DE890678C - Method for manufacturing a cathode frame - Google Patents

Description

(WiGBl. P. 175)

ISSUED SEPTEMBER 21, 1953

13087 VIIIc j 21 f

Addendum to patent 860971

The invention relates to electrical discharge vessels and in particular to manufacture the cathode structures for this.

With certain electrical discharge vessels, such as the well-known Fhiores, zeniz lamps, has ■ the cathode structure has a glass base with a pair of fusible wires in the longitudinal direction and in the protrude substantially parallel to each other, and at the ends of these Einmekdrraht a coiled one Katlhiodenidriaht is attached transversely or horizontally lies between the fuse wires. Such Expansions are made on Hoehleistutigsautonrnten manufactured. In addition, it has recently been proposed ^ to use a kafchode construction, where the cathode coil. extends lengthways or perpendicular to the foot. It Wound proposed to produce such structures that a short and a long Einmerzdrabt be designed in a suitable manner and let the cathode .at the ends of the monocular wires is attached so that it extends in the longitudinal direction of the foot. This procedure * was but not suitable for large-scale manufacture.

An object of the invention is to provide a method for producing a so-called

vertical cathode structure that is economical and is suitable for large-scale manufacture. Another object of the invention is the creation of a process for reshaping the structure through! successive work steps, which can be done by Hanid, but the also suitable for the narrow and secure formation on relatively simple devices are. Further objects and advantages of the invention

ίο will (result from the following Eiflzel description and the drawing.
In the drawing is

Fig. Ι a perspective view of a cathode structure in an intermediate stage of the manufacturing process;

FIG. 2 is a side view showing the structure of FIG. ι and the first of two bending the Sink wires in a suitable jig 'comprising operations;

Figure 3 is a top plan view of the arrangement of Figure 2;

Figure 4 is a perspective view of another tensioner showing the second Reshaping the structure;

Fig. 5 is a perspective view of the formed. Structure, and

Figure 6 is a similar screen showing the same structure with the screen attached.
According to the invention, a cathode structure of a more or less conventional type is preferably used, the cathode or filament of which is arranged transversely or horizontally between the Einmel'zd.räihten, and the melting wires are then formed by operations lying in a single plane, which dike * can be reproduced on devices of the type shown.

In Fig. 1, the structure shown has a conventional glass base 1 with a · half-hanging therefrom Pump tube 2 and a pair of fuse wires 3, 4, which run in the longitudinal direction of the foot and protrude substantially parallel to each other. A converted or double-wound wire cathode 5 extends transversely between the ends the Einmekdrraht 4, 3 and is clamped to this. This structure can be based on known foot automateji and it is essentially the same as certain structures previously used. The only difference is that the Einmekdrraht 3 and 4 are longer than usual, and ziwar are they much longer than the wire or the cathode 5.

FIGS. 2 and 3 show the first stage of the reshaping of the cathode attachment, with the upper one. Ends 6 and 7 of both fused-in wires 3 and 4, respectively be bent inwards. To prevent the two wires from hitting each other, the End of 6 directly to. Center bent while the end 7 is bent far enough away from the center, so that as does not hit the end of 6. During this operation, the wire or the Cathode 5 is bent, as can be seen better from FIG. 4.

The .. reshaping .der the upper ends of the Einmekdrraht can be done with the help of a Spannrrorrichtung, the shaping members are shown in Fig. 2 and 3 and which have a fixed Amiboss 8, the end recessed at 9 allows a bending of the wire 5. The structure winds with its Einischmekdrähitien 3 and 4 arranged on opposite sides of the anvil 8 and held in place by retaining bars 10 and 11, with the ends 6 and 7 of the fuse wires protruding over the notched end 9 of the amiboss. The ends 6 and 7 of the intermingled wires are then bent over the end of the Amibosses 8 by molding jaws 12 and 13, which are initially together with the jaws 10 and 11 ^! because of and then slide over them. The front foot 14 of the jaw 13 forms a small angle so that the wire end 7 is bent over to one side as shown in FIG. 3.

At dom next, shown in Figs Operation, the fuse wire 4 is bent in a plane that is perpendicular to Bend plane of the first operation (Fig. 2 and 3) is. The fuse wire 4 becomes one Loop 15 (Fig. 5) bent by almost 180 ° so that the cathode alarm 4 'is in a straight line located directly under the upper cathode clamp 3 ' and the cathode 5 is arranged essentially in the axis of the foot 1. The distance or the final length of the cathode, between fuse wires 6 and 7, is through the point predetermined where the bend 15 takes place, and this point lies between the bent end 7 and the upper end of the foot 1.

The bend or loop 15 can be produced on a device, as shown in FIG. 4 is shown, the Binschmel'zdraht 4 being bent around a fixed pin 16 by a pin 17 which is pivoted about the pin 16. The pin 16 is supported by a support rblocfc 18 carried, which is attached to a base plate 19. -The pin 17 is attached by an arm 20 to the carried one end of a shaft 21 which is mounted in a projection 22 of the plate 19 and on the other end has a head 23. The structure is held by, the 'pump tube 2 against the notched end of an arm 24 extending from the base plate 19 and the fuse wires 3 and 4 are pressed against the surface 25 of the support block 18, the fuse wire 4 between this surface 25 and a pin 16 inserted from the surface 25 only a distance is removed which is hardly greater than the diameter of the fuse wire 4. The The point at which the insert wire 4 is bent or curved is by the stop of the upper one cheated end 7 of the power supply 4 against the end of a stop screw 26 determined which is fastened in a square 27 which protrudes from the base plate 19. The power supply 4 is' bent around the pin 16 by rotating the disk 23 in the direction of the arrow, the pin 17 is passed around the pin 16 until the

Poor. 20 butt against a stop screw 28 *, the protrudes from the base plate 19. The loop 15 shown in FIG. 5 is thereby formed in the fuse wire 4 is formed, and the cathode wire 5 is aligned in the direction of the axis of the foot 1.

If necessary, a slotted cylindrical screen 29 (Fig. 6) can be centered around the cathode 5 Welding lugs 3.0 are attached, which extend from the The screen extends to opposite sides of the lead wire 3. The cathode 5, which is preferably A tungsten wire can be in one or more stages with one. Cover of one Electron-emitting material are provided, for. B. a suspension of alkaline earth carbonates in a suitable binder. For example, the emitting mixture can be on. the Cathode 5 can be applied when the structure has the form shown in FIG. H. before the Reshaping the Einimelzdrraht 3 and 4. The emitting mixture can, however, on the cathode 5 can also be applied to the shape of FIG. 5 after the structure has been converted.

Claims (2)

Patent claims: 1. Process for the production of a cathode frame according to patent 860,971, characterized in that at least one of the parallel Einmekdrraht is so deformed, that the cathode wire is brought at least approximately in the longitudinal direction of the foot, and z'waf in that part of the melting wire in a substantially perpendicular to that determined by the parallel fuse wires Level is bent back in itself. 2. A method for producing a cathode frame according to claim 1, characterized in that that first the ends of the Einsohmeizdrraht are bent against each other and then one of them at a point between, its curved end and the foot and in a substantially perpendicular to that defined by the parallel Einmekwires Plane bent back in itself wind. 1 sheet of drawings © 5427 9.53