DE102011014325B4 - OLTC - Google Patents

Abstract

On-load tap changer for uninterrupted switching between taps of a control winding of a step transformer, with a rotatable switching shaft arranged centrally, step contacts arranged for each horizontal plane from a horizontal plane, which are electrically connected to the taps, a rotating switching shaft (19) being arranged centrally which has mechanical contacts for each horizontal plane of fixed step contacts on a contact carrier (20), which can be wired to the fixed step contacts, at least one of the mechanical contacts on the contact carrier (20) being electrically connected directly to a load conductor, and wherein at least one further contact on the contact carrier (20) is electrically connected to the load lead via at least one intermediate switching resistor (Rü1, Rü2), the at least one switching resistor (Rü1, Rü2) consisting of a meandering shape n wire helix (3), which is clamped and fixed by means of at least two resistance holders (6), the at least two resistance holders (6) of each transition resistor (Rü1, Rü2) being fastened to a resistance carrier (10) made of insulating material, the resistance carrier ( 10) has a shell-shaped contour which corresponds to the contour of the switch column and the resistance carrier (10) is fastened to the switch column, characterized in that the at least one transition resistor (Rü1, Rü2) is formed by means of at least two two-part modular resistance holders (6) The insulating material is clamped and fixed and that each two-part resistance holder (6) consists of two identical halves, which can be connected to each other by means of locking pins (7) and corresponding locking holes (8) in such a way that they have closed chambers (6a) for receiving one wire coil (1 ) and molded webs (6b) between them.

Description

The invention relates to an on-load tap changer for uninterrupted switching between taps of a control winding of a tapped transformer.

From the DE 24 34 364 B1 is an on-load tap changer for uninterrupted switching between taps of a control winding of a tap changer known. In this case, fixed step contacts are arranged in a wall of an insulating cylinder or on a Isolierstoffgerüst in at least one horizontal plane, which in turn are electrically connected to the taps. Centrally a rotatable switching shaft is arranged, which has mechanical contacts for each horizontal plane on a contact carrier, which can each connect the fixed stage contacts. In this case, at least one of the mechanical contacts on the contact carrier is electrically connected directly to the load dissipation, at least one further contact via at least one intermediate overvoltage resistor to the load dissipation. In this case, the switching resistors each consist of a meander-shaped wire helix, which is clamped and fixed by means of two resistance holders. These resistance holders in turn are in turn attached to a resistance carrier which has a cup-shaped contour and is secured to the switch column. This known on-load tap changer forms the preamble of the main claim.

From the WO 99/60588 A1 An on-load tap changer of the so-called load selector type is known. This on-load tap changer has an insulating cylinder as a housing, solid fixed contacts, which are electrically connected to the taps of the control winding to be connected, are arranged in a circular manner in the wall of the insulating cylinder in several horizontal planes. Inside the Isolierstoffzylinders a rotatable switching shaft is arranged, which has mechanical contacts for each horizontal plane of fixed stage contacts on a contact carrier, which are contacted with the fixed stage contacts. At least one of the movable contacts on the contact carrier is connected directly to a load dissipation; on the other hand, at least one further contact on the contact carrier is connected to the load discharge via an intermediate transfer resistor. The over-resistance is used in a known manner to limit during the load switching, ie the uninterrupted change from a fixed tap contact to an adjacent other fixed tap contact, thereby briefly flowing circulating current. The switching resistance itself is not mentioned in detail in this publication; in 3 he is there, to the right of the switch column, only hinted. He is in communication with the switching column and is rotated together with this.

The DE 38 33 126 A1 shows a similar on-load tap-changer type on-load tap changer in which a switching resistance is formed as a wire helix, which is guided on a spacer around the central switch column around. Again, the resistance is moved with the switch column. However, the illustration shown in this publication is only schematic and can not be realized in the actual execution of an on-load tap-changer. In addition, this leadership of the transfer resistance allows no modular design and no prefabrication as a separate, later mountable assembly.

The WO 2008/024067 A1 describes a special override resistor for an on-load tap-changer. This switching resistor is designed as a package consisting of individual modules. In each module in turn resistance wires are arranged in a planar frame parallel to each other, wherein there are gaps between the coiled resistance wires. By multi-superimposed frame can be modularly configure the mentioned package of total over-resistance. These transfer resistors, more precisely the package, are attached to a frame which carries the actual diverter switch. The known from this publication over-resistance are therefore suitable for an on-load tap-changer with separate, movable selector and separate, fixed diverter switch for actual load switching. They are not suitable for use with the load dialer type explained in the introduction. Due to their design and the space required for the entire package of modular structure for switching resistors is an arrangement directly on the switch column, so that they are rotated together with this when switching, not possible.

The DE 94 05427 U1 finally discloses a load selector with crossover resistors; Here, too, a switching shaft is provided, which is rotatable and carries a contact system. On the switching shaft overshoot resistors are arranged, which are rotatable with the switching shaft. The switching resistors consist of one or more resistor packages, which in turn each have one above the other fortified and electrically interconnected resistance frames.

The object of the invention is to provide an on-load tap-changer of the type mentioned, which has one or more switching resistors, which are modular, depending on the specific resistance values required, have a small footprint and directly to a rotatable switch column, the rotational movement of which can be attached with the operation of the on-load tap-changer, in a simple and cost-effective manner.

The invention is achieved by an on-load tap changer having the features of the first claim. The dependent claim relates to a particularly advantageous embodiment of the invention.

The general inventive idea is to fix known wire helix by modular resistance holders and to attach these pre-assembled units on a resistance carrier, which in turn is attached to the switch column. The resistance carrier in this case has a contour which corresponds to the geometric shape of the rotatable switch column.

Particularly advantageous are a cylindrical switch column with a circular cross-section and thus corresponding to a shape of the resistor carrier as shells or cylinder segment, wherein the inner diameter of this cylinder segment substantially corresponds to the outer diameter of the switch column. However, in the context of the invention, corresponding other geometric cross sections of switch column and resistance carrier are also possible.

The advantage of the invention lies in particular in the simple, space-saving design with only a few components directly to the switch column. Furthermore, a pre-assembly of the entire resistor carrier is just as possible as a simple adaptation to a variety of resistance values.

It is particularly advantageous to provide the attachment of more than one transition resistor to the resistance carrier; Thus, the use is also possible in circuits of the on-load tap-changer, which require more than one switching resistance per phase.

The invention will be explained in more detail with reference to drawings.

Show it:

1 a wire coil for a switching resistance of a tap changer according to the invention

2 a modular resistor holder according to the invention

3 a resistance carrier according to the invention alone

4 a resistance carrier according to the invention in the completed state

5 such a resistance carrier, mounted on the switch column of an on-load tap changer according to the invention.

1 shows single wire helix 1 made of resistance wire, which, by connecting parts 2 each electrically connected to each other, a complete wire helix arrangement 3 form.

It is within the scope of the invention also possible, only a single continuous wire coil 3 provide, which is just bent at the deflection. With both embodiments, a meandering arrangement is achieved in which parts of the wire helix run approximately parallel.

Free contact ends 4 and 5 serve for electrical connection of this wire spiral arrangement; this will be discussed later. Different wire lengths and diameters can be selected to adapt to a wide variety of resistance values; for mounting the wire helix 3 by means of a two-part resistance holder 6 made of insulating material clamped to two preferably areas and fixed.

2 shows such a modular resistor holder 6 in two different perspective views. Every resistance holder 6 owns chambers 6a , each a wire helix 1 take up. These are two of the unilaterally open resistance holder 6 , which are identical, put together, each by a locking pin 7 and a corresponding detent hole 8th be fixed in a clip, so that they are the respective wire helix 1 enclose. Between the described chambers 6a for receiving are molded webs 6b indicating the position of each wire helix 1 and thus the entire wire coil 3 fix. For reasons of clarity, not all of these areas are provided with reference numerals. Depending on the required length of the resistance wire and thus the required number of wire helix 1 can also be individual chambers 6a stay empty. On the function of the Positioningstife also shown 9 on the closed side of the resistor holder 6 will be discussed later.

3 shows a resistance carrier 10 on which the preassembled wire helix 3 , fixed by the described mirror symmetry clipped resistor holder 6 , can be attached. The resistance carrier 10 consists of insulating material and has a cylinder-segment-like contour whose curvature is adapted to the diameter of the - not shown - switch column. By attaching the resistor holder 6 spatially separated from each other at different points of the curved surface of the resistor carrier, the individual wire helix are also easily deflected so that they follow this curvature.

In the example shown in 3 is the resistance carrier 10 provided for the attachment of two separate pre-mounted contact resistors; however, the invention is not limited thereto. Ultimately, it depends on the particular circuit of the concrete on-load tap-changer, how many separate switching resistors per phase to be switched are required. The resistance carrier 10 has positioning holes 11 on, with the already explained positioning pins 9 the resistor holder to be mounted 6 correspond. There are also openings 12 provided for fixing these resistance holders 6 serve. Furthermore, connection angles 13 provided, which will be explained later.

4 shows a fully populated resistor carrier 10 , Two fully assembled resistors Rü1 and Rü2 are shown, each consisting of a wire helix 3 Fixed on both sides by a total of four resistance holders 6 , two of which are joined together. The actual attachment of the complete contact resistors Rü1 and Rü2 is carried out by cable ties, which pass through the openings 12 of the resistor carrier 10 be guided and fixed. In the context of the invention, other attachment options, such as by means of a clip connection or by screwing possible. You can also see cable connections 14 and 15 at the connection angles 13 are arranged and establish the electrical connection to the beginning and end of the respective complete transfer resistance Rü1, Rü2. For better Umstromung of the individual transition resistances of the insulating oil of the on-load tap changer and thus better cooling and to improve its mechanical strength has the resistance carrier 10 breakthroughs 16 , which are not all provided with reference numerals.

Finally, here are on Ausleger still upper Befestigungsnuten 17 and lower mounting grooves 18 each on both sides of the shell-like resistor carrier 10 intended. As explained the resistance holder 6 consist of identical parts, are on the outward-facing resistance holders 6 to recognize the useless positioning pins.

5 shows a completed switch column 19 an on-load tap changer according to the invention. Only indicated is a contact carrier 20 standing at the switch column 19 is attached and in a known manner carries the movable contacts, by means of which upon rotation of the switch column 19 the fixed - not shown - contacts in the - also not shown - wall of the insulating cylinder of the on-load tap-changer are connected in a known manner. In the embodiment shown here is the resistance carrier 10 in a connection area 21 on the switching element, ie contact carrier 20 on both sides by means of in 4 shown grooves 17 . 18 and corresponding positive locking means on the switching element 20 and here an additional backup by a plastic pin form-fitting and secured against rotation. It is also possible within the scope of the invention, the resistance carrier 10 directly at the switch column 19 to fix. The attachment itself can also be done in other ways.

Overall, the on-load tap-changer according to the invention has a particularly simple, inexpensive and reliable arrangement of the switching resistors. The wire helix 3 is variable within wide limits in order to achieve a wide variety of resistance values. The resistance holders 6 consist of only one identical part, two of which, rotated 180 degrees, can be clipped together; Mounting errors are virtually eliminated. The resistance carrier 10 is also simple. It can pick up multiple transient resistors - but it does not have to be. If only a single transition resistance is provided, the other area of the resistance carrier simply remains free.

Claims (2)

On-load tap changer for uninterrupted switching between taps of a control winding of a tapped transformer, wherein a rotatable switching shaft is arranged centrally, which are arranged for each horizontal plane of a horizontal plane fixed tap contacts, which are electrically connected to the taps, wherein centrically a rotatable switching shaft ( 19 ) arranged for each horizontal plane of fixed step contacts on a contact carrier ( 20 ) has mechanical contacts which are each connected to the fixed stage contacts, wherein at least one of the mechanical contacts on the contact carrier ( 20 ) is electrically connected directly to a load dissipation and wherein at least one further contact on the contact carrier ( 20 ) is electrically connected via at least one intermediate transfer resistor (Rü1, Rü2) to the load transfer, wherein the at least one transfer resistor (Rü1, Rü2) consists of a meander-shaped wire spiral ( 3 ) by means of at least two resistance holders ( 6 ) is clamped and fixed, wherein the at least two resistance holders ( 6 ) of each switching resistor (Rü1, Rü2) on a resistor carrier ( 10 ) are mounted from insulating material, wherein the resistance carrier ( 10 ) has a cup-shaped contour which corresponds to the contour of the switch column and wherein the resistance carrier ( 10 ) is attached to the switch column, characterized in that the at least one switching resistor (Rü1, Rü2) by means of at least two each two-piece modular resistor holder ( 6 ) is clamped and fixed from insulating material and that each two-piece resistance holder ( 6 ) consists of two identical halves, which by means of locking pins ( 7 ) and corresponding detent bore ( 8th ) are connected to each other in such a way that they are closed chambers ( 6a ) for receiving in each case a wire helix ( 1 ) and intermediate molded webs ( 6b ) exhibit. On-load tap-changer according to Claim 1, characterized in that the resistance holders ( 6 ) at least one positioning pin ( 9 ) in the assembled state with at least one positioning hole ( 11 ) on the resistance carrier ( 10 ) corresponds.

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