KR200439203Y1 - Fixing apparatus of actuator - Google Patents

Abstract

The present invention relates to a fixing device of the actuator, the yoke is formed with an inner space and one side is opened; A magnetic circuit accommodated in the yoke to generate a magnetic field; A shaft provided with a movable contact to selectively contact with a fixed contact installed in a moving direction in association with the magnetic circuit; A plate through which the shaft is supported and blocking the opening side of the yoke; And at least two protruding fastening portions are formed at the opening side end of the yoke, and the fastening portions pressurize the plate to prevent a gap between the plate and the yoke.

As a result, the yoke and the plate are firmly coupled, thereby increasing the efficiency of the magnetic circuit, and preventing the airtight damage of the metal case coupled to the plate, thereby improving the reliability of the product.

Actuator, York, Plate

Description

Actuator Fixing Device {FIXING APPARATUS OF ACTUATOR}

1 is a cross-sectional view schematically showing a conventional actuator,

FIG. 2 is a cross-sectional view for explaining the arc extinguishing unit of FIG. 1;

3 is a right side view showing the coupling process of the yoke and the plate of FIG.

Figure 4 is a perspective view showing a fixing structure of the actuator according to an embodiment of the present invention,

5 is a right side view illustrating a process of coupling the yoke and the plate of FIG. 4.

** Description of the main parts of the drawing **

100: York 101: groove

102: interference prevention groove 110: fastening portion

111: holder 112: hook

200: plate 201: coupling groove

The present invention relates to a fixing device of the actuator, and more particularly to a fixing device of the actuator to prevent the deformation of the plate and to prevent the occurrence of gaps in the contact surface when the yoke and the plate is fixedly coupled.

In general, the actuator is located between the battery of the electric vehicle, such as a hybrid vehicle, fuel cell vehicle, and the like, and has a function of supplying the power of the battery to the power converter and the power generation of the generator to the capacitor.

In addition, it is a device for supplying DC power between the inverter for converting the generated power into commercial frequency and voltage in the solar power system and wind power generation system.

Hereinafter, with reference to the accompanying drawings looks at in detail with respect to the conventional actuator.

1 is a cross-sectional view schematically showing a conventional actuator, Figure 2 is a cross-sectional view for explaining the arc arc of Figure 1, Figure 3 is a right side view showing the coupling process of the yoke and the plate of FIG.

As shown in the figure, the conventional actuator, the plate-like plate (2) is fixed to the yoke (1) in which the inner space is formed and one side is opened, the fixed iron core (3) in the center of the plate (2) The iron core 4 is disposed to penetrate and the movable iron core 4 is disposed so that the contact surface thereof faces the fixed iron core 3.

The winding part is composed of a bobbin 6 supporting the coil 5 and a coil terminal 7 connected to the coil 5 so as to surround the fixed iron core 3 and the movable iron core 4.

The shaft 8 penetrates through the center of the movable core 4 and has one end connected to the movable core 4. In addition, the shaft 8 is disposed so as to pass through the center of the fixed iron core 3 and the other end is connected to the movable contact support 9.

The movable contact table 10 penetrates the shaft 8 through a center hole, and a contact pressure is applied to the contact spring 11 and is supported by the movable contact support 9.

The airtight portion consists of welding of the metal case 12, the ceramic 13, and the cylinder 14 to be welded to the plate 2.

The contact portion consists of welding between the fixed electrode 16, the fixed contact 17 and the fixed contact terminal 18.

The arc extinguishing portion is disposed in the arc chamber 19, the arc chamber 19 negative portion and is installed to improve the arc extinguishing performance, and "U" surrounding the permanent magnet 20. A magnetic core grid 21 is formed.

In addition, a gas mixed with hydrogen and nitrogen is injected into the arc extinguishing unit so as to obtain a rapid arc cooling effect and shorten the arc extinguishing time.

Reference numeral 15, which is not described above, is a gas injection pipe, and 22 is a return spring.

The conventional actuator configured as described above operates as follows.

First, when a current flows in the coil 5, the yoke 1, the plate 2, the fixed iron core 3, and the movable iron core 4 are excited, and between the movable iron core 4 and the fixed iron core 3. Electromagnetic force is generated and the movable iron core 4 is moved.

When the movable core 4 is moved, the shaft 8 connected to the movable core 4, the movable contact support 9 and the movable contact 10 are moved, and the movable contact 10 is fixed. In contact with the contact 17, a load current flows.

On the other hand, when the current flowing to the coil 5 is cut off, the yoke 1, the plate 2, the fixed iron core 3 and the movable iron core 4 are demagnetized, the contact spring 11 and the return spring 22 The movable contact 10 and the fixed contact 17 are separated by the pressure of) to cut off the load current.

However, in the conventional actuator, when the yoke 1 and the plate 2 are fixedly coupled to each other with reference to FIG. 3, the yoke 1 and the plate (2) are punched by punching both sides of the yoke 1. 2) is made by the indentation method.

At this time, if an appropriate force is not applied to the plate 2 or if the contact surfaces of the yoke 1 and the plate 2 are not parallel to each other, a gap is generated in the contact surface between the plate 2 and the yoke 1 and thus the force of the actuator. There is a problem that is reduced.

In addition, when the plate 2 is molded in deformation, there is a problem in that a welded portion between the plate 2 and the metal case 12 is gas-tightly broken and gas leaks.

The present invention is conceived in view of the above problems, the purpose of the present invention to prevent the deformation of the plate as well as to prevent the occurrence of gaps in the contact surface when the yoke and the plate is fixedly coupled.

The above object is, yoke and the inner space is formed and one side is opened; A magnetic circuit accommodated in the yoke to generate a magnetic field; A shaft provided with a movable contact to selectively contact with a fixed contact installed in a moving direction in association with the magnetic circuit; A plate through which the shaft is supported and blocking the opening side of the yoke; At least two protruding fastening portions are formed at the opening side end of the yoke, and the fastening portion is achieved by providing a fixing device of the actuator to pressurize the plate to prevent the occurrence of a gap between the plate and the yoke.

Hereinafter, with reference to the drawings will be described the fixing structure of the actuator according to an embodiment of the present invention.

However, the same configuration as in the prior art will be described with reference to the related drawings and the same reference numerals are used.

Figure 4 is a perspective view showing a fixing structure of the actuator according to an embodiment of the present invention, Figure 5 is a right side view showing the coupling process of the yoke and the plate of FIG.

1 and 2, the actuator according to an embodiment of the present invention, the plate-like plate 200 is fixed to the yoke 100, the inner space is formed and one side is opened, the plate 200 The fixed iron core 3 penetrates the center of the fixed iron core 3, and the movable iron core 4 is disposed in the form of a contact surface facing the fixed iron core 3.

The winding part is composed of a bobbin 6 supporting the coil 5 and a coil terminal 7 connected to the coil 5 so as to surround the fixed iron core 3 and the movable iron core 4.

The shaft 8 penetrates through the center of the movable core 4 and has one end connected to the movable core 4. In addition, the shaft 8 is disposed so as to pass through the center of the fixed iron core 3 and the other end is connected to the movable contact support 9.

The movable contact table 10 penetrates the shaft 8 through a center hole, and a contact pressure is applied to the contact spring 11 and is supported by the movable contact support 9.

The airtight portion is formed by welding the metal case 12, the ceramic 13, and the cylinder 14 to be welded to the plate 200.

The contact portion consists of welding between the fixed electrode 16, the fixed contact 17 and the fixed contact terminal 18.

The arc extinguishing portion is disposed in the arc chamber 19, the arc chamber 19 negative portion and is installed to improve the arc extinguishing performance, and "U" surrounding the permanent magnet 20. A magnetic core grid 21 is formed.

In addition, a gas mixed with hydrogen and nitrogen is injected into the arc extinguishing unit so as to obtain a rapid arc cooling effect and shorten the arc extinguishing time.

Meanwhile, referring to FIGS. 4 and 5, in the yoke 100, which is a feature of the present invention, a plurality of negative grooves 101 are formed in the depth direction at the opening side end so that the plate 200 is mounted, and the grooves ( In the 101, a pair is formed so that the fastening portions 110 face each other in view of the fastening force.

In this case, negative interference prevention grooves 102 are formed at both corners of the bottom of the groove 101 to minimize contact interference when the plate 200 is coupled to the plate 200.

In addition, the plate 200 is formed with a pair of coupling grooves 201 such that the outer surface is negatively formed in the radial direction so that the fastening portion 110 is located.

In particular, the fastening part 110 and the holder 111 is formed to fit in the thickness direction of the plate 200 in the coupling groove 201, integrally extending in the longitudinal direction of the holder 111 and the plate It is configured to include a hook 112 for pressing and fixing the 200 so that the plate 200 is firmly coupled to the opening side of the yoke 100.

Here, the holder 111 and the hook 112 which are integrally formed are formed at a predetermined interval so as to face each other in a pair and are symmetrically protruded, and the hooks 112 facing each other by pressing the punch P therebetween. Molding deformation in the direction in which the separation state of the larger and at the same time to press the plate 200.

The shape of the fastening part 110 as described above is not limited to the above-mentioned embodiment, and may be variously implemented as long as the shape of the fastening method may be coupled to the plate 200.

Reference numeral 15, which is not described above, is a gas injection pipe, and 22 is a return spring.

The actuator of the present invention configured as described above operates as follows.

First, when a current flows in the coil 5, the yoke 100, the plate 200, the fixed iron core 3, and the movable iron core 4 are excited, and between the movable iron core 4 and the fixed iron core 3. Electromagnetic force is generated and the movable iron core 4 is moved.

When the movable core 4 is moved, the shaft 8 connected to the movable core 4, the movable contact support 9 and the movable contact 10 are moved, and the movable contact 10 is fixed. In contact with the contact 17, a load current flows.

On the other hand, when the current flowing to the coil 5 is cut off, the yoke 100, the plate 200, the fixed iron core 3 and the movable iron core 4 are elements, the contact spring 11 and the return spring 22 The movable contact table 10 and the fixed contact point 17 are separated by the pressure of to cut off the load current.

In the actuator of the present invention, the plate is fixedly coupled to the yoke, and the yoke and the plate are press-fitted by punching both sides of the yoke in the related art, thereby preventing the occurrence of a gap between the contact due to the deformation of the plate and the yoke. .

That is, the actuator of the present invention can be firmly coupled to the yoke by shaping only the fastening portion formed to protrude to the opening side end of the yoke.

As a result, the yoke and the plate are in intimate contact with each other to improve the efficiency of the magnetic circuit, and there is no fear of breakage of the weld between the plate and the metal case, thereby preventing the leakage of gas.

As described above, the fixing device of the actuator according to the present invention by using the molding deformation of the fastening portion formed to protrude to the opening side end of the yoke by firmly coupling the yoke and the plate to prevent the occurrence of a gap between the contact surface of the yoke and the plate The efficiency of the magnetic circuit can be improved, and the reliability of the product can be improved by preventing the airtight damage of the metal case attached to the plate.

Claims (5)

A yoke having an inner space formed therein and opening at one side thereof; A magnetic circuit accommodated in the yoke to generate a magnetic field; A shaft provided with a movable contact to selectively contact with a fixed contact installed in a moving direction in association with the magnetic circuit; A plate through which the shaft is supported and blocking the opening side of the yoke; Including, At least two protruding fastening portions are formed at the open end of the yoke, and the fastening portion presses the plate to prevent a gap between the plate and the yoke. The method of claim 1, wherein the yoke, Fixing device of the actuator, characterized in that a plurality of grooves are formed in the depth direction in the depth direction so that the plate is mounted. The method of claim 1 or 2, wherein the plate, The outer surface is formed in a negative direction in the radial direction, the fixing device of the actuator, characterized in that the coupling groove is provided to be arranged to be arranged. The method of claim 3, wherein the fastening portion, And a holder formed to fit into the coupling groove in the thickness direction of the plate, and a hook integrally extending in the longitudinal direction of the holder and deformed to fix the plate. The method of claim 4, wherein the hook, Fixing device of the actuator, characterized in that formed in a pair spaced apart and symmetrically facing each other in a pair.

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