism. This arrangement, however, in-
volves comparatively large dimensions, particularly in height, for voltages of the order of 100 and 200 kv.
In accordance with my invention, the height of the structure and the consequent size are reduced by locating the contact actuating means as for example a cylinder and piston wholly or 5 partially within the supporting insulator and by designing the supporting insulator as a bushing of the type adapted to contain an eilicient insulating liquid, as oil. y i
Referring more particularly to the drawing,
o there is illustrated a gas-'blast circuit interrupter comprising a storage reservoir I for the supply of compressed gas mounted so as to support the vertically arranged circuit interrupting structure having the stationary contact structure 45 2 at its upper end. The contact 2 is electrically connected to the terminal 3, the terminal structure including a contact supporting end plate l which is carried at the upper end of a cylindrical insulator 5 of ceramic material.
The other terminal 6 is electrically connected in the circuit in a manner hereinafter'described and is mounted on an intermediate conducting housing structure 1 which supports the insulator 5 as illustrated. The structure 1 is in turn car- 55 ried by the high voltage cylindrical or` shell-like insulator II of ceramic material which is mounted on the upper portion of the gas reservoir I.
The movable contact structure coacting with the contact 2 comprises a rod contact 9 adapted to engage at its contact portion III the inner contact surface of the nozzle-shaped contact 2. At the lower end of rod contact 9 is mounted a piston II movable within an operating cylinder I2 depending from the structure 1. For the purpose of synchronizing the individual phases of a multiphase circuit interrupter, the rod contact 9 is. provided with gear teeth I3 coacting with pinion I4 connected to an actuating shaft I5 common to the other phases.
The cylinder I2 in the present instance is mounted within and concentrically of a second cylinder I6 which is insulated at I6 with respect to the structure 1 and carries at its lower end in alinement a current transformer I1 closing that end of the cylinder. As illustrated, the current transformer extends within the gas reservoir I and is housed in a metallic casing I8 Welded or otherwise suitably secured to the reservoir casing I. If desired, the outer cylinder I6 and current transformer may be covered with a layer of suitable insulating material as paper impregnated with a synthetic resin.
'I'he concentric tubes I2 and I6 comprise the current conductors to the current transformer, the tube I6, which is electrically connected at I9 to the terminal 6, forming the supply conductor to one terminal (not shown) of the current transformer, and the inner conducting cylinder I2 forming with connection I2 a supply conductor to the other terminal (not shown) of the current transformer. With this concentric conductor arrangement the electro-dynamic forces are balanced.
The cylinder I2 which is electrically connected to the intermediate conducting structure 1 is electrically connected to the movable rod contact 9 through the wiping contacts 20. Accordingly, in the closed circuit position illustrated the circuit between the main terminals 3 and 6 comprises the stationary contact structure 2, movable rod contact 9, wiping contacts 20, conducting structure 1, inner conducting cylinder I2, current transformer I1, outer conducting cylinder I6, and terminal connection I9.
The opening mechanism for the circuit interrupter comprises valve structure 2l and the main gas conduit 22 for controlling the admission of gas from the reservoir I to the switching or blast chamber 23 which is formed within the insulator 5 by a tubular insulating member 24 of strong brous material. The insulating cylinder member 24 which is interposed between the intermediate structure 'I and the upper stationary structures 2 and 4 is adapted to relieve the outer cornparatively brittle insulating shell 5 of stresses incident to the circuit interrupting operation. For insuring that the main loads are taken off the insulator 5 and are borne by the insulating tube 24,a resilient connection such as a gasket of suitable material may be provided at 5 between the insulator 5 andplate d. Since the tube 2d is rigidly secured as illustrated to the parts l and l, the load stresses are transmitted directly to the mounting at l through said tube. For the purpose of more eficiently insulating the aforesaid structure ior high voltage operation, the annular space between the insulators 5 and 2li is lled with a high grade insulating oil 2d.
In' effecting the circuit opening operation, a valve 2li of the valve structure 2l is opened by upward pressure from any suitable means, a manual or remote controlled electrical device being contemplated for operating the opening valve. Immediately upon opening the valve the pressure at the underside of the piston 2li is relieved andthe pressure of the gas within the reservoir l acting on the piston causes it to open quickly against the bias of its closing spring 28. It will be understood that with the piston 2l normally closed as indicated, the gas pressure on opposite sides of the piston tends to equalize by reason of a small bleed vent (not shown) admitting gas under pressure to the lower side of piston 2l. The piston 2li is guided for reciprocal movement on a stationary member 29, in which is disposed a spring 30, tending to close the valve 26. Communication between the main valve housing of the structure 2l and the pressure-relief passage controlled by valve 26 is by way of ports 3i which are closed by the piston 2l when the same is moved toits fully open position. Accordingly, after a single operation of the valve 26, resulting in opening of valve 2l and gas discharge from the reservoir through the conduit 22, the valve 21 is closed under bias of spring 28 in readiness for another operation.
The gas discharge from the reservoir not only fills the chamber 23 with gas under pressure in readiness to exhaust through the nozzle contact 2 upon withdrawal of the rod contact 9, but also acts on the upper side of Contact piston I I by way of port 9. Accordingly, coincident with downward movement of the nod Contact 9 under the influence of the gas pressure acting on piston I I, the gas-blast is directed from the chamber 23 radially across the arc and through the nozzle contact 2.
The nozzle-like passage formed by the contact 2 may exhaust into a muiiier arrangement comprising a plurality of stacked and spaced rings 32 mounted on the terminal conductor 4 and disposed within an inverted or dome-like casing 33 communicating with atmosphere through an annular passage 34.
The circuit closing operation is eiected merely by admitting gas under pressure to the lower side of the piston II. This is accomplishedin the present instance by means of a valve 35 controlling the admission of gas from reservoir I to the conduit 36 which is connected at 31 so as to be in communication with the annular space between the cylinders I2 and I6. The cylinder I2 which is open at its lower end, therefore is in communication with. the source of gas pressure when valve 35 is opened, resulting in upward movement of the piston II and closing of the rod contact 9. The concentric cylinders I2 and I6 therefore serve two main purposes, namely that of providing conducting leads for the current transformer l'l and that of providing a simplified gas conduit to the closing side of the piston I I.
As in case of insulator 5, the insulator 8 is protected from operating stresses by means of a strong insulating cylinder 38 disposed between the intermediate structure 'I and reservoir I. A resilient gasket may likewise be provided at 8 between the insulator 8 and structure I. The insulator 38, including the casing I8 extending into the reservoir, is nlled as illustrated with oil or other suitable insulating liquid 39 so that the current transformer and associated conductors are adequately insulated. The annular space between the insulators 8 and 38 is connected to atmosphere as at B'.
The main gas conduit 22 comprises an intermediate insulating section having a strong inner insulating cylinder 40 and an outer ceramic insulator itl For the purpose of simultaneously supplying gas to similar circuit interrupter units, 'the main conduit 22 may be connected as at 22 to the gas conduits of the other units.
t should be understood that my invention is 'not limited to speciiic details of construction and arrangement thereof herein illustrated, and that changes and modifications may occur to one skilled in the art without departing from the spirit or my invention.
W'hat I claim as new and desire to secure by Letters Patent of the United States, is:
l. An electric circuit interrupter comprising a source of iluid pressure, a high voltage shelllike insulator mounted in vertical position, relatively movable contact structure and means forming a switching chamber for said contact structure mounted at the upper end of said insulator, contact actuating means including a piston and cylinder extending within and longitudinally of said insulator, a second. cylinder of larger diameter arranged concentrically of said piston cylinder, the space between said cylinders forming a fluid passage to said piston, and means for admitting fluid under pressure from said source to said space at one end of said high voltage insulator.
2. An electric circuit interrupter of the gasblast type comprising relatively movable contact structure, contact actuating means including a piston and cylinder, a second cylinder of larger diameter arranged concentrically of said rstnamed cylinder, said cylinders being of conducting material, and a current transformer electrically connected to said contact structure through said cylinders.
3. An electric circuit interrupter of the gasblast type comprising a high voltage insulator, relatively movable contact structure mounted on said insulator, contact actuating means including a piston and cylinder extending within and longitudinally of said insulator, a. second cylinder of larger diameter arranged concentrically of said rst-named cylinder, said cylinders being of conducting material, and a. current transformer in alinement with said cylinders and electrically connected through the same to said Contact structure.
4. An electric circuit interrupter of the gasblast type comprising a compressed gas supply reservoir, a high voltage insulator mounted on said reservoir in vertical position, relatively movable contact structure and means forming a.
switching chamber for said contact structure mounted at the upper end of said insulator, ccntact actuating means including a piston and cylinder extending within and longitudinally of said insulator, a second cylinder of larger diameter arranged concentrically of said piston cylinder, the space between said cylinders communicating with the interior of said piston cylinder, means for admitting gas under pressure from said reservoir to said space and to said switching chamber for effecting circuit controlling operations, and a current transformer depending i within said reservoir and electrically connected to said contact structure through said cylinders.
5. An electric circuit breaker comprising relatively movable contact structure, an insulating supporting structure therefor comprising a cylinder composed of mechanically strong brous insulating material, an insulating shell of ceramic material of larger diameter disposed concentrically of said cylinder, the annular space between said cylinder and shell containing an insulating uid, a mounting for said insulating supporting structure to which said cylinder is secured at one end, and resilient means interposed between said mounting and shell arranged with respect to said cylinder so that all load -."esses are taken by said cylinder.
6. An electric circuit breaker comprising relatively movable contact structure, an insulating housing for said structure comprising a cylinder of mechanically strong brous insulating material, an insulating shell of ceramic material of larger diameter surrounding said cylinder, an insulating oil in the space between said cylinder and shell, and a mounting at one end of said insulating housing to which said cylinder is rigidly secured, said shell resiiiently connected with respect to said mounting so that all load stresses are transmitted to said mounting by said rigidly connected cylinders.
7. An electric circuit breaker comprising relatively movable contact structure, operating mechanism therefor, a pair of insulating housings for said Contact structure, metallic housing structure for said 'operating mechanism intermediate said insulating housings, each insulating housing comprising a cylinder of mechanically strong fibrous material rigidly secured at one end to said housing, and an insulating shell of ceramic material of greater diameter surrounding said cylinder, the space between said cylinders and shells containing an insulating liquid, and resilient means for cushioning said ceramic shells with respect to said metallic structure arranged so that all load stresses are transmitted to said housing structure by said cylinders.
8. A high voltage electric circuit breaker comprising relatively movable contact structure, a tubular supporting housing for said structure, a current transformer mounted in said housing, and means connecting the high voltage primary of said current transformer in series with said contact structure, comprising a pair of concentrically arranged conductors directly connecting said contact structure and current transformer, said concentrically arranged lead conductors extending longitudinally and concentrically of said tubular housing.
JOSEF BIERMANNS.
US741793A 1933-10-23 1934-08-28 Electric circuit interrupter Expired - Lifetime US2071965A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE433914X 1933-10-23

Publications (1)

Publication Number Publication Date
US2071965A true US2071965A (en) 1937-02-23

Family

ID=6502745

Family Applications (1)

Application Number Title Priority Date Filing Date
US741793A Expired - Lifetime US2071965A (en) 1933-10-23 1934-08-28 Electric circuit interrupter

Country Status (3)

Country Link
US (1) US2071965A (en)
FR (1) FR779833A (en)
GB (1) GB433914A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2435162A (en) * 1940-12-21 1948-01-27 Ite Circuit Breaker Ltd Valve for use with air blast circuit breaker
US2459612A (en) * 1944-12-22 1949-01-18 Westinghouse Electric Corp Compressed gas circuit interrupter
US2491821A (en) * 1944-12-13 1949-12-20 Allis Chalmers Mfg Co Gas blast circuit breaker
US3657495A (en) * 1969-05-09 1972-04-18 Merlin Gerin High-voltage disconnecting switch with sliding contact

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2435162A (en) * 1940-12-21 1948-01-27 Ite Circuit Breaker Ltd Valve for use with air blast circuit breaker
US2491821A (en) * 1944-12-13 1949-12-20 Allis Chalmers Mfg Co Gas blast circuit breaker
US2459612A (en) * 1944-12-22 1949-01-18 Westinghouse Electric Corp Compressed gas circuit interrupter
US3657495A (en) * 1969-05-09 1972-04-18 Merlin Gerin High-voltage disconnecting switch with sliding contact

Also Published As

Publication number Publication date
GB433914A (en) 1935-08-22
FR779833A (en) 1935-04-13

Similar Documents

Publication Publication Date Title
US2981815A (en) Circuit interrupter
KR20080023091A (en) Vacuum switching device for medium and high voltage
US2469203A (en) Electric switch
US3857006A (en) Gas insulated switching apparatus
US1935228A (en) Electric circuit breaker
US3025375A (en) Electric circuit breaker having a sealed interrupting unit
US2747055A (en) High tension circuit breakers
US3214550A (en) Circuit interrupters with crossbars captively related to piston structures
US3356811A (en) Oil-type circuit breakers having outer continuous insulating support tube and inner stacked insulating plates providing lateral vent openings
US2071965A (en) Electric circuit interrupter
US3110791A (en) Circuit interrupter with pressure-generating and interrupting contacts in insulating interrupting tube
US2965735A (en) Compressed-gas circuit interrupter
US3903387A (en) Gas-insulated switching apparatus
US2163558A (en) Circuit breaker
US3287531A (en) Terminal bushing having impedance means associated therewith
US3242251A (en) Bushing device for introducing current conductor into compressed gas switch chambers
US2786117A (en) Air blast circuit breaker with parallel resistances
US3303309A (en) Series connected switches of different types
US3214541A (en) Fluid-blast circuit interrupter with straight-line driving mechanism
US3899650A (en) Grounded tank circuit breaker
US2999143A (en) Compressed-gas circuit interrupter
US3099733A (en) Circuit interrupter
US3093717A (en) Air blast circuit breaker having a series connected breaking gap in a bushing
US3189718A (en) Compressed-gas circuit interrupter with hydraulic operating means extending upwardly through supporting insulating column means
US2401963A (en) Electric circuit breaker