The present invention relates generally to an ultra low profile circuit breaker, and more specifically, relates to a circuit breaker having an improved design that allows for a more compact circuit breaker.
A circuit interrupter is an electrical component that can break an electrical circuit, interrupting the current. A basic example of a circuit interrupter is a switch, which generally consists of two electrical contacts in one of two states; either closed meaning the contacts are touching and electricity can flow between them, or open, meaning the contacts are separated. A switch may be directly manipulated by a human as a control signal to a system, such as a computer keyboard button, or to control power flow in a circuit, such as a light switch.
A second example of a circuit interrupter is a circuit breaker. A circuit breaker is used in an electrical panel that monitors and controls the amount of amperes (amps) being sent through the electrical wiring. A circuit breaker is designed to protect an electrical circuit from damage caused by an overload or a short circuit. If a power surge occurs in the electrical wiring, the breaker will trip. This will cause a breaker that was in the “on” position to flip to the “off” position and shut down the electrical power leading from that breaker. When a circuit breaker is tripped, it may prevent a fire from starting on an overloaded circuit; it can also prevent the destruction of the device that is drawing the electricity.
A standard circuit breaker has a line and a load. Generally, the line is the incoming electricity, most often from a power company. This can sometimes be referred to as the input into the circuit breaker. The load, sometimes referred to as the output, feeds out of the circuit breaker and connects to the electrical components being fed from the circuit breaker. There may be an individual component connected directly to a circuit breaker, for example only an air conditioner, or a circuit breaker may be connected to multiple components through a power wire which terminates at electrical outlets.
A circuit breaker can be used as a replacement for a fuse. Unlike a fuse, which operates once and then has to be replaced, a circuit breaker can be reset (either manually or automatically) to resume normal operation. Fuses perform much the same duty as circuit breakers, however, circuit breakers are safer to use than fuses and easier to fix. If a fuse blows, oftentimes a person will not know which fuse controls which specific power areas. The person will have to examine the fuses to determine which fuse appears to be burned or spent. The fuse will then have to be removed from the fuse box and a new fuse will have to be installed.
Circuit breakers are much easier to fix than fuses. When the power to an area shuts down, the person can look in the electrical panel and see which breaker has tripped to the “off” position. The breaker can then be flipped to the “on” position and power will resume again. In general, a circuit breaker has two contacts located inside of a housing. The first contact is stationary, and may be connected to either the line or the load. The second contact is movable with respect to the first contact, such that when the circuit breaker is in the “off”, or tripped position, a gap exists between the first and second contact.
A problem with current circuit breakers is that they can be relatively bulky, requiring a large profile. The size of the circuit breaker can greatly affect the design of the component the circuit breaker will be integrated into. Specifically, a component or device may not be able to be made smaller due to the relatively large size of the circuit breaker.
As best seen in
Circuit breaker 100 has a first terminal 120 and a second terminal 125. First terminal 120 and second terminal 125 are located on opposite sides of the housing of circuit breaker 100. Both first terminal 120 and second terminal 125 include a conductor having a straight portion running in an upward direction. Each conductor makes a 90 degree turn, the conductor from first terminal 120 turning in a direction opposite to that of second terminal 125. Each conductor then makes a second 90 degree turn in the same direction as the first 90 degree turn such that the conductor has double-backed on itself. The conductor then terminates with a screw at which a wire connection can be made.
Terminal 120 is connected to a conductor 130 which runs parallel to the side of circuit breaker 100. Conductor 130 then makes a 90 degree turn to run perpendicular to the side of circuit breaker 100. A fastener sleeve 135 is located below conductor 130 and below plane 165. The fastener sleeve may accommodate a screw, bolt, rivet or the like. Circuit breaker 100 also includes an arc splitter 140 that is perpendicular to the side of circuit breaker 100.
A problem with this known circuit breaker is that its design requires a relatively large profile in the device or component in which the circuit breaker is to be installed. As components get smaller and smaller, tenths of an inch become more important and, therefore, any shrinking of the profile of a circuit breaker is desired.
It is therefore desired to provide a circuit interrupter which addresses these deficiencies.
Accordingly, it is an object of the present invention to provide a circuit interrupter having a configuration which reduces its size.
This and other objectives are achieved by providing a circuit interrupter which includes a housing having a first contact and a second contact movable with respect to the first contact; a first terminal located on a first side of the housing; a second terminal located on a second side of the housing, the second side being opposite the first side; and an electrical conductor electrically connected to the first terminal and the first contact. The electrical conductor includes a first portion located substantially toward the first side of the housing running towards a third side of the housing, the third side being adjacent to the first side; a second portion located substantially toward the third side of the housing running towards the second side of the housing; and a third portion connecting the first portion to the second portion, the third portion being at an obtuse angle with respect to the first portion and the second portion; a fastening feature located on an intersection of a plane defined by the first portion and a plane defined by the second portion; and an arc splitter located adjacent to the first portion and the second portion of the electrical conductor, the arc splitter being angled with respect to the second side; wherein the first terminal and the second terminal extend from the third side of the housing to a fourth side of the housing, the fourth side being opposite the third side, and wherein the first terminal and the second terminal only pass once through a plane parallel to the fourth side defined anywhere along the first or the second terminal.
In some implementations, the arc splitter includes a plurality of spaced apart plates.
In some implementations, the circuit interrupter includes a trip mechanism electrically connected to the second contact for tripping the circuit interrupter. In some implementations, the circuit interrupter includes a circuit breaker. In some implementations, the fastening feature is a fastener sleeve.
Other objects of the present invention are achieved by providing a circuit interrupter which includes a housing having a first contact and a second contact movable with respect to the first contact; a first terminal located on a first side of the housing; a second terminal located on a second side of the housing, the second side being opposite the first side; an electrical conductor electrically connected to the first terminal and the first contact, the electrical conductor including a first portion located substantially toward the first side of the housing running towards a third side of the housing, the third side being adjacent the first side; a second portion located substantially toward the third side of the housing running towards the second side of the housing; and a third portion connecting the first portion to the second portion, the third portion being at an obtuse angle with respect to the first portion and the second portion; a fastening feature located on a an intersection of a plane defined by the first portion and a plane defined by the second portion; and wherein a length between the first side and the second side is less than about 3.65 inches and a length between the third side and a fourth side is less than about 1.66 inches, the fourth side being opposite the third side.
In some implementations the circuit interrupter includes an arc splitter located adjacent to the first portion and the second portion of the electrical conductor. Optionally, the arc splitter includes a plurality of spaced apart plates. Optionally, the arc splitter is angled with respect to the second side.
In some implementations, the first terminal and the second terminal do not double back on themselves.
In some implementations the circuit interrupter includes a trip mechanism electrically connected to the second contact for tripping the circuit interrupter. In some implementations the circuit interrupter includes a circuit breaker. In some implementations, the fastening feature is a fastener sleeve.
Further objects of the present invention are achieved by providing a circuit interrupter which includes a housing having a first contact and a second contact movable with respect to the first contact; a first terminal located on a first side of the housing; a second terminal located on a second side of the housing, the second side being opposite the first side; and an electrical conductor electrically connected to the first terminal and the first contact. The electrical conductor includes two portions running substantially perpendicular to one another with a connector at an angle other than obtuse; a fastening feature located on an intersection of a plane defined by the first portion and a plane defined by the second portion; wherein a combined length of a length between the first side and the second side and a length between the third side and a fourth side is less than about 5.31 inches, the fourth side being opposite the third side; and wherein the first terminal and the second terminal extend from the third side of the housing toward the fourth side of the housing, and wherein the first terminal and the second terminal only pass once through a plane parallel to the fourth side defined anywhere along the first or the second terminal.
In some implementations, the circuit interrupter includes an arc splitter located adjacent to the first portion and the second portion of the electrical conductor. Optionally, the arc splitter includes a plurality of spaced apart plates. Optionally, the arc splitter is angled with respect to the second side.
In some implementations, the circuit interrupter includes a trip mechanism electrically connected to the second contact for tripping the circuit interrupter. In some implementations, the circuit interrupter includes a circuit breaker. In some implementations, the fastening feature is a fastener sleeve.
Other objects of the invention and its particular features and advantages will become more apparent from consideration of the following drawings and accompanying detailed description.
The exemplary embodiment of the present invention is related to a low-profile circuit interrupter. Specifically, the components of the circuit interrupter have been redesigned to allow for a smaller profile. The exemplary embodiment is described with reference to a circuit breaker, but those skilled in the art will understand that the present invention may be implemented on any electrical device that has electrical contacts that can be opened and closed.
As best seen in
Circuit breaker 200 has a switch 205 that is used to open or close the circuit breaker. In the closed position, electricity is allowed to freely flow through circuit breaker. In case of an overload in the circuit, trip mechanism 245 may automatically trip switch 205, opening circuit breaker 200. Circuit breaker 200 has a first contact 210 which is fixed to the housing of circuit breaker 200. Circuit breaker 200 has a second contact 215 which is movable with respect to first contact 210. In the closed position, second contact 215 is directly touching first contact 210. If an overload in the circuit occurs, second contact 215 is moved to a position away from first contact 210.
Circuit breaker 200 has a first terminal 220 and a second terminal 225. First terminal 220 and second terminal 225 are located on opposite sides of the housing of circuit breaker 200. Both first terminal 220 and second terminal 225 include a conductor having a straight portion running in an upward direction. Neither conductor has a portion that doubles back on itself. Therefore, if one were to define a plane parallel to the top of the housing of circuit breaker 200, anywhere along first terminal 220 or second terminal 225, neither conductor would pass through the plane more than once. The exclusion of a portion that doubles back on itself allows the circuit breaker to be reduced in width.
First terminal 220 is connected to a conductor which has a first portion 250 that is substantially parallel to the sides of the housing of circuit breaker 200. The conductor has a second portion 255 that is parallel to the top and bottom of the housing of circuit breaker 200. First portion 250 and second portion 255 are connected by an angled portion 230. Angled portion 230 is at an obtuse angle with respect to both first portion 250 and second portion 255. Angled portion 230 creates a space between the corner of the housing of circuit breaker 200 and angled portion 230. Such a space does not exist in
As the fastener sleeve can be located between the corner of the housing and angled portion 230, fastener sleeve 235 is able to be located in a plane defined by first portion 250 and a plane defined by second portion 255. Specifically, first portion 250 defines a plane 260 and second portion 255 defines a second plane 265. The imaginary line formed by the intersection of this plane is located between angled portion 230 and the corner of the housing. Because angled portion 230 connects first portion 250 to second portion 255, creating a gap between the angled portion and the corner of the housing, fastener sleeve 230 can be located on this imaginary line. This allows for both a smaller depth and a smaller width of the size of the housing of circuit breaker 200.
In contrast to the above, prior art circuit breakers require a tradeoff between depth and width. Looking again at
Circuit breaker 200 also includes an arc splitter 240. Arc splitter 240 is composed of a plurality of spaced apart plates. Arc splitter 240 is used to cool and quench an arc that is created between first contact 210 and second contact 215 after circuit breaker 200 has automatically tripped due to an overload. Arc splitter 240 is at an angle other than perpendicular with respect to the sides of circuit breaker 200. The angling of arc splitter 240 allows for a smaller profile of the housing of circuit breaker 200. In contrast, the plates of arc splitter 140, as seen in
This device has the advantage in that it has smaller profile, by having a reduced width and depth. This allows the circuit breaker to be used in smaller components where a traditional circuit breaker could not be incorporated. It would be appreciated by those skilled in the art that various changes and modification can be made to the illustrated embodiment without departing from the spirit of the invention. All such modifications and changes are intended to be covered hereby.
Although the invention has been described with reference to a particular arrangement of parts, features and the like, these are not intended to exhaust all possible arrangements or features, and indeed many modifications and variations will be ascertainable to those of skill in the art.
Number | Date | Country | |
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61587733 | Jan 2012 | US |