Electromagnetic lock having distance-sensing monitoring system
First Claim
1. A door lock system configured to cooperate with a door movable in a door frame, the system being configured for sensing when said door in a locked mode is moved from a closed position toward an open position, and for allowing said door to become unlocked from said locked mode when said door is moved to an activation position after a subsequent delay, the system comprising:
- a) an energizable electromagnet configured to be affixed to one of said door or said door frame for electromagnetically attracting an armature, said armature affixed to the other of said door or said door frame, wherein when said electromagnet is energized, said armature is attracted to said electromagnet when said door is in said locked mode;
b) a permanent magnet configured to be mounted to one of said door or said door frame;
c) a Hall Effect sensor configured for interacting with said permanent magnet and mounted to the other of said door or said door frame, wherein a distance between said Hall Effect sensor and said permanent magnet when said door is in said closed position defines a starting gap, and wherein said Hall Effect sensor is configured for detecting a plurality of instantaneous sensor separation distances between said Hall Effect sensor and said permanent magnet, said plurality of instantaneous sensor separation distances being any distance between and including when said door is in said closed position and when said door has reached said activation position;
d) a starting gap adjustment mechanism having a selectable overall thickness, wherein said overall thickness of said starting gap adjustment mechanism is selected to adjustably set said starting gap; and
e) a controller configured for receiving a varying signal from said Hall Effect sensor, said varying signal having varying voltage values that are correlated to said plurality of instantaneous sensor separation distances, wherein each of said plurality of instantaneous sensor separation distances are proportional to a corresponding instantaneous door separation distance between said door and said door frame as said door is moved from said closed position toward said activation position, wherein said varying voltage values define a slope of a graph of said voltage values as said door is moved from said closed position toward said activation position, wherein said slope of said graph of said varying voltage values is reduced as said overall thickness of said starting gap adjustment mechanism is increased, and wherein said overall thickness of said starting gap adjustment mechanism is selected to maximize said slope defined by said varying voltage values.
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Abstract
An emergency exit door lock system configured to cooperate with a door hinged in a door frame for sensing when a person attempts to open the door, and for allowing the door to open after a subsequent delay. The system comprises an electromagnet affixable to a door frame for electromagnetically attracting an armature resiliently affixed at a variable armature separation distance to an armature mounting device, the device being affixable to the door. A proximity sensor including an analog Hall Effect device is mountable to the frame for detecting movement of the door away from a closed position. A controller, such as a micro-controller, receives a signal from the sensor and causes an alarm as a function of the signal. The signal is indicative of the armature separation distance, the controller being calibrate-able to provide a door alarm signal and door opening signal at any desired value of the armature separation distance.
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Citations
18 Claims
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1. A door lock system configured to cooperate with a door movable in a door frame, the system being configured for sensing when said door in a locked mode is moved from a closed position toward an open position, and for allowing said door to become unlocked from said locked mode when said door is moved to an activation position after a subsequent delay, the system comprising:
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a) an energizable electromagnet configured to be affixed to one of said door or said door frame for electromagnetically attracting an armature, said armature affixed to the other of said door or said door frame, wherein when said electromagnet is energized, said armature is attracted to said electromagnet when said door is in said locked mode; b) a permanent magnet configured to be mounted to one of said door or said door frame; c) a Hall Effect sensor configured for interacting with said permanent magnet and mounted to the other of said door or said door frame, wherein a distance between said Hall Effect sensor and said permanent magnet when said door is in said closed position defines a starting gap, and wherein said Hall Effect sensor is configured for detecting a plurality of instantaneous sensor separation distances between said Hall Effect sensor and said permanent magnet, said plurality of instantaneous sensor separation distances being any distance between and including when said door is in said closed position and when said door has reached said activation position; d) a starting gap adjustment mechanism having a selectable overall thickness, wherein said overall thickness of said starting gap adjustment mechanism is selected to adjustably set said starting gap; and e) a controller configured for receiving a varying signal from said Hall Effect sensor, said varying signal having varying voltage values that are correlated to said plurality of instantaneous sensor separation distances, wherein each of said plurality of instantaneous sensor separation distances are proportional to a corresponding instantaneous door separation distance between said door and said door frame as said door is moved from said closed position toward said activation position, wherein said varying voltage values define a slope of a graph of said voltage values as said door is moved from said closed position toward said activation position, wherein said slope of said graph of said varying voltage values is reduced as said overall thickness of said starting gap adjustment mechanism is increased, and wherein said overall thickness of said starting gap adjustment mechanism is selected to maximize said slope defined by said varying voltage values. - View Dependent Claims (2, 3)
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4. A method for sensing when a door in a locked mode relative to a door frame is moved from a closed position toward an open position, and for allowing said door to become unlocked from said locked mode when said door reaches an activation position after a subsequent delay, the method comprising:
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providing an energizable electromagnet configured to be affixed to one of said door or said door frame for electromagnetically attracting an armature, said armature affixed to the other of said door or said door frame, wherein when said electromagnet is energized, said armature is attracted to said electromagnet when said door is in said locked mode; providing a permanent magnet configured to be mounted to one of said door or said door frame; providing a Hall Effect sensor configured for interacting with said permanent magnet and mounted to the other of said door or said door frame, wherein a distance between said Hall Effect sensor and said permanent magnet when said door is in said closed position defines a starting gap, and wherein said Hall Effect sensor is configured for detecting a plurality of instantaneous sensor separation distances between said Hall Effect sensor and said permanent magnet, said plurality of instantaneous sensor separation distances being any distance between and including when said door is in said closed position and when said door has reached said activation position; providing a starting gap adjustment mechanism having a selectable overall thickness, wherein said overall thickness of said starting gap adjustment mechanism is selected to adjustably set said starting gap; providing a controller configured for receiving a varying signal from said Hall Effect sensor, said varying signal having varying voltage values that are correlated to said plurality of instantaneous sensor separation distances, wherein each of said plurality of instantaneous sensor separation distances are proportional to a corresponding instantaneous door separation distance between said door and said door frame as said door is moved from said closed position toward said activation position, wherein said varying voltage values define a slope of a graph of said voltage values as said door is moved from said closed position toward said activation position, and wherein said slope of said graph of said varying voltage values is reduced as said overall thickness of said starting gap adjustment mechanism is increased; and adjustably setting said starting gap between said Hall Effect sensor and said permanent magnet using said starting gap adjustment mechanism, wherein said overall thickness of said starting gap adjustment mechanism is selected to maximize said slope defined by said varying voltage values. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12)
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13. A door lock system configured to cooperate with a door movable in a door frame, the system being configured for sensing when said door in a locked mode is moved from a closed position toward an open position, the system comprising:
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a) an energizable electromagnet configured to be affixed to one of said door or said door frame for electromagnetically attracting an armature, said armature affixed to the other of said door or said door frame, wherein when said electromagnet is energized, said armature is attracted to said electromagnet when said door is in said locked mode; b) a permanent magnet configured to be mounted to one of said door or said door frame; c) a Hall Effect sensor configured for interacting with said permanent magnet and mounted to the other of said door or said door frame, wherein a distance between said Hall Effect sensor and said permanent magnet when said door is in said closed position defines a starting gap, and wherein said Hall Effect sensor is configured for detecting a plurality of instantaneous sensor separation distances between said Hall Effect sensor and said permanent magnet, said plurality of instantaneous sensor separation distances being any distance between and including when said door is in said closed position and when said door has reached said open position; d) a starting gap adjustment mechanism having a selectable overall thickness, wherein said overall thickness of said starting gap adjustment mechanism is selected to adjustably set said starting gap; and e) a controller configured for receiving a varying signal from said Hall Effect sensor, said varying signal having varying voltage values that are correlated to said plurality of instantaneous sensor separation distances, wherein each of said plurality of instantaneous sensor separation distances are proportional to a corresponding instantaneous door separation distance between said door and said door frame as said door is moved from said closed position toward said open position, wherein said varying voltage values define a slope of a graph of said voltage values as said door is moved from said closed position toward said open position, wherein said slope of said graph of said varying voltage values is reduced as said overall thickness of said starting gap adjustment mechanism is increased, and wherein said overall thickness of said starting gap adjustment mechanism is selected to maximize said slope defined by said varying voltage values. - View Dependent Claims (14, 15)
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16. A method for sensing when a door in a locked mode relative to a door frame is moved from a closed position toward an open position, the method comprising:
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providing an energizable electromagnet configured to be affixed to one of said door or said door frame for electromagnetically attracting an armature, said armature affixed to the other of said door or said door frame, wherein when said electromagnet is energized, said armature is attracted to said electromagnet when said door is in said locked mode; providing a permanent magnet configured to be mounted to one of said door or said door frame; providing a Hall Effect sensor configured for interacting with said permanent magnet and mounted to the other of said door or said door frame, wherein a distance between said Hall Effect sensor and said permanent magnet when said door is in said closed position defines a starting gap, and wherein said Hall Effect sensor is configured for detecting a plurality of instantaneous sensor separation distances between said Hall Effect sensor and said permanent magnet, said plurality of instantaneous sensor separation distances being any distance between and including when said door is in said closed position and when said door has reached said open position; providing a starting gap adjustment mechanism having a selectable overall thickness, wherein said overall thickness of said starting gap adjustment mechanism is selected to adjustably set said starting gap; providing a controller configured for receiving a varying signal from said Hall Effect sensor, said varying signal having varying voltage values that are correlated to said plurality of instantaneous sensor separation distances, wherein each of said plurality of instantaneous sensor separation distances are proportional to a corresponding instantaneous door separation distance between said door and said door frame as said door is moved from said closed position toward said open position, wherein said varying voltage values define a slope of a graph of said voltage values as said door is moved from said closed position toward said open position, and wherein said slope of said graph of said varying voltage values is reduced as said overall thickness of said starting gap adjustment mechanism is increased; and adjustably setting said starting gap between said Hall Effect sensor and said permanent magnet using said starting gap adjustment mechanism, wherein said overall thickness of said starting gap adjustment mechanism is selected to maximize said slope defined by said varying voltage values. - View Dependent Claims (17, 18)
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Specification