| 摘要 |
Provided is a shortage voltage trip device of a molded case circuit breaker. In the molded case circuit breaker, driving current applied into a trip driving part is reduced in proportion to reduction of a power applied into a circuit. When the voltage applied into the circuit is greater than a rated voltage, the trip driving part is stopped, and an operation of a trip driving mechanism is restricted by a trip lever. When the voltage applied into the circuit is less than the rated voltage, the trip driving part is operated, and the restriction of the trip driving mechanism is released by the trip lever rotated by being linked with the operation of the trip driving part. Thus, the circuit may be more simply switched, and operation reliability of a product may be improved. Also, the product may have a more simplified structure. |
| 主权项 |
1. A shortage voltage trip device of a molded case circuit breaker, which performs a turn-on operation connected to a circuit switched by the molded case circuit breaker, a turn-off operation broken from the circuit, and a trip operation in a case where a voltage of a power applied into the circuit is less than a rated voltage, the shortage voltage trip device comprising:
a casing; a trip handle rotatably disposed in the casing, the trip handle being selectively disposed at a turn-of position and a turn-on position; a printed circuit board (PCB) disposed in the casing, the PCB being selectively connected to a line-side terminal and a power source-side terminal of the circuit; a trip driving mechanism linked with the rotation of the trip handle; a trip driving part selectively receiving an electromagnetic force from the PCB connected to the line-side terminal and the power source-side terminal, the trip driving part being operated or stopped according to an intensity of the electromagnetic force received from the PCB; a trip lever rotatably disposed within the casing, the trip lever being rotated by being linked with the operation of the trip driving part to allow the trip driving mechanism to be selectively operated; and a first trip spring applying an elastic force into the trip lever so that the trip driving part is rotated in a direction for maintaining the stopped state of the trip driving part or into the trip driving mechanism so that the trip driving mechanism is operated by being linked with the rotation of the trip handle disposed at the turn-off position, wherein, the voltage applied into the circuit is greater than the rated voltage, the trip driving part is stopped, and the operation of the trip driving mechanism is restricted by the trip lever, and when the voltage applied into the circuit is less than the rated voltage, the trip driving part is operated, and the restriction of the trip driving mechanism is released by the trip lever rotated by being linked with the operation of the trip driving part, wherein the trip driving part comprises a movable driving core, a coil generating an electromagnetic force by driving current transmitted from the PCB; a permanent magnet generating a magnetic force acting on the movable driving core; and a core spring applying an elastic force into the movable driving core, the driving core comprises a protrusion protruding to the outside of the trip driving part, and when the voltage applied into the circuit is less than the rated voltage, the protrusion protrudes to the outside of the trip driving part to rotate the trip lever, wherein an external force (F1) acting on the movable driving core by the electromagnetic force of the coil and an external force (F2) acting on the movable driving core by the magnetic force of the permanent magnet act in a direction opposite to that of an external force (F3) acting on the movable driving core by the elastic force of the core spring, and the elastic force of the first trip spring applied into the trip lever acts on the movable driving core as an external force (F4) in the same direction as the external force (F1) acting on the movable driving core by the electromagnetic force of the coil and the external force (F2) acting on the movable driving core by the magnetic force of the permanent magnet.
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