DE814763C - Electron tubes with a shield and a trimmer capacitor - Google Patents

Description

Electron Tube With a Shield and Trimmer Capacitor In general, in the use of electron tubes, it is of the utmost importance that each tube be replaceable by a tube of the same type without any modification to the apparatus in which the tubes are used . The electron tubes can be manufactured with modern methods in such a way that almost all essential characteristic sizes of several tubes of a single type are the same within very narrow limits. However, it has been found that with regard to the capacities between the electrodes and with regard to the surrounding individual parts of the apparatus, the permissible deviations are so small that the production of easily interchangeable tubes in the mass production without the expense of very high production costs is almost impossible. This is especially true for tubes intended for short wave purposes. It has already been proposed to provide electron tubes with so-called trimmer electrodes or trimmer capacitors in order to completely equalize the capacitances in tubes of the same type. To carry out this trimming, the supply lines of two electrodes are connected to coatings attached to the end plate of the tube; by mechanical processing, e.g. B. Scraping the coverings, their capacities are brought to the desired value to each other. This processing requires great skill, which naturally increases the cost of the tube significantly.

According to the invention, the electron tube is provided with a shield and includes a trimmer capacitor extending in part from the piston wall and space partially delimited by the shield.

Where here and is discussed in the following by the shield of the tube, is so-well including an electrically conductive coating which may be fixedly attached to the tube wall, for example. B. by the spraying process, as well as a conductive sleeve that is clamped pushed onto the tube. This is also to be understood as a covering that is optionally attached to the underside of the tube, where the supply lines for the electrodes are insulated. For discharge tubes with a flat bottom, the latter part of the shield takes the form of a bowl with openings for the feed lines. In either case, the shield forms an integral part of the tube. However, it does not need to cover the entire tube wall and can also extend over part of the latter.

With an electron tube designed according to the invention, significant advantages are achieved over the above-described known tubes with trimmer electrodes. By attaching the trimmer capacitor in the space described, the capacitance is not influenced by the hand of the person performing the trimming when adjusting the capacitor. Another major advantage is that the trimmer capacitor can be attached without dust and is protected against mechanical damage. The tube, once trimmed, therefore always retains the same constants during operation. 'Further, the shield prevents that the trim is influenced by fields outside the tube. This is particularly important when the tube is placed in the tube holder, since each tube holder has some influence on the capacities of the contact organs and thus on the electrode capacities. With a tube designed according to the invention, the influence of the tube holder on the capacitances is completely eliminated.

In the known tube with trimmer electrodes described above, which consist of a conductive layer on the bottom of the tube, it is not possible to afterwards to attach a shield to the underside of the tube, as it is through this shielding would greatly change the capacitance that has already been set.

There are many possible designs for a trimmer capacitor, which can be used in an electron tube designed according to the invention. The dimensions of the capacitor are very important as one is the dimensions of the tube preferably to keep it as small as possible. Since it is only about readjustment If the capacitance is very low, very small capacitors are actually sufficient the end. These can therefore easily be attached between the shield and the piston will.

In a particularly advantageous embodiment of the invention a coating of the trimmer capacitor connected to the shield. As a special one In the case of this embodiment, a type is to be considered in which a part of the The shield itself serves as one of the capacitor plates. For very short waves this embodiment is generally not used; as it is then desired is to connect one of the plates of the trimmer capacitor directly to the cathode.

In a further embodiment, one of the surfaces of the trimmer capacitor formed by a part of the supply line of the electrode, the capacitance of which is regulated must become. This type of construction is very simple, since then only one additional Electrode for the capacitor is required.

In another embodiment of the electron tube according to the invention, the tube is provided with a so-called flat bottom at the bottom. This is to be understood as a more or less plate-shaped closure of the tube, which does not need to be mathematically flat, but can contain some grooves, edges or projections. If this tube provided on its underside with a shield, the trimmer capacitor is preferably provided between this shield and deth tubesheet. Is the trimmer capacitor. Connected to the shield on one side, the type of construction in which part of the shield forms one of the condenser coverings can be used very advantageously.

The moving part of the trimmer capacitor can be connected to the supply line, whose capacity is to be regulated, as well as with the other electrode with which the Capacitor is connected, e.g. B. the shield connected. The latter embodiment offers the advantage that the moving part is at a fixed potential and therefore not trimming through the use of a tool, e.g. B. one Screwdriver to adjust the trimmer capacitor.

In a particularly advantageous embodiment of the invention the moving part of the trimmer capacitor is formed by the dielectric. This means, that there is a solid dielectric between the conductive layers of the trimmer capacitor is located, which can be brought more or less between the plates; the hallway then consists partly of air and partly of the solid insulating material.

In a further embodiment there is one electrode of the trimmer capacitor from a conductive rod or strip connected to the feed line of the to be trimmed Electrode is connected. You can also use one of the pads on the trimmer capacitor on the insulating wall of the tube around the lead of an electrode and in electrical Make contact with the latter.

To prevent the movable capacitor part from shifting after trimming to fix, a putty can be used; this mode of fixation is in itself already known.

The invention is explained in more detail using a few exemplary embodiments, which are shown schematically in the drawing.

The figures show part of a tube that is fed by a flat bottom plate is completed, the z. B. by amalgamation on Pistons is attached. One of the electrodes j is with the shield in all figures tied together. However, the invention is by no means restricted to such tubes.

In Fig. I the trimmer capacitor is a tube trimmer; In Fig. 2, part of a feed line simultaneously forms part of the trimmer capacitor. The same is also the case with the embodiments according to FIGS. 3, -1 and 5; In Fig. 6 the trimmer is a wire trimmer, while in Figs. 7 to 13 there are shown trimmers consisting of two or more parallel plates.

The glass wall i of the tube is closed off by the glass bottom 2, in which the supply lines 3 of the electrode system (not shown) are attached in a vacuum-tight manner. The tube piston is surrounded by a metal sleeve 4, which connects at the lower end to the NIetallschüssel 5 , which shields the tube at the bottom. The supply lines 3 are passed freely through the openings 6 of this bowl 5 . At the feed 3 there is a cross bar 7, which is at 8 z. B. is attached by Putik welds. The rod 7 is surrounded by an insulating bushing 9 which is fixed on the rod 7. The insulating bushing 9 is surrounded by a metal bushing to which is pushed onto the socket segment in a sucking manner and is connected to the shielding section 5 by means of a flexible line at ii. The flexible line is passed freely through the opening 12, so that the socket to can also be displaced on the socket 9 through the opening 12 with a fine tool. Because a larger or smaller part of the socket comes to lie opposite the rod 7 in this way, the capacitance of the electrode connected to the lead-through line can be adjusted within certain limits.

In FIGS. 2 to 13 inclusive, corresponding parts of the electron tube are indicated with the same bezugzifferti.

Fig. 2 shows part of a tube in which a trimmer capacitor of a very simple design is located between the glass cover plate and the bowl-shaped shield. It consists of a curved plate 13 which is attached to the bowl 5 at 14. A part of the supply line 3 serves here as the counter electrode for the plate 13; through the opening '12, the plate 13 can be bent more or less to the line 3 with an instrument.

111 Fig. 3 shows a portion of a tube in which a twist trimmer is used. The trimmer consists of a lead wire 15 which is helically wound onto the insulating sleeve 16. The socket 16 surrounds the supply line 3, part of which therefore serves as a capacitor layer. The free end of the wire 15 is passed through the opening 12 and is attached to the bowl-shaped shield at t i. If the part of the wire 15 passed through the opening is pulled, the socket 16 will rotate around the supply conductor 3 , so that part of the wire is unwound and the capacitance of the capacitor becomes smaller. The wire 1 5 can be attached to the socket 16 in a known manner by means of a thin layer of lacquer. For better rotation around the conductor 3 , a second socket can be attached between the latter and the socket 16.

In FIG. 4, the trimmer capacitor consists of a socket with a rim 17, which is attached so as to be displaceable around the supply line 3. Between the line 3 and the socket 17 there is an insulating material 18, which can consist of any plastic material that becomes solid through local heating or z. B. hardened in air. The socket 17 is connected to the shield 5 at 19 . The second electrode of the trimmer capacitor is formed by a conduction layer 2o which is attached around the supply conductor 3 on the tube base 2. The line layer 2o can z. B. consist of a glued-on metal foil or a silver plating on the tube base 2. It is attached in such a way that it is in electrically conductive contact with the supply conductor 3 . By shifting the socket 17 along the supply conductor 3 by means of an instrument passed through the opening 21 of the bowl 5 , the capacity of the trimmer is adjusted.

In Fig. 5 , a part of the supply conductor 3 forms the one surface and the BuchSe 22 the other surface of the trimmer capacitor. A deformable material 23 is located between the two electrodes. The socket 22 is connected at 24 to the shielding -1. The trimmer capacitor is brought to the correct value by deforming the bushing 22, for which purpose the material 23 must be preformable. Preferably any material is chosen for this which becomes hard after machining, e.g. B. a hardening putty. Since the deformation must be effected by means of pliers or a similar tool, this type of construction is less suitable for a tube in which a bowl-shaped shield is used. In order nevertheless to achieve a shielding of the leadthrough conductor 3 , the socket surrounding the tubular piston is allowed to protrude downward.

In Fig. 6 there is shown an embodiment in which a wire trimmer is used; #This is but, in contrast to the embodiment according to Fig. 3, on a cross bar 2 ', which is attached to the feeder conductor 3. The wire is led to the outside through an opening 12 and attached to the shield at ii. Since in this case the direction in which the wire is pulled during trimming is the same as that of the electrode 25, the insulating tube must naturally be secured firmly on the pin 25 or at least against being pushed off by the latter.

In Fig. 7 , a coating of the trimmer capacitor consists of a conductive plate 26 which is attached to the supply line 3 and is displaceable along this line. Part of the shield 5 serves as the other trimmer pad. By shifting the plate 26 , the capacitance of the latter and thus of the electrode to be trimmed with respect to the shield 5 can be adjusted. Moving along the conductor 3 can, for. B., by means of a tool passed through the opening 27. An insulating plate 28 can be attached between the plate 26 and the shield 5. The dielectric of the capacitor consists partly of air and partly of another insulating material. In this design, good contact between the line 3 and the plate 26 must be ensured.

FIG. 8 shows a modification of the type according to FIG. 7 , in which the plate 26 is adjusted not by sliding but by rotating. For this purpose the conductor 3 is screw-threaded at 29, as is the hole in the plate 26.

Fig. 9 shows an embodiment of a trimmer capacitor which involves almost no enlargement of the tube size. One coating of the trimmer capacitor consists here of a coating 3o of the tube base, which is provided around the supply conductor 3 and in electrical contact with the latter. The other electrode of the capacitor is formed by part of the shield 5 . An insulating plate 31, which can be rotated around the conductor 3, is located between the two coverings. As a result of the special shape of this plate and the shape of the conductive coating 3o, a larger or smaller part of the latter can be brought between the capacitor coatings by rotating the plate. The air dielectric is replaced by the insulating plate, which results in a change in the capacitance of the capacitor. Since the shape of the plate 31 and the covering 30 can be chosen as desired, a certain way of changing the capacitance can be achieved. In this figure and in Fig. 10, which shows the bottom view of the trimmer capacitor, it is also indicated how the plate 31 is accessible through an opening 32 in the tube wall. B. created by the milling away a small portion at the bottom of the screen, as shown diagrammatically in Fig. 13. The particular advantage of the design according to FIGS. 9 and 10 lies first in the extremely small dimensions and also in the fact that an insulating part is rotated here. A good? Contact with the solid capacitor layer is therefore always guaranteed. In a special embodiment of this capacitor, openings of a certain shape can also be made in the insulating plate 31. .

In Fig. Ii an embodiment of a trimmer capacitor is shown in a tube designed according to the invention, in which the movable part, the rotor of the capacitor, consists of a line plate 33 which is rotatably mounted around the feed line 3 and in electrical contact with the latter. An insulating disk 34 with an opening 35 of any shape is located between this plate and the shield, part of which serves as a second capacitor plate. As can be seen from the top view of the capacitor in FIG. 12, the conduction plate 33 has approximately the shape of a semicircle. By rotating this plate, which can be effected through the opening 12, the opening 35 in the plate 34 is more or less covered, so that the capacitance of the trimmer capacitor changes. With this type of construction, proper contact between the plate 33 and the supply conductor 3 must again be ensured. In a special embodiment, not shown, the opening can also be made in the shielding cavity serving as a covering for the trimmer capacitor. By rotating the plate 33 through the washer 34, which then have no opening br Auchter ', the total area of opposing capacitor plates is changed, resulting in a change in capacitance.

The embodiments of tubes designed according to the invention shown in FIGS. 1, 2, 4, 7, 8, 9, 10, 11, 12 and 13 offer the particular advantage that the movable part of the trimmer capacitor can be adjusted in two directions. The correct position can therefore be determined very precisely by moving it back and forth.

Claims (2)

PATIENT CLAIMS: i. Electron tube with a shield and a Trimmer capacitor, characterized in that the capacitor is partially from the piston wall and partially from the shielding space is located. 2. electron tube * e according to claim i, characterized in that one of the linings of the Trimmerltondensators is connected to the shield. 3. Electron tube according to claims i or 2, characterized in that one of the coatings of the trimmer capacitor is formed by part of the supply line of an electrode. 4. Electron tube according to claims i or 2, characterized in that one of the coatings of the trimmer capacitor is formed by part of the shield. 5. Electron tube according to claims i, 2, 3 or 4, characterized in that the movable part of the trimmer capacitor consists of the coating connected to the supply line. 6. Electron tube according to claims i, 2, 3 or 4, characterized in that the movable part of the trimmer capacitor is formed by the dielectric. 7. Electron tube according to claims i, 2, 3 or 4, characterized in that the movable part of the trimmer capacitor consists of the covering connected to the shield of the tube. 8. Electron tube according to claims 1, 2 or 7, characterized in that one of the linings of the trimmer capacitor consists of a conductive '. #, Valley) or strip which is connected to the supply line of an electrode. G. Electron tube according to Claims 1, 2, 3, 4, 5, 6 or 7, characterized in that one of the lengths of the trimmer capacitor consists of a conductive layer which is placed on the cell around the supply line of an electrode and in electrical contact with The latter is attached. io. Electron tube according to claims 1, 2, 7 or 8, characterized in that the trimmer capacitor consists of a transverse rod attached to one of the supply lines, a dielectric attached coaxially to it, and a sliding conductive socket attached around the latter, or . Ring, which is connected to the shielding of the tube. - leltrotietirölire according to claims 1, 2, 7 or 8 ,. a dielectric applied coaxially with it and a line wound helically onto this dielectric, which is connected to the tube shield unrelated. 12. Electron tube according to claims i, 2, 3 or 7, characterized in that the trimmer capacitor consists of a dielectric attached coaxially to a supply line and a helically wound line on it which is connected to the tube shield. 13. Electron tube according to claims i, 2, 3, 4 or _ #, characterized in that one of the coatings of the trimmer capacitor is formed by a part of the tube shield and the other coating is formed by a conduction layer which is invariably parallel to the first capacitor coating perpendicular to it a supply line is displaceable or adjustable in a screw-wise manner, the dielectric being made up of air or partly of air and partly of another insulating material. 14. Electron tube according to claims T, 2, 1 4 or 5, characterized in that one of the linings of the trimmer capacitor consists of a part of the Röhreiiabschirmung and the other IMag ans an electrically conductive plate rotatable about a supply line, which consists of the first capacitor lining is separated by means of an insulating plate, the shape of this plate and the movable capacitor plate being such that a larger or smaller part of the latter is brought over the insulating plate by rotation of the plate. 15. Electron tube according to claims i, 2, 3, 4, 5 or 14, characterized in that the insulating plate has at least one opening which is more or less covered by a rotation of the rotor of the capacitor. 16. Electron tube according to claims i, 2, 3, -1 or 6, characterized in that one of the coatings of the trimmer capacitor consists of a conductive layer which is attached to a supply line and in electrical contact with the latter on the tube wall, and the Another coating is formed by a part of the tube shield, with an insulating plate between the two capacitor coatings, which, with the feed line as the axis, can be brought more or less between the two capacitor coatings by turning. 17. Electron tube according to claims i, 2, 3, 4 or 5, characterized in that the rotor of the trimmer capacitor consists of a conductive plate rotatable about a feed line, and the stator is formed by a part of the tube shield in which at least one Opening is located, which is more or less covered by a rotation of the rotor. 18. Electron tube according to one or more of the preceding claims, which consists of a venting insulating vessel containing the electrode system with a flat bottom in which the supply lines of the electrodes are attached, and a shield consisting of a metal socket and a metal bowl connected to it consists, through which the supply lines are conducted in isolation, characterized in that the trimmer capacitor is located between the tube bottom and the metal bowl and the movable part of this capacitor is adjustable through an opening in the socket or in the bowl. ig. Electron tube according to one or more of the preceding claims, characterized in that the movable part of the trimmer capacitor is fixed by cement.