DE225318C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21 g. GROUP

Electric capacitor. Patented in the German Empire on August 7, 1909.

For the recently widely used generation of electrical oscillations by means of discharges following one another in rapid succession, as well as for numerous other areas of application, it is essential to have capacitors that are as highly puncture-proof as possible μηα, in particular, can be exposed to long-term loads without endangering their operational safety. The capacitors customary up to now are not suitable for fulfilling these conditions because those substances which form a good dielectric are poor conductors of heat. As a result, the amount of heat developed during operation of the condenser due to the energy losses occurring in it is in the. Dielectric stored and thereby not only changes the capacitance of the capacitor, but also endangers its operational safety. This risk is further increased by the fact that, with increasing heating, the energy losses occurring in the condenser also increase, which in turn causes a further rapid increase in the degree of heat. As the capacitor heats up, the damping that the capacitor causes in its oscillating circuit also increases considerably. According to the present invention, the abovementioned inconveniences are to be eliminated in that the amount of heat developed in the condenser is dissipated as quickly as possible. For this purpose, the coverings, which are expediently made of a highly thermally conductive material, are connected to suitable heat sinks, which are surrounded by air or other gases or vapors or can be attached in such a way that they protrude into oil or another cooling liquid. For the purpose of increased cooling of the condenser, the heat sinks can also be filled with water or another liquid, which evaporates when the condenser is heated, thereby cooling the condenser. If the heat sink is large enough, its heat capacity is sufficient to dissipate the amount of heat released in the condenser. The electrical ■■ stress of such cooled condenser can be significantly increased more than the usual capacitors. It is therefore no longer necessary, as before, to use entire batteries of capacitors connected in series and in parallel in order to achieve continuous operation. Rather, a considerably smaller number of capacitors is sufficient. When choosing the dielectric, the adhesive and the impregnating compounds, the risk of heating needs to be taken less into account than before; it is therefore more important to ensure that these substances have the properties suitable for a good capacitor effect, for example high dielectric constant, high adhesiveness and low wall thickness in order to achieve high capacities and low hysteresis.

In the embodiment of the new capacitor shown in FIG. 1, the ends b of the coverings of the capacitor a • are pressed against one another and against the base plate e by the heat sinks c and d. The assignments expediently consist of one

Materials that conduct heat as well as possible, e.g. B. copper, silver or aluminum. The heat sinks can be made of copper or some other suitable material. As a dielectric for example, mica can be used.

In the embodiment according to FIG. 2, the ends of the assignments themselves are designed as heat sinks c, d, e and are arranged in such a way that they are surrounded by air or protrude into a liquid.

Claims (2)

Patent Claims: 1. Electrical capacitor, characterized in that the capacitor assignments leak into heat sinks, which the surrounding air or other gases, Exposed to or met by vapors or liquids. 2. Electric. Capacitor according to claim i, characterized in that the Capacitor assignments consist of a material that conducts heat as well as possible. 1 sheet of drawings.