DE430968C - Heavy duty switch - Google Patents

Description

The known high-performance switches for alternating current are generally called oil switches educated. This has the disadvantage that the oil filling may evaporate and the oil vapors formed in this way form an explosive mixture with the air, when it ignites, as has just happened Recently have shown serious accidents can occur.

ίο With these oil switches you always have to relatively large distances between the live parts are maintained, as with contamination and moisture absorption of the oil must be expected

ig which changes its conductivity in an undesirable way.

High-performance switches for high-voltage direct current are not yet known at all.

The object of the present invention is to provide a new type of switch which is suitable for both alternating current and direct current and which is free from the disadvantages inherent in the known oil switches. ₂ g

It accomplishes this purpose characterized in that ^one uses jur F üllung-der__Schalter instead of oil liquefied gases, surrounding the KontakteTYri liquid form and possibly over the contacts in the form of highly compressed gases are present. The compressed gas can at the same time be in connection with the interior of the switch bushing and can also be used as a dielectric for the bushing.

As filling liquids, for example

liquid refrigerants, liquid nitrogen,

"liquid hydrogen and the like are used "will.

In order to be able to implement this switch in practice, the drive element is that is used to operate the switch, into the

43096α

To put inside the switch and to make the arrangement so that no moving Shafts with glands are required. Will be the flameproof housing of the switch made of non-magnetic material, the actuation can also be carried out in such a way that that one arranges a magnet armature inside the housing and the magnetic yoke outside the housing attaches. The power transmission then takes place through the wall of the housing from the magnet armature after the return path. The actuation can be chosen so that the winding rests with the return circuit outside "the vessel and the Movement is caused only by the change in the flow of the lines of force, or the Winding with a return path is moved and carries the armature inside the housing themselves.

In many cases it can be useful to use the switch, in the form of the well-known pressure-resistant Executing bombs and giving the switch only one execution while the bomb is the second pole; through this fewer seals are required and the construction is considerably simplified.

It is advisable to make the gas space above the liquid gas as large as possible in order to not to cause excessive pressure increases due to the cut-off energy. To avoid of standing fire, the inner surface is covered with an insulating layer.

In order to achieve a better seal of the implementation, the arrangement be made in such a way that the implementation associated with the switch room on the outside opens into a second closed room, which is a smaller one Pressure than the main boiler, but has a greater pressure than the outside space. This arrangement has the advantage that the seals are only stressed with the pressure difference, also that the Implementation, as it is surrounded inside and outside by compressed gases, very small can be selected and therefore only small due to their small area used Is exposed to pressure loads. It is also important that smaller pieces of porcelain can be made much more solid than large, complicated bushing bodies, This type of pressure gradation can be used repeatedly. It will be useful between the to arrange valves in different rooms, which in case of excessive pressure increase allow pressure equalization to the outside. The switches are equipped with contact pressure gauges, in order to first switch off the switch when the permissible pressure is exceeded and then to ventilate a valve. To a standing fire To avoid inside the switch, it is advisable to keep the boiler wall inside to be covered with an insulating layer. Used to switch to high voltage direct current If used with earth return, the housing must be earthed. If this is not the case, so the housing must be secured in an insulated manner. This can be done using post insulators, the whole switch can also be built into a pit covered with insulation material, such as oil, pure sand, etc., is filled. To high-voltage direct current overvoltage to be able to interrupt, it is advantageous to provide the liquid in the interior with a conductive additive (coal dust, electrolytic salts). When the interruption occurs, a resistor is first switched on, so that the current change done less abruptly. Liquid carbonic acid can advantageously be used as the filler material nitrogen and hydrogen also produce favorable results. Of course other substances can also be used.

The particular advantages of this construction are: small spatial dimensions, because of the high pressure an extraordinary dielectric strength and reduction the sliding spark is achieved, strongest cooling of the arc and the contacts by the liquid gas with very low temperature, small bushing dimensions and maximum dielectric strength as a result of filling the bushing with a dielectric with the dielectric constant ι and, depending on the pressure, increased dielectric strength, avoidance of fires if gases (such as carbon dioxide, nitrogen, etc.) are used.

In the figure, the subject matter of the invention is shown in an example.

They mean: 1 the pressure-resistant, bomb-shaped switch boiler, which is simultaneously in Connection with the contacts 2 of the switch is. 3 is the lid, which by means of seals is screwed against the housing. is the innermost implementation, which, as it is covered on all sides with a dielectric of high Dielectric strength is surrounded, can have small dimensions. With her lower At the end it dips into the main switching boiler, with the upper end into the intermediate boiler 5. Another bushing 6 is used in the intermediate boiler, which makes the connection to the outside. The power is supplied via the lead 7, which is attached to her lower end carries two flexible cables 8, which the connection with the movable Establish contact 9. The contact 9 is actuated by the solenoid 10 and

Claims (13)

slides along an isolated guide ii. The liquid gas covers the contacts. The whole switch is installed in a pit 12, which ends with the implementation to the outside. Of course, such a switch can easily be designed with two bushings and cross members. It is also conceivable that the liquid component in the switch consists of a different substance than the gaseous one. It can be z. B. think that there is liquid carbonic acid in the switch, while a mixture of carbonic acid and other gas is present in the air space. ι Patent claims: 1. High-performance switch for alternating and direct current, characterized in that that liquefied gas is used to fill the switch. 2. Switch according to claim r, characterized in that the liquid gas as such surrounds the contacts, while the space above is filled with gas under high pressure and the interior the implementation is in communication with the gas space of the switch, so that the compressed gas as Main dielectric works. 3. High-performance switch according to claims ι and 2, characterized in that that the pressure-tight vessel of the switch consists of a non-magnetic material and the core of the closing magnet is inside, while the stationary or moving winding is with it the magnetic return path of the magnet is outside the boiler, so that the drive is only through magnetic Can bring about coupling between anchor and return path. 4. High-performance switch according to claims 1 to 3, characterized in that that one pole of the switch is passed through a bushing, while as second pole the housing itself is used. S. high-performance switch according to claims ι to 4, characterized in that that the passage connected to the switch room on the outside in a second closed Space opens, which has a lower pressure than the main boiler, but a greater pressure than the outside space, for the purpose of stressing the seals only with the pressure difference and to achieve smaller dimensions of the implementation. 6. High-performance switch according to claims ι to 5, characterized in that that valves are arranged between the different spaces, which allow pressure equalization to the outside. 7. High-performance switch according to claims 1 to 6, characterized in that that the switch receives a contact manometer, which is exceeded when the permissible Pressing the switch first causes the switch-off and then a valve is released or a warning signal is given. 8. High-performance switch according to claims ι to 7, characterized in that that the switch was used for high voltage direct current with earth return, with the housing earthed is used as earth at the same time. 9. High-performance switch according to claims 1 to 8, characterized in that that the live housing by means of insulators in the form of post insulators, Isolating rings etc. is attached to the socket of the pit in which the switch is located. 10. High-performance switch according to claims ι to 9, characterized in that that the pit is filled with a dielectric, such as oil, to avoid glowing phenomena. 11. High-performance switch according to the claims ι to 9, characterized in that the pit with insulating quartz sand is filled. 12. High-performance switch according to the claims ι to ii, characterized in that carbonic acid is used as the dielectric is used in liquid and gaseous state. 13. High-performance switch according to the claims ι to 11, characterized in that the filled with the liquid Part of the interior made weakly conductive by adding conductive substances (coal dust or electrolytic salts) to switch on a resistor in the circuit before interruption in order to avoid overvoltages. 1 sheet of drawings.