KR200326453Y1 - Armature structure of Circuit Breaker - Google Patents

Abstract

The present invention is to configure the contact length of the three-phase circuit breaker in the batch-driven blocking mechanism (mechanism) differently, so that the three-phase contactor when the three-phase contactor is cut or closed in the same current and voltage phase so that the circuit breaker or the closing operation The contact structure of the.

The contactor structure of the circuit breaker according to the present invention is a circuit breaker having a three-phase contactor that is blocked or injected by a batch drive type blocking mechanism, wherein the three-phase contactor is a stroke of a fixed arcing contact member or a movable arcing contact member. ) Even if the lengths are different, the lengths are configured differently in stages by the contact distance (d) calculated as the electrical distance of 120 ° as the spatial distance so that the blocking or input is performed in the same phase of current or voltage. Therefore, even in the batch-driven blocking mechanism, the control or switching technique can be applied by blocking or applying the same phase of current or voltage.

Description

Contact structure of the breaker {Armature structure of Circuit Breaker}

The present invention relates to a contactor structure such as an SF ₆ breaker and a vacuum breaker. More specifically, in a three-phase breaker using a batch-driven blocking mechanism, all three-phase contacts are blocked at the same phase of current or voltage. Or to a contactor structure of a circuit breaker in which an input can be made.

In general, a circuit breaker is a device that cuts off the main circuit for safety in case of abnormal voltage, accident, and maintenance of the equipment.As a breaking mechanism, the movable contactor is cut off or inputted to the fixed contact. Is opened and closed.

In the circuit breaker as described above, the blocking mechanism of the three-phase circuit breaker including the fixed contactor and the movable contactor which is blocked or inputted to the fixed contactor to open / close the circuit is composed of three phases according to the control method. It consists of.

1 is a view illustrating a three-phase contactor structure of a conventional circuit breaker. As shown in FIG. 1, a three-phase contactor structure of a conventional circuit breaker is blocked by the fixed arcing contact member 11 and the fixed arcing contact member 11. Alternatively, the movable arcing contact member 12 to be introduced is composed of the same length.

Such a three-phase contact structure can be applied to the control switching technique without special structural change in order to reduce the opening and closing surge (Surge) generated during the switching operation in the case of the circuit breaker using a separate blocking mechanism.

However, in the case of a circuit breaker using a batch-driven shutoff mechanism, if one phase is focused on the blocking or closing operation of the three-phase contactor, the remaining two phases are not positioned at a desired point of time, and thus the control switching technique cannot be applied. .

Accordingly, an object of the present invention is to configure the contact length of the three-phase circuit breaker in the batch-driven blocking mechanism differently so that when the three-phase contactor is blocked or closed, all three phases can be blocked or turned on in the same current and voltage phase. It is to provide a contactor structure of the breaker.

In order to achieve the above object, the contactor structure of the circuit breaker according to the present invention is a circuit breaker having a three-phase contactor that is cut off or closed by a batch drive type blocking mechanism, wherein the three-phase contactor has a different stroke length. In this case, the fixed arcing contact member is configured to have different lengths stepwise by the contact distance (d), which is calculated as a spatial distance, in order to block or input the same phase of the current or voltage, and the respective fixed The engaging portion corresponding to the arcing contact member is provided with a movable arcing contact member of the same length formed differently in stages by the contact distance (d).

1 is a view showing a three-phase contact structure of a conventional circuit breaker.

2 is a view showing a contactor structure of a circuit breaker according to a first embodiment of the present invention.

3 is a view showing a contactor structure of a circuit breaker according to a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

21, 31: fixed arcing contact member 22, 32: movable arcing contact member

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

2 is a view showing the contactor structure of the circuit breaker according to the first embodiment of the present invention, Figure 3 is a view showing the contactor structure of the circuit breaker according to the second embodiment of the present invention.

Referring to these drawings, the contactor structure of the circuit breaker according to the present invention is a three-phase of A, B, C, which is blocked or closed by the batch drive type blocking mechanism (mechanism) as shown in Figs. A contactor is provided.

The three-phase contactor of the circuit breaker is operated as shown in FIG. 2 or the fixed arcing contact member 21 as shown in FIG. Since the length of the arcing contact member 32 is configured differently, the control switching technique can be applied even to the batch-driven blocking mechanism.

Referring to FIG. 2, the first embodiment will be described in detail. The three-phase contact according to the present invention operates to open and close a circuit by blocking or inputting the fixed arcing contact member 21 and the fixed arcing contact member 21. FIG. The arcing contact members 22 are each composed of three phases.

The fixed arcing contact member 21 has a contact distance d calculated as a spatial distance of electrical angle 120 ° so that even if the stroke length is different, the block or input is performed at the same phase of current or voltage. The length is constructed step by step differently. At this time, the contact distance (d) is calculated by Equation 1 below.

The movable arcing contact members 22 which are blocked or put into each of the fixed arcing contact members 21 have the same length as A, B, and C, and the inner coupling portion corresponds to the fixed arcing contact member 21. It is formed differently in stages by the contact distance (d) according to [Equation 1].

For example, in the 170kV breaker, the stroke length is 160mm, and the average speed of operation is 30kV, so if the length of the fixed arcing contact member 21 is changed in three phases, the current and voltage points can be controlled at the same phase during the shutoff. . At this time, when the electrical angle 120 ° is calculated as the spatial distance, the contact distance (d) is calculated as 29.6296 mm as follows.

Therefore, the fixed arcing contact member 21 is as long as the B contact is 29.6296 mm longer than the A contact length, and the C contact is 29.6296 mm longer than the B contact. In addition, the movable arcing contact member 22 corresponding to the fixed arcing contact member 21 has the same length, but as shown in FIG. 2 such that the inner joint portion corresponds to the fixed arcing contact member 21. It is lengthened by 29.6296 mm step by step in the order of B and C contacts.

Meanwhile, referring to FIG. 3, the second embodiment will be described in detail. The three-phase contactor according to the present invention opens and closes a circuit by being blocked or introduced into the fixed arcing contact member 31 and the fixed arcing contact member 31. The movable arcing contact members 32 are each composed of three phases.

The fixed arcing contact member 31 is composed of the same length as A, B, C as shown in FIG.

On the other hand, the movable arcing contact member 32 corresponds to the fixed arcing contact member 31, respectively, and even when the stroke length is different, the electrical angle is 120 ° so that the blocking or input is performed in the same phase of current or voltage. Each length is formed differently in stages by the contact distance d calculated as a spatial distance. At this time, the contact distance (d) is calculated by the equation (2).

For example, in the 170kV breaker, the stroke length is 160mm, and the average speed of operation is 30kV, so that the lengths of the movable arcing contact members 32 can be controlled in three phases so that the current and voltage points can be controlled in the same phase. . At this time, when the electrical angle 120 ° is calculated as the spatial distance, the contact distance (d) is calculated as 29.6296 mm as follows.

Therefore, the fixed arcing contact member 31 has the same length, and the movable arcing contact member 32 has a length of B contact by 29.6296 mm longer than the A contact length, and a C contact by 29.6296 mm than the B contact. Its length is long.

Therefore, the contactor structure of the breaker according to the present invention is fixed arcing contact member 21 or movable arcing contact member 32 so as to obtain a 120 ° difference in electric angle even when the stroke length is different in all SF ₆ breakers and vacuum breakers. By configuring the lengths of the differently, it is possible to apply the control switching technique by blocking or inputting in the same phase of current or voltage even in the batch-driven blocking mechanism.

What has been described above is only one embodiment of the contactor structure of the circuit breaker according to the present invention, anyone of ordinary skill in the art belongs to the technical spirit of the present invention to the extent that various changes can be made Will be said.

As described above, the contactor structure of the circuit breaker according to the present invention is capable of applying a control switching technique to a circuit breaker using a batch-driven blocking mechanism so that all three phases are blocked at the same current and voltage phase when the three-phase contactor is blocked or closed. Alternatively, since the closing operation is performed, there is an effect of reducing the opening and closing surge generated during the switching operation.

Claims (4)

In a circuit breaker having a three-phase contactor that is blocked or injected by the batch drive blocking mechanism (Mechanism), The three-phase contactor, Fixed arcing contacts with different lengths in stages as long as the contact distance (d), calculated as a spatial distance, for electrical currents of 120 ° to ensure that even when stroke lengths are different, currents or voltages are blocked or injected. Absence, The contactor structure of the circuit breaker, characterized in that the movable arcing contact member of the same length formed in the inner engaging portion corresponding to each of the fixed arcing contact member stepwise differently by the contact distance (d). The method according to claim 1, wherein the contact distance (d), Contactor structure of the circuit breaker, characterized in that calculated as. In a circuit breaker having a three-phase contactor that is blocked or injected by the batch drive blocking mechanism (Mechanism), The three-phase contactor, A fixed arcing contact member of the same length, Corresponding to each of the fixed arcing contact members, even if the stroke length is different, as long as the contact distance (d) calculated by the electrical distance 120 ° to the spatial distance so that the interruption or input in the same phase of the current or voltage Contactor structure of a circuit breaker, characterized in that each length is provided with a movable arcing contact member is formed step by step differently. The method according to claim 3, wherein the contact distance (d), Contactor structure of the circuit breaker, characterized in that calculated as.