Defeat resistant interlock/monitoring system
First Claim
1. A defeat resistant interlock system for an electrical system, the system comprising:
- first and second magnetically actuable switches mechanically biased to a first switching state and mounted on a circuit board separated by a predetermined distance;
first and second biasing magnets establishing a magnetically biased second switching state of the first and second switches respectively;
an actuator comprising first and second actuator magnets for changing the magnetically biased state of the first and second switches when located in a predetermined position relative to the magnetically biased first and second switches; and
third and fourth magnetically actuable switches mechanically biased to a first switching state and mounted on the circuit board in the absence of a magnetic biasing field;
the switches being connected in a circuit and switchable between the first and second states to permit electrical operation of the electrical system only when the actuator is at said predetermined position;
the third and fourth switches being spaced between the first and second switches so that the actuator, when located at said predetermined position, does not change the switching state of the third and fourth switches, and oriented so that the fourth switch is at an angle nonparallel to the third switch.
5 Assignments
0 Petitions
Accused Products
Abstract
Four magnetically actuable reed switches are configured in a unique biasing configuration and physical arrangement for providing a defeat resistant interlock/monitoring system with minimal switching circuitry. The switches are physically arranged so that two switches, mechanically biased in a normally closed state, lie between two switches, mechanically biased closed but magnetically biased in an open state, and are mutually perpendicular. The relative positions and orientations of the biased and nonbiased switches require two separate magnetic fields to activate the system. The system is only activated by an actuator which emits the magnetic fields required to actuate only the magnetically biased switches. The actuator magnet fields are oriented in the same direction as the biasing magnet fields. Adjustability of biasing magnets and a minimal number of switches and actuation magnets increase reliability of the system despite variations in actuator position.
-
Citations
17 Claims
-
1. A defeat resistant interlock system for an electrical system, the system comprising:
-
first and second magnetically actuable switches mechanically biased to a first switching state and mounted on a circuit board separated by a predetermined distance; first and second biasing magnets establishing a magnetically biased second switching state of the first and second switches respectively; an actuator comprising first and second actuator magnets for changing the magnetically biased state of the first and second switches when located in a predetermined position relative to the magnetically biased first and second switches; and third and fourth magnetically actuable switches mechanically biased to a first switching state and mounted on the circuit board in the absence of a magnetic biasing field; the switches being connected in a circuit and switchable between the first and second states to permit electrical operation of the electrical system only when the actuator is at said predetermined position; the third and fourth switches being spaced between the first and second switches so that the actuator, when located at said predetermined position, does not change the switching state of the third and fourth switches, and oriented so that the fourth switch is at an angle nonparallel to the third switch. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
-
-
12. A magnetically actuated interlock device for an electrical system, the interlock device comprising:
-
first and second magnetically actuable reed switches mechanically biased to a normally closed switching state and mounted in parallel orientation on a circuit board separated by a predetermined distance; first and second biasing magnets positioned in parallel relationship alongside the first and second switches respectively to establish a magnetically biased open switching state thereof; an actuator comprising first and second actuator magnets for changing the magnetically biased state of the first and second switches back to the closed state when located in a predetermined position proximate to the magnetically biased first and second switches; and third and fourth magnetically actuable switches mechanically biased to a normally closed switching state and mounted on the circuit board in the absence of a magnetic biasing field; the switches being connected in a series circuit operable in the closed state to permit electrical operation of the electrical current flow only when the actuator is at said predetermined position; the third and fourth switches being spaced between the first and second switches so that the actuator, when located at said predetermined position, does not change the switching state of the third and fourth switches; and the third and fourth switches being oriented so that the third switch is parallel to the first and second switches and the fourth switch is normal to the first, second and third switches and overlies the third switch in approximately intersecting relationship so that an external magnetic field cannot change the switching state of the first and second switches without changing the switching state of either the third or fourth switch. - View Dependent Claims (13, 14)
-
-
15. A method for magnetically activating an interlock for an electrical system, the method comprising:
-
positioning first and second magnetically actuable switches normally biased mechanically to a first switching state at a predetermined spacing; positioning third and fourth magnetically actuable switches normally biased mechanically to said first switching state between the first and second switches; magnetically biasing the first and second switches into a second switching state without magnetically biasing the third and fourth switches; actuating the interlock system by simultaneously locating separate external magnetic fields within a predetermined proximity to the first and second magnetically biased switches so that said first and second switches change back to the first switching state; and mutually orienting the third and fourth switches between the first and second switches so that a single foreign magnetic field cannot change the switching state of the first and second switches without changing the switching state of one of the third and fourth switches. - View Dependent Claims (16, 17)
-
Specification