The present invention relates generally to electrical contactors, and more particularly, but not exclusively, to electrical contactors having improved noise performance.
Traditional contactor design is composed of three main parts: control circuitry, main contacts, and the mechanical housing. Typically the control circuitry is designed to avoid creating and/or inducing “noise” or other unwanted disturbances on the main contacts which may occur due to the windings of the electro-magnet that move the main contacts. The contactor may for instance may include a plunger that is electrically isolated from a contact bridging bar. (Gigavac, Model/PN: HX21CCC.) The ferrous parts (i.e., housing) of the contactor are typically not isolated from the main contacts. While ferrous parts are not isolated, they are also not intentionally connected. This allows ferrous parts to float at some voltage that may or may not be the same as the main contacts. Typically this is not a problem; however, if the main contact voltage fluctuates, it can change by enough (while the housing does not change with it) that at a certain point the potential between the two will be great enough for a spark (capacitive discharge) to jump and cause the housing voltage to jump to a voltage closer to that of the main contacts. This in turn can induce an unwanted voltage in the control circuit. Accordingly, there is a need in the art for contactors which avoid such problems.
In one of its aspects, the present invention may provide an improved electrical contactor in which the control circuit is isolated from the main contacts/circuit and in which a ferrous housing and other related ferrous parts are shielded from one another. Such an arrangement may also help to keep the main circuit from interfering with the control circuit. In such a situation, the contactor housing may also be grounded. In another of its aspects the present invention may provide an electrical contactor in which the main contacts are absolutely isolated from the housing to keep the housing from changing voltage drastically and unpredictably with undesirable effects on the control circuit. Alternatively, a main contact bridging bar may be electrically connected to the housing. In yet a further of its aspects, the present invention may provide an electrical contactor in which the housing is electrically connected to one of the poles of the main contacts to ensure that the housing voltage is held at the voltage of the main contacts and does not change unpredictably. In so doing, the typical double break main contacts will only break on a single contact so it may be preferred that the connection between the selected contact pole and housing be made through a high resistance to regain the full functionality of the two breaking contacts.
In view of the above, in one of its aspects the present invention may provide an electrical contactor, comprising a housing and a pair of electrical contacts mounted thereto, each contact having an end extending into the housing. The contactor may include a contact bridging bar movably positioned relative to the pair of electrical contacts such that the contact bridging bar contacts and electrically connects the pair of electrical contacts in a first position of the contact bridging bar. The contact bridging bar may be disposed out of contact with the pair of electrical contacts in a second position of the contact bridging bar. A plunger may be attached to the bridging bar, and coil windings may be disposed about the plunger. The coil windings may be configured to generate a magnetic field operable to move the plunger between first and second positions corresponding to the first and second positions of the contact bridging bar. In addition, either i) the plunger and contact bridging bar may be electrically isolated from one another and the housing connected to ground or ii) the plunger or a selected one of the pair of electrical contacts may electrically communicate with the housing. The housing may include a lower compartment in which the coil windings are disposed, and the lower compartment may include a ferrous wall disposed between the coils and the pair of electrical contacts. The ferrous wall may have an aperture with the plunger disposed therein. A conductive spring or a flexible conductive member may be connected to the plunger and the housing to provide electrical communication therebetween. The plunger or a selected one of the pair of electrical contacts may electrically communicate with the housing which is connected to ground.
The foregoing summary and the following detailed description of exemplary embodiments of the present invention may be further understood when read in conjunction with the appended drawings, in which:
Referring now to the figures, wherein like elements are numbered alike throughout,
In a further exemplary configuration, the present invention may provide an electrical contactor 200 similar to that of the contactor 100 of
In a still further exemplary configuration, the present invention may provide an electrical contactor 300 also similar to that of the contactor 100 of
These and other advantages of the present invention will be apparent to those skilled in the art from the foregoing specification. Accordingly, it will be recognized by those skilled in the art that changes or modifications may be made to the above-described embodiments without departing from the broad inventive concepts of the invention. It should therefore be understood that this invention is not limited to the particular embodiments described herein, but is intended to include all changes and modifications that are within the scope and spirit of the invention as set forth in the claims.
This is application claims the benefit of priority of U.S. Provisional Application No. 62/573,286, filed on Oct. 10, 2017, the entire contents of which application(s) are incorporated herein by reference.
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