DE452128C - insulator - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
NOVEMBER 7, 1927

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP

The Ohio Brass Company of Mansfield, V. St. A.

Insulator. Patented in the German Empire on April 3, 1925,

The invention relates to electrical insulators, and in particular to the Attachment of the bolt that is used to suspend or support the isolator on the -S sem is attached.

The purpose of the invention is to improve such insulators, their in the interior inserted bolts have resilient metallic 'projections which are surrounded by the cement only at their outer edges so that the resilience of the approaches comes into its own when loaded.

It is known to produce the resilient projections with the bolt in one piece and clad them with corrugated metal sheets to prevent the cement from getting too deep between the flexible flanges penetrates, or to attach a sleeve provided with projections made of sheet metal to the bolt and to distribute the projections in the longitudinal direction of the bolt so that the mechanical stresses in the insulator be distributed as evenly as possible. In order for the projections to be sufficiently elastic, the projections must be fairly can be made thin. This specifically reduces the electrical load on the Tips of the projections quite large, and also the mechanical strength of the bolt is reduced.

According to the invention, in order to avoid these disadvantages, on the bolt in Addition to the compliant metallic protrusions, non-compliant protrusions arranged, which lie between the resilient protrusions, but not like the tips of the resilient protrusions from that Cement are edged. These additional protrusions are placed where the resilient projections have a greater distance from each other. Through this to-

Additional protrusions become the 'tops of the resilient protrusions from the tall one electrical stress is relieved, and the strength of the bolt is increased. In the drawing represents

Fig. Ι a suspension insulator, partially in section, according to the invention and

Figs. 2 and 3 show two further embodiments of bolts made according to the invention can be used.

The invention can of course also be applied to post insulators not limited to the exemplary embodiment described below. The head of the isolator 10 is means Cement 12 is provided with a cap 11 in a known manner. Inside the isolator a bolt 13 is fastened by cement 14. There are several on the bolt 13 flexible flanges 15, which are bordered by the cement 14 at their outer edges are. The flanges 15 are preferably made quite wide for good compliance to achieve, and care must be taken that the contact between the flanges and the cement 14 is confined to the outer edges of the flanges to the greatest possible extent Take advantage of the flexibility of the flanges. For this purpose, a flexible material 16, such as paper, Felt or the like. Packed between the flanges 15. This pack extends outward far enough so that only the outer edges of the flanges 15 are exposed.

At the points where the flexible flanges 15 are very far apart are, instead of the package mentioned flanges 17 are provided, which, however are not compliant and are preferably slightly smaller in diameter than that compliant flanges 15. Between each ' Flange 17 and compliant flange 15 loading. there is a ring-shaped space, 'which with: a resilient mass 18, such as wax, paraffin, glue, oil paint or the like., Filled before inserting the bolt into the cemented interior of the insulator 10. Any measures 18 can be used which provides the bolt with a coating and fills the annular spaces when the bolt is immersed in the mass. The coating is preferably made on the outer edges of the flanges 15 thinner than in other places on the bolt, such as on the bead 19 and on the outer ones Areas of the flanges 17. These last-mentioned places can be a relatively thick coating so that all contact between the bolt and the cement is essentially only at the edges the compliant flange 1S takes place.

In the embodiment according to Fig. 2, a flange 17 'is between two flanges 15 'arranged. The flanges 15 'and 17' are of uniform thickness and are evenly spaced from each other. the Spaces between the flanges 15 'and 17' are filled with the mass 18 'with which the bolt is coated to keep the cement entirely away from the core part of the bolt.

In the embodiment according to Fig. 3, the flanges 15 ″ are all equally strong, but lie at different intervals in order to achieve an even distribution of the stress. The additional flanges are made separately from the bolt in this case and are represented by metal rings 17 ". These metal rings 17", of course can also be made uniform with the bolt, have different strength, to adapt to the distances between the flanges 15 ".

Claims (3)

Patent claims: 1. Insulator, the inside of which is inserted into a flexible metallic bolt Has projections between which compliant filler is inserted, thereby characterized in that on the bolt (13), in addition to these yielding metallic projections, non-resilient projections (17) are arranged, those between the other protrusions (15) lie. 2. Insulator according to claim 1, characterized in that the additional "projections (17) between the resilient projections (15) are introduced only at that point at which the resilient projections (15) which are not distributed evenly in the axial direction of the bolt are more distant from each other. 3. Insulator according to claim 1 and 2, characterized in that a filler made of fibrous, flexible material (16) is inserted between the resilient projections (15) in order to be there in known way to prevent the penetration of putty, cement and the like, on the other hand but without stress on this binder, its resilience remains constant to protect. 1 sheet of drawings.