DE500315C - Base for multiple cathode tubes - Google Patents

Description

In today's reception and amplifier technology, tubes are used in which several systems are combined in a vacuum container. The sockets for such tubes are substantially improved by the present invention. Various types of socket are known. In one group of these sockets, all of the contacts are arranged on a circle periphery. A second category also uses a circle periphery to accommodate the contacts, but also provides a further contact in the center of the circle. In the case of tubes with three, four or more systems, if one wanted to maintain approximately the same distance between the contacts as with two systems, for example, the diameter of a base would be considerably larger at the circumference of its base area than is normal today, or would have to be if one did not want to go significantly beyond the normal dimensions, reduce the spacing of the connector pins. In the first case one would have to adapt the bell of the tube to the size of the base, also for reasons of beauty, and thus make it considerably too large unnecessarily. In the second case, when the contacts are moved close together, other disadvantages would arise. With a relatively large number of connector pins at a short distance from one another, there is a significantly higher risk that the relatively thin base made of Bakelite or other molded material, from which the sockets for cathodes are normally made, will be damaged when the tube is inserted and removed from the socket. so that, for example, a piece of the ground or a pin is broken out of this. There is also the disadvantage that with many plug pins arranged on a circular periphery it is difficult to overlook which plug pins belong to the sockets of the socket, ie how the socket has to be inserted into the socket. Thus, injuries and destruction of the thread can easily occur if the heating plug pins are inappropriately brought into contact with the anode voltage, for example. The present invention also avoids this disadvantage in particular, in that it attaches the hook contacts to the diameter of a circle periphery on which the contacts for the cold electrodes (grid and anodes) are arranged. According to the invention, both the heating contacts and the contacts for the cold electrodes are arranged in pairs in their mutual position so that mix-ups of the heating contacts with the contacts for the cold electrodes and the systems among themselves are excluded. An embodiment of the invention gives us the Fig. I. It represents the base or the socket of a triple tube in elevation. The two heating contacts H ¹ and H ' lie on a diameter D of a circle, and are at the same distance from the center M. A circle K is in three arcs of the

Length - divided. Within such a

Arc are two contacts for the cold electrodes a ¹ a ?, b ¹ b ² , c ^% c ^z from the ends of the arc at the same distance, so that each of the three contact pairs is the same distance I from the other two The diagonal on which the heating contacts lie is placed in such a way that it separates the two individual contacts of a contact pair symmetrically from one another the usual frame (at least 9 mm) and still be able to clearly separate the individual groups of contact pairs on the periphery: the position of the heating contacts on the diagonal and the asymmetrical position of the contact pairs for the cold ones!

ao electrodes on the circle periphery when inserting the tube into the Socket easily gives an overview of the connector pins and allows for multiple attempts Avoid when inserting into the socket. In Figs. 2 and 3 is a Base according to the invention reproduced to scale. It can be seen from this that its dimensions are only slightly larger than with a base for normal three-electrode tubes.

In the same way as for triple tubes, the invention is also applicable to Quadruple and quintuple tubes. 4 and 5 are sockets for the quadruple and quintuple tubes specified in accordance with the invention. Accordingly, the contacts for the cold electrodes are again on one Circular periphery attached.

In Fig. 4 the circular line is divided into

Pieces to - on which in equal Ab

stand from the ends the contacts a ^% a ² , b ¹ b ² , c ¹ c ² are arranged. The diagonal on which the heating contacts lie separates two pairs of contacts on the periphery α ¹ α ² and c ¹ c ² , so that the individual contacts are symmetrical to it. So it goes through in the middle between the contacts a ¹ a ² and c ¹ c ^2. In order to achieve the uniqueness of the contacts according to the invention, the heating contacts H ¹ , H ^{& are} no longer the same distance from the center point Ii, but are arranged at different distances g ¹ and g ² from it.

In the five-way socket of FIG. 5, ten contacts are on the periphery and the two are Heating contacts on a diagonal. Here i is the periphery of the circle in five equal Elbow pieces in length - divided. the

Pairs of contacts, as described above, are equidistant from the end points of this arc. The diagonal, on which the heating contacts are in turn at the same distance from the center, divides one of the five identical arc pieces into two identical parts, so that the two contacts a ^x a ² of one contact pair are symmetrical to it.

The invention is of course intended in the same way for bases and sockets. In the exemplary embodiment, the contacts, as can be seen from the drawing, are through normal, slotted pins, as they are customary in the known European socket. It should be expressly noted that their type and form are of no particular importance for the invention.

It is also particularly noted that the invention also applies to tubes with more than three Electrodes can be used, for example, on double grid tubes or tubes with indirectly heated cathode. In the first category, the contacts for the first grid, the second grid and the anode groups lying on the circular line. In the second-mentioned type of tube, the connection for the cathode is with the contacts for the radiator on the diagonal, for example, expediently in the center of the Circle.

Claims (1)

Claim: Base for multiple cathode tubes, in which the leads to the electrodes end on a base plate provided with contacts, characterized in that that the paired contacts for the cold electrodes on a circle periphery, according to the number n pairs of contacts in each case on an arc of Length, from the ends of the associated circular arc are attached the same distance and that the heating contacts on a diameter to the circle periphery in equal (with three- and five-fold tubes) or in unequal (with fourfold tubes) distance from the center of the circle are arranged and that also the diameter on the the heating contacts are located, the contacts at least one on the circle periphery lying contact pair separates. 1 sheet of drawings