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Elevator apparatus
In an elevator apparatus, multiple cars are raised and lowered within a hoistway. The cars within the hoistway are adjacent to each other when located at the same height. If at least one of the cars is defined as a first car and a car adjacent to the first car is defined as a second car, the first car includes, in a face facing the second car a recess when projected onto a horizontal plane. At least a part of a car guide shoe is disposed in the recess.
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| Elevator+apparatus |
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Lift machine
A lift machine comprises a base, a support for supporting a load above the base, a lift actuator operatively connected between the base and the support for raising and lowering the support relative to the base, and a support stabilization mechanism operatively connected between the base and the support for stabilizing the support relative to the base during raising and lowering of the support by the lift actuator. The support stabilization mechanism comprises a pair of opposed linkages, with each of the pair of opposed linkages having a lower torque tube link and an upper torque tube link. The lower torque tube link has a torque tube operatively pivoted to the base. The upper torque tube link has a torque tube operatively pivoted to the support. The pair of opposed linkages are interconnected in such a manner that the pair moves in synchronization during raising and lowering of the support by the lift actuator and maintains the support substantially level even in the event that the center of mass of the load is offset from a vertical axis of the lift actuator.
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| Lift+machine |
Elevator system using a supercapacitor as a backup power source
An elevator system uses a supercapacitor to store electric energy. Furthermore, the supercapacitor can be used as a source of reserve power in emergency situations, such as power failures. The supercapacitor is connected together with three switching branches to a rectified signal of the power supply of the motor. By closing and opening the switches, the supercapacitor can be charged when the motor load is small. When the motor load is large or when the power supply fails, the electric energy contained in the supercapacitor can be discharged for use by the motor. In an emergency, the motor drives the elevator at a speed lower than normal, and therefore a supply voltage lower than normal is sufficient. Also, energy obtained from braking of the elevator can be stored in the supercapacitor, which has a storage capacity of considerable magnitude as compared to an ordinary capacitor. By applying the invention, the energy consumption of the elevator can be reduced because the waste energy obtained from the power supply can be stored and utilized when more energy is needed.
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| Elevator+system+using+a+supercapacitor+as+a+backup+power+source |
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