KR102374863B1 - Magnetic contactor with two different material of tip - Google Patents

Abstract

The present invention relates to an electromagnetic contactor having contacts of different materials, and more specifically, in an electromagnetic contactor, the magnetic contactor includes a fixed contact disposed on a fixed contact and a movable contact disposed on the movable contact, the fixed contact comprising: A first material is included, and the movable contact is characterized in that it includes a second material.

Description

Magnetic contactor with two different material of tip

This invention relates to an electromagnetic contactor, and more specifically, it relates to a contact point of an electromagnetic contactor that has contacts of different materials.

Recently, as the market demand for new and renewable energy generation such as wind power and solar power is rapidly increasing, the capacity of power generation facilities is increasing, and accordingly, product specifications such as circuit breakers and magnetic contactors that control and protect the power generation system are also increasing.

An electromagnetic contactor is a type of electrical circuit switch that transmits a mechanical drive and a current signal using the principle of an electromagnet. It is an electronic device used as a switch to drive and control a load such as an electric motor.

Figure 1 is a cross-sectional view schematically showing an electromagnetic contactor according to the prior art. Referring to FIG. 1 , the magnetic contactor 1 according to the prior art includes a fixed contactor 40 , a movable contactor 50 coupled to a drive shaft 10 to contact or separate the fixed contactor 40 , and 　the movable An actuator (not shown) for contacting or separating the contactor 50 from the fixed contactor 40 is included.

A fixed core (not shown) is attached to the bottom surface of the electromagnetic contactor 1, and a coil (not shown) wound on a bobbin is installed around the fixed core.

The fixed contact 40 is fastened to a terminal block (not shown) fixed to a frame (not shown), and a fixed contact 42 is attached to the upper surface of the fixed contact 40 . In addition, a movable core 20 and a movable contactor 50 are coupled to the drive shaft 10 , and movable contact points 52 are provided at lower portions of both ends of the movable contactor 50 .

At this time, the drive shaft 10 connected to the movable core 20 is also moved, and when the magnetic contactor 10 is operated, the movable contact 52 of the movable contact 50 fixed to the drive shaft 10 is fixed. It comes into contact with the fixed contact 52 of the contactor 40 .

The operation of the electromagnetic contactor having the above structure is as follows.

When a current flows through a coil (not shown) wound around a bobbin (not shown) through a switch operation, a magnetic field is formed in the fixed core (not shown) to attract the movable core 20 .

At this time, when the movable core 20 is sucked down, the drive shaft 10 coupled to the movable core 20 also moves downward, and accordingly, the movable contactor 50 also moves downward to the movable contact 52 . It comes into contact with the fixed contact 42 provided in the fixed contact 40 .

When the contact is closed in this way, a current flows through the fixed contact 40 and the movable contact 50 between the terminal blocks (not shown). And, the movable contactor 50 is fixed to the driving shaft 10, and as the driving shaft 10 is linearly driven in the axial direction, it is contacted or separated from the fixed contactor 40 so that the electromagnetic contactor 10 is opened and closed.

In the case of such a conventional magnetic contactor, in general, the fixed contact 42 and the movable contact 52 are formed using the same material. At this time, when AgInSnO ₂ is used for the fixed contact 42 and the movable contact 52, the consumption of the contact is not much after the short-circuit test, but there is a problem in that the contact is fused and it is difficult to separate the contact _. After the test or load switching test, there is a problem that the amount of contact point consumption is high, so the residual amount of the point is not large. In addition, when AgCdO is used as a contact material, it is difficult to apply eco-friendly products because it contains Cd, a toxic substance.

Accordingly, the present invention is to solve various problems including the above problems, and provides an electromagnetic contactor having contacts made of different materials.

However, these problems are exemplary, and the scope of the present invention is not limited thereto.

According to one aspect of the present invention for achieving the above object, in the electromagnetic contactor, the electromagnetic contactor has a fixed contact disposed on the fixed contact and a movable contact disposed on the movable contact, the fixed contact is a first material Including, wherein the movable contact includes a second material, it provides a contact point of the electromagnetic contactor.

According to an embodiment of the present invention, the first material and the second material forming the fixed contact point and the movable contact point may include different materials.

According to an embodiment of the present invention, the first material may include a silver alloy, and the first material may include one selected from among AgNi, AgInSnO ₂ , AgCu, AgZnO, and AgSnO ₂ .

According to an embodiment of the present invention, the second material includes a silver alloy, and the second material includes one selected from AgNi, AgInSnO ₂ , AgCu, AgZnO and AgSnO ₂ , and the second material includes It may be to select one of the materials not selected as the first material.

According to an embodiment of the present invention, the surfaces in contact with the fixed contact point and the movable contact point may be formed to have the same shape surface.

According to an embodiment of the present invention, the surfaces in contact with the fixed contact point and the movable contact point may be formed to have surfaces having different shapes from each other.

According to an embodiment of the present invention made as described above, there is an effect of providing an electromagnetic contactor having contacts of different materials.

In addition, the present invention has the effect of improving the short-circuit performance by forming contact points of different materials.

In addition, the present invention has the effect of improving the conduction performance by forming different shapes of the surfaces in contact with the fixed contact and the movable contact.

However, the scope of the present invention is not limited by these effects.

1 is a schematic diagram showing an electromagnetic contactor according to the prior art.
2 is a schematic diagram showing the surfaces of a fixed contact and a movable contact according to an embodiment.
3 shows images before and after contact between a fixed contact point and a movable point point according to a comparative example.
4 shows images before and after contact between a fixed contact and a movable contact according to an embodiment.

Hereinafter, the embodiments disclosed in the present specification will be described in detail with reference to the accompanying drawings, but the same or similar components are assigned the same reference numbers regardless of reference numerals, and redundant description thereof will be omitted. In addition, in describing the embodiments disclosed in the present specification, if it is determined that detailed descriptions of related known technologies may obscure the gist of the embodiments disclosed in this specification, the detailed description thereof will be omitted. In addition, the accompanying drawings are only for easy understanding of the embodiments disclosed in this specification, and the technical idea disclosed herein is not limited by the accompanying drawings, and all changes included in the spirit and scope of the present invention , should be understood to include equivalents or substitutes.

Terms including an ordinal number such as 1st, 2nd, etc. may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. As used herein, the singular expression includes the plural expression unless the context clearly dictates otherwise.

In the present application, terms such as “comprises” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily practice the present invention.

According to an embodiment of the present invention, in the electromagnetic contactor, the electromagnetic contactor includes a fixed contact disposed on a fixed contact and a movable contact disposed on the movable contact, wherein the fixed contact includes a first material, and the The movable contact is characterized in that it comprises a second material.

In detail, the first material includes a silver alloy, and the first material includes one selected from AgNi, AgInSnO ₂ , AgCu, AgZnO, and AgSnO ₂ .

In addition, the second material includes a silver alloy, and the second material includes one selected from AgNi, AgInSnO ₂ , AgCu, AgZnO and AgSnO ₂ , wherein the second material is not selected as the first material It is characterized by selecting one of the materials that are not.

In more detail, the first material and the second material include a silver alloy, and include one selected from AgInSnO ₂ and AgSnO ₂ .

That is, when AgInSnO ₂ is selected as the first material, the second material is preferably AgSnO ₂ , and when AgSnO ₂ is selected as the first material, AgInSnO ₂ is preferably selected as the second material.

In other words, the first material and the second material forming the fixed contact point and the movable contact point include different materials. If AgInSnO ₂ is selected as the fixed point point, it is preferable that the movable contact point is AgSnO ₂ And, if AgSnO ₂ is selected as the fixed contact, AgInSnO ₂ is preferably selected as the movable contact.

At this time, by using different materials for the first material and the second material, when the magnetic contactor operates and the fixed contact and the movable contact come into contact and separate, the consumption of the fixed contact and the movable contact is small , there is an effect that fusion does not occur.

2 is a schematic diagram showing the surfaces of a fixed contact and a movable contact according to an embodiment.

Referring to FIG. 2 , the surfaces in contact with the fixed contact point and the movable contact point may include at least one selected from a flat shape, a convex shape, and a sawtooth shape.

At this time, when the shape of the surface is a flat shape, it means that the contacting surface is a flat shape as shown in FIG. It means that the face is convex.

In addition, when the shape of the surface is a sawtooth shape, it means that the contacting surface is a sawtooth shape as shown in FIG. 2(c).

According to an embodiment of the present invention, the surfaces in contact with the fixed contact point and the movable contact point may be formed to have a surface having the same shape.

For example, when the contacting surface of the fixed contact has a flat shape, the contacting surface of the movable contact may also have a flat shape, and when the contacting surface of the fixed contact has a convex shape, the The shape of the contact surface of the movable contact may also be a convex shape. In addition, when the shape of the contacting surface of the fixed contact is a sawtooth shape, the shape of the contacting surface of the movable contact may be a sawtooth shape.

At this time, it is preferable that the surface in which the fixed contact point and the movable contact point contact are in the shape of a sawtooth. When the surface in contact with the fixed contact and the movable contact has a sawtooth shape, when the fixed contact and the movable contact are in orthogonal contact, the contact resistance at the contact is reduced, thereby improving the electrical conduction performance.

In addition, according to an embodiment of the present invention, the surfaces in which the fixed contact and the movable contact are in contact are made to have surfaces of different shapes, and the surfaces in which the fixed contact and the movable contact are in contact are flat and convex. It may include at least one selected from a shape and a sawtooth shape.

In detail, the fixed contact may include at least one selected from a flat shape, a convex shape, and a sawtooth shape, and the movable contact may include at least one selected from a shape not selected as the surface shape of the stationary contact. there is.

More specifically, the surface of at least one of the surfaces in contact with the fixed contact and the movable contact is preferably in the form of a sawtooth. At least one surface in contact with the fixed contact and the movable contact has a sawtooth shape, thereby improving electrical conduction performance.

Hereinafter, experimental examples to help the understanding of the present invention will be described. However, the following experimental examples are only for helping understanding of the present invention, and the present invention is not limited to the following experimental examples only.

Examples and Comparative Examples

Example 1

A method of forming a fixed contact on a fixed contact using AgSnO ₂ , forming a movable contact on a movable contact using AgInSnO ₂ , and installing a breaker at the front end of the contactor, and the breaker blocks the short-circuit current by short-circuit current A short-circuit test was performed using In addition, the temperature test was carried out by flowing the normal standby thermal current to the main terminal under no-load condition.

Comparative Example 1

A fixed contact and a movable contact were formed using AgSnO ₂ , and a short-circuit test and a temperature test were performed.

Comparative Example 2

A fixed contact and a movable contact were formed using AgInSnO ₂ , and a short-circuit test was performed.

3 shows images before and after contact between a fixed contact and a movable contact according to a comparative example.

Figure 3 (a) is an image of forming a fixed contact and a movable contact using AgSnO ₂ and observing the fixed contact and the movable contact after the short-circuit test, and it can be seen that the consumption of the contact is very large.

In addition, Figure 3 (b) is an image of forming a fixed contact and a movable contact using AgInSnO ₂ and observing the fixed contact and the movable contact after a short-circuit test. Although consumption of the contact is small, it can be confirmed that the fusion has occurred. there is.

4 shows images before and after contact between a fixed contact and a movable contact according to an embodiment.

Referring to FIG. 4, a fixed contact was formed using AgSnO ₂ and a movable contact was formed using AgInSnO ₂ , and when comparing the contacts before and after the short test, it was not seen that the contact was consumed after the short test, It can be confirmed that there is no abnormality because fusion is not performed.

Table 1 confirms the rising temperature of the fixed and movable contacts according to the temperature test.

R S T U V W around
temperature Increase
temperature Comparative Example 1 81.9℃ 93.8℃ 81.3℃ 80.3℃ 91.5℃ 82.5℃ 22.8℃ 68.9K Example 1 75℃ 90℃ 74.5℃ 75.6℃ 86.1℃ 75.5℃ 24.9℃ 65.8K (↓4.5%)

Referring to Table 1, R, S, T, U, V, and W mean the temperature measurement values for each phase of the main terminal. , it can be confirmed that the total rising temperature is 68.9K.

In the case of Example 1, it can be confirmed that it is kept low at about 80° C. or less, and it can be seen that the overall rising temperature is 65.8 K, which is about 4.5% lower than that of Comparative Example 1.

That is, it can be confirmed that, when the contacts of Example 1 are used, the current flows better than when the dots of Comparative Example 1 are used.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains may make various modifications, changes and substitutions within the scope without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are for explaining, not limiting, the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments and the accompanying drawings . The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

Claims (7)

In the electromagnetic contactor,
The electromagnetic contactor is provided with a fixed contact disposed on the fixed contact and a movable contact disposed on the movable contact,
The fixed contact is formed on the fixed contact to include a first material,
The movable contact is formed on the movable contact to include a second material,
The first material and the second material are to include different materials from each other,
The first material comprises AgSnO ₂ ,
The second material comprises AgInSnO ₂ ,
The surfaces in contact with the fixed contact and the movable contact are made to have surfaces of different shapes from each other,
The surface of at least one of the surfaces in contact with the fixed contact and the movable contact is in the form of a sawtooth,
contact point of the magnetic contactor. delete delete delete delete delete delete

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