PL6004B1 - A method of transferring electricity. - Google Patents

Description

The subject matter of the present invention is a method of energy transmission which makes it possible to superimpose on an electrical system already existing in a given network another electrical system. According to the invention, the primary transmission line may form part of a complex electrical network. This line may be run by constant or alternating currents of low frequency and any voltage or voltage in some high parts, but in low parts, the imposed energy is fed to this or that part of the network while switching off other parts, so it can be carried out from high voltage wires to low voltage wires or vice versa if necessary. The distribution of energy is completely independent of the primary energy that already exists and can be used in a wide variety of practical applications, such as for the transmission of thoughts by means of signs (telegraph, telephoto, teleautography, etc.) and images (telephony). , for activating devices (telemechanics) and for all other applications of electric energy, light, power, etc. The most significant characteristic of the method consists in the application of electric waves with a very high frequency, usually with a length of several decameters , for example, 50 m, up to the highest limits, for example, 1 meter, centimeter and t, d. Waves of this type have great selectivity and other advantages, as discussed below. And in the attached drawing, it schematically shows one of the methods of the invention, which is specific to the invention. s Very high frequency electric wave generator We combine the use of parallel or non-parallel VV cables with two strictly identical HH branches of the half wave vibrating antenna. This ensures maximum efficiency. The connection of this Ailtena II with a lilna carrying the electric energy L (followed by the basic current slal or of low frequency) gives in this wire 4 waves of very high frequency. A similar device makes any grounding superfluous which is very advantageous for the L network. The inductive connection does not need to be symmetrical, as we see in Fig. II, for example, the branches V-V are not equal. In Fig. III, these branches are even turned in opposite directions, and one of the H branches is located close to the ground. In the case of Fig. II on one side, the inclusion will be stronger than on the other, and in the case of Fig. III, the induction will take place only on one side, since one of the branches H runs alongside the ground. Branches V-H can be and finally facing in one direction and parallel to each other (fig. IV) and so that they are surrounded by a guide or guides belonging to the network. So if in a given case we select the active part of the branch in such a way that it contains an even number of half-wave lengths, we obtain the maximum density (concentration) of the field without any losses towards the ground. These losses, which are an unavoidable property of all systems known so far, are here completely eliminated. Instead of the HH antenna, any other method of feedback may be used, affecting a certain part of the (electrical) network, such as an antenna with earthing, auxiliary wheels or wires and the like acting on a specific part of the network. The waves generated in this way are returned to a given part of the salmonium, and this can be done by known methods, by means of self-induction and capacity of an appropriate size, electric screens or mirrors, etc. By using ordinary filters, it will prevent losses caused by the earth However, the inductive path, that is, by avoiding the antennas or rings (rings) forming the Inductive bridge, protects the passage of this superimposed energy from the High-voltage part (lilnji) to the low-voltage part, and vice versa. of short waves enable simple and very easy directing (canalization) by means of devices that can be used, and the circulation of these waves along the network does not interfere with the distribution or division of the primary energy. The superimposed waves can, of course, be modulated by one of the of known methods. Nondurring or receiving very short and perfectly directed waves, so you get either strong beam in two or one direction, or selectively receive a sharp fine tune. Since both branches of HH are completely the same and can be tuned to half the wavelength, this arrangement becomes possible with very short wavelengths. This arrangement may be entirely stationary or moving, it may be easily transported, and it may even be rotatably mounted for sending and receiving in certain directions. a patent covering the entire system described above at the same time. - 2 - According to the principles given above, the property of this high selectivity of short waves is exploited, receiving them by means of appropriate devices connected directly or inductively with the network. By changing the frequency of the waves, several power transmission systems can be created similar to each other or different, on one and the same network, or on networks having common parts and completely separate parts. change over time according to some specific law, which means that communication in the above way can be kept in the most complete secrecy. It follows that the networks carrying the signals using this system increase their efficiency to the utmost limits and they will be able to be used not only for ordinary but also for mobile connections, which will not trigger any disturbances in part or all of the circuits, or in any of the sections (energies) used. PL

Claims (1)

1. Patent claim. A method of transmitting electrical energy by superimposing on any electrical system another or other electrical system, characterized by using one or more sources producing very high frequency waves, usually tuned or changed at will by one or more antennas vibrating in relation to the source by half the wavelength and coupled to the network symmetrically or asymmetrically, but not grounded, and devices distributing superimposed fire waves. a filtering or resonant circuit (hindrance) intended to receive and use these waves in tuned apparatus. SocieteLerolle & Co. Deputy: K. Czempinski, patent attorney. To the patent description No. 6004. Fig. I. H V \ 6 * V ~ ^ -L R & l. // / ir G -L Fig. no. Fig. 17. * S /// S // S ///// l / J / Print by L. Boguslawski, Warsaw. PL