Electricity: circuit makers and breakers – High-potential type – Rotating and pivoted
Reexamination Certificate
1999-12-09
2002-10-01
Enad, Elvin (Department: 2832)
Electricity: circuit makers and breakers
High-potential type
Rotating and pivoted
C200S04800A
Reexamination Certificate
active
06459053
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to overtoggled operating mechanism for high voltage interrupting switch used for overhead power distribution systems that provides secure closure forces adjacent the switch to prevent against accidental blade opening. The invention is particularly useful for plural switch systems such as those found in three switch phase systems used on overhead power lines.
BACKGROUND OF THE INVENTION
Overhead electric power distribution lines are supported on utility poles that may be 40-50 feet high. Horizontal supports mounted to the pole often carry various distribution apparatus. Because such distribution lines commonly operate in a three-phase system with three lines mechanically connected to the horizontal support and electrically insulated from each other, there are three associated lines which ordinarily must be switched and reconnected simultaneously for maintenance or rerouting of power in case of fault. This simultaneous switching process requires some form of group operated switch system.
Group operated circuit switching devices have rotatable or sliding parts which are exposed to the weather where they may become corroded, or where they may become immobilized in the winter because of ice formed on the parts. Exposed components of a switching device are not easily operated and, in addition, are often aesthetically undesirable.
Currently, many high voltage switch operating mechanisms for overhead power distribution lines rely on a flowable handle connected to a control shaft that passes up the utility pole to a rotatable bearing on one of the three switch phases near or at the horizontal support beam. See U.S. Pat. No. 5,483,030 the disclosure of which is herein incorporated by reference. A universal control section is securely connected to the rotatable switch phase bearing so that rotation of the bearing is translated into lateral displacement of an interphase shaft along the horizontal support beam. Conductive switch blades on each switch phase connection can be rotated into or out of electrical connection the respective phase line. When the handle on the control shaft is rotated, the interphase shaft rotates the switch phases. Load interrupters of the type described in U.S. Pat. No. 5,457,292 (herein incorporated by reference) suppress the formation of damaging arcs as the switch blades are opened.
High voltage switches are typically mounted well above ground and experience a variety of externally applied forces from weather, utility pole deformation, and vibration that can tend to open the high voltage contacts over time. Thus, the handle on control shaft must maintain the security required to prevent unintended opening of the conductive blades. It would be a desirable advance in the art to provide an improved means independent of the handle and control shaft for securing high voltage overhead power switch blades in a closed position for service yet allow opening for maintenance.
Unfortunately, the use of a control shaft that passes up through the length of the utility pole represents a source of maintenance. It would be desirable to have a switch mechanism for high voltage overhead power systems that did not require the use of a handle and control shaft running the height of the utility pole to hold the switch blades in a closed position. If a handle was used, however, the switch mechanism would provide a means atop the pole for securing the switch components in a closed position and thereby reduce the criticality of a securing system for the ground level handle.
Traditionally, group operated switch assemblies were installed and adjusted in the field to form an overhead switching system. A typical three phase installation would include a pair of parallel horizontal support beams mounted to an upright pole. The two support beams would support the three phases and conductor tension dead ending.
The field installation required installation of three individual phases and one or more interphase shafts with subsequent adjustment control arm linkages between the switch phases for proper blade opening and closing positions. These steps were often performed atop the support pole under circumstances that were less than ideal for consistent alignment. Periodic inspection was required to prevent against premature wear or damage to the switch due to loss of proper adjustment through vibration, weathering of support components, and dimensional changes in the utility pole (e.g., twisting).
It would be desirable to have a group operated switch assembly for high voltage power lines that could be a pre-assembled switch with overtoggled operation. Manufacture under the controlled conditions of a factory could result in a high degree of reliability and operation that would resist fluctuations in component positions over an extended period of exposure to outdoor weather.
SUMMARY OF THE INVENTION
It is an object of the invention to provide a means for securing a switch assembly in a closed and/or open position.
It is also an object of the invention to provide a switch system for high voltage three phase distribution systems that provides forces to maintain the switchblades in a closed and/or open position despite ambient wind, weather, and vibration.
A further object of the invention is a high voltage overhead distribution system switching assembly that can be pre-manufactured under controlled manufacturing conditions. The manufacture would preferably rely on a modular construction of phase switches for all the benefits that normally flow from modular systems, i.e., higher quality, lower cost, enhanced reliability, better engineering design, etc.
In accordance with these and other objects of the invention that will become apparent from the description herein, the high voltage switching assembly of the invention includes: a plurality of switch phases rotated between closed and open positions by pivotable, rigid connection arms operated by a rotatable overtoggle mechanism having an open position and a closed position. Either or both of the open and closed positions can be overtoggled to secure the switch blades in position.
In a particularly preferred embodiment of the invention, a group operated circuit switching apparatus according to the invention comprises:
a. a plurality of said switch phases that rotate about a first axis between a closed position and an open position relative to an unmoving electrical connection on a support member in a second axis, wherein each of said switch phases is secured to a rigid switch arm with a first end and a second end extending therefrom;
b. a rigid interphase shaft connected to each said second end of each switch arm whereby displacement of said interphase shaft rotates each of said switch phases from said open position or said closed position;
c. an overtoggle mechanism that can be mounted on a first support and rotated about a third axis between an open position and a closed that is more than 90° in rotation from said open position, said overtoggle mechanism being pivotally connected to a first end of said switch arm by a reach rod; and
d. a handle communicating with said overtoggle mechanism that will rotate said overtoggle mechanism between the closed and open positions.
The switch assembly of the present invention provides a switch that provides positive feedback and maximum force with minimal operating effort for service personnel when the switch is opened or closed. The design lends itself to factory construction for advantageous quality control and optimum performance. With weather resistant structural and component materials, the switching assembly can withstand extended exposure to climatic variations without significant deterioration of switching performance.
REFERENCES:
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patent: 4027125 (1977-05-01), Peek et al.
patent: 4049936 (1977-09-01), Frink et al.
patent: 4090051 (1978-05-01), Frink et al.
patent: 4110579 (1978-08-01), Frink et al.
patent: 4622443 (1986-11-01), Mooz
patent: 5457292 (1995-10-01), Harr
patent: 5483030 (1996-01-01), Bridges
'Hubbell Incorporated
Bicks Mark S.
Enad Elvin
Klaus Lisa N
Mickney Marcus R.
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