DE532423C - Vibrating support clamp for electrical overhead lines - Google Patents

Description

As is well known, there are electrical overhead lines suspended on chains of insulators mechanical vibrations, which are mainly caused by the wind. They take place in a vertical direction Level in the form of crash waves or standing vibrations. The up and down movements the line when swinging can have a very detrimental effect, since under their influence the line rope to breaks off prematurely at the suspension points where it is fastened in the support clamps. The reason for this is to be found in the fact that as a result of the vibrations at the exit points of the cables from the suspension clamps are subject to constant, changing bending loads occur that lead to localized fatigue of the SeÜmaterials and finally lead to breakage of the same. This phenomenon is particularly observed on suspension clamps, which are rigidly connected to the isolator chain. Tried to break the rope to prevent due to the vibrations in that the support clamps are provided with a certain flexibility. Through this the aim is to ensure that the support clamps follow the vibratory movements and adjust themselves to the respective position of the rope can so that the bending stresses of the line at the ends of the support clamps be reduced. However, experience has shown that the lines even when using such articulated support clamps break, even if it takes a longer time than with the rigid clamps. The reason this is that due to the unfavorable position of the joint axis or inappropriate training the same such clamps the rope vibrations, especially with heavy or heavily tensioned line ropes, only able to follow imperfectly. In the known designs, the joint is formed by bolts or pins that are attached to the Carrying troughs are attached and in appropriate Can rotate bores in the support member on the type of plain bearings. At a Another known design is the joint by semi-cylindrical cams and accordingly formed shaped pans. With these well-known. In the versions, the axis of the joint is below the cable line or at the same height as this. Such clamps put a relatively large amount of resistance to movement contrary and cause a considerable bending of the cable despite the joint. Another disadvantage of both the very rigid and the known articulated support clamps consists in subjecting the isolators to strong shaking movements, whereby: the clapper loosen and the insulators a decrease in their electrical Experience solidity.

In the case of the support clamps according to the invention, the support trough is also articulated in the support member stored, however: the aforementioned disadvantages of the known designs by suitable arrangement of the joint axis

and more favorable design of the joint avoided. J ■ - - "" - · - '·

The novelty and peculiarity of the invention is that the line rope in a trough is attached, which is articulated in the support member on the cutting edge and pan is stored, and that the joint axis at the level of the ideal intersection of the cable run-off curves lies. In this version, the ίο support trough can absorb the vibratory movements of the Follow the cable unhindered as the friction in the bearings is negligible. Only insignificant amounts occur at the exit points of the line rope from the support clamp Bends on as the clamp moves in the direction of the vibrating cable can adjust. Since the axis of rotation of the clamp with the natural nodal point of the When vibrations coincide, no movement forces are exerted on the supporting element; it therefore hangs very quietly even with the vibrating line and does not cause any shaking movements the isolator chain.

The object of the invention is shown in the drawing, for example, in two versions shown.

Fig. Ι shows the support clamp in the front view with the lowest link of the isolator chain.

Fig. 2 shows the support clamp in side view, partially in section.

Fig. 3 shows another embodiment in a front view.

Fig. 4 shows the same clamp in side view, partly in section.

Fig. 5 shows the support member in itself in a perspective view.

The support clamp according to the invention consists of the support member a, in which the support trough b is articulated. The support member α is used to attach the clamp to the lowest link c of the isolator chain and is with him in a suitable manner, for. B. connected by fork and bolt or by clapper and pan. It is designed like a fork in its lower part and engages around the trough b with the two legs. This is provided in a known manner with a curved groove in which the cable d is held by one or more clamping covers e and screws f, f .

The articulation of the support clamp is brought about by the two lateral shoulders g, g , which rest like blades in the support element in corresponding support points It ₁ h . The approaches g, g have the shape of a three-sided prism whose downwardly directed side edge is slightly rounded. The support points h, h are formed by two inclined surfaces, the angle of which is considerably larger than the angle of the cutting edges g, g) so that the latter only rest on a very small surface. When the support trough b is set in a reciprocating rotary motion under the influence of the line vibrations, the cutting edges g, g in the supports carry out a pendulum-like motion which proceeds almost smoothly. The clamping trough b can swing out until the cutting edges g, g rest against the inclined side walls h for ₃ h. The swing-out lever can be limited as required by increasing or decreasing the angle of these side walls. . According to the invention, the axis of the cutting edge storage is at the level of the intersection of the two rope run curves i, i. This point of intersection does not actually exist because the cables cannot be bent so sharply and are therefore guided over a gentle curve in the clamp; however, it forms the natural node for the vibrations. Since the axis of rotation 0 of the support clamp is at this point, no movement forces are exerted on the support member. As a result, it remains completely calm even with the vibrating line.

Taking into account the most common rope sags, the cutting axis is roughly at the same height as the top of the rope. The slack in the cable is greater at high temperatures than at low temperatures; this naturally also changes the position of the intersection of the two rope run-off curves i, i. This change in position is so small that it can be neglected.

In Fig. Ι and 2 an embodiment is shown in front and side view, in which the cutting edges g, g are attached to the trough b . The support member a is designed as a double strap and is connected to the insulator c by a bolt k . In its lower part it is provided with cutouts A, h in which the cutting edges g, g rest. The two brackets are held together by a screw I.

Another embodiment of the invention is shown in Figs. 3 and 4 in front and side tenansicht shown, while Fig. 5 shows the support member in perspective.

The support member α is fork-shaped and connected to the insulator chain by a clapper pan. The wedge-shaped bearing surfaces h, h for the cutting edges g, g are attached to the inside of the fork. In this embodiment, the cutting edges themselves are arranged on the clamping cover e. This has the advantage that the clamp can be used for cables of different diameters without

that the position of the cutting axis changes relative to the top of the rope.

Since the terminal trough b has a particularly simple shape in this embodiment, it is possible to manufacture it cheaply by bending or pressing from iron, copper or sheet aluminum. The clamping cover e is most expediently cast or because of its complicated shape

ίο also made using a pressing process. In this version, the weight of the cable lying in the support trough must be transferred to the clamping cover e by means of the screws f, f , which must be taken into account when dimensioning these parts.

Of course, it is also possible to design the clamp in such a way that the cutting edges g, g are attached to the support member α and their bearing surfaces h, h are attached to the support trough b.

The assembly of the support clamp according to Fig. 3 to 5 is particularly simple. The support trough attached to the cable by means of the clamping cover and the screws is inserted laterally into the openings η, η of the support member α by a simple handle and hung into the support surfaces h, h. The clamp can just as easily be released from the support part.

In order to suddenly jump up the line, z. B. to prevent the clamp from jumping out of the support member when the ice load falls or when the insulator chain is inclined due to a line break, a locking screw or bolt m is used a little above the clamping cover, which limits the movement of the trough in the vertical direction and prevents it from jumping out the support element prevented. The screw or the bolt m can also serve to stiffen the support member.

Claims (4)

Patent claims: 1. Vibrating support clamp for electrical overhead lines, in which the The support trough is articulated in the support member, characterized in that the support of the support trough is like a cutting edge is executed and the ^ cutting axis approximately at the height of the intersection the rope run-off lies bends. 2. Vibrating support clamp according to claim i, characterized in that the cutting edges (g, g) are attached as lateral lugs on the support trough (5) or on the clamping cover (e). 3. Vibrating support clamp according to claim ι and 2, characterized in that the support member (α) is provided with insertion openings (n, ti) for the lateral suspension of the support trough. 4. Vibrating support clamp according to claim ι to 3, characterized in that the support trough is protected from jumping out of the bearing points by a screw mounted in the support member or a bolt (m). 1 sheet of drawings