Procedure for stopping an elevator at a landing
First Claim
1. A method for stopping an elevator car at a landing, comprising measuring the current travelling velocity of the elevator car and its position in the shaft, and calculating the deceleration distance from a destination landing to the deceleration point from which deceleration is started based upon the current travelling velocity of the elevator car and a reference velocity, and, when the elevator reaches the calculated deceleration point, issuing a stopping signal regardless of the time at which such stopping signal would have been issued had the elevator been travelling at the reference velocity, wherein said calculating step also considers a reference deceleration distance corresponding to the reference velocity, the reference deceleration distance being determined by the steps of:
- driving an elevator car at the reference velocity in one of the up and down directions;
detecting when the elevator car passes a deceleration switch mounted at a predetermined position within the elevator shaft; and
measuring the deceleration distance traveled by the elevator car as the car speed decreases from the reference velocity to zero velocity, wherein exactly two deceleration switches are mounted within the elevator shaft, the deceleration switches being used for determining respective up and down reference deceleration distances corresponding to the reference velocity.
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Abstract
The invention relates to a procedure for stopping an elevator car at a landing, in which procedure the travelling velocity and position of the elevator in the shaft are measured and a distance from the landing, i.e. a deceleration point at which deceleration is started, is determined for one travelling velocity, i.e. a reference velocity. According to the invention, the deceleration point is changed in proportion to the difference between the measured travelling velocity and the reference velocity.
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Citations
5 Claims
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1. A method for stopping an elevator car at a landing, comprising measuring the current travelling velocity of the elevator car and its position in the shaft, and calculating the deceleration distance from a destination landing to the deceleration point from which deceleration is started based upon the current travelling velocity of the elevator car and a reference velocity, and, when the elevator reaches the calculated deceleration point, issuing a stopping signal regardless of the time at which such stopping signal would have been issued had the elevator been travelling at the reference velocity, wherein said calculating step also considers a reference deceleration distance corresponding to the reference velocity, the reference deceleration distance being determined by the steps of:
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driving an elevator car at the reference velocity in one of the up and down directions; detecting when the elevator car passes a deceleration switch mounted at a predetermined position within the elevator shaft; and measuring the deceleration distance traveled by the elevator car as the car speed decreases from the reference velocity to zero velocity, wherein exactly two deceleration switches are mounted within the elevator shaft, the deceleration switches being used for determining respective up and down reference deceleration distances corresponding to the reference velocity. - View Dependent Claims (2, 3, 4)
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5. A method for stopping an elevator car at a landing, comprising measuring the current travelling velocity of the elevator car and its position in the shaft, and calculating the deceleration distance from a destination landing to the deceleration point from which deceleration is started based upon the current travelling velocity of the elevator car and a reference velocity, and, when the elevator reaches the calculated deceleration point, issuing a stopping signal regardless of the time at which such stopping signal would have been issued had the elevator been travelling at the reference velocity, wherein said calculating step also considers a reference deceleration distance corresponding to the reference velocity, the reference deceleration distance being determined by the steps of:
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driving an elevator car at the reference velocity in one of the up and down directions; detecting when the elevator car passes a deceleration switch mounted at a predetermined position within the elevator shaft; and measuring the deceleration distance traveled by the elevator car as the car speed decreases from the reference velocity to zero velocity, wherein the deceleration switch is a magnet mounted on a tape, the tape extending over a plurality of floors within the elevator shaft.
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Specification