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The present invention is directed to linkages for controlling switches and more particularly to a linkage for use as a double throw switch for controlling two switches mounted in the same enclosure so that only one switch can be on at any given time.
It is of paramount importance that emergency generators be insulated from the incoming electric transmission source when the incoming power source is dead. These generators are commonly found in the home, and are often connected to a 30 amp device such as an electric dryer. If the breaker connecting the external electric transmission, i.e. the power company, be in an “on” position at the same time as the emergency generator delivers power to the home, an extremely dangerous situation exists. Under this condition, even though the utility power line is disconnected from the external power source, i.e. the utility company, the emergency generator nonetheless places a dangerous voltage on the power line. Serious injuries and death from electrocution have occurred as a result of a homeowner's emergency generator transmitting power from the home through the power line, for example when a utility operator was working on the transmission line following storm damage. Accidents occur when the utility worker believes the transmission line is dead from the utility source, and shows no voltage, but the homeowner un-expectantly activates the generator.
Switching apparatus generally referred to as a double throw switch is commonly used to alternately connect one of two load devices to a source of electric power or to connect a single load device alternately to one of two separate sources of electric power. One example would be two lines coming into a switch tied to one load coming out of the switch as in a system that has an emergency power generator to switch from normal power source to the emergency generator. Another example is one line coming into a switch tied to two loads coming out of the switch as in a system that has a backup pump that needs to operate when the main pump is off line. The two switch mechanisms are tied together with a linkage. The linkage allows only one switch to be turned on at any given time. Prior linkages typically are assembled using multiple slots in a plate which is secured to a framework by multiple fasteners or rivets which slide in the plurality of slots.
There is a need for a double throw switch linkage that requires fewer parts for assembly thereby reducing costs and complexity.
U.S. Pat. No. 6,815,623, issued to Holland, discloses a double throw switch linkage for coupling two switch apparatuses together in an enclosure. Each switch apparatus is coupled to the switch mechanism having a switch mechanism lever arm. The double throw switch linkage comprises an interlock housing, with the interlock housing defining a pair of actuator plate slots and a first orifice and a second orifice. Each orifice is configured to provide unimpeded passage of each switch mechanism lever arm. An actuator plate is slidingly mounted in the actuator plate slots. The actuator plate is free floating in the interlock housing. The actuator plate defines a first switch slot, a second switch slot, and a driver arm slot. Each switch slot is configured to guide a pin mounted on each switch mechanism lever arm. A lever arm assembly is mounted on a sidewall of the enclosure with the lever arm assembly including a lever arm coupled to a driver arm. The driver arm is configured to engage the driver arm slot and the actuator plate. When the lever arm is moved it translates a force to the actuator plate which closes one switch mechanism and maintains the other switch mechanism in an open position.
U.S. Pat. No. 6,872,900 to Lament et al. discloses a double throw switch linkage for coupling two switch apparatuses together in an enclosure. Each switch apparatus is coupled to the switch mechanism having a switch mechanism lever arm. When the lever arm is moved it translates a force to the actuator plate which closes one switch mechanism and maintains the other switch mechanism in an open position.
U.S. Pat. No. 8,022,319 issued to Lament et al. discloses a switch that comprises a handle operator linkage for a double throw switching apparatus. A handle operator linkage has a lever arm connected to a mid-section, and wherein a stem section connects a base to the mid-section with a pivot hole and at least one first bump facing the base section. The base section has a back bump, which faces the at least one first bump, and thereby forming the handle operator linkage for a double throw switching apparatus.
None of these prior solutions provides a simple, reliable and cost effective double-throw switch. One problem inherent with the above double throw toggles is that the cover for the normal breaker box cannot be closed.
When a emergency generator is used in a location, a generator breaker panel is separately installed and fed by the homeowner's breaker panel. Those circuits that are powered by the generator are isolated from the house panel and installed in the generator panel. Power from the utility company is fed through the house panel and to the generator panel. Under normal operating conditions the breaker in the generator panel connecting the emergency generator is in the “off” position, when the source of the power is external, i.e. the utility company. Under emergency conditions, the breaker in the generator panel connecting the emergency generator is in the “on” position, and the breaker that feeds the external power source is in the “off” position.
The generator panel feeds only those loads in the house that are connected to the generator panel. When the external power source again becomes available, those loads in the house connected to the generator panel remain fed by the emergency generator. Loads connected to the house panel remain connected to the house panel irrespective of whether the emergency generator is connected or not. By utilizing a separate generator panel only those loads that the generator can power will be connected to the generator panel, and the generator will never be overloaded. Also, when the generator is operating, the user will not have to turn off loads on the house panel that the generator does not have the capacity to power.
Applicant discloses a simple integral switching apparatus generally referred to as a double throw switch. The double throw switch is used to connect one of two load devices to a source of electric power or to connect a single load device alternatively to one of two separate sources of electric power. The device can be installed in any conventional breaker box to safely accommodate two separate sources of power or switching apparatus for two load devices.
The invention is best described in reference to the drawings.
The following disclosures of
Of course, first toggle hole (4) and second toggle hole (6) must be positioned so that adequate clearance is provided between the bottom of the toggle (1) and the top of the space between the pair of 15 ampere breakers. This is to ensure that the toggle (1) allows the breakers to completely open or close. Equally important is the length dimension between first toggle hole (4) and second toggle holes (6), to ensure that first toggle hole (4) axially aligns with first breaker holes (5) at the same time that second toggle hole (5) axially aligns with second toggle holes (6). In this manner, when toggle (1) is secured between the first breakers and the second breakers, the homeowner merely grasps the toggle (1) and simultaneously operates both the first breaker and second breaker. Thus, when the emergency generator is turned to the “on” position, the electrical connection to the outside, utility line is simultaneously turned to the “off” position. The homeowner cannot accidently connect the emergency generator to the utility transmission line, which is especially dangerous should a utility repairman be working on the utility line.
To use the toggle (1) according to the instant invention, the toggle (1) is placed between breaker (2) and breaker (3). Toggle bolts (8) and (9) link toggle (1) to breakers (2) and (3). It is most important that when installing toggle (1), breaker (2) is in the “on” position, and breaker “3” is in the off position. Alternatively, when installing toggle (1), breaker (2) can be in the “off” position and breaker (3) is in the “on” position. Toggle (1) when installed in this manner guarantees that breaker (2) and breaker (3) cannot simultaneously be in the “on” position, thereby creating an extremely dangerous condition.
When toggle (1) is properly installed, the power sources for the home can be readily managed in a safe manner. For example, should the homeowner lose power for any reason, he simply flips the emergency generator breaker (2) into the “on” position. Because the positive linkage toggle (1) mechanically links emergency generator breaker (3) and external power breaker (2), all electrical connection to the utility line is safely disconnected. The homeowner cannot unknowingly place a voltage on the external power line and endanger a utility worker. The danger when a homeowner's generator is electrically connected to the external power transmission line cannot be overemphasized. When this occurs, the step-down transformer operates in reverse and steps-up the homeowner's electric generation to extremely dangerous voltages. The instant invention completely eliminates the possibility that the homeowner's generator transmits current over the utility line.
When the homeowner desires to return to the external utility power source, he merely turns the breaker (3) to the “on” position. This simultaneously disconnects or turns off the emergency generator.
The instant toggle of the invention could equally be used to prevent one power source from connecting to two loads. For example, if one power source provides current to either a primary pump or a back-up pump, the toggle could ensure that if the primary pump is turned off, the emergency pump simultaneously turns on. Numerous other examples are possible. It is expressly understood that the toggle according to the invention is not to be limited to emergency generators, but is useful wherever two breakers cannot both be in the same mode at the same time.
Number | Name | Date | Kind |
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5648646 | Flegel | Jul 1997 | A |
6541719 | Powell | Apr 2003 | B1 |
Number | Date | Country | |
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20170372860 A1 | Dec 2017 | US |