KR200411516Y1 - Magnetic Trip Device Having Manual Reset Button - Google Patents

Abstract

The present invention relates to a magnetic trip device having a manual reset operation unit,

In order to realize this, the present invention, in the magnetic trip device for receiving the output signal of the trip relay to drive the trip mechanism of the circuit breaker, provided on the top of the trip lever to control the operation after the trip lever performs the blocking operation Lock lever; A lock spring for applying a tensile force to the lock lever; And a reset operation unit penetrating outside of the MTD case and transmitting a horizontal force to the lock lever in a direction against the tension force of the lock spring. The magnetic trip device having a manual reset operation unit comprising: a; To provide.

According to the present invention, after performing the fault current interruption operation and before switching to the input standby state for restarting the breaker, the user is equipped with a manual reset device that can control the restart of the breaker, thereby protecting the line and the device. There is an effect that can promote the safety of the user.

Manual reset, magnetic trip device (MTD),

Description

Magnetic Trip Device Having Manual Reset Control Panel {Magnetic Trip Device Having Manual Reset Button}

1 is a view for explaining the configuration of a conventional magnetic trip device,

2a and 2b is a view showing a state before and after the operation of the conventional magnetic trip device,

3 is a view for explaining the configuration of a magnetic trip device having a manual reset operation unit according to an embodiment of the present invention,

4A and 4B are diagrams illustrating states before and after operation of the magnetic trip device including a manual reset operation unit according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

302: lock lever 304: lock spring

306: reset operation

The present invention relates to a magnetic trip device having a manual reset operation unit. More specifically, the circuit breaker is returned to the input standby state only after applying the manual reset signal after the abnormal current is cut off, thereby protecting the line and the device. The present invention relates to a magnetic trip device capable of protecting the user.

In general, when a fault occurs such as an overload or a short circuit on the line of the power system, a trip relay is installed on the line of the power system or the breaker to detect the fault current so that the fault can be detected. have.

When a trip relay detects an accident, a magnetic trip device (MTD) is installed in the breaker to receive a signal and to shut down in the shortest time in the event of an accident.

1A is a configuration diagram of an MTD coil applied to a conventional magnetic trip device, and FIG. 1B is a diagram for describing an internal configuration of a conventional magnetic trip device.

1A and 1B, a conventional magnetic trip device is composed of a moving core 18 in which a permanent magnet 14 and a coil spring 16 are compressed on a coil 12 to convert an electrical signal of a trip relay into a mechanical output. The hook lever 20 for driving the slide 40 held by the hook by the movement of the moving core 18 generated by the operation of the MTD coil 10 and the trip relay signal by converting and driving the trip mechanism. And the hook lever 20 rotates the hook lever spring 30 and the hook lever 20 to rotate the hook lever 20 during the reset operation so that the hook lever 20 can hook the slide 40 and the MTD spring. A slide holder 50 and a hook for guiding the slide 40 and the slide 40 to move forward and backward while moving forward by the force of the 60 and fixing the MTD coil 10 and the hook 40. Lever 20 slide 40 When the ratchet lever 80 is rotated by the MTD spring 60, the ratchet torsion spring 70 and the hook lever 20 for advancing the slide 40 or returning the slide 40 advanced after the operation are performed. When the slide 40 is released, the ratchet torsion spring 70 is rotated by the MTD spring 60 to rotate the ratchet torsion spring 70, or the ratchet torsion spring 70 is rotated to return the advanced slide 40 after the operation. The MTD spring 60 and the breaker are tripped while maintaining the load in tension with the ratchet lever 80, which causes the tripping operation by rotating the ratchet lever 80 when the MTD coil 10 is operated. When the ratchet lever 80 is rotated, the MTD reset lever 90 and the breaker closing MTD coil 10 which interlock with the ratchet lever 80 and press the moving core 18 of the MTD coil 10 to reset them Reset spring (100) for returning the MTD reset lever (90) to the original position so as not to interfere with the operation In addition, the MTD is composed of case 110 for supporting them in combination.

Here, the MTD coil 10 is composed of a moving core 18 compressing the permanent magnet 14 and the coil spring 16 therein to convert an electrical signal of the trip relay into a mechanical output to drive a trip mechanism. .

Also shown in FIG. 1B, the hook of the hook lever 20 on the magnetic trip device before operation is hooked to the first groove 42 of the slide 40 and at the same center 72 of the ratchet torsion spring 70. It is fitted in the state of tension between the working point 74 of the ratchet lever 80 by MTD spring 60 using the groove | channel 82 of the ratchet lever 80, The ratchet lever 80 is made to wait for rotation.

Figure 2a is a state diagram after the operation of the conventional magnetic trip device.

As shown in FIG. 2A, when the moving core 18 is released from the MTD coil 10 and pushes the rotational action point 26 of the hook lever 20, the hook lever 20 starts from the rotation center 22. While rotating, the hook of the hook lever 20 that is caught in the first groove 42 of the slide 40 is released. At this time, the ratchet lever 80 is rotated by the force of the MTD spring 60 in the tensioned state at the first rotational action point 86 of the ratchet lever 80, and the groove 84 of the ratchet lever 80 is rotated. The ratchet torsion spring 70 interlocked with the rotation center rotates about the rotation center 72.

At this time, the first groove 42 of the slide 40 interlocked with the second groove 44 of the slide 40 is guided by the slide holder 50 while being released from the hook of the hook lever 20 to move forward. do.

At this time, the protrusion 46 of the advanced slide 40 collides with the rotational action point 124 of the trip lever 120 of the trip mechanism and the trip lever 120 rotates from the center of rotation 122 as a starting point. The breaker trips and cuts off the fault current.

2B is a circuit breaker opening state diagram of a conventional magnetic trip device.

As shown in FIG. 2B, when the breaker trips, the main shaft 130 of the breaker rotates. When the main shaft 130 rotates from the center 132 of the main shaft, the reset roll 134 of the main shaft is ratchet lever 80. The second rotary action point 82 of) is pushed, and at this time, the ratchet lever 80 rotates in the opposite direction during the trip operation to tension the MTD spring 60 hung on the first rotation action point 86 again. The ratchet torsion spring 70 is reversed by the second rotation action point 82. When the ratchet torsion spring 70 rotates, the slide 40 linked to the second groove 44 of the slide 40 returns to its original position.

In addition, the third rotation action point (not shown) is to interlock the first rotation action point 94 of the MTD reset lever 90, wherein the MTD reset lever 90 is rotated from the rotation center 92 as a second point The moving spring 18 of the MTD coil 10 released by the rotary action point 96 is returned to its original position, and when the breaker is closed again, the reset spring 100 does not interfere with the operation of the MTD coil 10. The MTD reset lever 90 is rotated to its original position.

When the moving core 18 of the MTD coil 10 returns to its original position and the slide 40 returns, the hook lever 20 is mounted by the hook lever spring 30 mounted on the rotation center 22 of the hook lever 20. ) Rotates to its original position, and the hook 24 of the hook lever 20 is engaged with the first groove 42 of the slide 40 so that the magnetic trip device returns to the state before operation.

As described above, the magnetic trip device according to the related art automatically resets and resets even when the breaker is tripped, so that the breaker can perform the closing operation only when the closing signal is input.

However, if the circuit breaker is accidentally inserted by the user without abnormal fault current on the line, the fault current is detected by the trip relay and the breaker re-blocks, but the breaker has a lifespan according to the magnitude of the fault current. It may be shortened or unavailable.

In addition, there is a problem that can increase the accident to other devices and tracks when the failure to break by the damage of the breaker.

In order to solve this problem, the present invention provides a magnetic trip device that can prevent a safety accident caused by energizing again after the interruption operation by allowing the breaker to return only after applying a manual reset signal even after an abnormal current interruption. It aims to provide.

In order to achieve this object, the present invention, in the magnetic trip device for receiving the output signal of the trip relay to drive the trip mechanism of the circuit breaker, it is provided on the top of the trip lever to perform the operation after the trip lever performs the blocking operation A lock lever for controlling; A lock spring for applying a tensile force to the lock lever; And a reset operation unit penetrating outside of the MTD case and transmitting a horizontal force to the lock lever in a direction against the tension force of the lock spring. The magnetic trip device having a manual reset operation unit comprising: a; To provide.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The grounding device according to the present invention has the same configuration as the components of the prior art shown in FIGS. 1 and 2 in addition to the lock lever, the lock spring, and the reset operation unit. Only the lock lever, the lock spring, and the reset operation unit corresponding to the parts will be described, and the descriptions of the same components as in the related art will be omitted in order to avoid duplication. In the prior art and the present invention, the same reference numerals are used for components corresponding to each other.

3 is a view for explaining the configuration of the magnetic trip device having a manual reset operation unit according to an embodiment of the present invention.

Magnetic trip device according to an embodiment of the present invention is provided on the top of the trip lever and the lock lever 302 is installed to allow the sliding movement in response to the trip rotation operation of the trip lever; A lock spring that exerts an elastic tensile force on the lock lever; And a reset operation unit 306 penetrated to the outside of the MTD case and transmitting a horizontal force to the lock lever in a direction against the tensile force of the lock spring.

4A and 4B are diagrams illustrating states before and after operating a magnetic trip device including a manual reset operation unit according to an embodiment of the present invention.

As shown in FIG. 4A, before the magnetic trip device according to the embodiment of the present invention operates, the lock lever 302 receives the tension force of the lock spring 304 and the horizontal force of the reset operation unit and the vertical drag on the trip lever 120. It is seated on the top of the trip lever 120 in a balanced state.

However, as shown in FIG. 4B, the moment when the trip lever 120 moves downward to perform the trip operation, the tension force of the lock spring 304 and the horizontal force and reset lever of the reset operation unit 306 ( As the balance of vertical drag force in the upper portion is broken, the lock lever 302 slides down the upper end of the trip lever 120 while receiving the tension force of the lock spring, and the trip lever 120 is terminated at the end thereof. The trip lever is restrained so that subsequent operations cannot be performed. That is, as shown in FIG. 4B, the lock lever 302 has an upper end portion of the trip lever 120 to a position supported by the vertical force of the reset operation unit 306 on the left side and the MTD case 110 on the upper side. Sliding down prevents the trip lever from switching back to the closing operation after performing the blocking operation.

4A and 4B, the operation of the magnetic trip device of the present invention will be described in more detail. When the moving core is released from the MTD coil and pushes the rotation action point 26 of the hook lever 20, the hook lever 20 is applied. The hook of the hook lever 20, which was caught in the first groove 42 of the slide 40, is released while rotating the rotation center 22 as a starting point. At this time, the ratchet lever 80 is rotated by the force of the MTD spring 60 which has been caught in the first rotational action point 86 of the ratchet lever 80 in the tensioned state, and the groove 84 of the ratchet lever 80 Ratchet torsion spring (70) linked to the rotation is to rotate from the center of rotation (70).

At this time, the first groove 42 interlocked with the second groove 44 of the slide 40 is guided by the slide holder 50 while being released from the hook of the hook lever 20 to move forward.

At this time, the protrusion 46 of the advanced slide 40 collides with the rotation action point 124 of the trip lever 120 of the trip mechanism, and the trip lever 120 rotates the center of rotation 122 as a starting point of the breaker. Trips and cuts off the fault current.

At this time, as the breaker is tripped, the lock lever 302 which is seated on the upper end of the trip lever 120 performs an operation of sliding down the upper end, and the lock lever 302 is a tension force of the lock spring 304. By sliding down to the position supported by the vertical force of the reset operation unit 306 on the left side and the MTD case 110 on the upper side, and the trip lever 120 switches back to the closing operation after performing the blocking operation. It will prevent you from becoming.

After the accident current is cut off, the user releases the lock lever 302 from the lock lever 302 by transmitting a horizontal force to the lock lever 302 in a direction against the tension force of the lock spring 304 through the reset operation unit 306. Can be. More specifically, the user transmits a force against the tensile force of the lock spring 304 to the lock lever 302 by pressing the reset operation unit 306 protruding from the outside of the MTD case 110 and thereby the lock. The lever 302 is controlled to escape from the state of restraining the operation of the trip lever.

After that, the circuit breaker performs an operation of switching to the standby standby state for re-operation. However, since the circuit breaker is subjected to the same process as that of the magnetic trip device according to the related art, a description thereof will be omitted. .

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention belongs may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be interpreted as being included in the scope of the present invention.

As described above, according to the magnetic trip device according to the present invention, after performing the fault current blocking operation and before switching to the input standby state for restarting the breaker, the user can manually control the restart of the breaker. By mounting the device, there is an effect that can protect the line and the equipment and ensure the safety of the user.

Claims (1)

A magnetic trip device for receiving an output signal of a trip relay to drive a tripping mechanism of a breaker, A lock lever provided at an upper end of a trip lever to control an operation after the trip lever performs a blocking operation; A lock spring for applying a tensile force to the lock lever; And A reset operation unit penetrating outside of the MTD case and transmitting a horizontal force to the lock lever in a direction against the tensile force of the lock spring; Magnetic trip device having a manual reset operation unit comprising a.

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