DE447753C - Installation on electrical shock detection systems - Google Patents

Description

With correctly sized, faultless high-voltage insulators, the breakdown voltage is considerably lower than the breakdown voltage. If you want to expose the insulators to a voltage higher than the flashover voltage for testing purposes, special measures must be taken. It has already been proposed, for this purpose, to introduce the insulator during the test into a medium which has a higher electrical strength than air, for example compressed air or oil. If very steep voltage waves are used, the test can also be carried out in air under atmospheric pressure, as the delay in discharge can cause a considerably higher voltage to exist between two electrodes for a short time than that required to break through the air gap after ionization. Since the Entladeverzug in air is not very significant, such an examination is only \ ^r Before Using very steilstirniger stress waves possible.

The object of the present invention is to test the impact of high-voltage insulators to enable even with not quite steep-faced stress waves, without the need for this Isolator can be placed in a liquid or in a gas under excess pressure must, which requires a considerable amount of time.

The solution to this problem is based on the knowledge that different gases, for example Carbonic acid, have a significantly higher discharge delay than air. Thus, according to the invention, the one to be tested becomes Insulator put in carbon dioxide or another gas with a high discharge delay and then exposed to the shock test in the usual way. When the gas such. B. carbonic acid, is heavier than air, the test can be carried out in an open-topped container. However, care must be taken to ensure that when changing the Insulators no violent mixing of the gas and the outside air takes place.

In order not to reduce the discharge delay, you can expediently the Hit the device so that no irradiation

the insulator or the electrodes with ultraviolet light or other delayed discharge canceling rays takes place.

Under certain circumstances it can be useful to make use of the high delay in unloading to unite with the increased dielectric strength by pressing by the object to be tested is seen in a pressurized higher than atmospheric Introduces pressurized gas with a high discharge delay.

In the figure, for example, a facility is shown for recycling the invention can serve in shock test systems, ι is an electrically conductive or vessel made of insulating material. In the latter case, it may be useful to to line the inside of the vessel with a conductive coating placed on earth, 2 is a Expediently rotatable plate from the outside, on which several insulators 3 are located. on these can be the items to be tested in the usual way, e.g. the delta isolator4, be put on. Through two high voltage bushings 5 and 6, the high voltage is fed into the interior of the vessel, and the arrangement is such that In a certain position of the plate 2, the insulator to be tested in the operating conditions in a corresponding manner wholly or almost in contact with the high-voltage electrodes. 7 is the one with the gas high loading delay, e.g. B. carbonic acid, containing pressure bottle, from dear the vessel 1 with the gases can be filled. So that in the vessel 1 constantly during the test the required gas is included and the gas that occurs when the test items are changed Air is expelled again, the device can be made so that during a certain influx of gas takes place continuously during testing. One becomes that expedient Vessel provided with a lid 8, which has one or more openings 9 for introduction and taking out the test items. The one to bring in the objects A certain opening can be provided with a cylindrical one that extends into the interior of the vessel Tube be equipped, thereby mixing the with the object under test introduced air is prevented or reduced with the remaining gas. The lid and possibly that too It is advisable to provide vessels with peepholes so that one can see the object to be tested can observe during the shock test. It may be sufficient to remove the lid from a sieve or perforated To allow sheet metal to exist. There can be openings in the upper part of the vessel or in the lid be provided by any air that has penetrated under the influence of the constantly subsequent gas is expelled from the vessel. It is also useful to have approximately the same amount as the item to be tested Devices can be arranged which, for example by measuring the gas density, recognize the air content of the gas mixture permit.

The viewing holes and the other openings are expediently closed by Glass that is not too thin, as this absorbs the light beams that cancel out the delayed discharge.

Claims (6)

Patent claims: i. Device on electrical shock test systems, characterized in that the object to be tested, during the shock test in a gas with high Delayed discharge is. 2. Arrangement according to claim 1, characterized by using one Gas of higher specific gravity than air, which is in an open top or in an easy-to-open container. 3. Arrangement according to claim 1 and 2, characterized by the use of Carbonic acid. 4. Arrangement according to claim 1, characterized by using one under higher pressure than atmospheric pressure with high discharge delay. 5. Arrangement according to claim 1 to 4, characterized in that an irradiation of the electrodes placed on the object to be tested due to the discharge delay canceling rays is avoided. 6. A method for examining insulators by means of a device according to claim i, characterized in that the objects to be tested in a gas with a high discharge delay, in particular carbon dioxide, introduces and there exposed to the influence of a stress wave. 1 sheet of drawings.