DE1297177B - Support insulator with a particularly small overall height, preferably contact wire insulator - Google Patents

Description

The invention relates to a post insulator, preferably a contact wire insulator, with a particularly small overall height, two of which are essentially parallel to one another Rotary body-like end fittings that encompass each other partial areas, preferably Fittings for fastening the tension and contact wire in an insulating body are cast in castable synthetic resin.

It is known post insulators with an insulating body made of castable To provide synthetic resin and the end fittings as compared to the total length of the insulator Execute short parts that are cast in during the manufacture of the insulating body will. With this design, the breaking forces acting on the isolator are reduced absorbed by bending stresses in the insulator.

Furthermore, an embodiment of a post insulator is known in which an end fitting is designed as the core of the insulating body. From forces of change caused bending moments are partly absorbed by the core, a bending stress the insulating body cannot be completely avoided here either. The specific Properties of castable synthetic resins require them to absorb tensile stresses relatively large cross-sections.

It is the construction of a post insulator with both end faces located armature plates known that reaching into the interior of the insulating body Have mounting pins, these pins protrude so deep into the insulator that that the fastening pins pass one another in the manner of a nest. One armature plate has only a single one in the longitudinal center axis of the insulating body arranged conical-shaped mounting pin, while the other fitting plate a number arranged concentrically around the aforementioned pin, also conical has shaped pins. The disadvantage of this construction is that the insulating body at the points where the pins are located, is significantly weakened.

In another known construction a post insulator has the one armature plate only a single, in the longitudinal center axis of the insulating body arranged conical-shaped mounting pin, while the other fitting plate a number arranged concentrically around the aforementioned pin, also conical Maintains molded pins. The disadvantage of this construction is that the overall height is still too big and that if forces of upheaval occur between the Gaps in the concentrically arranged pins are not compressive stresses, but those for the insulating material undesirable shear and tensile stresses occur.

An overhead line insulator is also known, consisting of a Insulating body made from a hot-pressed mixture of mica powder and a glass-like one Binding agent in which those used to fasten the insulator and the overhead line Metal parts that surround each other concentrically are embedded. Disadvantageous with this one Execution is the thread anchoring in the insulating material because of the sharp-edged thread edges, because the notch or splitting effect of the thread wedge in the insulating body is the cause can lead to cracking. In addition, there is no "backhand" between the individuals concentrically surrounding fittings, d. i.e., the mutual enclosing of the fittings in the axial section is imperfect (it is only about 90 ° up to the axis of symmetry) and contains discontinuities (corners). There is no guarantee for this construction present that the insulating material between the concentrically encompassing fittings is only subjected to pressure.

The object of the invention is to construct a post insulator in such a way that that mainly compressive stresses occur in the interior of the insulating body, and that any sharp-edged shapes in the fittings can be avoided, which in the new design the listed disadvantages of known constructions do not occur. This object is achieved in that, according to the invention, the one end fitting with a approximately spherical head is equipped, while concentric to it the other End fitting as a rotationally ellipsoidal pan the head with an approximately constant Surrounds the distance in such a way that the insulating body between the head and the pan is only subjected to compressive stresses records.

The insulating body is expediently bead-like, preferably circular ring-shaped Approaches provided to increase the creepage distance between the end fittings as well as to protect parts of the insulator surface from the weather. This has the advantage that the creepage distance over against the weather protected insulator surfaces.

The main advantage of the construction is that inside the Insulator body mainly compressive stresses occur when breaking forces on the insulator be effective. This advantage is achieved in that the end fittings in the Inside of the insulating body in the manner of an encompassing in these with mutually parallel Partial areas protrude. In addition, this expedient training results in the Insulating body located parts of the end fittings, which are parallel to each other Facing partial areas with an approximately constant distance, the further advantage a very uniform electrostatic field distribution, which the risk of a Discharge in the insulator is reduced.

Finally, this allows the molded fitting parts to be formed a particularly small overall height of the post insulator.

An embodiment of the invention is shown in the drawing and is described in more detail below. It shows F i g. 1 shows a section of the post insulator according to the invention, FIG. 2 shows a plan view of the post insulator, FIG. 3 is a side view of the post insulator.

To attach the contact wire to the post insulator, a stepped threaded bolt 1 is used, which carries a head 3 at the end located in the interior of the insulating body 2. A socket 4, preferably in the shape of an ellipsoid of revolution, engages around the head 3 of the threaded bolt 1 and at its upper end has a tab 5 for fastening the support insulator to the tensioning cable. The opposing surfaces of the head 3 and the pan 4 are essentially parallel to one another in the assembled state, so that when breaking forces occur, the synthetic resin between the two surfaces is mainly subjected to pressure. With an arrow, for example, a breaking force acting on the threaded bolt is indicated; the areas of the synthetic resin that are subjected to pressure as a result are indicated by double arrows. Furthermore, the insulating body 2 is provided with bead-like, annular projections 6, the rim-shaped edges of which partially protect the insulator surface from the effects of rain and sunlight.

Claims (2)

Claims: 1. Post insulator, preferably contact wire insulator, with a particularly small overall height, whereby two rotary body-like end fittings, preferably fittings for fastening the tensioning and contact wire, encompassing one another with substantially parallel partial surfaces, are cast in an insulating body made of castable synthetic resin, characterize et that one end fitting (1) is equipped with an approximately spherical head (3), while concentrically to it, the other end fitting (5) as a rotationally ellipsoidal pan (4) surrounds the head (3) at an approximately constant distance in such a way that the Insulating body (2) between head (3) and pan (4) only absorbs pressure loads. 2. Post insulator according to claim 1, characterized in that the insulating body (2) is provided with bead-like, preferably annular projections (6) which are used to increase the creepage distance between the end fittings (1, 5) and to protect parts of the insulator surface from the elements to serve.