DE844944C - Bulb-shaped fluorescent lamp for common sockets and mains voltages as well as processes for their production - Google Patents

Description

Bulb-shaped fluorescent lamp for common sockets and mains voltages as well as process for their preparation It is already known elongated or To switch on bulb-shaped fluorescent lamps, it is advisable at the same time the function of a series resistor for gas and vapor discharge take over. The assembly of a separate incandescent lamp with a fluorescent lamp however, it is costly and cumbersome, especially as regards the arrangement of Sockets, holding means and connections are concerned. According to the present invention, there is now the bulb-shaped fluorescent lamp made of an outer, closed on one side, cylindrical envelope vessel, consisting of a likewise cylindrical one axially accommodated therein Inner vessel, in particular a tube, which has a spiral band-shaped partition carries that the space between the two vessels in a correspondingly tortuous Discharge channel divided. This inner vessel is now used immediately. as a container and operating space for a highly heated filament accommodated therein, which is expediently in turn represents the series resistance of the gas and steam line. The inner vessel is therefore as such within the with a noble gas of a few millimeters Pressure, expediently filled with the addition of mercury vapor, from the outer shell enclosed, evacuated room and immediately provides one as well evacuated, but then expediently with an inert gas filling of higher Pressure-filled space. The inner vessel can with the outer shell at one end, For example, be connected via a contracted part and merge into this, or it can be entirely from him be separated. Like from the further description and the illustrations in detail, is hereby an expedient and simple arrangement on the one hand of the electrodes for operation the gas discharge path, on the other hand the filament and its connections. In addition to the built-in parts that form the winding discharge path, the inner vessel can thus and the filament contained in it also has one or both electrodes at the same time wear. The components of the lamp can be modified with the usual or only slightly Mechanically unite incandescent lamp machines, with a minimum of insertable parts and melt-down areas are stressed and with it the risk of cracks and errors and leaks is reduced accordingly. The lamp can be turned into a simple Provided with a conventional bulb socket on one side.

Since the incandescent lamp operating space and the gas discharge space are immediate adjoin each other and share the same wall, the heat is transferred of the filament well and evenly on the whole lamp, so that a favorable operation the same even at low temperatures and thus the use in outdoor operation is made possible. The entire interior of the inner vessel serves as a light bulb operating room, so that the blackening caused by the filament during the life of the The lamp is distributed more strongly, as if one wanted a separate special one in the inner vessel Place an incandescent lamp, which of course would have to be very small, which would cause overheating the walls and thus a shortened service life would occur. Likewise fall the increased light losses associated with such an arrangement by multiple Reflection on the glass walls away.

Since the filament has an excess of red and yellow radiation, it is possible, preferably in the green and green-blue spectral range, to use luminous phosphors such as zinc silicate activated with copper, which have the highest luminous economy of all phosphors. This largely compensates for the loss of light caused by the filament as a series resistor compared to a throttle. It is particularly useful to combine the filament with an ignition continuator, which makes it possible to reduce the amount of voltage absorbed in the filament to 30 to 35%, if necessary.

The invention is based on. Illustrations, however, are only exemplary embodiments represent the same, further described.

Fig. I shows a finished lamp. 'In the squat cylindrical Piston i is located axially arranged the further tube 2, called the central tube. It has a seal at the top, e.g. B. a foot 3 stepping inside. on the other side, d. H. in the drawing below, it is about the pinch 4 and the plate 5 fused with the outer piston i, which is sharply drawn in at 6. here a lamp base 8 provided with a wide collar 7 is cemented on. As from the The inventor's inventions on the other side are banned, is drawn onto the central tube a spirally arranged band 9, which is bent over the inner edge and which separates the space between Central tube and outer bulb i seal in a discharge-tight manner and between them The luminescent materials are around 1.5 m long at a mains voltage of 220 volts stimulating discharge in the filling of argon and mercury vapor between the electrodes io and ii runs. It is now essential that the diameter of the central tube is expedient is between a third and half of the clear width of the outer bulb i, a filament 12 is tensioned. The central tube is expediently above, like shown, fused vacuum-tight and with an argon filling corresponding to that conventional light bulbs provided. Under certain circumstances it can also be open so that the Filament in the same gas filling as the luminescent discharge, so z. Am Argon is operated at a pressure of a few millimeters, and neon at 8 to 10 min pressure. This saves a special evacuation and filling of the central pipe, however, takes a poorer operating economy of the similar to filament in Compared to vacuum lamps, not so highly heatable filaments are accepted. Here However, you must take precautions and especially shields against electrical breakdowns taken between the different parts of the thread or filament and electrodes will.

In the lamp shown, the circuit runs from the center contact 13 of the base over the feed wire 14 for expediently as a helical wire executed filament 12; from there via the lead wire 15 to the discharge electrode ii; from this along the spiral turns of the strip 9 to the electrode io, and from there from via the lead wire 16 emerging from the side of the pinch to the Collar of the base sleeve B.

In spite of the different types of built-in parts, it should now be possible to manufacture the lamp simply and as mechanically as possible. For this purpose, particular attention is paid to the design and manufacture of the central tube 2, which essentially contains all the built-in parts. According to Fig. 2, an approximately 30 to 50 mm wide tube 2 is used to produce conventional lighting units corresponding to the 2o to 30 watts absorbing fluorescent lamps. Before and after it is expediently drawn in i-7 and a relatively wide plate 5. The filament 12 mounted in a holder system is then melted down by means of the foot 3, but also, especially in the case of large-caliber units, by means of a so-called melting plate. The holding device comprises a loop or a bracket i9, an angled holding wire 20 and another wire 22, also having a sideways loop or bracket 21 interspersed lengthways, fused. They can also be inserted into a tube 23 and fused. The wire 22 extends through the indentation 17, where it has an easily meltable section 24 consisting of copper clad wire or platinum replacement wire and continues to the outside as a feed wire 25.

Of course, a conventional holding device for longitudinally tensioned filaments can also be used, as is known from festoon lamps, tubular lamps and the like, with a uniform wire bent at an angle at the ends opening into both the foot 3 and the later pinch at 17 and the filament is held in place by means of glass beads. Here the holding wires 26 and 27 can be drawn directly into the glass tube or glass rod 23. It can also e.g. B. a holding device can be used in which the filament holders 20 and 22 are fused to a glass rod 23 bent at an angle at the ends.

The central tube is now with the insertion of the pump tube 28 in Fig. I and 2 for confiscation 17, which are otherwise optional and only for large Diameter is mandatory, squeezed. As can be seen, this opens in foot 3 provided pump tubes 29 into the interior of the central tube, while pump tubes 28 into the space outside the central tube inside the piston i opens. The melted central tube is now baked out in the manner of conventional incandescent lamps, evacuated and with argon of 1; 2 to 2;! 3 atmospheres or with an argon-nitrogen mixture filled. It then becomes more common again on a type of melt-down machine Incandescent lamps melted into the short-cylindrical bulb i with the aid of its plate 5. The relatively wide tube i, whose lumen for the wattages mentioned already is about 65 to 90 mm, this is 6 in comparison to conventional incandescent lamps contracted sharply and steeply. Except by setting the melting point Flames can also be obtained by placing the one below the retraction zone located part of the piston i is not very wide and of correspondingly low weight or by relieving the weight a little by supporting it from below.

The design according to Fig. I is already very constructive in this respect simple, than with this combined lamp only twice, as with a simple fluorescent tube, is to be squeezed, namely to produce the pinch .4 and the foot 3, and is to be melted only twice, namely for the one lying within the base collar 7 Melting 33, and around the foot 3 in the central tube or the central bottle 2 to melt down. A further improvement is now aimed at, both in the same operation the inner filament lamp filled with noble gas or nitrogen at high pressure how to degas, bake out and fill the actual surrounding fluorescent tube. For this purpose, a strong exhaust tube 34 is provided in the incandescent lamp base 3, which after outside to a limited, dotted bulge 35 of the outer bulb i extends into it, but with a gap of one between the piston wall and exhaust tube remains until a few millimeters. The double vessel is now first of all with the help of the Pump stem 28, which opens into the inner space of the piston i, evacuated and baked out. A noble gas or nitrogen of approximately the usual incandescent lamp pressure is then applied filled, with see also and in particular the interior of the central tube 2 fills. The bulge 35 is then fused with the exhaust pipe 134 protruding into it. The inert gas filling is now pumped out (if necessary into a reserve vessel), it is again highly evacuated, filled with noble gas 4 to 10 mm and mercury vapor and then removed the exhaust tube 28.

Instead of the tube 2, especially for larger lamps, a special blown bottle-like body, as shown in Fig. 2, can be used. In it, plate 5 is already blown or is created afterwards. At 36 points the bottle initially has a longer, narrowed neck (as indicated by dotted lines in Fig. 2) which is withdrawn when the foot melts. To the exhaust tube 34 mechanically to relieve, if necessary, a centering the central tube within the piston i Clasp 37 in Fig. I should be attached.

Furthermore, a completely separate from the piston i, on both sides - with pinch feet, for example. provided tube or vessel containing the filament can be used, which, however, also directly carries the spiral belt and with it This together directly the helical discharge channel for the gas discharge forms within the outer bulb.

Claims (9)

PATENT CLAIMS: i. Fluorescent lamp with a gas and vapor filling of low pressure, with a long, but spatially combined discharge path, for mains voltage operation, piston-shaped, characterized in that an outer, cylindrically shaped lamp body is provided within the outer envelope vessel another cylindrical vessel of smaller diameter axially is arranged, between this and the outer envelope vessel an edgewise bent Flat helix made of inorganic material is arranged, the discharge path accordingly Is combined helically and a filament, which also acts as a series resistor serves for the gas line, housed directly in the inner vessel as an operating room is. 2. Fluorescent lamp according to claim i, characterized in that the filament within a central tube carrying the helical passage for the discharge is housed. 3. Fluorescent lamp according to claims i and 2, characterized in that that the central tube is a short-cylindrical, blow-molded one carrying the helical passage Serving vessel. 4. Fluorescent lamp according to claims to 3, characterized in that that the central tube completed with respect to the enclosing piston and with a inert gas filling is filled by high pressure. 5. Fluorescent lamp according to one of the preceding claims, characterized in that the central tube on the one hand via a squeeze and a widened plate with the actual shell vessel connected, on the other hand complete, but with a pump tube is provided, through which the separate venting and gas filling takes place. 6. Fluorescent lamp according to one of the preceding claims, characterized in that in the free At the end of the central tube a formal foot, which also carries the filament system, is melted down is. Fluorescent lamp according to one of the preceding claims, characterized in that that the exhaust tube of the filament tube serving as the central tube is preferably axial extends into a bulge provided at the apex of the outer bulb and is merged there. B. Fluorescent lamp according to one of Claims i to 4, characterized characterized in that a separate from the outer bulb, containing the filament and at both ends provided with about pinch feet directly the helical tube Band carries and with it together the space enclosed by the outer bulb into one dividing spiral discharge channel. 9. Fluorescent lamp according to one of the preceding Claims, characterized in that in combination with the glow wire green or green-blue radiating phosphors are used. ok Fluorescent lamp after one of the preceding claims, characterized in that in combination with the Glow wire an ignition conductor that reduces the re-ignition voltage is used. ii. Method for producing a bulb-shaped fluorescent lamp according to one of the preceding Claims, characterized in that between the exhaust tube of the interior lamp and the outer wall is initially left a gap, both interior spaces are uniformly heated and evacuated, then both rooms with inert gas and / or nitrogen filled by about incandescent lamp pressure, the bulge fused with the exhaust tube is, the gas filling is sucked off by high pressure and finally the still accessible Space outside the central tube with noble gas of low pressure and about mercury vapor is filled.