JPS5819799Y2 - Submerged circuit shearing device - Google Patents

Description

[Detailed Description of the Invention] This invention relates to an oil-submerged circuit breaker, and particularly to an electromagnetic tripping device for an oil-submerged circuit breaker.

FIG. 1 is a schematic side view showing a general submerged circuit breaker device.

In the figure, a distribution box 1 is filled with electrical insulating oil 2, and an opening 3 of the distribution box 1 is equipped with a pressure equalizing device 4.

The pressure equalizing device 4 expands and contracts depending on the external pressure of the distribution box 1, and adjusts the pressure of the electrical insulating oil 2, so that the pressure inside and outside of the distribution box 1 is almost the same, so that excessive external pressure is not applied to the distribution box 1. ing.

The power distribution board 5 is installed inside the power distribution box 1 and has a circuit breaker 6 attached thereto.

The operating lever 7 is driven by an external electric operating device (not shown) when entering and cutting the circuit breaker 6.

An electromagnetic tripping device in a conventional submerged circuit breaker device for driving the operating lever 7 is shown in FIG.

FIG. 2 is a schematic side view showing an electromagnetic trip device in a conventional submerged circuit breaker device.

In the figure, the current flowing through the circuit breaker 6 shown in FIG. 1 is supplied to the electromagnetic coil 8 from a terminal 8a.

An electromagnetic coil 8 is wound around a tubular container 9 made of a non-magnetic material, and an opening 10 of the container 9 is sealed with a fixed iron piece 11.

The container 9 is filled with brake oil 12 and accommodates a plunger 13 made of a magnetic material.

The plunger return spring 14 is connected to the fixed iron piece 11 and the plunger 1.
3, and functions to return the plunger 13 after it has moved in the direction of the fixed iron piece 11 due to the attractive force of the electromagnetic coil 8.

One end of the fixed yoke 15 is fixed to the container 9, and a movable iron piece 17 is inserted through a hole 16 provided at the other end to rotatably support one end of the movable iron piece 17. .

A hole 18 provided at one end of the movable iron piece 17 and a fixed yoke 15
A movable iron piece return spring 20 is stretched between the hole 19 provided in the middle part of the movable iron piece.

When the other end of the movable iron piece 17 is attracted to the fixed iron piece 11 against the tension when the movable iron piece returns to zero, the other end of the movable iron piece 17 drives the trip pin 21 and performs the operation shown in FIG. −・
The circuit breaker 6 is cut off by driving the handle 7.

That is, when an overcurrent flows through the circuit breaker 6, a magnetic flux corresponding to the overcurrent is generated in the electromagnetic coil 8, and the fixed iron piece 11
→ Plunger 13 → Fixed yoke 15 → Movable iron piece 17 → The magnetic closed circuit of fixed iron piece 11 moves the plunger 13 upward in the figure against the pressing force of the plunger return spring 14.

Therefore, the magnetic resistance between the fixed iron piece 11 and the plunger 13 becomes small, and the movable iron piece 17 is attracted to the fixed iron piece 11 and drives the trip pin 21 to drive the operating lever 7 and cut off the circuit breaker 6. .

In this conventional electromagnetic tripping device, when the power distribution box 1 is installed deep underwater and the pressure of the electrical insulating oil 2 becomes high pressure by the pressure equalization device 4, the container 9 is installed inside the power distribution box 1. Excessive external pressure may be applied to the container 9, causing the container 9 to deform inward.

This obstructs the movement of the plunger 13, and when an overcurrent occurs, the plunger 13 may not move at all, or even if the plunger 13 does move, its movement is extremely slow.
The time to cut off the circuit breaker 6 may be delayed.

Therefore, there was a risk that the connected equipment or wiring that should be protected would be burnt out.

This idea was made in view of the conventional drawbacks.

This idea will be explained below with reference to the drawings. FIG. 3 is a schematic side view showing an embodiment of the electromagnetic trip device in the submerged circuit breaker device according to this invention.

In the figure, parts corresponding to those in FIG. 2 are given corresponding symbols.

The difference in FIG. 3 from FIG. 2 is that there are two through holes in the container 9.
2, and the other components and the operations of the components are exactly the same as the conventional electromagnetic tripping device shown in FIG. 2, so a description of their operations will be omitted.

That is, in FIG. 3, since the container 9 is provided with the through hole 22, when the pressure of the electrical insulating oil 2 shown in FIG. This prevents the container 9 from deforming inward.

Therefore, the plunger 13 can move freely, and the connected equipment or wiring will not be burnt out.

As described above, according to this invention, the through hole 2 is simply provided in the container 9.
By providing 2, it is possible to prevent the connected equipment or wiring from burning out.

[Brief explanation of drawings]

FIG. 1 is a side sectional view showing a general oil-submerged circuit breaker. FIG. 2 is a side sectional view showing an electromagnetic tripping device in a conventional oil-submerged circuit breaker. FIG. 3 is a side cross-sectional view showing an embodiment of the electromagnetic tripping device in the submerged circuit breaker device according to this invention. In the figures, corresponding parts in each figure are given corresponding symbols, 1 is a distribution box, 2 is electrical insulating oil, 3 is an opening, 4 is a pressure equalizer, 6 is a circuit breaker, 7 is an operating lever, 8 is an electromagnetic coil, 9 is a container, 11 is a fixed iron piece, 1
3 is a plunger, 14 is a plunger return spring, 15 is a fixed yoke, 17 is a movable iron piece, 21 is a trip pin, and 22 is a through hole.

Claims (1)

[Scope of utility model registration request] A power distribution box having an opening and filled with electrical insulating oil, a pressure equalization device that seals the opening and expands and contracts according to external pressure of the power distribution box, a circuit breaker installed in the power distribution box, and a power distribution box. An electromagnetic coil installed in a box and supplied with a current flowing to the circuit breaker; a container around which the electromagnetic coil is wound and has a through hole; installed in the container and moved within the container by the magnetic flux of the electromagnetic coil. a fixed iron piece installed in the container in the moving direction of the plunger, a plunger return spring installed in the container and applying force in the returning direction to the plunger, a fixed yoke with one end fixed to the container; a movable iron piece, one end of which is rotatably supported by the other end of the fixed yoke, and the other end of which is attracted to the fixed iron piece;
and a trip pin that is driven when the movable iron piece is attracted and interrupts the circuit breaker.