KR100817119B1 - Unit for driving of magnetic contactor - Google Patents

Abstract

A driving unit of a magnetic contactor is provided to improve a shading coil effect by stably forming a closed loop, and to improve attraction force of a fixed core by smoothly flowing main magnetic flux. A bobbin coil generates magnetic force from applied power. An E-shaped fixed core is installed at a lower part of the bobbin coil and has a center unit(121) to generate main magnetic flux by the magnetic force of the bobbin coil and a pair of wings(122). An E-shaped movable core(130) is symmetrically installed at an upper part of the fixed core and has a center unit(131) to flow the main magnetic flux therein and has a pair of wings(132) to flow the main magnetic flux to the wings of the fixed core. Shading coils are depressed at both sides of the wings of the fixed core to form closed loops by the main magnetic flux. Closed loop units(124) are formed at both ends of the wings of the fixed core and have first to third return units(124a,124b,124c). A width of the first return unit is larger than those of the second and third return units.

Description

Unit for magnetic contactor {UNIT FOR DRIVING OF MAGNETIC CONTACTOR}

1 is an exploded perspective view showing the configuration of a conventional magnetic contactor.

FIG. 2 is a side view illustrating a contact state between a movable core and a driving core of FIG. 1.

3 is a side view showing a contact state of a movable core and a driving core according to an embodiment of the present invention.

4 is an enlarged view of a portion 'A' of FIG. 3.

5 is a side view showing a contact state of a movable core and a driving core according to another embodiment of the present invention.

FIG. 6 is an enlarged view of a portion 'B' of FIG. 5.

** Description of the symbols for the main parts of the drawings **

120, 220: fixed core 121, 221: central portion of the fixed core

122, 222: wing portions of the fixed core 123, 223: double line groove

124, 224: closed loop part 124a, 224a: first regression part

124b, 224b: second regression part 124c, 224c: third regression part

130: movable core 131: central portion of the movable core

132: wing portion of movable core C: near center of double line groove

The present invention relates to a driving unit of a magnetic contactor, and more particularly, to a driving unit of a magnetic contactor for preventing chattering caused by contact between a fixed core and a movable core and increasing suction force of the fixed core.

The magnetic contactor that opens and closes the electric circuit forms a magnetic switch in combination with a thermal relay for overload protection, and a contact part for directly blocking or connecting the electric circuit. It is composed of a drive unit for the operation control of the contact portion and the insulating frame is installed the contact portion and the drive portion.

As shown in FIG. 1, as shown in FIG. 1, the fixed core 20 mounted on the lower frame 10 and the bobbin coil 40 mounted around the fixed core 20 to enclose the fixed core 20 are magnetized. It is configured to include a movable core 30 which is installed on top of the fixed core 20 and attracted by the magnetized fixed core 20.

The fixing core 20 has an "E" shape in which a support pin (not shown) is fitted at a lower end thereof, and a lower frame (with a buffer cover 25 made of an elastic material such as rubber) is fitted at both ends of the support pin. It is seated on 10, between the fixing core 20 and the lower frame 10 is provided with a buffer plate 26 made of a material such as rubber.

In particular, the fixed core 20 is provided with a pair of wings 22 provided to return to the central portion 21 in which the initial magnetic flux is generated.

In addition, a shading coil 70 is formed at the end of the wing 22 to reduce the chattering phenomenon by generating an auxiliary magnetic flux of 90 degrees out of phase with the main magnetic flux of the fixed core 20 during driving. The shading coil 70 is an elliptical metal piece which is inserted into and fixed to the central portion C of each of the double line grooves 23 formed to be negatively formed on both side contact surfaces of the fixing core 20.

As a result, closed loop portions 24 are formed at ends of the wing portions 22 to form closed loops by the shading coils 70.

That is, the closed loop part 24 has a first return part 24a, a second return part 24b, and a third return part which are formed inside and outside with the same width and height based on the shading coil 70. It consists of 24c.

The movable core 30 has an "E" shape, and a fixed pin 35 penetrating the upper end thereof is fitted to the lower end of the crossbar 45, and is pulled between the movable core 30 and the fixed core 20. A return spring 50 is mounted to return the pulled movable core 30 to its original position.

In addition, the movable core 30 is formed symmetrically with the fixed core 20, the central portion 31 and the fixed core 20 to which the main magnetic flux generated in the central portion 21 of the fixed core 20 is introduced. It consists of a pair of wings 32 which runner flux flows out to the wings 22 of the.

Here, in the center portion 31 and the pair of wings 32 of the movable core 30 is connected to the fixed core 20 in consideration of the seizure due to vibration, the central portion 21 and the wing portion of the fixed core 20 It is formed smaller than the predetermined width (22).

The contact part is installed on both side ends of the upper frame 12 and the left and right fixed contactors 60 and the cross bar 45 are respectively connected to the power input side terminal and the load side terminal of the electric circuit, respectively It consists of a plurality of movable contacts 62 for electrically connecting or disconnecting the left and right fixed contact 60.

In the magnetic contactor configured as described above, when a current is applied to the bobbin coil 40 and the fixed core 20 is magnetized, the movable core 30 is attracted by the magnetic force of the fixed core 20. As the crossbar 45 provided with the 30 is moved, the movable contactor 62 installed at the crossbar 45 and the fixed contactor 60 fixed to the upper frame 12 are connected so that the electric circuit is energized. At this time, the shock absorbing cover 25 and the shock absorbing plate 26 absorb the shock generated when the fixed core 20 and the movable core 30 are connected.

However, in the prior art as described above, as shown in FIG. 2, the fixed core 20 and the movable core 30 do not completely remove the chattering phenomenon in shape, and the suction efficiency is reduced.

In other words, in order to increase the effect of the shading coil 70, although the width of the first revolving part 24a should be sufficiently large, the shaping coil 70 has the same size as the second and third revolving parts 24b and 24c. In addition, the magnetic flux flowing to the third returning part 24c reduces the magnetic flux flowing to the first returning part 24a to halve the effect of the shading coil 70.

In this way, the chattering phenomenon cannot be completely eliminated, and thus, the wing 32 of the movable core 30 is formed to be smaller than the wing 22 of the fixed core 20 in consideration of vibration, and the Since the central portion 31 is formed to be smaller than the central portion 21 of the fixed core 20 by a predetermined width, the flow of the main magnetic flux is reduced by that amount, so that the suction efficiency of the fixed core 20 pulling the movable core 30 is reduced. .

The present invention has been made to solve the above problems, an object of the present invention to provide a drive unit of the electromagnetic contactor that can prevent chattering phenomenon and increase the suction force of the fixed core that pulls the movable core.

The present invention for achieving the above object,

A bobbin coil, in which magnetic force is generated by an applied power source;

An "E" type fixed core installed at a lower portion of the bobbin coil and having a central portion in which main magnetic flux is generated by the magnetic force of the bobbin coil, and a pair of revolving wings;

As long as the main magnetic flux flows into the upper portion of the fixed core and the main magnetic flux generated in the central portion of the fixed core to be in contact or spaced according to the presence or absence of the main magnetic flux generated in the fixed core, and the main magnetic flux flows out to the wing of the fixed core A movable core of "E" type in which a pair of wings is formed;

An elliptical shading coil which is inserted into both ends of the wing portion of the fixed core to which the movable core is in contact to form a closed loop by the main magnetic flux; Include,

On both ends of the wing of the fixed core, a first revolving part of the inner side of the shading coil, a second revolving part of the outer side of the shading coil adjacent to the center of the fixed core, and a shading coil outer side opposite to the second revolving part A closed loop portion including a third return portion is formed, and the width of the first return portion orthogonal to the direction of the main magnetic flux is greater than the width of the second return portion and the third return portion. .

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

However, the same components as in the prior art are given the same reference numerals so as to be clearly distinguished from the present invention, and detailed description thereof will be omitted.

3 is a side view illustrating a contact state of a movable core and a driving core according to an embodiment of the present invention, FIG. 4 is an enlarged view of portion 'A' of FIG. 3, and FIG. 5 is another embodiment of the present invention. FIG. 6 is a side view illustrating a state of contact between a movable core and a driving core, and FIG. 6 is an enlarged view of a portion 'B' of FIG. 5.

3 and 4, the driving unit of the magnetic contactor according to the exemplary embodiment of the present invention wraps around the fixed core 120 mounted on the lower frame 10 and its surroundings to magnetize the fixed core 120. It is configured to include a bobbin coil 40 mounted in the form and the movable core 130 is pulled by the magnetized fixed core 120 is installed on the top of the fixed core 120.

The fixed core 120 is provided with a pair of wings 122 provided to return to the central portion 121 in which the initial main magnetic flux is generated in an "E" shape.

A shading coil 70 is formed at the end of the wing 122 to reduce the chattering phenomenon by generating an auxiliary flux of 90 degrees out of phase with the main flux of the fixed core 120 during driving. The shading coil 70 is an elliptical metal piece which is inserted into and fixed to the central portion C, respectively, in the double line grooves 123 formed to be negatively formed at both side contact surfaces of the fixing core 120.

As a result, closed loop portions 124 are formed at the end of the wing portion 122 to form a closed loop by the shading coil 70.

The closed loop part 124 may include a first revolving part 124a on the inner side of the shading coil 70 and a second revolving part on the outside of the shading coil 70 adjacent to the center of the fixing core 120. 124b and a third returning portion 124c outside the shading coil 70 opposite to the second returning portion 124b.

In particular, the width of the first returning portion 124a perpendicular to the direction of the main magnetic flux is greater than that of the second returning portion 124b and the third returning portion 124c, so that the main magnetic flux can flow more smoothly.

Here, the widths of the second regression part 124b and the third regression part 124c are the same, and the width of the first regression part 124a is the second regression part 124b or the third regression part 124c. At least two to three times larger than the width of) can make the flow of the magnetic flux more smooth.

The movable core 130 is formed to be symmetrically formed on the upper portion of the fixed core 120 in an "E" shape to be contacted or spaced apart depending on whether or not the magnetic flux is generated in the fixed core.

The movable core 130 as long as the main magnetic flux flows into the central portion 131 and the wing portion 122 of the fixed core 120, the main magnetic flux flows from the central portion 121 of the fixed core 120 is introduced. It consists of a pair of wings 132.

The wing portion 132 of the movable core 130 is formed to have a predetermined width cut outward in an inward direction so as not to contact the third returning portion 124c.

In addition, the fixed core 120 and the movable core 130 are each formed with the same width of the central portion orthogonal to the direction of the main magnetic flux, it is preferable that the inner surface of each wing 122, 132 is formed to match each other. Do.

On the other hand, with reference to Figures 5 and 6 as another embodiment of the present invention will be described in terms of features distinguished from the above-described embodiment.

Referring to the drawings, a closed loop portion 224 is formed at each end of the wing portion 222 of the fixed core 220 to form a closed loop by the shading coil 70.

The closed loop part 224 may have a first revolving part 224a on the inner side of the shading coil 70 and a second revolving part on the outside of the shading coil 70 adjacent to the center of the fixing core 220. 224b and a third returning portion 224c outside the shading coil 70 opposite to the second returning portion 224b.

In this case, the third returning portion 224c is formed to have a step lower than the first and second returning portions 224a and 224b so that both ends thereof are not adjacent to the movable core 130, and the curvature is formed to be inclined downward to the outside. .

Reference numeral 25, which is not described above, is a buffer cover and 35 is a fixing pin.

In the magnetic contactor configured as described above, when a current is applied to the bobbin coil 40 and the fixed core 120 is magnetized, the movable core 130 is attracted by the magnetic force of the fixed core 120. As the crossbar 45 provided with the 130 is moved, the movable contactor 62 installed at the crossbar 45 and the fixed contactor 60 fixed to the upper frame 12 are connected to each other so that the electric circuit is energized. At this time, the shock absorbing cover 25 and the shock absorbing plate 26 absorb the shock generated when the fixed core 120 and the movable core 130 are connected.

According to the two embodiments of the present invention, the fixed cores 120 and 220 and the movable cores 130 may be completely removed from the chattering phenomenon, so that the fixed cores 120 and 220 are movable cores 130. Suction efficiency is increased.

That is, the width of the first returning portions 124a and 224a is larger than the width of the second and third returning portions 124b, 224b, 124c, and 224c, so that the flow of the main magnetic flux is more smooth, and the movable core ( 130, the outer surface of the wing portion 132 is cut in a predetermined width inward direction, or the third return portions 124c and 224c are stepped and formed to block the magnetic flux flow to the third return portions 124c and 224c. By preventing the loss of the runner flux, the chattering phenomenon is completely eliminated, and the closed loop is stably formed to further increase the effect of the shading coil 70.

By completely removing the chattering phenomenon as described above, the inner surface of the wing core 132 of the movable core 130 and the inner surface of the wing portions 122 and 222 of the fixed core 120 and 220 may be formed to match each other. The center portion 131 of the movable core 130 and the center portions 121 and 221 of the fixed cores 120 and 220 can be formed to have the same width, thereby smoothing the flow of the main magnetic flux, thereby attracting the movable core 130. The suction force of the pulling fixed core (120, 220) is increased.

As described above, according to the driving unit of the electromagnetic contactor of the present invention, the chattering phenomenon is completely eliminated, and the closed loop is stably formed to increase the effect of the shading coil, and the flow of the main flux is more smoothly. The suction force of the attracting fixed core is increased.

Claims (8)

A bobbin coil, in which magnetic force is generated by an applied power source; An "E" type fixed core installed at a lower portion of the bobbin coil and having a central portion in which main magnetic flux is generated by the magnetic force of the bobbin coil, and a pair of revolving wings; As long as the main magnetic flux flows into the upper portion of the fixed core and the main magnetic flux generated in the central portion of the fixed core to be in contact or spaced according to the presence or absence of the main magnetic flux generated in the fixed core, and the main magnetic flux flows out to the wing of the fixed core A movable core of "E" type in which a pair of wings is formed; An elliptical shading coil which is inserted into both ends of the wing portion of the fixed core to which the movable core is in contact to form a closed loop by the main magnetic flux; Include, On both ends of the wing of the fixed core, a first revolving part of the inner side of the shading coil, a second revolving part of the outer side of the shading coil adjacent to the center of the fixed core, and a shading coil outer side opposite to the second revolving part A closed loop portion including a third regression portion is formed, and a width of the first regression portion orthogonal to the direction of the main magnetic flux is formed to be larger than a width of the second regression portion and the third regression portion. The wing portion of the movable core is a drive portion of the magnetic contactor, characterized in that the outer surface is cut in a predetermined width inward direction so as not to contact the third return. The method of claim 1, The drive unit of the magnetic contactor, characterized in that the width of the second return portion and the third return portion are formed equal. The method according to claim 1 or 2, The width of the first return portion is a driving unit of the magnetic contactor, characterized in that formed in two to three times larger than the width of the second return portion or the third return portion. The method of claim 1, And the third return portion is stepped lower than the first and second return portions so that both ends thereof are not adjacent to the movable core. The method of claim 1, And the third returning portion is curved downwardly inclined outward so that an end portion thereof is not adjacent to the movable core. delete The method of claim 1, The central portion of the fixed core and the movable core is the driving portion of the magnetic contactor, characterized in that the same width orthogonal to the main magnetic flux. The method of claim 1, Each wing portion of the fixed core and the movable core is the driving portion of the magnetic contactor, characterized in that the inner surface coincides with each other.

Images