JP4105424B2 - Breaker recovery device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a breaker recovery device by remote operation, and more particularly to a breaker recovery device that can be operated by remote operation with a simplified structure.
[0002]
[Prior art]
When a breaker installed in a mountainous area or other remote location is interrupted by an abnormal current, etc., a breaker that operates the breaker recovery device by remote operation based on a command signal transmitted by the control circuit and restores the normal state to be energized A recovery device is known from Japanese Patent Application Laid-Open No. 2001-118483. As shown in FIG. 6, this prior art breaker recovery device is provided on the side surface of the breaker 5, and is provided with a pair of rotatable switch holding plates 11A and 11B. In order to restore the breaker with the breaker restoration device 10, the switch clamping plates 11A and 11B are operated and rotated by remote operation, so that the switch 6 of the breaker 5 is surrounded on both sides, and the state is reached. Similarly, by moving the switch clamping plates 11A and 11B by remote control, the switch 6 of the interrupted breaker 5 is moved from the interrupt holding position 2A1 to the interrupt holding release position 2A2, and this is reversed again to normalize the switch. It moves to the timed position 2A3 and switches on again. In FIG. 6, 12 is a motor, 13 is a switch recovery operation control sensor group, 14 is a switch recovery operation control sensor operating piece, and 15 is a clamping plate opening / closing stop sensor.
[0003]
According to this apparatus, the conventional inefficient work that an operator goes to a remote site such as in the mountains every time a breaker is restored can be eliminated, and speeding up and labor saving can be achieved. Furthermore, there are many merits such as being able to simultaneously cope with the restoration of simultaneous multiple interruptions caused by thunderclouds in a short time.
[0004]
However, this breaker recovery device has a large number of parts and a complicated structure. For this reason, there is a problem that maintenance inspection is troublesome. Also, in this device, if there is an obstacle to breaker operation, such as when the switch clamping plate stops with the switch lever part of the breaker pinched due to a failure or the like, the worker will pull the breaker when checking this device. There was a problem that it could not be controlled.
[0005]
[Problems to be solved by the invention]
The present invention is a breaker recovery device that simplifies the structure and does not place any member at the switch lever portion of the breaker so as to obstruct the inspection. This is an attempt to obtain a breaker recovery device that can be made to be possible.
[0006]
In this invention, a rotation gear connected to a motor provided in a housing of a breaker recovery device is provided on a side surface of the breaker, and a normal circular position sensor and a current interruption release position sensor are attached to the back surface of the rotation gear. Engage the gear, further provide a limit switch on the upper surface of the housing, and provide protrusions to press the switch lever of the breaker at both ends of the semicircular gear in the diametrical direction to rotate the motor of the breaker recovery device Then press the breaker switch lever with the projection provided at the tip of the semicircular gear in the diameter direction to move the breaker switch to the normal time fixed position and turn it on again, where the normal time fixed position sensor works The breaker is restored by operating the limit switch and turning off the motor power at the contact output. It is.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
1 is a perspective view of a breaker recovery device according to the present invention, FIG. 2 is a front view thereof, and FIG. 3 is a side view thereof. 1 to 3, 1 is a general-purpose breaker, and 20 is a breaker recovery device. 2 is a switch of the breaker 1, and when viewed from the front in FIG. 2, the central position is the interruption holding position 2A1, the lower position is the current interruption holding release position 2A2, and the upper position is the normal time fixed position 2A3. 20 shows that it is located in the normal stationary position 2A3. When the breaker 1 is cut off due to overcurrent, etc., the switch moves to the current cut-off holding position 2A1, but to recover this, the switch 2 is moved to the current cut-off hold release position 2A2 at the lower position, and thereafter Is reversed and the switch is returned to the normal time stationary 2A3 to recover.
[0008]
The breaker recovery device 20 is provided in parallel with the breaker 1. The breaker restoration device 20 has a motor 22 in its housing 21, which is driven by a driving battery 23. A speed reducer 24 is connected to the motor 22, and a rotating gear 26 is connected to a rotating shaft 25 that has become a predetermined slow rotation, and this rotates in the horizontal direction by the rotation of the motor 22. Reference numeral 27 denotes a semi-circular synthetic resin gear which is connected to the rotary gear 26 so that its height position is the same as that of the switch 2 of the side breaker 1. Reference numeral 28 denotes a rotating shaft of the semicircular gear 27. Protrusions 29 </ b> A and 29 </ b> B are provided at the diameter direction tip of the semicircular gear 27. The protrusions 29A and 29B rotate the rotation shaft 28 of the semicircular gear 27 as a fulcrum, thereby pressing the switch lever 2 of the breaker 1 to open and close the switch. The semicircular gear 27 is provided with other protrusions 30A and 30B slightly inside the protrusions 29A and 29B. This is because the switch 2 is closer to the breaker restoration device 20 side depending on the type of the breaker 1. It is another protrusion that can be used for the above.
[0009]
FIG. 4 is a perspective view of the breaker recovery device shown in FIG. 1 with the semicircular gear 27 removed. Limit switches 31A and 31B are provided on the upper surface of the housing 21 of the breaker recovery device. Further, a normal time fixed position sensor 32A and a current interruption release position sensor 32B are attached to the back surface of the semicircular gear 27, and the limit switches 31A and 31B are turned on and off by rotating the semicircular gear. .
[0010]
Restoration of the breaker by remote operation using the above apparatus is performed as shown in FIGS. That is, FIG. 5A shows that the breaker 1 is in a normal state. In this state, when an abnormal current flows into the breaker 1 and the switch 2 is cut off, the switch 2 moves to the central current cut-off holding position as shown in FIG. Next, the power source of the motor is input by the communication control unit by remote operation to rotate the motor, and the semicircular gear 27 is rotated counterclockwise as shown in FIG. 5C, whereby the switch 2 of the breaker 1 is rotated. Is moved to the lower current interruption hold release position 2A2. When the switch 2 reaches the cutoff holding release position 2A2, the current cutoff release position sensor 32B provided on the lower surface of the semicircular gear 27 drives the limit switch 31B, and the power of the motor 22 is cut off by the contact output. The switch 2 of the breaker 1 is held in this position. Thereafter, the rotation of the motor is reversely rotated to rotate the semicircular gear 27 clockwise as shown in FIG. 4D, thereby moving the breaker switch to the upper normal time fixed position 2A3. And the normal time fixed position sensor 32A provided in the lower surface of the gearwheel 27 drives the limit switch 31A here, and the power supply of the motor 22 is cut | disconnected by the contact output. Next, the rotation of the motor is further reversely rotated to return to the initial state shown in FIG. 5A to complete the breaker recovery operation.
[0011]
【The invention's effect】
In the breaker recovery device of the present invention described above, the motor, the semi-circular gear and the gear connecting them are the main members, and the structure is simple. It is possible. In addition, this device has an advantage that the switch lever portion of the breaker is only covered with the semicircular gear only when there is an abnormality, so that it does not always cause an obstacle to breaker operation such as inspection. Even when the semicircular gear stops halfway due to a failure of the breaker recovery device or the like, the breaker switch lever is not sandwiched from both sides as in the prior art, and can be operated by an operator.
[Brief description of the drawings]
FIG. 1 is a perspective view of a breaker recovery device according to the present invention.
FIG. 2 is a front view of the breaker recovery device of the present invention.
FIG. 3 is a side sectional view of the breaker recovery device of the present invention.
4 is a front view of the breaker recovery device shown in FIG. 1 with a semicircular gear removed. FIG.
FIG. 5 is an explanatory diagram showing a circuit breaker recovery process using the circuit breaker recovery apparatus of the present invention.
FIG. 6 is a perspective view of a conventional breaker recovery device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Breaker, 2 ... Switch, 20 ... Breaker restoration device, 22 ... Motor, 23 ... Battery, 26 ... Rotating gear, 27 ... Semi-circular gear, 29A, 28B, 30A, 30B ... Projection, 31A, 31B ... Limit switch , 32A: normal time fixed position sensor, 32B: current interruption release position sensor.

Claims (1)

A rotation gear connected to the motor provided in the breaker recovery device housing is provided on the side of the breaker, and a semi-circular gear having a normal position sensor and a current interruption release position sensor attached to the back surface of the rotation gear is engaged with the rotation gear. further limit switches provided on the upper surface of the housing, further wherein the half on both ends in the diameter direction of the circular gear provided with projections for pressing the switch lever of the breaker, the by rotating the motor of the recovery device of the breaker and a half Press the breaker switch lever with the protrusion provided at the tip of the circular gear in the diameter direction to move the breaker switch to the normal timed position and turn it on again. Breaker recovery device that activates the switch and disconnects the motor power at the contact output .

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