DE243990C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- .M 243990 -. CLASS 21 /. GROUP

OTTO SCHALLER in SÜDENDE b. BERLIN.

Electric lamp, patented in the German Empire on July 14, 1910.

In the case of the conventional electric light bulbs, the power is supplied to the Filaments from the outside through thin wires, which are inserted into the glass walls of the lamp bulbs melted down. As a rule, platinum or another material is used as the material for these power supply wires Metal, whose coefficient of thermal expansion is as close as possible to that of glass, to a

ίο To prevent the melting points from leaking and cracking of the glass when the glass bulbs and supply wires are heated and cooled again.
In addition to melting, special sealants such as impregnated paper or rubber or paint coats have attempted to achieve a secure seal in the wire feed-through, but even with these materials, the unavoidable differences in heat have repeatedly given rise to leaks, mainly because of this that always, also with the cone seals, the sealing surfaces in • the longitudinal direction of the wire to be sealed or the power supply line were used. In the case of such power supplies, especially if they are somewhat strong, when the temperature differences make them longer and shorter, there is no possibility of voltage differences between the. To avoid power supply lines and the material in which they are melted or otherwise embedded and these lead to leaks and thus air entry into the glass bulb due to the resulting cracks.

According to the present invention, the seal is to be introduced into the lamp Power supply lines, unlike the previously known ones, through the side of the power supply lines Reached standing surfaces, which correspond to the corresponding sealing surfaces of the bell jar or by isolation devices. These sealing surfaces, which within the limits given by the lamp constructions can be made as large as desired can, make it possible to power the supply lines themselves only through the atmospheric Air pressure in firm connection with the lamp, d. H. to keep the bell, and thereby becomes in turn created the possibility that the compressed sealing surfaces at different Expansion or contraction of the materials to perform displacements on each other. The expansions or Contractions of the power supply lines and the support material can occur in these Express cover-like sealing surfaces only in small shifts. Between the advantageous Ground sealing surfaces can be grease or a liquid sealant to ensure the airtight connection of the surfaces. One can also still in connection with the sealing surfaces protruding from the side of the power supply lines any known sealant such as rubber or paper that may be impregnated can, or also use a known liquid seal or a labyrinth seal. All of these sealing devices only need a very small amount of elasticity own as the difference in extent

with the lamp materials in question is only an extremely low one. The laterally protruding sealing surfaces, which can be attached to clamps, wires, rods, also make it possible to use power supplies of any diameter, so that high-current lamps can also be created without being limited in the amount of current.
ίο The drawings show some application examples of the invention.

In Fig. Ι the lamp body consists essentially of a spherical glass or quartz bell α with two neck-shaped openings b and c, the upper edges of which are advantageously ground off. The power supply lines d and e sit on these surfaces with their plate-shaped, likewise appropriately ground widenings f and g . The incandescent body h, which can consist of one or more wires, rods, brackets or plates, is screwed or welded onto the parts of the power supply lines protruding into the interior of the bell α. This attachment can be done by first bringing the incandescent body into the lamp through one of the openings b or c and then pulling it out again with the two ends through both openings so far that one connects to the power supply outside the lamp can make.

This lamp can be operated with direct current or alternating current.

An example of a lamp suitable only for alternating current is shown in FIG. Here the power supply lines d and e are conductively connected to one another by a bracket i. The bracket can be rigid or resilient, solid or subdivided, can consist of one or more turns and of one piece with the power supply lines, or be permanently or detachably combined with them. The fastening of the incandescent body h is referred to as a screw connection in the power supply line d, and as a weld on the power supply line e . It can be anything. The execution of this attachment can take place here, among other things, that the bell is divided α at any point k . The lower part is connected to the other part only after the incandescent body has been attached and either fused to it or pressed against it by the air pressure when the lamp is evacuated, whereby all the devices that are necessary for the introduction of electricity by means of air pressure, also for this airtight connection of the both parts of the bell can be used. This lamp is glowing by induction, in that an alternating field is passed through the bracket i, preferably by means of an iron core p . If the bracket * is arranged to be removable, this lamp can easily be converted into one according to the type of FIG. 1 for direct and alternating current. Brackets I are indicated on the contact surfaces c and g, which are intended to prevent the bell from falling off if air penetrates into the interior of the bell. Of course, other safety devices, chains, wire baskets, protective nets or cover bells can also serve the same purpose. The connection point k can also receive such and similar fuses. Labyrinth seals m with several sealing rings are drawn between f and b , liquid seals with grooves or grooves between g and c are shown as an example.

An example of a liquid seal between b and f with grooves η and the protrusion 0 protruding into the liquid is shown as a detail in FIG.

In the embodiment of FIG. 4, the conductor connecting the power supply is designed as a plate q , while the alternating magnetic field is generated in the space φ which the correspondingly elongated necks b and c of the bell α leave between them. The power supply lines d and e can consist of one piece with q. Their connection to the incandescent body h can be carried out in the same way as in the case of the lamp according to FIG. 1. The securing brackets I are also indicated here, while the sealing of the contact surfaces is supported here, for example, by a sealant r .

It is not necessary that the contact surfaces where the air pressure conducts the current with the lamp connects airtight, are arranged on the bell itself. One can Rather, use any one or more suitable intermediate links for this purpose, which in turn are attached to the bell in a suitable manner.

An example of this is shown in FIG. 5. The power supply lines e, d rest with their lateral sealing surfaces on an insulating plate t made of an elastic material, made of ambroin, tenacite, heliosit, festonite, pulvolite, bakelite or some other suitable insulation material can exist. Overlapping flanges and cut grooves can increase the reliability of the seal. After the incandescent body h is attached to the power supply lines d, e inserted in the plate t , the plate t is placed on the bell, onto which it is in turn also pressed by the evacuation. If the chosen material of the plate t is not resistant enough to the air pressure, pressure or not suitable for sealing with the bell rim itself, a plate u can be made of a suitable material, e.g. B. glass or metal, inferior, but in which case they. against

the power supply lines must be insulated. Then the seal between α and u is secured, while the seal between u and t does not present difficulties with the size of the surfaces, especially if one makes use of the labyrinth seal again. Due to the air pressure, the sealing surfaces of the power supply lines are attached to the plate t and thus in the manner described above

ίο also sealed on the lamp.

To be the same when using two-phase or multi-phase current or multi-conductor direct current To obtain phases or conductor loads, one can use two-branch or multi-branch incandescent bodies and assign a power supply to each branch. The bells according to Figs. 1, 2 and 4 can then be designed as others with three or more sleeves.

Claims (4)

Patent Claims: i. Electric lamp, characterized in that the terminals or power supply lines themselves are provided with laterally protruding sealing surfaces, which are affected by the atmospheric air pressure the lamp are sealed, 2. Electric lamp according to claim 1, characterized in that the side protruding sealing surfaces of the power supply lines on the upper smooth Place the edges of the neck-shaped openings of the lamp bell. 3. Electric lamp according to claim 1, characterized in that the through the Laterally protruding sealing surfaces of the power supply lines to be sealed against air pressure rest on a lid or an insulation plate, which in turn is attached to the lamp bell in an airtight manner is. 4. Electric lamp according to claim 1 to 3, characterized in that except the laterally protruding sealing surfaces of the power supply lines, which are still familiar to the labyrinth or liquid seals are provided at the sealing points for the power supply lines. 1 sheet of drawings.