DE532294C - Thermal protection device for tension springs that surround an electrical conductor - Google Patents

Description

GERMAN EMPIRE

ISSUED ON AUGUST 26, 1931

REICH PATENT OFFICE

PATENT LETTERING

JVe 532294 CLASS 21c GROUP

in Hermsdorf, Thür. *)

Tension springs are often built into electrical feedthroughs to ensure compression of the insulating parts. These tension springs then surround the bushing bolt like a tube. Also in electric Devices of a different type come from such springs, which in their axis of one Electric conductors are penetrated.

In high-voltage electrical systems in which bushings or other devices with such current conductors surrounded by tension springs are present at times it has been observed that the spring force decreases considerably over time. That is based as has been determined on the thermal effect of the magnetic induction in currents generated by the springs. They heat the feathers so much that they come under Circumstances change their molecular structure. Local heating therefore occurs which can also lead to disadvantages in terms of fire safety can.

The invention overcomes this drawback by providing means by which the The creation of strong induction currents in the body of such springs is prevented, or means which increase the resistance of the magnetic field to such an extent that only induction currents of low strength arise and a considerable heating of the Springs no longer occurs.

Several embodiments of the invention are explained in the accompanying drawing.

Fig. Ι shows in view (right side) and in longitudinal section (left side) a according to Art coil springs wound in the buffer springs, as they are in bushings for compression the insulating parts are used. The insulating body of the bushing is not with drawn. This spring 1 surrounds the lead-through bolt 3, which is used in high-voltage systems is traversed by strong alternating currents, what the mentioned heat effect in the body of the coil spring 1 for Consequence. According to the invention, this is prevented in that the lead-through bolt is provided with a short-circuit clip 2 is, which is electrically connected at points of the lead-through bolt that are below and lie over the feather. The bracket 2 forms a short-circuit winding that generates a high induction in the body of the spring 1 prevented. The harmful warming the spring, which its elasticity with the

*) The patent seeker indicated the following as the inventors:

Dr. Harald Müller and Wilhelm Regerbis in Hermsdorf, Thür.

Time impaired or could also cause other damage is therefore impossible made.

In the embodiment of Fig. 2 there is one in place of the short-circuit clip Closed short-circuit winding 12 is provided, which consists of one or more turns can exist. These turns can be parallel or in series, they can too form a cage. Depending on requirements, these short-circuit windings can be from the current-carrying Head 3 as well as be isolated from the spring ι.

Another embodiment is shown in Fig. 3. Here are between the individual Windings of the spring 1, intermediate layers 4 made of non-magnetic material are attached, which interrupt the good magnetic connection in the body of the spring several times and therefore very strongly weaken the generated magnetic induction. This is the production of induction currents and their thermal effects are not entirely prevented, but but weakened so much that harmful effects are not to be expected.

Claims (4)

Claims; i. Thermal protection device for tension springs that conduct an electrical current surrounded, characterized in that means are provided through which the generation high magnetic alternating current induction in the tension spring (1) is weakened. 2. Thermal protection device according to claim i, characterized by a Short-circuit clip (2), which has a point in the current-carrying line (3) below the spring with a Electrically conductive point of the current-carrying line above the spring connects. 3. Thermal protection device according to claim!, Characterized in that to the turns of the spring around a short-circuit winding (12) is placed, whose a branch passes through the cavity of the spring and optionally from the spring (1) or from the current-carrying Conductor (3) or is electrically isolated from both. 4. Thermal protection device according to claim i, characterized in that between the turns of the spring (1) intermediate layers (4) made of non-magnetic Fabric are attached which has the resistance of the formed by the body of the spring the magnetic circuit. 1 sheet of drawings