HU180513B - Cylindric load switch to ratio switches of stage transformers - Google Patents

Abstract

A load diverter switch for a transformer tap-changer comprises a cylindrical oil vessel (1) and a withdrawable load diverter switch assembly insert, which has a generally cylindrical housing (5, 6, 7) with stationary main and auxiliary contacts (10-13) mounted on the housing wall and parallel connected main stationary continuous current contacts (20, 22) bolted to terminals (24, 25, 26) provided on the wall (1) of the cylindrical oil vessel. The movable continuous current contacts (19, 21) cooperate with the stationary contacts (20, 22) through gaps in the housing (5, 6, 7) and are mechanically coupled to the movable main contacts 14, 17. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a cylindrical load switch for the step switches of gear transformers having a cylindrical oil reservoir and a retractable load switching insert having a cylindrical housing, main and auxiliary contacts arranged in parallel with the main contacts, contacts are electrically connected to the connector terminals of the connecting wires or star wires located on the outer wall of the cylindrical oil tank.

Known load switches of this type. US Patent No. 21 04 766.

In these load switches, fixed fixed current contacts parallel to the main contacts are disposed in the wall of the casing of the cylindrical load switch insert and are provided in the form of a sliding contact which is provided on the outer side of the load switch insert. These well-proven solutions, which provide a secure insertion and removal of the load switching pad, cause difficulties at high currents, since the external sliding surface of the fixed DC contact is a necessary contact point for a lifetime of the load switch. A surface layer may form at this point, especially since it is not operated within the maintenance period. It is therefore necessary to provide these contact points with a particularly high value, for example, with an appropriate precious metal coating.

It is an object of the present invention to overcome the disadvantages of the prior art. simple solution.

According to the invention, the fixed DC contacts are located directly on the inner wall of the cylindrical oil tank and are connected to the external connector contacts by means of conductive pins 15. The movable constant current contacts are in contact with the fixed constant current contacts through the corresponding openings or cavities of the load switch pad cylindrical housing.

In particular, the invention has the advantage that no slip contact space is required between the load switch insert and the external connector contacts. In addition, each of the switches is actuated by all constant current contact points in 25 processes, i.e., there are no dormant, inactive contact points in the load switch, thereby eliminating the risk of surface layer formation.

A particularly advantageous embodiment of the invention is that the load switch insert housing has, in a manner known per se, three cylindrical shells held together by movable contacts of the segment, an upper and a lower guide plate, and each cylinder shell holding the fixed main and auxiliary contacts of a phase. For this purpose, the free space between the cylindrical shells in the cylinder circumference can be utilized to accommodate the fixed DC current contacts. The fixed DC contacts are located on the inner wall of the oil tank so that they extend around the circumference of the load switch liner. The clearance between the two cylinder locations on the circumference of the cylindrical housing ensures, on the one hand, that the insertion of the load switch insert is not obstructed by the upstream DC contacts and, on the other hand, allows the fixed DC contacts to protrude into so that all of the contact points are in approximately the same perimeter. This simplifies the kinematics of the drive contact for moving contacts. In order to center the load switching insert, in this embodiment, U-shaped conductive pieces made of insulating material can be placed underneath the gap between two roller shells at the lower end of the load switching insert, which encircles the insert can be safely inserted into the oil tank. Further for guiding and securing the loaded load switching insert, it is also desirable to provide guide rods which are screwed into the upper and lower guide plates of the load switching insert and extend into the eyes located on the inner wall of the oil tank.

The invention will now be described in more detail with reference to an exemplary embodiment and a drawing. In the drawing it is

Fig. 1 is a side view of the load switch with a slit oil tank, a

Fig. 2 is a cross-sectional view of the load switch according to Fig. 1, and a

Figure 3 shows the location of the fixed contacts in the oil tank.

As shown in the figures, the new load switch consists essentially of a cylindrical oil tank 1, a cylindrical load switch insert 2 and a load switch head 3 for positioning the drive components, from which a central drive shaft 4 leads to the load switch insert 2 and for the gear selector not shown. The load switch insert 2 is also cylindrical. Its housing consists of three cylindrical shells 5, 6, 7 which are held together by upper and lower guide plates 8, 9. Each cylinder shell carries a fixed contact 10, 11, 12, 13 (main and auxiliary contacts) of a phase and carries in a sector shape the corresponding contacts 14, 15, 16, 17 inside the housing, and inside the housing It is operated by 18 switching stars. For the sake of clarity, Figure 2 shows only the design of one sector, i.e. phase, of the contact system. The other three sectors are structured in the same way. Electrically parallel to the contacts 10, 14, and 13, 17, respectively, are the continuously dc power contacts 19, 20, and 21, 22 which are always power-free (Fig. 2), where the movable DC contacts 19 and 21 are for the movable contacts 14 and 17, respectively. (main contacts) are connected and can be operated with them. By contrast, the fixed DC contact 20, 22, unlike the fixed contacts 10, 11, 12, 13, which are located on the cylinder shells 5, 6, 7 of the load switch pad housing 2, are located directly in the oil tank 1 and are connected to the external connector contacts 24, 25, 26.

As shown primarily in FIG. 3, the movable contacts are conventionally formed as contact bridges such that the movable DC contacts 19, 21 always cooperate with a fixed DC contact 201 connected to the connection wire 23 and a fixed DC contact 202 located thereon, which is connected to the Y star point wire. The fixed DC contacts 20, 22, and 201, 202 are configured to extend into the circumference of the cylindrical housing of the load switching pad 2, always in two adjoining spaces, for example the cylindrical shells 5, 6. Conventionally, a DC contact 22 for a pre-selected connecting line 31 of a phase is located adjacent a switched DC contact 20 of an adjacent phase having a connecting lead 23, and each extends into the two slots 5,6 provided free of the required voltage gap. These two and the DC contact connected to the star wire are not shown in the ranges A and B of Figure 2 for the sake of clarity. Not even the DC contacts connected to the terminal contacts 24, 25 in the region B are shown. The two constant current contacts 202, 222 connected to the Y-star conductor as shown in Figure 2, C, and

1 and 3, it is always positioned above the fixed DC contacts 20, 22, and 201, being U-shaped and always provided with only one external terminal contact 26, which is provided with the Y-point conductor. connected. Due to the penetration of the fixed DC contacts into the circumference of the load switch pad 2 formed by the cylindrical shells 5, 6, 7, all of the fixed contacts 10, 11, 12, 13 and 20, 22, 202, 222 of the DC contacts may be located approximately in the same circumference. , and thus simplifies the kinematics of the moving contacts.

In order to ensure the centering of the load switching insert 2 in the oil tank 1, it is possible, along with the switching resistors 27 therein, at the lower end of the load switching insert 2, below the clearance between two cylindrical shells such as cylindrical shells 5, 7. three U-shaped conductive conductor pieces 28 are provided which surround two adjacent fixed DC contacts 20, 22 and 202, 222, respectively, when the load switch pad 2 is introduced. In further insertion of the load switching pad 2, three guide rods 29 extend into one of the guide rails 30 located below the fixed constant current contacts 20, 22, and 201 on the inner wall of the oil tank for further centering and securing of the load switching pad. placed. The guide rods 29 are screwed to both the lower guide plates 8 and the upper guide plate 9 of the load switching pads 2 so that the load switching pad 2 is securely and securely fixed in the oil tank 1. 20

As shown in particular in FIG. 3, the fixed DC contacts 201, 202 can be replaced from the inside of the oil tank 1. For this purpose, the connector contacts 24, 26 are inserted into seals (not shown in detail 25) in the wall of the oil tank 1, and then, from the inside, the fixed DC contacts 201, 202 are screwed to these connector contacts 25, 26.

Claims (4)

PATENT CLAIMS: 1. Load switches for tap changers for stage transformers, a cylindrical oil tank and a retractable load switch insert having a cylindrical housing and fixed main and auxiliary contacts on the wall of the housing, are connected to the terminal contacts on the outer wall of the cylindrical oil tank, characterized in that the fixed DC contacts (20, 22, 201, 202, 222) are located directly on the inner wall of the cylindrical oil tank (1) and conductive pins. are screwed through the external connector contacts (24, 25, 26) and the movable DC contacts (19, 21) correspond to the cylindrical housing of the load switch insert (2) through openings or cavities in contact with the fixed constant current contacts (20, 22,201, 202, 222). Load switch according to Claim 1, characterized in that the cylindrical body of the load switch insert (2) has three cylindrical shells (5, 6, 7), known per se, which are arranged in a segment-like manner by the movable contacts (14, 15, 16). 17) the upper and lower guide plates (8, 9) hold together and each cylinder shell carries the fixed main and auxiliary contacts of one phase, and the fixed constant current contacts (20, 22, 201, 202, 222) extend into the load switch insert (2) in the circumference of its cylindrical housing so that the contact surfaces of the fixed DC contacts (20, 22, 201, 202, 222) are located on a cylinder surface, and a fixed DC contact (20) of a phase with a preselected DC constant of the adjacent phase. (22) together the two belong to them It extends into the free space left by 30 cylindrical shells (5, 7). Load switch according to claim 2, characterized in that a The load switching insert (2) has U-shaped outwardly extending guides (28) at the lower end between the two cylindrical shells (5, 6, 7) at a free space. Load switch 40 according to claim 2 or 3, characterized in that a plurality of guide rods firmly connected to the upper and lower guide elements (8, 9) of the movable contacts (14, 15, 16, 17) of the load locking pad (2). . (29) which extend into the guide eyes (30) located on the inner wall of the oil tank (1). 2 drawings, 3 figures