KR101224403B1 - Contact apparatus for vacuum interrupter - Google Patents

Abstract

PURPOSE: A contact apparatus for a vacuum interrupter is provided to prevent contact point damage by supporting main contact part with an elastic member. CONSTITUTION: A first contact point(10) includes a first main contact part(11) and a first arc contact point part(15). The first arc contact point part is installed in a first holding space. A second contact point(20) is electrically connected to the first main contact part. The second contact point includes a second main contact part(21) and a second arc contact point part(25). The second arc contact point part is installed within a second holding space.

Description

Contact apparatus for vacuum interrupter

The present invention relates to a vacuum circuit breaker, and more particularly to a vacuum circuit in which an arc is generated only in an arc contact portion during contact and separation operations of a first contact point and a second contact point in a vacuum circuit breaker to maintain operating characteristics of the main contact point. It relates to a short-term contact device.

In general, gas insulated switchgear is a water substation facility that improves reliability by accommodating conductors and various protection devices by using insulation gas with excellent insulation performance and extinguishing function in a metal sealed container as an insulation medium. In this gas insulated switchgear, the circuit breaker plays a role in determining power supply and disconnection through motion, and by manipulator. Shutdown operation is controlled.

In the high voltage category, circuit breakers are classified into gas circuit breakers and vacuum circuit breakers, and vacuum circuit breakers perform a blocking operation to diffuse / armor arcs generated by opening a contact in a sealed container maintained at high vacuum.

Recently, as the current carrying capacity increases, contact welding due to the temperature rise of the main circuit contact in the vacuum circuit breaker has emerged as a problem. Conventionally, a cooling fin is placed on the main circuit terminal block of the vacuum circuit breaker to suppress the temperature rise of the main circuit terminal. Alternatively, a heat pipe was placed inside the fixed contact point to suppress rapid temperature rise at the contact surface by using evaporation and condensation cycle of purified water inside the heat pipe at the time of contact temperature rise.

However, there is a problem that the temperature increase suppression in this manner can be applied only to the distribution class vacuum circuit breaker having a relatively small current carrying capacity. That is, it was not applicable to a large-capacity vacuum circuit breaker with a current carrying current of about 2000A to 4000A.

In addition, the conventional method is a structure that can be mainly applied only to the seed field type, there is a problem that can not be applied to the transverse field type.

In addition, in the case of applying the conventional temperature increase prevention structure, there is a problem that the contact damage occurs while the chattering shape is generated at the contact by the operation spring force at the time of input.

Accordingly, the present invention is to solve the conventional problems as described above, to prevent the main circuit portion from being welded by the temperature rise in the ultra-high pressure vacuum circuit breaker.

Another object of the present invention is to provide a contact device applicable to various kinds of vacuum circuit breakers.

Still another object of the present invention is to allow the arc contact portion to be supported by the elastic member to the main contact portion to prevent contact damage caused by the operation spring force during the injection.

It is another object of the present invention to minimize the components of the first and second contacts.

According to a feature of the present invention for achieving the object as described above, the present invention has a first storage space that is opened to the front end and the insertion groove is formed around the inner surface of the inlet of the first storage space is made of a conductive material A first contact including a first main contact portion and a first arc contact portion installed in the first storage space and made of a conductive material, and electrically connected to the first main contact portion to conduct electricity to open the tip. A second storage space having a second storage space and a protruding portion which is inserted into the insertion groove and is electrically connected to the insertion groove, and is formed of a conductive material and is installed in the second storage space and is made of a conductive material. A second contact including a second arc contact portion in electrical contact with the first arc contact portion, wherein at least one of the first arc contact portion and the second arc contact portion I are supported by a resilient member in the interior of the storage space the front end to the outside of the storage space is projected a predetermined length.

The first arc contact portion has a cross-sectional area of a first head larger than the first body at the tip of the first body, and the second arc contact portion has a second head at the tip of the second body to the second body. In comparison, the cross-sectional area is large.

The outer surface of the protruding portion of the second main contact portion is provided with a close contact with the inner surface of the insertion groove of the first main contact portion.

The first arc contact portion is supported by an elastic member inside the first storage space, and the elastic member is a cylindrical coil spring.

One end of the elastic member is seated in an elastic member slot formed in the first storage space, and the elastic member slot is formed to a depth that can accommodate more than half of the length of the elastic member.

The first arc contact portion is installed by being hooked by a first hook pin in the first accommodating space, and the second arc contact part is installed by being hooked on a second hook pin in the second accommodating space. The arc contact portion to be supported is formed with a guide slot in which the hook pin is installed in the long hole shape.

In the contact device for a vacuum circuit breaker according to the present invention, the following effects can be obtained.

First, in the present invention, since the contact device constituting the main circuit contact of the vacuum circuit breaker is installed inside each main contact part so that the arc is generated only at the arc contact part exposed to the tip, the temperature rise due to the arc generation at the main contact part. This prevents contact welding of the main contact portion from occurring. Therefore, there is an effect that the operating characteristics of the contact device are maintained for a long time.

In the present invention, since the first and second arc contact portions that block the fault current are independently disposed and operated at the centers of the first and second contacts, respectively, any one of the seed field electrode and the cross field electrode may be applied. There are effects available in various forms.

In addition, in the present invention, at least one of the arc contact portions is supported by the elastic member at the main contact portion to absorb the impact applied to the contact by the operating spring force when the vacuum circuit breaker is inserted, thereby preventing contact damage. have.

In addition, in the present invention, the main contact portion maintains electrical conduction performance by the surface contact between the protrusion and the insertion groove into which the protrusion is inserted, and the arc contact portion is supported by the elastic member so that the main contact portion is installed at the main contact portion, thereby forming a contact device as a whole. There is also an effect that the number of parts to be minimized can be relatively easy to assemble.

1 is a cross-sectional view showing the configuration of a preferred embodiment of a contact device of a vacuum circuit breaker according to the present invention.
Figure 2 is an operating state showing a state in which the first and second arc contact portion first contact in the course of the operation of the contact device of the embodiment of the present invention.
Figure 3 is an operating state showing a state in which the first and second main contact portion is completely in contact with the operation of the contact device of the embodiment of the present invention.

Hereinafter, a preferred embodiment of a contact device of a vacuum circuit breaker according to the present invention will be described in detail with reference to the accompanying drawings.

According to the drawings, the contact device of the present embodiment is the first contact point 10 and the second contact point 20 to be described below are in contact with each other and separated to control the power supply and power off. Here, the second contact 20 may be moved to be in contact with and separated from the first contact 10. In this case, the first contact 10 is a fixed contact and the second contact 20 is a movable contact. Becomes

In the first contact point 10, the first main contact part 11 made of a conductive material forms its skeleton and appearance. The first storage space 12 is formed inside the first main contact portion 11. The first storage space 12 is open to the tip of the first main contact portion 11. In the first storage space 12, a first arc contact portion 15, which will be described below, is provided to be able to enter and exit the inside and the outside. The first storage space 12 has a relatively wider cross section at the inlet side than the inside thereof. This is in accordance with the shape of the first arc contact portion 15 to be described below. Therefore, if the shape of the first arc contact portion 15 is different, the shape of the first storage space 12 is also changed accordingly.

The front end of the first main contact portion 11 may have a kind of cylindrical shape by the formation of the first storage space 12. Of course, the shape of the first main contact portion 11 is not necessarily cylindrical, but may be rectangular. The rear end of the first main contact portion 11 becomes a bar shape rather than a cylindrical shape.

An insertion groove 13 is formed in the first main contact portion 11 corresponding to the inlet edge of the first storage space 12. The insertion groove 13 is formed to be stepped on the inner surface of the front end of the first main contact portion 11, the protrusion 23 formed in the second main contact portion 21 of the second contact 20 to be described below ) Is inserted into surface contact and makes contact area relatively wide.

A first hook pin 14 is installed in the first storage space 12 in a direction orthogonal to the longitudinal direction of the first storage space 12. The first hook pin 14 may be installed to penetrate through the first main contact portion 11. The first hook pin 14 serves to prevent the first arc contact portion 15 to be described below from being arbitrarily separated from the first main contact portion 11.

The first arc contact portion 15 is installed in the first storage space 12. The first arc contact portion 15 has a shape corresponding to the shape of the first storage space 12 or a length relatively shorter than the length of the first storage space 12. The first arc contact portion 15 is also made of a conductive material to conduct electricity.

The first arc contact portion 15 is composed of a first body 16 and a first head (17). The cross-sectional area, size and length of the first body 16 are designed to be located in a relatively small cross-sectional area of the first storage space 12. The first head 17 has a larger cross-sectional area than the first body 16, and the cross-sectional area and the cross-sectional area of the first storage space 12 such that the cross-sectional area of the tip is located in a larger area. The size and length are designed. The relatively large first head 17 is made such that the area of the front end face is equal to the area of the front end face of the second head 27 of the second arc contact portion 25 to be described below. And the area of the front end surface is designed to fit the required amount of electricity through the arc contact portion (15, 25). The outer surface of the first arc contact portion 15 is designed to be in close contact with the inner surface of the first storage space 12 and to be movable.

In the first body 16 of the first arc contact portion 15, a guide slot 16 ′ in which the first hook pin 14 is positioned extends in the longitudinal direction of the first body 16. . The guide slot 16 'has a long cross section in the longitudinal direction. The length of the guide slot 16 'is equal to the moving distance of the first arc contact portion 15.

The first arc contact portion 15 is supported by the elastic member 18 in the first storage space 12. The elastic member 18 is a cylindrical coil spring, one end of which is supported at the rear end of the first head 17 of the first arc contact portion 15, and the other end of which is the elastic member slot formed in the first storage space 12. 19) It is seated in and supported. The elastic member slot 19 is formed to a depth that can accommodate more than half of the length of the elastic member 18 to support the elastic member 18 more stably so that the elastic force of the first arc contact portion 15 To be more stable delivery. The first head 17 of the first arc contact portion 15 protrudes out of the first arc contact portion 15 by the elastic member 18. That is, the tip of the first head 17 of the first arc contact portion 15 by the elastic member 18 is the first storage unless the external force is applied to the first arc contact portion 15 The predetermined length protrudes out of the space 12.

The second main contact portion 21 forms an appearance and a skeleton of the second contact 20 that is in contact with or separated from the first contact 10. The second main contact portion 21 may have an overall shape corresponding to the shape of the first main contact portion 11. That is, the front end of the second main contact portion 21 has a cylindrical shape and the rear end has a bar shape.

A second storage space 22 is formed inside the tip of the second main contact portion 21. The second storage space 22 has a larger cross sectional area with a leading edge than the rear end like the first storage space 12. This is in accordance with the shape of the second arc contact portion 25 to be described below. Therefore, if the shape of the second arc contact portion 25 is different, the shape of the second storage space 22 is also changed accordingly.

A protrusion 23 is formed to surround the outer surface of the front end of the second main contact portion 21. The protrusion 23 is formed to protrude thinner than other adjacent portions of the second main contact portion 21. The protrusion 23 is inserted into the insertion groove 13 of the first contact 10. A close hook 23 'is formed on an outer surface of the protrusion 23. The close hook 23 ′ is hooked to an inner surface of the insertion groove 13 or another groove formed therein while the protrusion 23 is inserted into the insertion groove 13, so that the second main contact portion ( 21) is not separated from the first main contact portion 11 arbitrarily. The close hook 23 'is installed in a groove (not shown) which is opened to the surface of the protrusion 23, and is configured to be in and out of contact with the inner surface of the insertion groove 13.

A second hook pin 24 is installed across the rear end of the second storage space 22. The second arc contact portion 25 is fixed to the second storage space 22 by the second hook pin 24. The second hook pin 24 penetrates through the second body 26 of the second arc contact portion 25 and both ends thereof are hooked to the second main contact portion 21 so that the second arc contact portion ( 25) does not fall arbitrarily in the second storage space (22).

The second arc contact portion 25 is also made of a conductive material, the second end 26 is provided at the rear end, and the second head 27 is provided at the front end. Compared to the second body 26, the second head 27 has a larger size in this embodiment. The outer surface of the second arc contact portion 25 is in a state of being in close contact with the inner surface of the second storage space 22. The front end surface of the second head 27 of the second arc contact portion 25 is configured to form the same plane as the front end of the second main contact portion 21, that is, the front end surface of the protrusion 23.

It will be described below that the contact device of the vacuum circuit breaker according to the present invention having the configuration as described above is used.

According to an embodiment of the present invention, the first contact point 10 and the second contact point 20 are separated from each other as shown in FIG. In this state, the power supply is cut off.

In addition, when the first contact point 10 and the second contact point 20 are in contact with each other, in particular, the first main contact point 11 and the second main contact point 21 are in contact with each other to conduct electricity. It becomes the state that I can. This state is well illustrated in FIG. 3.

In the process of changing from the state of FIG. 1 to the state of FIG. 3, for example, when the second contact 20 is a movable contact, the second contact 20 moves in the direction of the first contact 10. In this process, the first and second arc contact portions 15 and 25 are contacted first rather than the first and second main contact portions 11 and 21. This is because the first arc contact portion 15 protrudes more than the first main contact portion 11. Thus, the state in which the second arc contact portion 25 is in contact with the first arc contact portion 15 is illustrated in FIG. 2. In this state, the electric current is already made, and sparks may occur due to their contact. In other words, the spark occurring at the time of initial contact has already occurred at the time of contact of the first and second arc contact portions 15 and 25.

As such, since the first arc contact portion 15 of the first contact point 10 and the second arc contact portion 25 of the second contact point 20 first contact each other, the first arc contact point 15 The second contact 20 is moved in the direction of the first contact 10 while overcoming the elastic force of the elastic member 18 supporting the.

As the second contact 20 moves in the direction of the first contact 10, the first arc contact portion 15 enters into the first storage space 12 and the second main contact portion 21. 3 is a state in which the protrusion 23 is completely inserted into the insertion groove 13 of the first main contact portion 11 to electrically conduct electricity. In such a state, electricity is supplied between the first contact point 10 and the second contact point 20.

On the other hand, the power is cut off by the operation of the vacuum circuit breaker is the reverse process described above. Of course, in the process of shutting off the power, that is, the first contact point 10 and the second contact point 20 are separated from each other, the first and second arc contact points 11 and 21 are separated from each other. It will fall later than the main contact portion (15, 25).

That is, when the second contact 20 is moved in the left direction of the drawing, the first arc contact portion 15 having the front end surface in close contact with the front end surface of the second arc contact portion 25 may be formed of the elastic member ( By the restoring force of 18), the first arc contact portion 25 is in close contact with the first arc contact portion 25 continuously.

Therefore, even though the first and second main contact portions 11 and 21 are separated, the first and second arc contact portions 15 and 25 are closely contacted to perform energization. As such, while the first and second arc contact portions 15 and 25 are in close contact with each other, an arc does not occur even when the first and second main contact portions 11 and 21 are separated from each other. This is because energization is made through the first and second arc contact portions 15 and 25.

An arc may occur while the first and second main contact parts 11 and 21 are separated and the first and second arc contact parts 15 and 25 are separated, but the arc may be used in the first and second main contact parts 11 and 21. It occurs between the second arc contact portions 15 and 25 and does not occur between the first and second main contact portions 11 and 21. That is, the temperature increase due to the arc and the welding problem of the contact point accordingly do not occur at all in the first and second main contact parts 11 and 21.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

For example, in the illustrated embodiment, only the first arc contact portion 15 is supported by the elastic member 18, but both the first arc contact portion 15 and the second arc contact portion 25 are supported by the elastic member. The second arc contact portion 25 may be supported or supported by the elastic member. That is, at least one of the first and second arc contact portions 15 and 25 may be supported and installed by the elastic member.

10: first contact point 11: first main contact point
12: 1st internal space 13: insertion groove
14: first hook pin 15: the first arc contact portion
16: first body 17: first head
18: elastic member 19: elastic member slot
20: second contact 21: second main contact
22: second inner space 23: protrusion
23 ': close hook 24: second hook pin
25: second arc contact portion 26: the second body
27: second head

Claims (6)

A first storage space having a first storage space opened at a tip and having an insertion groove formed around an inner surface of the inlet of the first storage space, the first main contact portion being made of a conductive material and the first storage space being made of a conductive material A first contact including a first arc contact portion,
When electrically connected to the first main contact portion to conduct electricity, it has a second storage space that is open at the tip and is formed around the outer surface of the front end is inserted into the insertion groove electrically contact is formed of a conductive material And a second contact including a second main contact portion and a second arc contact portion installed in the second storage space and made of a conductive material to be in contact with the first arc contact portion.
At least one of the first arc contact portion and the second arc contact portion is a contact device of the vacuum circuit breaker is supported by the elastic member in the interior of the storage space protrudes a predetermined length to the outside of the storage space.
The first arc contact portion of claim 1, wherein the first head is formed at the tip of the first body has a larger cross-sectional area than the first body, and the second arc contact portion is the second head at the tip of the second body The contact device of the vacuum circuit breaker having a larger cross-sectional area than the second body.
The contact device of the vacuum circuit breaker according to claim 2, wherein an outer surface of the protruding portion of the second main contact portion is provided in close contact with an inner surface of the insertion groove of the first main contact portion.
The vacuum circuit breaker according to any one of claims 1 to 3, wherein the first arc contact portion is supported by an elastic member in the first storage space, wherein the elastic member is a cylindrical coil spring. Contact device.
5. The method of claim 4, wherein the elastic member has one end seated in an elastic member slot formed in the first storage space, the elastic member slot is formed to a depth that can accommodate more than half of the length of the elastic member. A contact device of a vacuum circuit breaker characterized by the above-mentioned.
The method of claim 5, wherein the first arc contact portion is installed by the first hook pin in the first storage space and the second arc contact portion is installed on the second hook pin in the second storage space. The arc contact portion supported by the elastic member is a contact device of the vacuum circuit breaker, characterized in that the guide slot is installed in the form of a long hole is installed the hook pin.

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