DE432277C - DC influenza machine - Google Patents

Description

DC inflation machine. Forming the subject of the invention Direct current influence machine is characterized by the elimination of the previously used for each influenced disk required multiple current collectors, which according to the invention is achieved in that the influenced disks stand still and the same potentials Discs are connected to common contact pieces of the collector. the rotating, influential disks then only need one grinding brush per pole. This training also enables a simplified training of the collector itself, which in the present case each pole consists of an or, for the purpose of reduction of the potential between the individual components, including several circulating ones Disks with a number of contact bodies corresponding to the number of poles of the coating on the disks consists of the fixed contact pieces connected to the influenced disks slide past and partly the compensation connection of the influenced discs and on the other hand make their connection to the conductor.

The drawing illustrates an embodiment of such Influence machine with unipolar charged disks, shown schematically in Fig. I diagrammatically and in Fig. 2 in plan view, likewise schematically.

Each half of the machine consists of at least one rotating, influencing disk d, which is arranged between two fixed disks b1 and bz to be influenced. The disks a and b are evenly provided with coverings p, which are arranged at the same spacing from one another and have such width dimensions that the coverings and the gaps between them are approximately the same size. As shown in Fig. I, the disks a and b are most expediently formed from metal plates subdivided in radial form and encased by a dielectric, since this design is the most favorable from a mechanical point of view as well as with regard to the harmful capacities. The sectors of two associated disks b are, as can also be seen from Fig. I, offset from one another by half a division, so that the teeth of one disk b are opposite the tooth gap of the other disk b. The disks a and b can now be arranged in any number of pairs on each pole side of the machine (see Fig. 2); In Fig.2, for example, three disks a with two stationary disks b between them are arranged on each pole side of the machine.

The collector of the machine consists of the insulating disks c rotating with the exciter disks a with contact bodies d, for example balls embedded in the disks c. which each two opposing, fixed contact pieces e conductively connect with each other during rotation. According to the double arrangement of the disks b and their changing potential, there must be four contact pieces e and at least one such collector disk c with a number of contact bodies d corresponding to the number of poles of the pads p on each conductor side of the machine, regardless of the number of disks b. As indicated in Figs. I and 2, two adjacent contact pieces e are connected to the disk or disks b1 and the other two contact pieces e are connected to the disk or disks b2 and are also connected to the other conductor side of the machine. In order to increase the gap between d and e before contact is formed and to make the contact time longer and the interruption time shorter, it is advisable to connect two or more collector disks c on each side of the conductor; In Fig.2, for example, two collector disks c are shown on each collector side. The exciter disks a on the left in the sense of the drawing are constantly connected to one pole and the right exciter disks a to the other pole of the conductor k.

The mode of operation of the machine is now as follows. Assuming that the influencing disks a run to the left in the sense of Fig. R, their coatings p would move away from those of the disks b2 (Fig. I). so that with a unipolar negative charge of the disks a located on the left side of the machine this positive electricity to the contact piece e 'and with a unipolar positive charge of the disks located on the right side of the machine negative electricity to the contact piece e = and the disks b' on the left side of the machine, da their coverings approach those of the disks a. negative electricity to the contact piece e 'and the discs b' on the right side of the machine deliver positive electricity to the contact piece e4. As long as the contact bodies d of the collector disks c touch the contacts e 'to el, the contact pieces e' emit positive electricity and those e2 emit negative electricity to the conductor k. The electricity flowing to the contact pieces e 'and e4, however, «-grounds balanced. If the disks a move beyond the congruent position with the disks b ' , the plates b' on the left side of the machine give positive and on the right side of the machine negative electricity to the contact pieces e5 or e ° and thus to the conductor k and the disks b2 to the left of the Machine negative equalizing electricity to the contact piece e "and to the right of the machine positive equalizing electricity to the contact piece e8 for the duration of the contact formation through the contact discs c. The contact pieces e are now arranged in such a way that; shortly before the coatings on the discs a with those of the cover a disk b and are located opposite the gaps in the other disk b, i.e. the capacities on the one hand their maximum and on the other their minimum and thus the potential on the one hand reaches its minimum or its maximum, the interruption takes place through the contact body d. It thus occurs of each partial rotation corresponding to the number of teeth or poles of the linings p the influencing disks a have a complete influencing effect, and indeed each time in accordance with the total capacity inherent in the coatings p of each disk, so that the material of the machine is largely utilized. The number of poles in the linings depends on the size of the disks. So that the entire charges of the influencing disks are not lost during the discharges of the conductor, semiconductors can be used to supply current to them, which do not immediately give up the entire charge of the influencing disks during the discharges.

Claims (3)

PATENT APPROVALS: i. Direct current induction machine, characterized in that by the influence of circling exciter disks (a), which suitably consist of star-shaped metal plates, from appropriately designed, stationary disks (b ', b2) alternating amounts of electricity of opposite polarity are discharged and that these amounts of electricity are discharged with the help of a collector (c, d, e), whose resting contacts (e 'to e8) are partly connected to the resting, influenced disks (b', b2), partly to the two conductor balls (k) and whose moving contacts (d) are connected to the Influence machine are driven in such a way alternately supplied to the conductor balls (k) and brought to equilibrium with each other, that one of the two conductor balls (k) is always charged positively and the other negatively. 2. Ausführungsforrn according to claim i, characterized in that the collector (c, d, e) for each pole consists of a rotating disc (c) with a number of contact bodies (d) corresponding to the number of poles of the linings, which on both sides the disc (c) arranged, resting contacts (e 'to e $) slide past. 3. Embodiment according to claim 2, characterized in that -the collector (c, d, e) consists of several rotating disks (c) for each pole, the contacts (d) of which connect the stationary contact pieces (e) one behind the other.