DE341635C - Suspension isolator without putty, cement or casting compounds - Google Patents

Description

The invention relates to a suspension insulator in which in a known manner Destruction of the insulating body closed at the top and thus prevent the suspended wire from falling. The hanging parts exist from an outer two-part support cap of a known type and from a bolt attached inside the insulator

ίο cone and a bushing attached above, which are dimensioned so that they are put together in a manner known per se by the Neck can be pushed. After inserting the named parts into the isolator by turning the bolt, the cone is inserted into the upper slotted part of the bushing pulled in and the diameter of the socket increased concentrically on the upper part, so that this becomes greater than that

ao clear diameter of the insulator neck.

The so-called bolt head that is now formed hugs the inner pressure surface of the insulating body and can therefore carry the cable to be attached.

Between the bolt head and the inner pressure surface of the insulating body can be known Way an elastic intermediate layer made of flexible material (lead ο. Like.) Arranged which only has the purpose of removing bumps on the two facing each other Compensate for pressure areas. The invention consists essentially in that the bolt head that forms, namely the upper slotted part of the socket, after insertion enlarged in diameter concentrically in the insulator neck by turning the bolt so that it comes to rest directly on the inner pressure surface of the insulating body. The one so concentrically enlarged So the bolt head transmits the attached to the bolt at all points of its circumference Load evenly on the inner pressure surface of the insulator. This is supposed to compared to other putty-free bolt fastenings only a pure direct pressure effect be exerted on the inner annular pressure surface of the insulator. Furthermore should the elastic intermediate layer made of flexible material (lead ο. Like.), which between the bolt head and the inner pressure surface of the insulator can be placed directly attached to the socket so that it be introduced into the insulator head together and at the same time with the support bolt can. Another advantage is that the parts designed to carry the line are not individually brought through the narrow insulator neck and need to be assembled therein, as is the case with already known putty-free constructions. In the drawing the suspension insulator is shown as an exemplary embodiment in two possible versions.

In Fig. Ι 1 is the two-part support cap

of a known type, 2 an insert made of flexible material (»lead or the like), 3 the insulating ' body.

Inside the completely closed insulator head is the one with a thread provided bolt 6 with attached cone 8 and the slotted on the upper part and threaded bushing 7. Between the insulator 3 and the support cap 1 is an intermediate layer 4 made of flexible material ((lead or the like) in a known manner. inserted. Part 5 also represents an intermediate layer made of flexible material, which placed around the socket 7 and fastened to it with a wire or a twine wrap collar 15 can be. These intermediate layers 4 and 5 made of resilient material are effective when they are present Compensates for unevenness and achieves an even distribution of pressure. The bolt 6 with thread is screwed into the socket 7 and the cone 8 at the top postponed. The bolt 6 is then riveted at the upper end.

Fig. 2 shows the subject of the invention outside of the insulator completely assembled with the parts 5, 6, 7, 8 and 15 listed in Fig. 1. These parts are pushed through the neck of the insulating body 3 (Fig. 1). The bushing 7 which projects ¹ thereto at the lower part, of the insulating body 3, retained by a suitable tool and the bolt 6 is rotated, so that it is screwed into by means of the thread in the bushing. 7 As a result, the cone 8 located at the upper end of the bolt 6 is drawn into the socket 7, spreads its upper slotted part and thus forms the bolt head, which is now concentrically enlarged in diameter by the expansion, inside the insulator head. The cone 8, when it is screwed far enough into the socket 7, snaps into the recesses provided for this purpose, and prevents the change in shape of the bolt head that is formed and has a concentrically enlarged diameter. As soon as the cone 8 is snapped into 'these recesses, it no longer goes back and thus permanently gives the bolt head a fixed shape which no longer allows it to slip back through the insertion opening. If the bolt 6 is screwed in or out, the cone 8 is no longer touched, because the upper part of the bolt 6 slides freely through the cone 8 and the bolt head cannot change its shape here either.

So that the bolt head that is formed does not get into the interior of the insulating body during shipping 3 slips in and the socket 7 does not hit the wall of the insulating body when loaded can apply on one side, it has a bulge on the lower ■ part, which in turn applied to the lowest part of the insulating body.

Fig. 3 shows the intermediate layer S mentioned in Fig. 1 made of flexible material. How it can be wound around the bushing 7 can be seen from FIG.

Fig. 4 shows a further embodiment in which an identical insulating body 13 and a bushing 11 with the same outer shape and elastic intermediate layer 12, but without a thread, is used to slide the bolt 10 with the cone pressed onto it (made from one piece). After these parts are again introduced as in the first embodiment together in the insulator head ', ¹ is the lower part of the bushing 11, which protrudes below the insulating body, held in place with a suitable tool, and the ring nipples 9 on the bolts 10, which at its the lower part is threaded, screwed on. The ring nipple 9 thus receives the threaded part of the bolt 10 in its interior and at the same time pulls the cone located at the upper end of the bolt into the socket 11. The upper slotted part of the bush 11 is spread apart by the cone, as in the first embodiment, and the bolt head, which is concentrically enlarged in diameter, is thus formed again in the interior of the insulator head. Between the socket 7 and the ring nipple 9, a locking washer 14 is inserted, the protruding edges of which in a known manner over the socket 7 and the. Ring nipple 9 are bent to prevent the latter from loosening from the tightened bolt 10.

Claims (2)

Patent Claims: i. Suspension insulator without putty, cement or casting compounds, consisting of one Insulating body with closed head, one attached to the outer upper part Carrying cap as well as a bolt with cone and 'around arranged in it This concentrically arranged, multiple 'slotted socket, characterized in that the one-piece, on the bolt Slotted and multiple slotted bushing by penetration of the conical part of the bolt so enlarged concentrically in the upper diameter is that the pressure surfaces of the aforementioned bushing follow the shape of the inner conical and annular pressure directly to the surface of the insulator 2. Suspension insulator according to claim i, characterized in that the elastic Intermediate layer made of flexible material (lead, etc.), which is placed between the bolt head and the inner pressure surface of the insulating body can be arranged, is attached directly to the socket, so that they are introduced into the insulator head together and at the same time as the support bolt can be. Please refer to the sheet of drawings.