KR20160114404A - Magnetic contactor - Google Patents

Abstract

The present invention provides a magnetic contactor capable of reducing a switching time. The magnetic contactor according to the present invention comprises: a coil to be magnetized or demagnetized in accordance with the application of a current; a bobbin having a first through-hole unit in the center; a pair of steel plates, wherein each of the pair of steel plates has an arc-groove unit installed to face each other to form a second through-hole unit which is connected to the first through-hole unit, and is magnetized or demagnetized as the coil is magnetized or demagnetized; a cylindrical movable core drawn to the steel plates when the steel plates are magnetized, wherein the lower part thereof is able to move to a position to be in contact with the bottom surfaces of the steel plates through the first through-hole unit or a position to be farther away from the bottom surfaces of the steel plates along the first through-hole and the second through-hole; an upper plate capable of moving along the cylindrical movable core; and a resilient spring to apply an elastic force to the cylindrical movable core to return to a position to be farther away from the bottom surfaces of the steel plates when the steel plates are demagnetized, wherein the steel plate or the cylindrical movable core includes an area reduction unit to reduce a contact area between the bottom surface of the steel plate and the cylindrical movable core.

Description

MAGNETIC CONTACTOR

Field of the Invention [0002] The present invention relates to an electromagnetic contactor, and more particularly, to an electromagnetic contactor capable of speeding up the opening time of an electromagnetic contactor.

The electromagnetic contactor, which is a technical field related to the present invention, drives a movable core and a movable contact by an electromagnet coil which is magnetized or demagnetized according to the application of a control signal (current) And is used mainly as a switch for driving and stopping control of an electric motor.

The electromagnetic contactor is provided with an iron plate around the electromagnet coil for forming an excitation magnetic path of the electromagnet coil, and the bottom face of the movable core contacts the bottom face of the iron plate when the electromagnet coil is excited.

Generally, the magnitude (F) of the magnetic attractive force acting on the movable core when the electromagnet coil is energized can be expressed by the following equation (1).

In the formula (1) N is a number of winding of the coil (the number of turn), I is the current flowing through the coil, μ ₀ is permeability of free space, A is the contact area between the movable core and the iron plate, l _g Is the stroke of the movable core.

The electromagnetic contactor is opened more rapidly as the magnitude F of the magnetic attractive force becomes smaller as the electromagnetic contactor operates at a position where it cuts off power from the power supply, that is, at the open position of the electromagnetic contactor. The smaller the contact area A between the iron plate and the iron plate is, the smaller the magnitude F of the magnetic attractive force becomes, and the magnetic contactor can be opened more quickly.

However, in the prior art, no attempt has been made to minimize the opening time of the electromagnetic contactor as a configuration in which the cross-sectional area of the bottom portion and the remaining portion of the movable core is constant,

Therefore, the control time of the motor becomes long, and the use of the magnetic contactor is inadequate in a use environment requiring fast motor control.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electromagnetic contactor capable of shortening the opening time of an electromagnetic contactor.

An object of the present invention is to provide an electromagnetic contactor,

A coil (COIL) which is energized or de-energized depending on whether a current is applied;

A bobbin (BOBBIN) supporting the coil and having a first through hole at the center;

And an arc groove portion provided around the coil and facing each other so as to form a second air communicating portion communicating with the first air hole portion, wherein a pair of iron plates ;

A cylindrical movable core which is sucked to a position where it contacts the bottom surface of the steel plate when the steel plate is excited;

A top plate coupled to the top of the cylindrical moving core and movable with the cylindrical moving core; And

And a return spring installed between the iron plate and the upper plate to apply an elastic force to the cylindrical movable core so that the cylindrical movable core returns to a position away from the bottom surface of the iron plate when the iron plate is broken,

The iron plate or the cylindrical movable core includes a reduced area portion provided on a bottom surface of the iron plate or the cylindrical movable core. The present invention can be achieved by providing the electromagnetic contactor according to the present invention.

According to a preferred aspect of the present invention, the reduced area portion is formed such that the diameter of the lower end portion of the cylindrical movable core is smaller than the diameter of the remaining portion.

According to another preferred aspect of the present invention, the reduced area portion is formed by forming a hollow portion in the cylindrical movable core.

According to another preferred aspect of the present invention, the reduced area portion is formed by forming the bottom surface of the steel plate as an uneven surface.

According to another preferred aspect of the present invention, the cylindrical movable core comprises:

The lower portion is movable along the first through hole and the second through hole to a position where the lower portion contacts the bottom surface of the steel plate through the first through hole or a position away from the bottom surface of the steel plate.

According to another preferred embodiment of the present invention, the electromagnetic contactor according to the present invention comprises: an upper contact plate fixedly coupled to the upper plate and linearly movable together with the upper plate, (CROSSBAR).

Since the electromagnetic contactor according to the present invention includes the reduced area portion that reduces the contact area between the iron plate and the cylindrical movable core, the cylindrical movable core can be quickly separated from the iron plate upon opening of the electromagnetic contactor, There is an effect.

1 is a front view showing a cylindrical movable core according to the prior art,
2 is a longitudinal sectional view of an electromagnetic contactor in an open state separated from a stationary contact, showing a configuration of an electromagnetic contactor according to a preferred embodiment of the present invention,
3 is a partial longitudinal cross-sectional view of an electromagnetic contactor in a closed state in which the movable contact is in contact with the fixed contact in the electromagnetic contactor according to the preferred embodiment of the present invention,
4 is a front view showing the configuration of a cylindrical movable core according to one preferred embodiment of the electromagnetic contactor of the present invention,
5 is a perspective view of an iron plate showing one configuration of a pair of iron plates in the electromagnetic contactor of the present invention,
6 is a perspective view showing a configuration of a cylindrical nose according to another preferred embodiment of the electromagnetic contactor of the present invention,
FIG. 7 is a perspective view showing a structure of an iron plate according to another preferred embodiment of the electromagnetic contactor of the present invention. FIG.

The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

First, referring to FIG. 2, an overall configuration of an electromagnetic contactor according to a preferred embodiment of the present invention will be described.

The electromagnetic contactor according to the preferred embodiment of the present invention includes a coil 42, a bobbin 31, a pair of steel plates 35, a cylindrical movable core 32, 36 and a return spring 33. As shown in Fig.

The coil 42 is energized or energized depending on whether a current is applied or not, and is wound around the bobbin 31. Both ends of the coil 42 are connected to a control terminal (not shown) of the electromagnetic contactor, and an external control signal line is connected to the corresponding terminal, It is excited at the time of current application and disrupted when current application is stopped.

The bobbin 31 is a supporting means for supporting the coil 42 and has a first through hole (not shown) at the center. The first through hole provides a moving path through which the cylindrical movable core 32 moves.

The pair of iron plates 35 is provided on the periphery of the coil 42 and is provided with an arc groove portion (also referred to as a " coil ") provided so as to face each other so as to form a second through- 5), and the coils 42 are energized or excited together as they are energized or de-energized. The pair of steel plates 35 are symmetrical to each other, and thus one of them is typically shown in Fig. As shown in the figure, one iron plate 35 is formed of a steel plate bent in a " C "shape, and has a bottom surface 35B having an arc groove portion 35b at an upper portion thereof and a lower end portion of the cylindrical movable core 32 35a. The pair of steel plates 35 can be seen as a function of a stationary core which can attract and magnetize the cylindrical movable core 32 by being energized or excited together as the coil 42 is energized or de-energized.

The cylindrical movable core 32 is attracted toward the iron plate 35 when the iron plate 35 is excited by the coil 42 and the lower portion is attracted to the bottom surface 35a of the iron plate 35 through the first through hole, Or a position distant from the bottom surface (35a) of the iron plate, along the first through-hole and the second through-hole.

The upper plate 36 is a plate coupled to the upper portion of the cylindrical movable core 32 and movable together with the cylindrical movable core 32. The upper plate 36 may be provided as a means for supporting the upper end of the return spring 33. The upper plate 36 can also function as a power transmitting member for operating the b contact mechanism (not shown). This function is irrelevant to the present invention, so the description of the function of the b contact mechanism and the function as the power transmitting member will be omitted.

The return spring 33 is installed between the upper surface of the iron plate 35 and the upper plate 36 so that when the iron plate 35 is disassembled, the cylindrical movable core 32 is fixed to the bottom of the iron plate 35 So as to return to a position away from the surface.

The upper end of the return spring 33 is supported by the upper plate 36 as described above and the lower end of the return spring 33 is formed on the inner wall surface of the lower plate of the iron plate 35 or the electromagnetic contactor And can be supported by a jaw portion.

In addition, the return spring 33 may be composed of a spring having an inclined structure such that the sectional area of the lower portion is wide and the sectional area thereof is small as it goes upward.

The embodiment in which the return spring 33 has such an inclined configuration is also applicable to the embodiment in which the return spring 33 is supported by the inner wall surface of the lower frame and the upper plate 36 by the upper plate 36 The present invention can be applied to a case where the distance between the both tangs formed on the inner wall surface of the lower frame is longer than the length of the upper plate 36. [ In the case of the embodiment in which the return spring 33 supports the upper and lower ends by the upper plate 36 and the steel plate 35, the return spring 33 may be composed of a spring having a relatively small inclination or a diameter equal to the upper and lower diameters .

The iron plate 35 or the cylindrical movable core 32 includes a reduced area portion for reducing the contact area between the bottom surface of the iron plate 35 and the cylindrical movable core 32.

As shown in FIG. 4, the reduced area area of the cylindrical movable core 32 may be a reduced area area formed by forming the diameter of the lower end of the cylindrical movable core 32 smaller than the diameter of the remaining part 32a.

As shown in FIG. 6, the reduced area area may include a reduced area area formed by forming the hollow portion 32-1a in the cylindrical movable core 32-1 according to another preferred embodiment of the present invention, (32-1b).

7, according to another preferred embodiment of the present invention, the reduced area area is formed by a reduced area portion 35 formed by forming the bottom surface of the steel plate 35-1 as an uneven surface -1a).

2, the electromagnetic contactor according to the present invention includes a frame 10 constituting an enclosure, a contact portion 20 provided inside the frame portion 10 for switching an electric circuit to an open or closed state, And may further include a cross bar 38 that supports the movable contact and is movable along with the movable contact.

The frame part 10 includes a lower frame 11 which houses the coil 42, the bobbin 31 and the iron plate 35 and is open at the top, and an upper frame 11 which covers the opened upper part of the lower frame 11, (12).

The frame part 10 may be formed of an electrical insulator and the upper frame 12 may be provided with a guide hole portion (not shown) for guiding the linear movement of the cross bar 38.

The contact portion 20 includes the movable contact 21 and the fixed contact 22.

The movable contact 21 can be supported by the cross bar 38 and linearly moved together with the cross bar 38. [

2, reference numeral 37 denotes a member fixedly coupled to the upper plate 36 and linearly movable along with the upper plate 36 (vertically movable in the figure). The upper end of the upper plate 36 extends upward from the hatched portion And a coupling member which is coupled to the cross bar 38 and performs a function of transmitting the linear movement power of the top plate 36 to the cross bar 38. [

The operation of the electromagnetic contactor according to the preferred embodiment of the present invention will now be described with reference to FIGS. 2 to 7. FIG.

First, the operation of the electromagnetic contactor according to the preferred embodiment of the present invention operating in the closed state as shown in Fig. 3 in the open state as shown in Fig. 2 will be described.

2, when a current is applied to the coil 42 as a closed control signal transmitted through an external control signal line through a control terminal (not shown), the coil 42 is magnetized, A pair of iron plates 35 is also magnetized together with the coil 42.

The lower end portion of the cylindrical movable core 32 is pulled toward the bottom surface 35a of the pair of iron plates 35 by the magnetic attraction force from the pair of iron plates 35 excited. At this time, the return spring 33 is compressed as shown in Fig.

The lower end portion of the cylindrical movable core 32 remains in contact with the bottom surface 35a of the pair of iron plates 35 while a current is applied to the coil 42 as a closing control signal.

On the other hand, the operation of the electromagnetic contactor according to the preferred embodiment of the present invention operating in the open state as shown in FIG. 2 in the closed state as shown in FIG. 3 will be described.

When the application of the current is stopped as a closing control signal transmitted through the external control signal line through the control terminal not shown in the closed state as shown in FIG. 3, the coil 42 is excited and accordingly the pair of steel plates 35 ) Are also removed.

The resilient restoring force that the pair of steel plates 35 extinguishes the attracting force of magnetically attracting the lower end portion of the cylindrical movable core 32 and returns the return spring 33 to the extended state pushes the upper plate 36 upward I will. The cylindrical movable core 32 coupled with the upper plate 36 also linearly moves upward as shown in Fig. 2 and moves up and down through the cross bar 38 coupled with the upper plate 36 via the engaging member 37 ) Also rise in the drawing.

The movable contact 21 supported by the cross bar 38 is disconnected from the corresponding fixed contact 22 and the circuit is opened.

At this time, by the reduced area portion 32a, the reduced area portion 35-1a or the reduced area portion 32-1b according to the preferred embodiment of the present invention as shown in FIG. 4, 6, or 7, The frictional force is reduced as compared with the conventional art as shown in Fig. 1 in which there is no reduced area between the bottom surface of the steel plate and the cylindrical movable core, The opening time required for the movable contact 21 to be separated from the corresponding fixed contact 22 can be reduced.

10: frame part 11: lower frame
12: upper frame 20: contact portion
21: movable contact 22: fixed contact
31: bobbin 32: cylindrical movable core
32a: Reduced area area (first embodiment)
32-1: cylindrical movable core (second embodiment)
32-1a: reduced area portion (second embodiment)
33: return spring
35: iron plate 35-1: iron plate (second embodiment)
35-1a: reduced area portion (third embodiment)
36: Top plate
37: coupling member 38: crossbar

Claims (6)

In the electromagnetic contactor,
A coil (COIL) which is energized or de-energized depending on whether a current is applied;
A bobbin (BOBBIN) supporting the coil and having a first through hole at the center;
And an arc groove portion provided around the coil and facing each other so as to form a second air communicating portion communicating with the first air hole portion, wherein a pair of iron plates ;
A cylindrical movable core which is sucked to a position where it contacts the bottom surface of the steel plate when the steel plate is excited;
A top plate coupled to the top of the cylindrical moving core and movable with the cylindrical moving core; And
And a return spring installed between the iron plate and the upper plate to apply an elastic force to the cylindrical movable core so that the cylindrical movable core returns to a position away from the bottom surface of the iron plate when the iron plate is broken,
Wherein the iron plate or the cylindrical movable core includes a reduced area portion provided on a bottom surface of the iron plate or the cylindrical movable core. The method according to claim 1,
The reduced-
And the diameter of the lower end of the cylindrical movable core is smaller than the diameter of the remaining part. The method according to claim 1,
The reduced-
And a hollow portion is formed in the cylindrical movable core. The method according to claim 1,
The reduced-
And the bottom surface of the iron plate is formed as an uneven surface. The method according to claim 1,
The cylindrical movable core includes:
And the lower portion is movable along the first through hole and the second through hole to a position where the lower portion contacts the bottom surface of the steel plate through the first through hole or a position away from the bottom surface of the steel plate. The method according to claim 1,
And an engaging member fixedly coupled to the upper plate and linearly movable together with the upper plate and transmitting a linear movement power of the upper plate to a cross bar supporting the movable contact.

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