Electricity: electrical systems and devices – Safety and protection of systems and devices – With specific current responsive fault sensor
Reexamination Certificate
2000-12-20
2002-04-23
Jackson, Stephen W. (Department: 2836)
Electricity: electrical systems and devices
Safety and protection of systems and devices
With specific current responsive fault sensor
C361S023000, C361S078000
Reexamination Certificate
active
06377430
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a single protection device, including a transformer, an input circuit, and a switch circuit, suitable for addition to an electrical power system that includes a control panel electrically interconnected with a starter to control an electrical device. It is desirable to monitor the performance of devices such as electric motors and to control them through remotely located control panels. While this has long been possible, it has been costly to install the required sensors and controls.
Springer, U.S. Pat. No. 4,885,655 discloses an integrated capacitor-start, induction-run electric motor starter and protection circuit specifically suitable for a water pump. The circuit requires physical electrical connection to the power cables to sense the phase angle between the voltage and the current applied to the motor to indicate when it is operating without a load. When such a condition occurs, the circuit triggers an activator coil to de-energize the motor by opening a switch member. The integrated starter and protection circuit is suitable only for induction machines.
Libert, U.S. Pat. No. 4,887,018, discloses a start-up circuit for gradually starting a multiphase motor and which also includes detector circuits for detecting various fault conditions and for disconnecting power from the motor in response to fault conditions. Integrating the motor starter and protection circuit into one device makes it unsuitable for addition to existing power systems to detect fault conditions within power cables.
Flückiger, U.S Pat. No. 5,359,273, discloses a load control circuit for controlling the load of an asynchronous motor. The circuit includes a pair of capacitors, one of which can be connected in parallel with the other by a switch. Control over whether one or two capacitors is supplied as a load to the motor is provided by comparing signals from a current sensor and a voltage sensor in a comparator. Depending upon the relative size of the compared signals, the switch is turned off or on.
Domshy, et al., U.S. Pat. No. 3,593,078, discloses a starting and operating control circuit that includes voltage sensors and current sensors to start a motor and limit the power supplied to it.
One design of a starter includes an integrated starter and protection circuit to detect fault conditions of an associated electrical device and, in response to detecting a fault condition, disable the electrical device. When a starter with an integrated starter and protection circuit is used to control devices in an environment in which the electrical devices are not dependent upon other machines, or their operation does not impact other devices, the inclusion of the integrated starter and protection circuit is an effective way to protect the associated electrical device. However, when a starter including such an integrated protection circuit is used in a system where the associated electrical device is interdependent with other electrical devices, use of such a starter to independently enable and disable the electrical device may result in devastating effects to the entire system. In other words, where several electrical devices combine to produce a result, as in systems that includes a computerized control panel or system controller, it is desirable for the control panel or system controller to maintain control over the status of the electrical devices to minimize potential problems.
However, many starter designs do not include an integrated protection circuit and also include no-fault detection. To provide fault detection for electrical devices, a current sensor surrounding the power cable to the electrical device may be used to sense the electrical load current. The current sensor may be electrically interconnected between a control panel and the power cable to provide a signal to the control panel representative of the current within the power cable. Suitable current sensors are known, such as the current sensor sold by Veris Industries, Inc., under the trademark HAWKEYE 700. It is desirable to locate such a current sensor within a housing where a starter for the electrical device is located.
A relay is typically electrically interconnected between a remotely located control panel and a starter to receive a control signal from the control panel and in response to provide an indication to the starter. Like the current sensor, such a relay may be located within a starter housing.
The relay and current sensor in the past have been separate individual devices, each requiring a mounting location that may not be available within the starter housing due to limited space. Additionally, it takes additional time to install two separate devices and requires stocking two separate replacement parts for use in the event of device failure. Also, troubleshooting likely requires the inspection of both devices.
What is desired, therefore, is a protection device that is suitable for addition to existing electrical systems that operate in an environment including a control panel and a starter controlling the operation of an associated electrical device. The protection device should be compact, inexpensive, and fast to install.
SUMMARY OF THE INVENTION
The present invention overcomes the aforementioned drawbacks and shortcomings of the prior art by providing a protection device for monitoring current in a power cable to an electrical device and for controlling a starter for the electrical device in response to a remotely located system controller. The protection device includes a transformer magnetically linked with the power cable connected to the electrical device. The transformer produces a voltage signal in response to the presence of a changing current within the power cable. An input circuit located proximate to the transformer has an output terminal and is electrically connected to the transformer so as to receive the voltage signal. The input circuit produces, in response to receiving the voltage signal, one of a first signal representative of the changing current and a first circuit condition at the output terminal of the input circuit representative of the changing current in the power cable. A switch circuit has a first terminal for sensing one of a second signal and a second circuit condition of the remotely located system controller. The switch circuit has a second terminal to provide one of a third signal or a third circuit condition, in response to sensing one of the second signal and the second circuit condition. The third signal and the third circuit condition is effective to control the starter when the starter is electrically connected thereto. All of the transformer, the input circuit, and the switch circuit are located in a single unitary package.
By locating the sensor circuit, which is a combination of the transformer and the input circuit, and the switch circuit proximate to one another within the single package, significant advantages are realized. Due to the limited available space within a starter housing, the single package is more desirable. The expense of manufacturing a single package is frequently less than manufacturing two separate packages. The time required to install both the switch circuit and the sensor circuit is reduced by only requiring installation of one combined package. A reduction in the number of backup parts and troubleshooting time is also realized.
In a preferred package a mounting bracket includes a slide arrangement to support the transformer so that its position can be adjusted easily to the best location with respect to the power cable.
REFERENCES:
patent: 6005760 (1999-12-01), Holce et al.
Cota Roger S.
Holce Kent J.
Chernoff Vilhauer McClung & Stenzel LLP
Jackson Stephen W.
Veris Industries, LLC
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