DE535863C - High performance shortwave transmitter - Google Patents

Description

GERMAN EMPIRE

ISSUE Al
OCTOBER 15, 1931

REICH PATENT OFFICE

PATENT LETTERING

M 535863 CLASS 21a ⁴ GROUP

C. Lorenz Akt-Ges. in Berlin-Tempelhof

Short wave transmitter with great performance. Patented in the German Empire λοιτι November 6, 1930

It is known that difficulties arise in the case of transmitters for shortwave with high power in that the inner tube capacities in the tuning of the oscillation circuits have a say in the matter. It is therefore not possible to use any number of tubes in parallel to achieve high performance switch, since the inner tube capacitances connected in parallel add up. Through this the self-induction value of the necessary coils still available for tuning is so small that the Coils can no longer be dealt with structurally or there is insufficient coupling more can be achieved with inductive coupling arrangements. One must therefore in all these cases to special circuit arrangements grab, one of which is shown for example in Fig. r. It is only purely schematically the output stage of a transmitter for high outputs with eight tubes shown, for the sake of clarity only the anode circuit is shown. The tubes are labeled 1 to 8 and in a special circuit arrangement switched so that two tubes (1, 2; 3, 4...) are connected directly in parallel. in the Otherwise, the connection is made via the self-induction coils 9 to 12 and the capacitors 13 and 14. The capacitors 13 and 14 are of known design arranged so that within two fixed plates or plate sets' a third Plate is rotatably arranged. At the same time there are also neutralization capacitors 15, 16, 17 and 18 available that match the Capacitors 13 and 14 have common assignments. Through the inductance 19 takes place the decrease in the generated vibrations in that the same with the Coils 11 and 12 is inductively coupled. the Anode voltage is applied at point 20. It is of course possible to have one here Suitable choke or resistor arrangement between the inductances 9 and 10 or 11 and 12, through which the anode voltage is the electrical center point is fed.

When constructing such a transmitter arrangement, however, arise during use the previously common construction method using racks in which the tubes or the voting means are housed, difficulties because on the one hand the capacities against Earth become very large due to the metal parts necessary for the frame construction, on the other hand the requirement for short connecting lines already indicated above is not met can be. The object resulting therefrom is thereby achieved according to the invention solved that all current-carrying parts (tubes, capacitors) through a Column of insulating material common to all parts are supported. Any additional Support structures made of metal are omitted in the arrangement according to the invention.

The subject of the invention is initially on

58586a

Hand of the example Figs. 2, 3 and 4 explained. In the illustrations one and the same transmitter is in two different side views and shown in a top view. The individual parts have the same reference symbols provided like their symbols in Fig. i. On a foot 21 made of insulating material (preferably stoneware or porcelain) rests a column according to the invention

22. It is of course possible to form the parts 21 and 22 in one piece. In the example shown, the walls of the foot 21 act as water resistances at the same time designed for the anode cooling water. For this purpose are in the round Body incised spiral flows for the cooling water. The cooling water is at the point 23 fed or discharged and by the spiral-shaped only indicated by the scliematiscli Channels fed to the individual tubes. At the top there are connections for this purpose 24 and 25 are provided with the anodes of the tubes. The tubes themselves are mounted directly on the fixed plates of the anode tuning capacitors 13 or 14, so that additional connection lines between the anode cooling jacket and the fixed plates of the capacitors are omitted come. The capacitors themselves are attached directly to the column 22. To this The purpose of the column 22, as can be seen in particular from the top view of Fig. 4, is Arms 26 to which the capacitors are attached directly. The shafts of the rotors are directly at points 27 in the insulating material! stored. So the result is a very crowded one Construction without the use of special connecting cables. The movement the rotors take place with the help of a worm gear drive operated by a common shaft. Because the Put solid plates of the capacitors parallel to each other, the distance between the capacitors are reduced from one another and is essentially only determined by the thickness of the arms 26. The neutralization capacitors are attached to the arms in the same way as in particular from Fig. 3 can be seen. The plates 29 of the anode circuit capacitors are as above already indicated, together with the fixed plates for the neutralization capacitors. The coupling coil 19 is also rotatably mounted in arms 31 made of insulating material. A roof-shaped one is used to shield the anode circles from the grid circles Shielding plate 32 is provided, which is mounted in the upper part of the column 22. Around The outer edge of the sheet metal can be used to enable the tubes to be replaced be folded up by hinges. The head 33 of the column in turn has arms, in which the grid circle capacitors and grid circle tuning means are stored, however this storage is only indicated schematically in the figures. Appropriately Of course, the head will not be made from one piece with the column, but put them together. The inside of the column is, as can be seen in Fig. 4, Hollow designed around the power supply lines (anode voltage) inside up the step.

Claims (6)

-Patent claims: 1. High power short wave transmitter, characterized in that all current-carrying parts (tubes, Capacitors) arranged on a single column of insulating material (porcelain) are. 2. - Short wave transmitter according to claim 1, characterized in that the foot of the column was designed as a water resistance for the anode cooling water. $ 5 3. Short wave transmitter according to claim 1, characterized in that the capacitors, to which the anodes of the tubes are attached directly, are attached to the column in such a way that the. Capacitor plates stand parallel to each other. 4. Short wave transmitter according to claim 1,. Characterized in that the insulating material column Arms in which the axes of rotation of the tuning means (capacitors, Coils) are stored. 5. Short wave transmitter according to claim 1, characterized gekennzeiclmet that the column is designed to be hollow in the interior for the purpose of passing through the power supply lines. ... 6. Short wave transmitter according to claim 1, characterized in that the head the column carries a shielding plate that separates the anode circles from the grid circles. 1 sheet of drawings