DE649617C - Process for energy storage of cargo carriers - Google Patents

Description

Process for energy storage of charge carriers It is known To give charge carriers energy by walking them through alternating fields can be controlled in a suitable manner. So is z. B. an arrangement several tubes connected in series have been used, which are connected to the poles of a @ high-frequency voltage were connected in such a way that the first, third, and fifth tubes are connected to one pole the second, fourth, sixth was placed on the other pole. Run the electrons now into this field at the right moment, they will continuously increase their speed enlarge.

In another arrangement, the superimposition of an electrical Alternating field achieved with a magnetic field that the charge carriers constantly run in circles, thereby achieving a reduction in the dimensions of the arrangement will.

Such arrangements serve firstly for atomic fragmentation or the like Try and find in which charge carriers of very high energy are required further application in the generation of secondary electrons.

In all previously known arrangements of this type, a field is used in which the potential remains constant at individual points or in which a single potential Traveling wave to accelerate the particles is sent through the arrangement. To In contrast to the invention, a rotating electrical field is used. Through this the advantage is achieved that the insulation difficulties as a result of the division the voltage are significantly reduced and thus higher final energies of the charge carriers can be obtained.

Some embodiments of the arrangement are shown in the drawing the invention shown for example. The arrangement according to the invention is different outwardly differ from the simplest known arrangements in that they correspond to the character normally at least three electrodes are used in accordance with the rotating field. In Fig. I are tubes 1, 2, 3, q. etc., of which the first three tubes 1, 2, 3 are placed on the phases of a three-phase current source 5. With the other tubes this circuit is repeated. Potential waves are constantly planting on them continued in the tube system. An electron coming from the left in the right one Phase enters the Röhrc 'h system, is after correct dimensioning of the System and suitable choice of the alternating frequency in a known manner takes place, experience a permanent acceleration.

To shorten the arrangement, it is useful in this case too to make a circular guidance of the electrons. Included you tann this Guiding in a circle either by a magnetic or by a suitable electric one Field that keeps the centrifugal forces in equilibrium.

Figs. 2 and 3 show two such arrangements with one superimposed magnetic field perpendicular to the plane of the drawing; as with the known arrangements with magnetic circuit guidance, the charge carrier is also here as a result of the increasing Describe the speed of a spiral path.

According to Fig. 2, the electron trajectories run within a cylinder, which is divided into three sections 6, 7, 8, each on a phase of the three-phase power source 5 lie. According to Fig. 3, the electron trajectories run in the spaces between Pairs of plates 9, io, ii, which also each lie on a phase of the three-phase current source 5. In both Fig. 2 and 3 a magnetic field is to be thought of, whose lines of force are perpendicular run to the plane of the drawing. Of course it is not necessary for the rotating field to use just three electrodes, but you can also use four or more electrodes, both in straight lines and in circles, an even more uniform one Cause an increase in speed.

Claims (6)

PATENT CLAIMS: i. Process for energy storage of charge carriers, the gradual when passing through electric fields connected in series are accelerated, characterized in that an electrical three-phase voltage with three or more phases are used. 2. Order to exercise the procedure according to Claim i, characterized in that the acceleration of the charge carriers causing electrodes are arranged one behind the other along a straight line. 3. Procedure according to claim i, characterized in that the electrons by the action of a superimposed magnetic field are guided in a circle. q .. Method according to claim i, characterized in that the electrons are superimposed by an electrical Field to be led in a circle. 5. Arrangement for performing the method according to claims 1, 3, q., Characterized by a cylinder divided into three or more sections is divided, each of which can be applied to a phase of a three-phase voltage, so that the electrons under the action of the parallel to the cylinder axis Magnetic field on the one hand and the three-phase voltage on the other hand within the cylinder Describe spiral trajectories. 6. Arrangement for performing the method according to claims 1, 3, q., Characterized by two plates arranged one above the other, which are divided into three or more segments are divided, each of which is connected to a phase of a three-phase voltage can be placed so that the electrons are under the action of the perpendicular to the Plates running magnetic field on the one hand and the three-phase voltage on the other hand between Describe spiral tracks on the two plates.