DE816427C - Heavy-duty ironless variometer - Google Patents

Description

Heavy-duty ironless variometer The patent specification 279302 has already made known variometers in which the self-induction is constantly changed by moving short-circuit conductors in the very close vicinity of the induction coil. The low: 1 position between winding and short-circuit conductors can be managed electrically by keeping the potential between the two in relation to the total potential of the arrangement as small as possible. The short-circuit conductors are kept at the same or almost the same potential at all times (so the turns have to be made to match. Voltage flashovers are avoided in this way.

The known embodiment appears to be favorable, in which the vario-reel coil consists of a flat wound spiral, and the short-circuit conductor as an adjustable Iris diaphragm, which is very close to the flat coil and parallel to it, is formed is.

At higher voltages of z. B. several thousand volts on the variometer coil However, the known arrangement does not meet the requirements because the Insulating support body for the induction winding through the on the edges of the short-circuit coil Occurring strong field crowded and the resulting spraying quickly gets destroyed. The variometer arrangement according to the invention avoids this drawback in that the special shape of the first immersed in the variometer coil Short-circuit winding part largely the electrical field between the two windings is equalized. Even due to the very large subdivision of the vario reel winding, which consists of several high-frequency strands connected in parallel is a cheap one Achieved potential distribution over the length of the coil and one in places particularly strong compression of the electric field between inner and outer winding avoided.

Accordingly, a heavy-duty ironless variometer that z. B. as Tuning means for high-frequency transmitters is used, constructed according to the invention in such a way that that the induction coil in the form of a large number of high-frequency strands connected in parallel wound on an insulating tube in screw turns directly next to each other, the beginnings of the individual high frequency strands on the circumference of one at one end of the insulating tube attached electrically conductive ring, both of the stranded wire connection as well as the supply and distribution of the high frequency high voltage, evenly distributed and connected at the other end of the insulating tube, so to speak, in the form a cap over the opening of the insulating tube are electrically reunited, that further inside the insulating tube with the smallest possible distance a second Insulating tube with groups of short-circuit turns made of high-frequency strands, which are distributed over the pipe length, movable and accurate in the pipe axis direction guided is arranged that after the end of the cap of the outer insulating tube Remove the horizontal short-circuit winding groups of the inner insulating tube in terms of diameter and are nested so that the outer edges of these winding groups cling to a basket-arch rotation surface and thus a cap, as it were form over the inner tube.

Embodiments of the invention are shown in Figs. I to 4. Fig. I represents the induction coil; i mean the insulator, 2 the split one High-frequency stranded winding, 3 distributed on the circumference of the connecting ring body 4 Beginning of winding 2 and 5, the end of the winding made up of the individual strands. Fig. 2 shows the immersion body of the variometer which can be moved in the coil according to Fig. I. It denotes 6 the insulating body, 7 the short-circuit winding groups with after the end of the cap to gradually decreasing diameter, the outer edges of which are about cling to an arched rotation surface. The mechanical guidance and type of movement of the immersion body according to Fig. 2 inside the induction coil according to Fig. i can be arbitrarily be executed and is therefore not shown in the drawing.

The invention achieves the following advantages: Through the subdivision the winding of the induction coil into many high-frequency single strands connected in parallel on the one hand the current carrying capacity is higher than he is because of the favorable heat dissipation concentrated winding and more evenly, on the other hand is the distribution of the Total potential very evenly over the length of the coil.

The ironless variometer according to the invention described is special It is fully utilized as an anode variometer in larger transmitters and can be used excellently. It is just as suitable as a grid variometer in large-scale transmitter construction.

To the one provided in the transmitter frame for the variometer described One solution to the inventive idea is to be able to keep space as small as possible the, claß the inner insulating tube of the Varionieters, so the immersion body, finite the Short-circuit winding groups divided into individual tubes with decreasing diameter on which one or more groups of short-circuit windings are applied and which can be telescoped into one another. This saves the rough the immersion body would otherwise occupy in the empty extended state if it, as shown in Fig. 2, would not be subdivided. Embodiments of the subdivided Type of immersion bodies show the ab '. 3 and 4.

Fig. 3 shows a multi-part immersion body, its individual Pipe parts 7 lic. 9 different diameters, so that they are as small as possible Distance from each other and from the induction coil i in Fig. I within this telescopic are telescopic. There are short-circuit turns on the individual pipe parts applied, which are not specifically shown. The upper one, roofed like a cap The end of the plunger coil is designed as in the case of the plunger body as shown in Figure 2. The guide linkage the spool must also be telescopic. The advantage of Execution according to Fig. 3 before that according to Fig. 2 is the shortening of the installation length of the whole variometer by at least half.

Fig. 4 represents a further improvement of the immersion body in this respect represents, as this can be pushed together much further than the one shown in Fig. 3 is because it is made of flexible material, such as B. Mipolam or a Polyisol) utylene mass, with embedded short-circuit, connection 7 and corresponding, already during manufacture Forming to be taken into account, which is a harinonika-like pushing together of the insulating tube is permitted. Also in this version of the immersion body is a Telescopically collapsible guide rods required.

Another advantageous development of the inventive concept is the application of a second winding on the fixed variometer coil, the z. B. can be used to generate a 1 @ etitralization voltage. Also this' winding is advantageously made from a large number of high-frequency strands connected in parallel manufactured. In order to achieve an as much as 180 ° in To produce phase-shifted voltage on the second winding, the coupling must be made as tight as possible between both coils. This can be done through this make that a highly elastic, highly insulating 'mass on this first N' tariometer coil applied or in the form of a tape made of 1'olN-isol> utvleu is wound over what the second coil is placed immediately. To keep the isolation as low as possible to apply, it is shaped like a wedge. d. H. at the highest The voltage applied to the parts carrying the coil is the strongest. This will the best degree of coupling is achieved.

Claims (1)

PATE NTAVSPRI; CHE: i. Heavy-duty ironless variometer, e.g. B. as tuning means for high-frequency transmitters, characterized in that the induction coil in the form of a larger number of high-frequency strands connected in parallel is wound directly next to one another on an insulating tube in screw turns, the beginnings of the individual high-frequency strands on the circumference of an electrically conductive ring attached to one end of the insulating tube, the Both the stranded wire connection and the supply and distribution of the high frequency high voltage are used, connected evenly distributed and electrically reunited at the other end of the insulating tube as it were in the form of a cap over the opening of the insulating tube, so that a second insulating tube further inside the insulating tube with the smallest possible distance with short-circuit winding groups made of high-frequency strands distributed over the length of the pipe, movably and precisely guided in the pipe axis direction, that the end of the cap of the outer insulating pipe closes lying short-circuit winding groups of the inner insulating tube decrease in diameter and are nested in one another in such a way that the outer edges of these winding groups cling to an arcuate surface of rotation and thus form a cap over the inner tube, as it were. a. Variometer according to claim i, characterized in that the inner insulating tube is constructed in several parts, that the individual tube parts are each provided with one or more applied groups of short-circuit turns and have alternating diameters in succession so that they can be telescoped into one another. 3. Variometer according to claim i, characterized in that the inner insulating tube consists of a flexible mass, for. B. Mipolam or a polyisohutylene, are introduced into the short-circuit windings made of high-frequency braid, is shaped such that it can be pushed together like a harmonica. 4. Variometer according to claim i to 3, characterized in that a second winding of a larger number of high-frequency strands connected in parallel is applied to the fixed variometer coil. 5. Variometer according to claim 4, characterized in that the second winding on the fixed variometer coil and is electrically so tightly coupled that there is a voltage rotated by i8o ° in phase with respect to the variometer coil voltage, which can be used as a neutralization voltage . 6. Variometer according to claim 5, characterized in that the fixed coupling between the variometer coil and the second coil is achieved in that a very elastic, highly insulating tape is wound directly onto the fixed variometer coil with increasing tension to the side, over which the second - Coil winding is laid. 7. variometer according to claim 6, characterized in that the insulating elastic band made of polyisobutylene insulating material, for. B. the substance known under the trademark nOppanol «.