This invention relates generally to electrical circuit breakers and more particularly to circuit breakers using snap-acting, current carrying thermostatic discs.
It is conventional to mount a current carrying thermostatic disc in a housing so that it will snap between contacts engaged and contacts disengaged configurations in dependence upon the temperature of the disc. Such circuit breakers are used in many applications, for example, in marine and off-load trucking. Electrical current passing through the disc generates heat thereby raising the temperature of the disc. Current levels above a selected level will raise the temperature of the disc to a preselected actuation level at which point the disc will snap to a contacts disengaged configuration thereby breaking the electrical circuit until the disc cools off to a lower, reset temperature at which point the disc will automatically snap back to a contacts engaged configuration re-energizing the electrical circuit.
Another circuit breaker in commercial use employs an automatically resettable disc along with an electrically insulative, spring loaded member which, upon opening of the contacts, moves between the contacts to thereby prevent reengagement of the contacts. The circuit breaker is manually reset by moving the member out of alignment with the contacts. This type of circuit breaker has the disadvantage that the plastic member that drags across the contacts is subjected to arcing and tends to melt and/or deteriorate and contaminate the contacts during repeated cycling thereby adversely effecting proper operation.
It is an object of the present invention to provide a manually resettable circuit breaker that is not subject to the limitations of the prior art noted above.
It is another object of the present invention to provide a switchable feature for a calibration free thermal circuit breaker so that the breaker can be caused to move to the open circuit position as a result of a manual intervention as well as by an overload condition during operation thereof.
Another object of the invention is to provide a circuit breaker that has structure indicative of whether the device is in the open or closed circuit position and one that has a manual reset capability. Yet another object is the provision of a thermal circuit breaker that has high rupture performance, one that can be easily assembled and one that is tease free for the opening operation. Still another object is the provision of a manual reset mechanism that is not susceptible to arcing problems of the above noted prior art.
Briefly in accordance with a preferred embodiment of the invention, a manually resettable thermal circuit breaker comprises a cantilever mounted thermostatic snap-acting disc that mounts a movable electrical contact at a free end thereof and is movable into and out of engagement with a stationary electrical contact. A disc coupling member is pivotally mounted above the disc and is provided with two pair of laterally aligned first and second vertically spaced apart fingers that are arranged to receive between each pair of fingers respective opposite sides of the disc so that the disc and the disc coupling member move together as a unit. Preferably, the fingers are laterally aligned with that portion of the disc that mounts the movable electrical contact.
A combined status indicator and reset mechanism is mounted adjacent to the disc coupling member. The indicator and reset mechanism includes a pivot member having an axis of rotation generally normal to the plane in which the disc lies. The pivot member has a radially extending blade that is biased to a first position in engagement with a stop surface of an arm of the disc coupling member, also in a first position, when the electrical contacts are in the engaged position and, upon disengagement of the electrical contacts, to a second position beneath the arm having the stop surface with the arm moving upwardly to a second position due to the connection of the fingers with the disc to thereby prevent reengagement of the electrical contacts until the blade is moved from under the arm having the stop surface. A combination reset lever and indicator flag is mounted on the pivot member with the pivot member extending through an aperture in the housing so that the reset lever and indicator flag is exposed. The reset lever and indicator flag may be disposed under a covering structure on the housing when in the engaged contacts position and exposed when the blade moves to the second contacts disengaged position. The device can be reset manually by moving the reset lever of the pivot member so that the radially extending blade is concomitantly moved back beyond the stop surface with the disc then free to move to the contacts engaged position, the fingers of the disc coupling member bringing the disc coupling member and hence the arm having the stop surface into its first position.
In applications in which it is also desired to provide manual switching, a pushbutton may be mounted on the housing and adapted to transfer motion to a portion of the disc coupling member that is disposed on a side of the axis of rotation of the disc coupling member opposite to the side having the pairs of the fingers so that the actuation of the pushbutton will cause the disc coupling member to pivot thereby lifting the fingers and stop surface along with the free end of the disc and allow the blade to move under the arm having the stop surface and the reset lever and indicator flag to the exposed position. The electrical contacts can then be reengaged by turning the reset lever back to the contacts engaged position.
Other objects, advantages and details of the invention appear in the following detailed description of the preferred embodiments, the detailed description referring to the drawings in which like reference characters refer to like components or structural features throughout the several views of the drawings.
Manually resettable, circuit breaker 10 is shown in the open circuit, reset position in
With particular reference to
The disc coupling member is also formed with stop arm 16g that extends from body 16b in a direction away from the axis of rotation of pivot arms 16a toward the free end of disc 14 for a purpose to be described below.
Reset mechanism 18, best seen in
Reset mechanism 18 is mounted generally aligned with the longitudinal axis of disc 14 and spaced above and adjacent to the free end of the disc with blade 18c capable of extending into cut-out portion 16h of the disc coupling member 16. Suitable spring means, such as coil spring 18k has one end attached to spring attachment hole 18f (see
With particular reference to
The top portion of body 18b of the reset mechanism 18 is received through an aperture (not shown) in top wall 22a with reset lever and indicator flag 18h then installed on the interlock configuration 18g. An over-travel stop member 22c may be mounted on top wall 22a to limit pivotal motion of the reset lever and indicator flag.
A generally u-shaped enclosure 22d is disposed on top wall 22a and has a hub-like first leg 22e received around the circular end portion of the reset lever and indicator flag aligned with body 18b of the reset mechanism 18. Another hub-like second leg 22f is received over a second aperture 22g in top wall 22a and a bight portion 22h extends between legs 22e, 22f and is spaced above top wall 22a a distance sufficient to accommodate reset lever and indicator flag 18h. Thus, reset lever and indicator flag 18h is aligned with bight portion 22b when the circuit breaker is in the contacts engaged position with the top surface of the reset lever and indicator flag covered (see
According to a feature of the invention, if desired, a contacts opening mechanism can be incorporated in the device. As seen in
formed with an aperture 22k aligned with aperture 22g in top wall 22a. Preferably, aperture 22k is formed with an orientation surface, such as straight line portion 22m and receives therethrough a pushbutton 24 having an end top portion 24a configured to be slidingly received in aperture 22k and an opposite end having force transfer portion 24b and an intermediate enlarged diameter portion 24c that acts as a stop surface preventing the pushbutton from escaping from hub 22f. Pushbutton 24 is aligned with spaced apart legs 16c that extend from the pivot axis of pivot arms 16a of disc coupling member 16. This structure provides the capability of opening the contacts from a contacts engaged position by pushing down on pushbutton 24 that causes disc coupling member to pivot clockwise, as seen in
It will be understood that, if desired, force application means other then pushbutton 24 could be used, such as a rocker assembly. Further, in certain applications, if the manual opening feature is not desired then the pushbutton or comparable structure, can be omitted from the device. Although environmental seals have not been shown or described, if desired, conventional sealing means can be provided.
The circuit breaker of the invention provides high rupture performance and tease free engagement (close) and disengagement (open) operations yet is easily assembled.
Although the present invention has been described with reference to certain preferred embodiments, it should be appreciated that various other modifications and adaptations can be made without departing from the scope of the invention as defined by the claims.
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Number | Date | Country | |
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20070115089 A1 | May 2007 | US |