KR100904469B1 - Trip release device of an electric circuit breaker - Google Patents

Abstract

The problem to be solved by the present invention is to prevent contaminants from entering the contact surface between the fixed contact of the release type electromagnet device and the plunger.

Flexible member arranged to cover the trip spring 8, which can be stretched and contracted according to the protruding movement of the plunger 6 by driving an electromagnet when an overcurrent or leakage current occurs in the main circuit. A trip release device for an electric circuit breaker (12) is provided.

Description

TRIP RELEASE DEVICE OF AN ELECTRIC CIRCUIT BREAKER}

1 is a schematic cross-sectional view of a trip release device of an electrical circuit breaker of a first embodiment according to the present invention.

2 is a schematic cross-sectional view of a trip release device of an electric circuit breaker of a second embodiment of the present invention.

3 is a schematic cross-sectional view of a trip release device of an electrical circuit breaker of the prior art.

4 is a schematic cross-sectional view of a release type electromagnet device of the prior art;

<Description of Symbols for Major Parts of Drawings>

1, 21: coil former 2, 22: coil

3, 23: yoke 4, 24: yoke

5, 25: permanent magnet 6, 26: plunger

61, 26a: stopper 7, 27: cylinder

8: trip spring 9, 29: slider

10, 30: Stator 11, 31: Reset spring

12, 32: flexible member

The present invention provides a trip release device for an electric circuit breaker, more specifically a trip release suitable for application to a release type electromagnet device in which an electromagnet is operated when an overcurrent or leakage current occurs through the main circuit and a trip operation is performed by a trip mechanism. Relates to a device.

It is common for the circuit breaker or the leakage breaker to have a trip release device. The trip release device of the electric circuit breaker detects an abnormal current of overcurrent or leakage current generated in the main circuit, and trips the main mechanism to open the main circuit based on the detected signal. In recent years, the use of the release type electromagnet which integrated the release type electromagnet is increasing as a trip release device of an electric circuit breaker.

3 is a schematic cross-sectional view of a trip release device of a conventional electrical circuit breaker. In Fig. 3, the housing 202 accommodates the coil unit 201, through which the plunger 206 with the stopper 206a is inserted so as to protrude freely. The slider 203 is slidably arranged in the protruding direction of the plunger 206, and the movement of the slider in the protruding direction of the plunger is held by the stopper 206a. Slider 203 is held fixed to plunger 206 by retaining ring 207. A trip spring 205 is interposed between the coil unit 201 and the slider 203, which presses the slider 203 toward the protruding direction of the plunger 206.

4 is a schematic cross-sectional view of a conventional release electromagnet device. In FIG. 4, the coil former 101 is wound around the coil former 101 and housed in a yoke 103 having a U-shaped cross section. On the yoke 103, a pair of yoke pieces 104 are disposed so as to span both corner portions of the yoke 103. A permanent magnet 105 is disposed at the bottom of the yoke 105. The permanent magnet 105 is magnetized in the thickness direction. On the permanent magnet 105, a stator 107 made of a magnetic material is provided. The plunger 106 is inserted into the coil former 101 and protruded above the yoke piece 104 so as to face the stator 107. Between the plunger 106 and the coil former 101, the guide 110 which supports the plunger 106 so that projecting is provided is provided. At the end of the plunger 106, a stopper 109 is provided to hold the slider on the plunger 106. The tripping spring 108 which presses the plunger 106 toward the protrusion direction A2 of the plunger 106 is interposed between the yoke piece 104 and the stopper 109.

The permanent magnet 105 attracts the plunger 106 against the spring force of the trip spring 108 by sucking the plunger 106 in the direction opposite to the protruding direction A2. The suction force F1 of the permanent magnet 105 facing away from the protruding direction A2 of the plunger 106 causes the spring force F2 of the trip spring 108 toward the protruding direction A2 of the plunger 106. Configured to overcome. In the closed state of the main circuit, no current is supplied to the coil 102, and the plunger 106 maintains a contact state with the stator 107. In this state, the plunger 106 has a holding margin F1-F2.

When an abnormal current of overcurrent or leakage current occurs in the main circuit, such an abnormal current is detected by the detection circuit, and a current is supplied to the coil 102. The current supplied to the coil 102 forms a semi-magnetic field against the magnetic field generated by the permanent magnet 105, thereby lowering the suction force F1 of the permanent magnet 105. Thus, the spring force F2 of the trip spring 108 overcomes the suction force F1. As a result, the plunger 106 protrudes in the protruding direction A2.

When the permanent magnet 105 generates a suction force (F1), the magnetic flux is permanent magnet 105-> stator 107-> clearance (B42)-> plunger 106-> clearance (B41)-> yoke ( Pass the route RB4 of 103. The passage of the magnetic field generated by the permanent magnet 105 is blocked by the gap B41. (The gap B42 is substantially absent because the plunger 106 is in contact with the stator 107.) The semi-magnetic field generated by the coil 102 also passes through the root RB4 in the opposite direction. do. As a result, the gap B42 blocks the passage of the magnetic flux of the semi-magnetic field generated by the coil 102. (Because the plunger 106 is opened from the stator 107, a gap B42 occurs.) Accordingly, the magnetic resistance produced by the coil 102 increases. Since the release type electromagnet device of FIG. 4 has a symmetrical structure with respect to the plunger 106, only one root RB4 is shown in the drawing.

For example, Patent Document 1 discloses a method in which a contact spacer made of a nonmagnetic material is provided between a contact surface of a plunger and a fixed yoke in order to prevent a change in holding force of the permanent magnet due to the inclination of the plunger and to ensure a stable suction state of the plunger.

[Patent Document 1] Japanese Unexamined Patent Application No. 2005-268031

However, in the trip release device of the conventional electric circuit breaker, when the plunger 106 protrudes in the protruding direction A2, soot or dust generated at the time of interruption enters through the gap B41. Accordingly, the trip release device of the conventional electric circuit breaker has a problem in that the suction force F1 of the permanent magnet 105 is lowered, causing the plunger 106 to protrude arbitrarily due to vibration or shock. These problems are caused by contaminants introduced to the contact surface between the plunger 106 and the stator 107.

It is therefore an object of the present invention to provide a trip release device of an electrical circuit breaker that inhibits the entry of contaminants into the contact surface between the plunger and the stator.

In order to solve the said problem, the trip release apparatus of the electric circuit breaker of Claim 1 has the plunger hold | maintained protrudingly to a predetermined direction, the stator arrange | positioned facing the said plunger, and the slider hold | hung on the edge part of the said plunger. And a trip spring configured to press the slider in the protruding direction of the plunger, a permanent magnet holding the trip spring in a pressurized state, and a magnetic path of magnetic flux from the permanent magnet through the plunger and the stator. Iii), an electromagnet which forms a semi-magnetic field against the magnetic field generated by the permanent magnet in response to the detection of an abnormal current, and a flexible structure which is configured to cover the trip spring so that the plunger is extensible according to the movement of the plunger A member is provided.

This configuration protects the plunger circumference by the flexible member without affecting the projecting motion of the plunger. When the plunger protrudes, the above configuration prevents soot or dust generated at the time of circuit interruption from penetrating through the gap, thereby preventing the lowering of the suction force of the permanent magnet. Arbitrary protrusion of the plunger due to vibration or shock is prevented, thereby improving the reliability of the trip release device.

The trip release device of the electric circuit breaker of Claim 2 has the plunger hold | maintained protrudingly to the predetermined direction, the stator arrange | positioned facing the said plunger, the slider caught by the edge part of the said plunger, and below the said slider. A flexible member which is disposed to cover the protruding portion of the plunger, presses the slider in the protruding direction of the plunger, and which is flexible according to the protruding movement of the plunger, and a permanent magnet which holds the flexible member in a pressurized state; The yoke that forms the magnetic path of the magnetic flux from the permanent magnet through the plunger and the stator, and the electromagnet which forms the anti-magnetic field against the magnetic field generated by the permanent magnet in response to the detection of the abnormal current. Equipped.

This configuration also protects the plunger circumference by the flexible member without affecting the projecting motion of the plunger. The flexible member presses the plunger in the protruding direction. That is, the flexible member also functions as a trip spring. As a result, it is not necessary to provide a trip spring for pressing the slider in the protruding direction of the plunger, and the increase in cost can be suppressed. When the plunger protrudes, this configuration also improves the reliability of the trip release device by suppressing the ingress of soot and dust generated at the time of circuit interruption.

The trip release device of the electric circuit breaker of Claim 3 is a flexible member, It is characterized by the above-mentioned. This feature provides high reliability to the flexible member while suppressing the cost increase of the flexible member.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Some preferred embodiments of a trip release device for an electric circuit breaker according to the present invention will now be described with reference to the accompanying drawings.

1 is a schematic cross-sectional view of a trip release device of an electric circuit breaker of a first embodiment according to the present invention.

Referring to FIG. 1, a coil 2 is wound on a coil former 1 and accommodated in a yoke 3 having a U-shaped cross section. The yoke 3 is arranged on the yoke 3 so as to span two corner portions of the yoke 3, and a stator 10 made of a magnetic material is provided at the bottom of the yoke 3. The stator 10 can be fixedly held to the bottom of the yoke 3 by, for example, caulking. The plunger 6 configured to protrude over the yoke piece 4 through the coil former 1 is disposed opposite to the stator 10. A permanent magnet 5 having an annular cylindrical shape and axially magnetized is disposed below the coil former 1 and surrounds the stator 10 and the plunger 6. A cylinder 7 having an annular cylindrical shape and holding the plunger 6 protrudingly is provided in a gap between the plunger 6 and the coil former 1 and the permanent magnet 5. The plunger 6 is inserted through the coil former 1 and the permanent magnet 5 with the cylinder 7 in between. At the end of the plunger 6, a stopper 6a for holding the slider 9 on the plunger 6 is provided. Between the yoke piece 4 and the slider 9, the trip spring 8 which presses the plunger 6 to the protrusion direction A1, and the reset spring 11 for pushing back the slider 9 are interposed. . Around the trip spring 8, the flexible member 12 provided so that it can expand and contract with the protrusion movement of the plunger 6, and is arrange | positioned so that the trip spring 8 may be covered is provided. The flexible member 12 may be a molded article.

The permanent magnet 5 attracts the plunger 6 against the spring force of the trip spring 8 by attracting the plunger 6 in the direction opposite to the protruding direction A1. The suction force F1 of the permanent magnet 5 facing away from the protruding direction A1 of the plunger 6 causes the spring force F2 of the trip spring 8 to face the protruding direction A1 of the plunger 6. It is configured to overcome. In the closed state of the main circuit, no current is supplied to the coil 2 so that the plunger 6 remains in contact with the stator 10. In this state, the plunger 6 has a holding force F1-F2.

When an abnormal current of overcurrent or leakage current occurs in the main circuit, such an abnormal current is detected by the detection circuit and a current is supplied to the coil 2. The current supplied to the coil 2 forms a semi-magnetic field against the magnetic field generated by the permanent magnet 5, thereby lowering the suction force F1 of the permanent magnet 5. Therefore, the spring force F2 of the trip spring 8 overcomes the suction force F1. As a result, the plunger 6 protrudes in the protruding direction A1.

The flexible member 12 provided around the trip spring 8 protects the circumference of the plunger 6 by the flexible member 12 without affecting the projecting motion of the plunger 6. When the plunger 6 protrudes, the flexible member prevents the soot and dust generated at the time of circuit interruption from entering through the gap C11, thereby preventing the suction force of the permanent magnet 5 from being lowered. Arbitrary protrusion of the plunger 6 due to vibration or shock is also suppressed, thereby improving the reliability of the trip release device.

When the permanent magnet 5 generates the suction force F1, the magnetic flux passes through the root RB1 of the permanent magnet 5-> yoke 3-> stator 10-> plunger 6. The passage of the magnetic field generated by the permanent magnet 5 is blocked by the gap B11. On the other hand, the semi-magnetic field generated by the coil 2 passes through the root RC1 of the stator 10-> plunger 6-> yoke piece 4-> yoke 3. The passage of the magnetic field generated by the coil 2 is blocked by the gap C11. Since the release type electromagnet apparatus of FIG. 1 has a symmetrical structure with respect to the plunger 6, only one root RB1 and RC1 are shown in the figure.

2 is a schematic cross-sectional view of a trip release device of an electric circuit breaker of a second embodiment according to the present invention.

Referring to FIG. 2, the coil 22 is wound on the coil former 21 and accommodated in the yoke 23 having a U-shaped cross section. On the yoke 23, the yoke piece 24 is disposed so as to span two corner portions of the yoke 23, and a stator 30 made of a magnetic material is provided at the bottom of the yoke 23. The stator 30 may be fixed to the bottom of the yoke 23 by, for example, caulking. The plunger 26 configured to protrude over the yoke piece 24 through the coil former 21 is disposed opposite to the stator 30. The permanent magnet 25 having an annular cylindrical shape and axially magnetized is disposed below the coil former 21 to surround the stator 30 and the plunger 26. A cylinder 27 having an annular cylindrical shape and holding the plunger 26 protrudingly is provided in a gap between the plunger 26 and the coil former 21 and the permanent magnet 25. The plunger 26 is inserted through the coil former 21 and the permanent magnet 25 with the cylinder 27 interposed therebetween. At the upper end of the plunger 26, a stopper 26a is provided which hangs the slider 29 on the plunger 26. Between the yoke piece 24 and the slider 29, the reset spring 31 for pushing back the slider 9 is interposed. Between the yoke piece 24 and the slider 29, the protrusion of the plunger 26 under the slider 29 is covered, and the slider 29 is pressed in the protruding direction of the plunger 26, and the The flexible member 32 which can expand and contract with protrusion movement is further interposed. The flexible member 32 may be a molded article.

This configuration protects around the plunger 26 by the flexible member 32 without affecting the projecting motion of the plunger 26. The flexible member 32 presses the slider 29 in the protruding direction of the plunger 26. That is, the flexible member 32 also functions as a trip spring. As a result, a trip spring for pressing the slider 29 in the protruding direction of the plunger 26 does not need to be provided, thereby suppressing the cost increase. When the plunger 26 protrudes, this configuration also improves the reliability of the trip release device by suppressing the ingress of soot and dust generated at the time of circuit interruption.

As described above, the present invention prevents the soot or dust generated at the time of circuit interruption from entering through the gap when the plunger protrudes. Therefore, the suction force of a permanent magnet is prevented from falling. Accordingly, arbitrary protrusion of the plunger due to vibration or shock is also suppressed, thereby improving the reliability of the trip release device.

Claims (3)

A plunger held protruding toward a predetermined direction, A stator disposed opposite the plunger, A slider held on an end of the plunger, A trip spring for pressing the slider in the protruding direction of the plunger; A permanent magnet for holding the trip spring in a pressurized state; Yoke constituting a magnetic path of the magnetic flux from the permanent magnet through the plunger and the stator, In response to the detection of the anomalous current, an antimagnetic field with respect to the magnetic field An electromagnet forming an anti- Flexible member configured to cover the trip spring and stretchable according to the protruding movement of the plunger Trip release device of the electric circuit breaker comprising a. A plunger held protruding toward a predetermined direction, A stator disposed opposite the plunger, A slider held on an end of the plunger, A flexible member disposed below the slider to cover the protruding portion of the plunger, pressurizing the slider in the protruding direction of the plunger, and a stretchable flexible member according to the protruding movement of the plunger, A permanent magnet for holding the flexible member in a pressurized state; Yoke constituting a magnetic path of the magnetic flux from the permanent magnet through the plunger and the stator, In response to the detection of the anomalous current, an antimagnetic field with respect to the magnetic field Electromagnet forming Trip release device of the electrical circuit breaker comprising a. The trip release device of an electrical circuit breaker according to claim 1 or 2, wherein the flexible member is a molded article.

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