A CONFIGURABLE CIRCUIT BREAKER

FIELD OF THE INVENTION

This invention relates to a configurable circuit breaker, which can be used or retrofit to different panels, with a variable set of design parameters enabling the same.

DISCUSSION OF PRIOR ART

Circuit breakers are the switches used to protect the circuitry from damage due to overload, by their automatic operation. They come in various sizes and voltage/current capacities and are selected for use, according to the requirements. The key operation is termed actuator mechanism, which may be magnetic, thermal or thermo magnetic. The actuator holds the contactor in place for normal operation and moves apart the contactors in case of overload. The contactor allows the current flow when closed and blocks the current when open, thus protecting the circuit in question from damaging levels of voltage/current.

Circuit breakers that are available in the market today do not have the flexibility to adapt to a variety of panel requirements. In the circuit breakers which do aim at providing a retrofit solution for various panels, an existing breaker (VD4, Vmax) is used and further adapted to panel requirements. This introduces the need for custom made connections, typically manufactured using epoxy cast Copper for routing the current, which leads to increased cost and design time. Another challenge, which presents itself, is that some of the panels are not spatially oriented to enclose existing circuit breakers. This poses a limitation in using pre-existing circuit breakers, which are both inflexible and expensive, leading to custom manufacture of circuit breakers to fit different panel requirements. The present invention addresses these problems by considering the configuration, mounting and casing of the circuit breaker of various models. Disclosed herein is a flexible configuration circuit breaker whose overall size can be modified as per then variations in

the parts thereof, which can be positioned within the custom configured framework of the present invention as per the constraints like electric/magnetic isolation, and space.

US Patent No 6,462,296 provides movement of whole circuit breaker (in and out), much like current rack in arrangement used in all circuit breaker. This invention does not address the problem of mounting. Also, vertical position of the components and their type is not flexible. The number of modules has an upper limit. The proposed invention overcomes tihese drawbacks.

US Publication No 20070159776 discloses a circuit breaker mounting plate comprising a prong adapted to receive a clip. This US patent proposes a solution for mounting the circuit breaker. This does not address configuration, which is the object of our invention.

US Patent No 5,566,818 relates to a movable contactor device in a circuit breaker such as a wiring breaker or earth leakage breaker. In this US patent, two contactor elements made up of fiat conductors are arranged in such a manner that the contactor elements are in parallel with each other and are independent of each other to form a movable contactor for each phase. This invention does not address the problems of configuration, casing or mounting as in the proposed invention. It only considers the contactor that connects the conductor with the circuit breaker.

US Patent No 6,337,613 discloses a three-phase, high-current switchgear apparatuses with or without neutral comprising pole compartments connected in parallel. This invention proposes optimization or improvement in distribution of current and temperatures between the twinned poles of 3-phase switchgear apparatus and circuit breaker. This does not consider the variable configuration or mounting which are the objects of the present invention.

EP1775744 discloses a method to the preparation of a three pole circuit-breaker. The three pole power switch has a switch lock where each pole has its own rapid short circuit trip to act on a trip shaft. This does not consider the flexible configuration and retrofitting which is the object of the present invention.

US Patent No 7,187,258 discloses a circuit breaker such as a molded case circuit breaker or an earth leakage breaker having a movable contact opened by an electromagnetic repulsive force when a large current such as a short-circuit current flows. This patent is about utilizing electromagnetic force for operation and does not consider flexible configuration or mounting problems associated with circuit breaker. And does not address retrofitting This invention particularly relates to a circuit breaker having a protection cover made of an insulating material that covers a movable contact to extinguish a contact arc generated when the contact opens.

US Patent No 4,950,854 does not consider designing of the circuit breaker, flexibility of configuration, which is the object of the present invention. It only discloses replacement of older air-magnetic circuit breaker by vacuum operated circuit breaker without modifications in the cubicle.

US Patent 3,973,096 provides minor adjustability for primary contacts but only for roll- in-type switchgear units, whereas the present invention provides such solution for circuit breakers irrespective of the type. Also this invention does not consider mounting, casing and design problems.

Current circuit breakers, which try to accommodate different sized panels, do so by modifying the end-connections to fit the panel. This proposes a variety of limitations such as space constraints, inability to fit into panels with different bushing designs, being immovable or fixed in one place etc. The present invention proposes a flexible design, addressing the limitations of prior art.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a flexible circuit breaker, which can be easily retrofit into existing panels or used in new panels. Solutions of the prior art have

fixed pole distances, requiring routing components for the panel. This also introduces constraints on the space requirements. It is another object of this invention to provide a circuit breaker with or without independent poles, which can be configured. The configurable circuit breaker of the present invention has a variable distance between its poles, in order to accommodate a variety of panel sizes. The circuit breaker of the present invention further has movable incoming and outgoing arms, which can be moved to suit a variety of panel bushing designs on different panels. Moreover it can be used in horizontal or vertical configuration

BRIEF DESCRIPTION OF DRAWINGS

Fig. 1 shows three individual poles in the present invention with variable phase distance. Fig. 2a shows the adjustability of the incoming and outgoing distances. Fig. 2b shows the mechanism for adjusting of the incoming and outgoing distances Fig. 3 focuses the connecting stub for the contactor.

Fig. 4 shows the different mounting mechanisms for horizontal and vertical mounting.

Fig. 5 shows the placement of the EL drive.

Fig.6 shows the configuration for magnetic and single coil actuators.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The present invention proposes a configurable circuit breaker, which can be used in new panels or retrofit on a variety of different panels. The circuit breaker of the present invention works on a medium voltage range, between 3.3kV to 4OkV including normal and short-circuit current ranging from 200A to 6300A and 2OkA to 63kA, respectively. The present invention reduces the complexity introduced by a fixed distance among the poles and incoming-outgoing contact arms by making this flexible. Fig. 1 shows three individual poles in the present invention with variable phase distance. The poles 1, 2, 3 are clamped on the shaft 9 by the help of the clamp 8. The position of the clamp is adjustable, in turn, making the pole distance variable as per the requirement. This enables managing the space and isolation constraints. An epoxy frame 7 is used to mount the

breaker either horizontally or vertically on the cassette or truck directly. A movable link 10 is provided for connecting the linkage of the circuit breaker to the common shaft. The circuit breaker has an adjustable arm distance 6 and an adjustable pole distance 4, 5 rendering a flexible design, which can cater to a variety of panel parameters. Additionally, a frameless breaker is also enabled. Fig. 2a shows the flexibility in the arm distance. The contacts 15 and 16 are movable, hence allowing the arm distance 17 adjustable. Fig.2b. shows the mechanism for this flexibility in the present invention. The side panel 21 can be fixed by means of bolts, onto the epoxy frame 22 to allow access for movement. The circuit breaker 23 shows the apparatus with the side sheet removed 24 and the slots 25,26, 27 for vertical adjustment. When side sheet is removed 24, you can see the flexible contacts 28, 29 which connect the arms to the pole assembly. Hence, arms can move vertically to suit the requirement. The vertical slots 25, 26, 27 provide flexibility of motion. Further, since the pole to pole distances are larger in a retrofit panel, the chances of dielectric failure are vastly reduced. Alternatively, the slots can be fitted with flexible rubber drape 30. Since a majority of old panels have low normal rated current, a rise in temperature seldom causes a problem in the circuit breaker of the present invention. Fig. 3 focuses the conducting stub for the contactor. The conducting stub 35 at the end that is a Copper or an Aluminum block with threading. It is used to fit in the tulip contact required for the panel, which in turn, can be sleeved. Fig. 4 shows the mounting mechanisms for horizontal or vertical mounting. The mounting arrangement is decided by the truck design. The mounting mechanisms can include clamping mechanism 40 for the circuit breaker 46 onto the shaft with a bolt, grub, screw or any other arrangement. There are inserts on the pole for fastening it with the truck structure. So if the support is horizontal/vertical, the orientation of breaker changes accordingly. In the figure, the mounting inserts 41 & 42 enable horizontal clamping on the shaft 44 via the clamp 40 and the mounting insert 43 is provided to allow vertical clamping. Fig. 5 shows the placement of the EL drive 50 on the central pole 52. It can be similarly mounted on the other poles 51 or 53. Fig.6 shows the configuration for magnetic and single coil actuators. A common magnetic/spring actuator 56 can be mounted on any of the of the pole frames 57, 58, 59 or the track/cassette 60, as per the space requirements wherein the pole frame is strong enough to bear the load of the actuator.