DE1931409U - FLASH LAMP WITH SPLITTER PROTECTION. - Google Patents

Description

P.A. 638 07 7 * -l 1265

Patent trust company for electric light bulbs mbH., Minchen

Flashlight lamp with splinter protection

The invention relates to flash lamps with a glass vessel which has a filling from finely divided., combustible lycterial and one that maintains the combustion Gas, especially oxygen, contains. With the flashlights this one Type are generally from the outside power supply lines in and out of the vessel the. ignition means, which by an electrical impulse on different Way to initiate combustion in the lamp. While burning a As is well known, such a lamp shatters the glass vessel as a result of the kicking pressure wave and sudden temperature jump. To fly around To avoid glass splinters, the glass vessel of the known lamps is coated with a tough layer of lacquer, which the splinters of the lamp vessel in the original form holds together. Such a one produced for example by diving A layer of lacquer represents a bulb volume of approx. 4 cm for the known flashlight lamps and an oxygen pressure of 1000 to 2000 Torr is satisfactory There are also smaller flashlights with a bulb volume of. known below 2 cm, which is necessary to achieve a satisfactory Amount of light with a correspondingly higher concentration of combustible material and oxygen are provided and, for example, an oxygen pressure of 5 atm. exhibit. A multiple lacquer coating, which was produced by repeated dipping and therefore made it more expensive, has previously served as a splinter protection for this lamp caused by lamp manufacture. With a further increase in concentration of the filler material and thus the mechanical and thermal load on the lamp At the moment of flashing off, the usual dip painting cannot be sufficient Offer more splinter protection.

A miniature flash lamp provided with an exterior paintwork has but still another crucial sewing part ^ on. If these lamps too are practically odorless, the exterior paintwork develops smoke and vapors when it flashes, which is generally reflected in the dwarf flash light larapas used very small reflector and cause premature contamination of this reflector. The resulting Gradual decrease in the reflectivity of the reflector surface over time easily leads to underexposure of photographic flash-ufiiaiamen "

The object of the invention is to provide a miniature flash lamp with a Splinter protection that does not have the disadvantages listed above.

According to the invention, a miniature flash lamp with a glass vessel which contains a filling of finely divided, combustible IVfeterial and oxygen holds, a splinter guard, which consists of a plastic capsule, into which the flashlight is loosely inserted.

While in the case of the well-known immersed flash lamps with glass bases, the latter does not have a coating of anti-shatter varnish and is used as a handle when thawing is used, the entire glass vessel is in the lamps according to the invention from the splinter protection - enveloped. The splinter protection, which consists of a self-supporting plastic body exists, now also serves as a base. The base is part of the plastic casing.

The plastic capsule enclosing the glass vessel of the lamp is preferably made of two bowl-shaped parts, adapted to the shape of the glass vessel, which after when the flashlight is inserted. The base is molded onto one part of the capsule.

In contrast to the Tauchlaekierung, which is only visible on the glass vessel of the lamp " solidified a plastic skin and firmly adheres to the glass vessel, see the splinter protection of the invention to preformed plastic parts, in which unpainted flash lamps are loosely inserted. These plastic parts do not contain any plasticizer and do not produce any smoke or smoke when flashed off or very little vapors, so that even very small reflectors are contaminated is no longer to be feared.

The inventive embodiment of the splinter protection allows to attach the base at any point on the plastic capsule. In addition, the base, which is part of the splinter protection cover, can be any desired Assume shape that is not restricted by glass processing.

The plastic capsule or sleeve surrounding the lamp can be transparent and colorless or - if filtering of the flash light, e.g. for color photographs, is desired is - be colored in the mass.

By inserting a reflective film between the glass body of the lamp and a flashlight lamp with reflector can be produced in a simple manner from the plastic casing. The plastic parts that serve as splinter protection are preferably manufactured and made using the plastic injection molding technique e.g. made of polystyrene, polycarbonate or cellulose acetate.

The plastic capsule, which is adapted to the shape of the glass vessel of the flashlight lamp a wall thickness which is designed so that when the lamp flashes, the inside of the capsule facing the glass vessel melts while the outside melts only heated to the extent that it remains dimensionally stable. This the desired temperature gradient having wall thickness depends on the type of flash lamp and on The plastic used and is in the range of 0.5 to 2 mra for the miniature flash lamps used for the experiments and when using polystyrene. the The plastic capsule has two openings through which the parts of the power supply wires that are melted into the glass vessel of the lamp and lead to the ignition means in the lamp step out. The outwardly guided parts of the power supply wires are attached to the base part of the plastic capsule and serve as base contacts. In the preferred embodiment, one of two nested Plastic parts existing splinter protection capsule or sleeve, the outwardly led power supply wires are bent around the outlet openings, guided along the outer surfaces of the capsule part serving as a base and clamped with the ends between the nested capsule parts. the holes in the plastic capsule serving to lead out the power supply lines are amply dimensioned to facilitate the threading of the power supply lines. Through these openings one also achieves that the gas pressure in the space between the plastic capsule and the glass wall of the flash lamp when it flashes

and even if the glass bulb bursts, it is reduced and the mechanical Stress on the capsule remains low.

The invention will now be explained in more detail by means of examples.

Figures 1 and 2 show longitudinal sections through a particularly preferred embodiment a flashlight lamp according to the invention inserted in a plastic capsule .

Figure 3 shows the cross section A-B of this lamp.

FIG. 4 shows another way of guiding the power supply wires.

FIG. 5 shows a bead connection for both parts of the plastic sleeve.

"The flash lamp shown in Figures 1 to 3 has a glass vessel 1, which encloses a cylindrical space 2 and a conical space 3. The The total volume of the space enclosed by the glass vessel 1 is about 1.3 cm and is with oxygen of 5 atm. and more pressure and shredded zircon foil filled .

According to the invention, the glass vessel 1 of the flashlight lamp is surrounded by a plastic capsule or sleeve serving as a SpIi * - _, tersohutz, which consists of the hood-shaped part 4 and the part 5 that also serves as a base. Both parts are plugged into one another and adhere to one another through friction, but they can also be glued or welded to one another. The flashlight lamp vessel is loosely inserted into the cavity of the capsule 4, 5, but only with little clearance, and sits on the edge β formed by the base part 5. The two power supply lines 7 are melted into the lamp vessel approximately at the transition point between the conical space j5 and the cylindrical space 2 and carry the ignition caps 8 and the ignition wire 9. The power supply lines 7 are inside the lamp through the glass bead 10 held together. The part / the plastic capsule serving as a base has two openings 11, from which the power supply lines 7 emerge from the capsule. The power leads are bent around the edges 12 of these openings. guided along the outside of part 5 of the capsule, and clamped at 13 between parts 4 and 5 of the capsule. The part of the power supply lines J lying between points 12 and 13 serves as a base contact,

The base part 5 of the capsule is designed so that it fits into the sockets fits for the so-called European glass base flashes. For this purpose, the part 5 has a substantially cylindrical shape and two to each other and mating surfaces 14 parallel to the axis of this cylindrical part Glass eye flashes fit.

The base part 5 also has two LKngsscblitze 15, which allow the ends 16 of the power supply lines 7 to bend slightly inwards.

The assembly of the shown in Figures 1 to 3 with a splinter guard The flashlight provided by the lamp is carried out in such a way that the finished lamp is placed on the Edge 6 of the capsule part 5 placed and at the same time axially out of the vessel the power supply lines 7 exiting the lamp are threaded through the holes 11. Then the power supply lines are bent around the edge 12 and attached to the guided axially along the cylindrical surface of the capsule part 5. The ends 16 of the power supply lines are bent slightly inwards at the slots 15, This measure now makes it easier to remove the hood-shaped part 4 of the plastic capsule to put over the lamp and assemble with part 5.

While in the Ausführungsuhgsbeispiel shown in Figures 1 to jj Power supply lines have to be threaded through the base part of the plastic sleeve, this is no longer the case in the exemplary embodiment in FIG necessary. The power supply lines 18 emerging from the lamp vessel 1 are right along the outside of the base part 5 of the sleeve.

As shown in Figure 5, the hood-shaped part 4 of the splinter protection sleeve with the base part 5 in a particularly advantageous manner be connected to a bead 19.

The currently The flashlight larapas used have a around the glass base Ring made of plastic or cardboard, which holds the power supply in place and when Inserting the lamp into a socket ensures that the lamp sits straight. In the splinter protection according to the invention, the annular shoulder 17 takes over the hood-shaped capsule part 4 this function, when inserting the flash in a This shoulder sits on the rim of the frame.

Claims (1)

Claims ο Miniature flash lamp with a glass vessel containing a filling of finely divided, has combustible material and oxygen, and which is provided with a splinter guard, characterized in that the splinter guard is made of consists of a self-supporting plastic capsule in which the flash lamp is loosely inserted and that the base of the lamp is molded onto this plastic capsule is. 2, miniature flash lamp according to claim 1, characterized in that the plastic capsule from two self-supporting, shell-shaped, pre-formed, the form of the glass vessel is made of adapted parts that are assembled after inserting the flashlight lamp and that one part is designed as a base. J. miniature flash lamp according to claim 1 and 2, characterized in that the formed as a base part of the plastic capsule has two holes from which the power supply lines of the lamp emerge and that led to the outside Parts of the power supply lines are attached to the base and serve as base contacts. 4. dwarf flash lamp according to claim 1 to 3 »characterized in that between a reflective layer is arranged on the lamp and the plastic capsule. 5. dwarf flash lamp according to claim 2, characterized in that the plastic capsule consists of a hood-shaped part k (Figures 1 to j?) And a base part 5 and that the power supply lines J are bent around the edges 12 of the openings 11 and guided along the base part 5 and are clamped between the nested parts 4 and 5 of the capsule. 6. dwarf flash lamp according to claim 1 to 5 »characterized> that the .Plastic capsule made of translucent polystyrene, polycarbonate or cellulose acetate and is either colorless or colored in the mass. 7. dwarf flash lamp according to claim 5, characterized in that the hood-shaped Part 4 (Figures 1 to 5) after being attached to the base part 5 an annular shoulder 17 forms on the edge of the flashlamp socket sits on.