DE567468C - Bracket for stretched light wires for electric tubular incandescent lamps - Google Patents

Description

The present invention relates to a novel holder for stretched wires Tungsten or similar hard-to-melt Aletall in any shape of electrical power Tubular light bulbs. This bracket differs from the known brackets of this type according to the invention their meander shape, which on the one hand allows bending in

«O their longitudinal axis difficult, but on the other hand also a narrowing of the mutual distance between the individual support wires by the between prevent straight parts lying on the individual rings; the use of stranded wires to form the support meander increases flexibility and facilitates the arrangement of the support wires.

The drawing shows in Fig. 1 such a new bracket in a meandering shape wound holder wires and the well-known stranded tungsten filament; Fig. 2 shows schematically the manufacture of the retaining rope; Fig. 3 shows a detail of the device for the production of the new

^a 5 tion.

According to the invention, the holder according to FIG. 2 consists of three stranded together Wires made of molybdenum or similar metal, but for reasons of economy z. B.

two nickel wires can also be stranded with one molybdenum wire. The wires are stranded, for. B. in that around a steadily running center wire 1, two wire coils 2 and 3 rotate evenly. A transport device 4 ensures that the wires are handled evenly. Behind the transport device 4, the just formed wire rope 5 runs through two slightly clamping jaws 6, in front of which a further intermittently rotating and stationary molybdenum wire coil 7 is arranged; the wire running off this coil 7 is alternately wound up over the wire rope 5 (at 8) and then again in places stretched parallel to this ^4ί > (at 9). At these stretched points, it is then cut open either by a device or by hand (at 10) and bent open at the ends of the two windings 9 to form hooks 11 (Fig. 1), on which the known glass drops 12 and the pig-tail-shaped glow wire carrier are later added 13 can be attached.

Now, the cable thus prepared is still extended with the intermediate ⁵ ^ wires of the same device in the invention meandering shape (Fig. 1) is bent. This form of the stranded holder wire has several advantages over all known other holders, since on the one hand the holder is not too large for straight pieces of wire (length

about 20 mm) does not lose any of its suppleness as a result of being at right angles to the Wall of the pipe standing resilient open rings well supported against the wall and as a result the straight spacer has enough strength to allow a greater deflection to be avoided in the event of mechanical vibrations. In addition, this meander shape has the advantage that the perpendicular to the ίο standing glass wall rings only little shade form, while the straight connectors can be easily arranged such that they are attached to the back of the tube come to rest.

The mechanical shaping of the wire rope into a meander takes place in a further device connected to the stranding device, which is shown schematically in FIG. 2. After winding the Stützao wire from the coil 7 onto the wire rope 5, the latter runs through a winder 14 rotating alternately right and left at certain time intervals, which puts it over the mandrel 15 into a loop in front of the s5 closed pliers 16. While the tongs 16 then open, a second tong 17 slowly closes, which serves as a stop for the bolt 15 which has meanwhile been advanced. Through this, the loose wire loop is then brought into the meander shape according to FIG. 1 as an open ring by tensioning the wire rope 5 and pressing the loop between the flange 30 of the dome 15 and the still closed pliers 17 and provided with sharp covers, while at the same time the before made ring is pushed out of the device, so that an uninterrupted wire meander is pushed out on the outer side. This is each shaped in such a way that the wire tips 11 to be bent open later always come to lie in a circle or semicircle.

Through the eyelets of the pig-tail-shaped filament holder 13 is then known in * 5 th way of expedient in an equally known manner from two or more thin tungsten wires strung together filament 18 pulled through and either at each end connected to a power supply wire, or the meander itself is used as a return conductor.

For a more detailed explanation of the mode of operation of the in Fig. 2 of the drawing schematically illustrated winder 14 is used in Fig. 3 of the drawing, the relevant parts of the Device according to Fig. 2 shows in an enlarged view, but not part of the invention forms. The actual winding arm 14, which also carries a wire layer 19, is on one along its circumference, e.g. B. by means of balls 20, mounted gear 21 with internal teeth arranged. This is determined by the shaft 22 via the gears 23 to 26 At intervals of time alternately turned right and left circumferentially once each time. By doing Bearing brackets 27 are also the axes of the tongs 16 and 17 as well as those actuating them Eccentric discs 28 and 29 mounted. The eccentrics 28 and 29 are driven by means of a toothed wheel and chain. The pin 15, which is provided with a flange 30 is z. B. by the appropriately stored Rack 31 and the gear 32 moved back and forth. To the rack 31 from the To lead out the running meander, this is divided by a wedge 33. With everyone Rotation of the gear 21, the winder 14, together with the wire layer 19, sets the Wire rope 5 in a loose loop in front of the closed pliers 16. The other functions develop, then, as already described with reference to the schematic drawing 2.

Claims (3)

Patent claims: i. Holder for stretched filaments of electric tubular incandescent lamps, characterized in that it consists of a consists of several wires twisted together with a correspondingly high melting point formed holding meanders, a number of rings standing perpendicular to the pipe wall and always two rings connecting each other straight Has pieces of wire rope. 2. Holder according to claim 1, characterized in that the meander on the bracket forming wire rope another wire is wound on in individual pieces, the free ends of which are bent up are provided with the glass drops carrying the light wire supports. 3. A method for producing the meander-shaped holder according to claim 1 and 2, characterized in that a center wire that is continuously moved on two coils of wire are evenly set in circulation, and that the so formed Wire rope (5) is passed through a clamping device (6), in front of which another wire spool (7) rotates intermittently in such a way that the wire coming from this spool (7) always alternates is wound over equal lengths of the wire rope and between each two such winding points is parallel to the wire rope over equal lengths that then the wire rope (5) with the one alternately wound over it in places and lying straight in places Wire, through an alternating right and left revolving winder (14, 16) is guided, of which it is placed in a loose loop around a mandrel (15) in front of closed pliers (16), which is advanced after opening the pliers (16) taking the loose loop with it and strikes against a meanwhile closed second pair of pliers (17), on which the loose loop of the wire rope (5) is pressed by a flange (30) of the bolt (15) and thus provided with sharp corners so that wire rope lengths continuously arise through straight Wire rope pieces of the same length are connected to one another, whereupon the straight pieces of molybdenum wire lying in places on the wire rope (5) are cut open and bent up into the wire pieces (11) carrying the glass drops (12) for the glow wire carrier (13). so For this purpose ι sheet of drawings