BG66477B1 - Pre-selector for oltc - Google Patents

Abstract

The pre-selector is mounted at the selector of the OLTC and provides double increase of the control range. When the pre-selector is switched, the tap transformer coil remains briefly at floating potential. Capacitive charges are induced, which are discharged before the contact between the moving and the fixed contact. In some transformers this leads to noise and contamination of the transformer oil. In this case pole resistors must be used. The purpose of the invention is to create pre-selector, with which these phenomena are avoided without pole resistors. According to the invention, an arc arrester chamber (AAC) is connected to the conductive loop of the pre-selector. It is open during the movement of the moving contact assembly and closes after the moving contact elements (12) come into contact with the fixed contact element (3) of the conventional construction. There is a mechanism that opens and closes the AAC during the switching. It consists of lever (23) with roller (24), support (21), joint (25) to the moving contact (17) of the AAC (6) and contact spring. According to the variant execution AAC is situated horizontally.

Description

Field of technology

The invention relates to a pre-selector for a step voltage regulator, which regulates the voltage of power transformers under load.

BACKGROUND OF THE INVENTION

A preselector for a step voltage regulator / 1 / is known, containing two vertical insulating rails on which fixed contact elements are located. There is also a movable contact unit, which rotates from a driving insulating rail and makes the current connection between the contact K of the selector and alternately - with the two fixed contact elements. In some transformers it is necessary to complete the step regulator with pole resistors, which are most often mounted under the selector.

The disadvantage of this pre-selector is that the use of a node with pole resistors makes the step regulator more expensive and significantly increases its height.

Technical essence of the invention

The object of the invention is to provide a pre-selector for a step regulator, which eliminates the need to use pole resistors.

The problem is solved with a pre-selector for a step voltage regulator, comprising two fixed contact elements mounted on two vertical insulating rails, a fixed contact element connected to the contact K of the selector and a movable contact unit driven by insulating rails. According to the invention, a vacuum arc-quenching chamber is connected in series in the current circuit of the movable contact unit, which is opened during switching and closed in the end positions, until the movable contact plates touch the respective fixed contact element, the vacuum arc-quenching chamber.

One embodiment is when the vacuum arc quenching chamber is mounted in a vertical position between a lower support and an upper support isolated from each other. Both carriers have tails to which there are contact plates with studs and contact springs. Thus, with the vacuum arc suppression chamber closed, the contact K of the selector is connected to the corresponding fixed contact element. A mechanism for opening and closing the movable contact element of the vacuum arc quenching chamber is attached to the upper carrier. The mechanism consists of a lever mounted by an axis to a fork on the upper carrier, and to one arm of the lever is mounted a roller in contact with a guide insulating arc fixed between the two bearing insulating rails. On the other arm of the lever there is an axis that enters an elongated hole on a special bolt with a rectangular head. This bolt is attached to the movable contact element of the vacuum arc-quenching chamber, which is connected to the upper carrier by a nozzle and a flexible connection. There is a tail at the end of the lever, and a contact spring is mounted between it and the tail of the upper carrier.

In another embodiment, the vacuum arc quenching chamber is mounted horizontally between the left bracket and the right bracket. Another type of contact plate is mounted on the tails of these carriers.

An advantage of the pre-selector for step controller is that the discharge of the capacitive charges takes place in the vacuum arc-quenching chamber, due to which there are no sound effects and oil contamination. The need for pole resistors is avoided.

Explanation of the attached figures

An exemplary embodiment of the pre-selector for step voltage regulator according to the invention is shown in the application figures, of which:

Figure 1 is a longitudinal section through one phase of the current circuit of a pre-selector with a vacuum arc-quenching chamber included therein, the location of the vacuum arc-quenching chamber being vertical;

FIG. 2 is a plan view of the pre-selector contact system of FIG. 1;

figure 3 - unfolding of the control arc of fig. 1 and FIG. 2 and its interaction with the contact system;

66477 Bl figure 4 - longitudinal section through the current-carrying circuit of the pre-selector with a horizontally located vacuum arc quenching chamber.

Examples of the invention

The pre-selector according to the invention has two supporting vertical insulating rails 1 and 2 (Figs. 1 and 2), on which two fixed contact elements 3 and 4 are mounted in one plane. contact K, which is in some way connected to the selector of the step controller. The vacuum arc extinguishing chamber 6 is fixed between the upper carrier 7 and the lower carrier 8, insulated relative to each other. The two brackets 7 and 8 are bolted to two drive insulating rails 9. The figures show the contact system of a single-phase pre-selector. In the case of a three-phase pre-selector, there are two more such phases, located one below the other. The two rails 1 and 2 are reinforced in a known manner by an insulating support 10.

On the tail 11 of the lower carrier 8 are mounted two contact plates 12, pressed by studs 13 and springs 14 to the contact 5 and the tail 11. Thus the current connection between the contact 5 and the fixed contact element 15 of the vacuum arc chamber 6. In a similar way the current connection between the tail 16 of the upper carrier 7 and the fixed contact element 3 (respectively 4) is also realized. The carrier 7 is connected to the movable contact element 17 of the vacuum arc extinguishing chamber 6 by a nozzle 18 and a flexible connection 19. To the contact element 17 is connected a profile bolt 20 with a rectangular head and an elongated hole. To a fork 21 connected to the upper carrier 7 is mounted by an axis 22 lever 23. At one end of this lever has a roller 24 (or rolling bearing). At the other end of the lever 23 is mounted an axis 25 which enters the elongated hole of the bolt 20. Between the tail 26 of the lever 23 and the tail 27 of the upper carrier 7 is attached a contact spring 28. Between the two rails 1 and 2 is mounted a guide arc 29 , by tails 30. The internal device of the vacuum arc quenching chamber is known and will not be explained here.

The action of the contact node of fig. 1 and FIG. 2 can be explained using FIG. 3. The position markings are the same, but the position of the fixed contact elements 3 and 4 is shown at a higher level.

Switching the pre-selector from the contact element 3 to the contact element 4 begins with the rotation of the drive rails 9 in an arc by a known mechanism not shown. This rotates the entire movable contact unit containing the vacuum arc quenching chamber b. In the initial position (pos. C) the roller 24 has descended from the guide arc 29 and the vacuum arc quenching chamber is closed. After rotating at a small angle (pos. B), the roller 24 begins to move along the profile of the arc 29 and the vacuum arc quenching chamber opens. Only then are the movable contact plates 12 separated from the fixed contact element 3 (pos. A). More important is the switching process (sequence a-bc), in which it is ensured that the movable contact plates 12 touch the contact element 3 and only then closes the vacuum arc quenching chamber 6. Thus the discharge of the accumulated capacitive charge takes place in the vacuum arc quenching chamber, which is silent and does not contaminate the oil. At higher rated currents, a parallel contact circuit located below that of FIG. 1. The contact elements of the added node must be narrow, as they will be connected in the range b-c.

Another embodiment is shown in FIG. 4. In this embodiment, the vacuum arc quenching chamber 6 is mounted horizontally. In this case, the height of the movable contact node is reduced at the expense of a certain increase in size in the radial direction. All repeating positions of fig. 1 and FIG. 2 have the same numbers. Here there is a left carrier 31 and a right carrier 32. On the two tails 33 and 34 of the carriers are arranged contact plates 35 with another shape. Studs 36 are also different, while contact springs 14 are the same. In order to mount the studs 36 in the brackets 31 and 32 there must be openings shown schematically with dashed lines. Other mounting options are possible. The mechanism for opening and closing the vacuum arc quenching chamber

66477 Bl is analogous to that of FIG. 1. The guide arc 37 has a different shape, but the switching action is the same. In order for the mechanism of FIG. 4, a channel 38 is cut in the two support rails 1 and 2.

Other options are possible, such as inclined mounting of the vacuum arc quenching chamber or use of two fixed vacuum arc quenching chambers mounted to the rails at the end positions. They must be normally open during the movement of the movable contact node and close in the end position. These options are more complex.

The guide arc 29 may have only two cams in the end positions. This will reduce the rolling path of the roller 24, but will increase the number of switching on and off of the vacuum arc chamber.

Claims (4)

A pre-selector for a step voltage regulator comprising two fixed contact elements mounted on two vertical insulating rails, a fixed contact element connected to a selector contact K and a movable contact unit driven by insulating rails, characterized in that a current arc chamber (6) is connected to the current circuit of the movable contact unit, which is open during the switching and is closed in the end positions, until the movable contact plates (12) touch the fixed contact element (3 or 4). camera (6) is open. Step controller for claim controller according to Claim 1, characterized in that the vacuum arc quenching chamber (6) is mounted vertically between a lower support (8) with a tail (11) and an upper support (7) with a tail (16). the tail plates (11 and 16) are arranged contact plates (12) with studs (13) and contact springs (14), and on the upper carrier (7) is attached a mechanism for opening and closing the movable contact element (17) of the vacuum arc quenching chamber. (6). Pre-selector for step controller according to Claims 1 and 2, characterized in that the mechanism for opening and closing the vacuum arc-quenching chamber (6) consists of a lever (23) mounted by an axis (22) to a fork (21) of the upper bracket (7), a roller (24) in contact with a guide profile arc (29) is mounted to one arm of the lever (23), and the other arm of the lever (23) is connected by an axis (25) to an elongated opening of the lever (23). a special bolt (20) connected to the movable contact element (17) of the vacuum arc-quenching chamber (6) by means of a nozzle (18) and a flexible connection (19), and between the tail (26) of the lever (23) and the tail (27) of the the upper carrier (7) is connected by a contact spring (28). Pre-selector for step controller according to claims 1 and 3, characterized in that the vacuum arc quenching chamber (6) is mounted horizontally between the left carrier (31) and the right carrier (32), as to the tails (33,34) of the two contact plates (35) with studs (36) and contact springs (14) are installed in the carrier (31, 32).