BE571014A - - Google Patents

Description

       

  As is known, U-shaped incandescent bodies are used especially in special lamps. Incandescent filaments of this type are used in automobile headlight lamps or in certain projection lamps. In the dual filament lamps currently used in automobile headlights, the main non-glare filament is generally prepared in the form of a single U-shaped spiral.

  
The U-shaped spirals do not have helical ends and these ends are usually fixed by welding points or in any other corresponding manner on support rods, which at the same time serve to supply the current. This device has various drawbacks:
the non-helical ends of the glowing filament must be bent in the form of an arc, the radius of which is relatively small; this curvature in fact requires too great a force on the part of the tungsten wire, so that cracks occur which can cause ruptures immediately or subsequently. The temperature distribution of the spiral is irregular, the ends of the spiral being at the ends not being at all incandescent.

  
These facts lead on the one hand to destruction of the lamp and on the other hand to the fact that the incandescent filaments provide less light than they could normally produce. To all these drawbacks, there are still added the labor costs which are necessary for the preparation of the U-shaped spirals and the difficulties which are technologically linked thereto.

  
The aim of the invention is to eliminate these drawbacks.

  
The single or double helical incandescent body of the incandescent electric lamp with a gas atmosphere in accordance with the invention,

  
 <EMI ID = 1.1>

  
in its projection a closed loop, the elements for the supply of the current crossing each other in such a way that they are substantially tangential relative to the closed curved line. Further, the glowing filament is preferably designed such that, in the case of a single spiral, the loop is formed by the helical part and the current feed by the part.

  
non-helical, while in the case of the use of a double spiral, the loop is formed on the other hand by the doubly helical part - and the current feed by the simply helical part or by the non-helical part.

  
The invention is described in detail with the aid of the appended figures, in which FIG. 1 represents a conventional incandescent body and FIG. 2

  
an incandescent body shaped in the form of a loop and according to the invention.

  
 <EMI ID = 2.1>

  
indicated by 10 and the non-helical parts for the current supply of this incandescent body are designated by 11 and 12. The incandescent body is fixed to the supports 13 and 14 by its non-helical parts 11 and 12.

  
Figure 2 shows the spiral according to the invention in plan view, the reference numerals being identical to those of figure 1. From the figure it is visible that the helical part 10 is bent in the form of a loop. and form in its projection approximately a circular ring and that the non-helical parts 11 and 12 connect tangentially to the circular ring, intersect and are fixed to the supports or to the current leads 13 and 14. An important advantage of this construction is the section free of curves between the helical part. 10 and the non-helical parts 11 and 12, whereby the breaking sensitivity, by which the U-shaped filaments are characterized, is considerably reduced at the same places.

   Another advantage is that the ends of the helical part are very close to each other and therefore warm up to each other, so the temperature of the helical part is regular and concentrated on the spiral and finally the light output is increased. At the same time, the manufacturing is also <EMI ID = 3.1>

  
Characterized more by the fact that this body forms in the projection of its helical part a closed loop, therefore a circle or an ellipse, the parts not. helical or current feed of this body being oblique with respect to each other and substantially tangential. As the current supply parts are not in the same plane, but are moved with respect to each other, the spiral is preferably mounted on the supports, so that a part of current supply touches a support on one side and the other

  
 <EMI ID = 4.1>

  
incandescence itself is arranged in a more straight direction than that which is usual for U-shaped spirals. An arrangement of this kind is also shown in figure 2.

  
Although in the foregoing only a few embodiments given by way of example of the incandescent body in accordance with the invention have been described, it is certain that the invention can be judiciously implemented in various forms. Thus, for example, the loop can be formed elliptically and it is not absolutely necessary that the loops be formed exclusively from the spiral part of the incandescent body, since a part thereof can be formed as needed also by the non-helical part, or in the case of a double spiral, by the single helical part.

  
The spiral according to the invention is particularly advantageous in car lamps with two filaments and extraordinarily suitable for special lamps for projection and the like.

CLAIMS.

  
1.- Electric lamp with incandescent and gaseous atmosphere, in particular lamp for projectors, characterized in that at least one of its simply or doubly helical incandescent bodies is designed so that its projection forms a closed loop, the parts of which 'current feed of the latter being oblique with respect to each other so that these parts are substantially tangential to the curved line referred to the closed loop.

  
 <EMI ID = 5.1>


    

Claims (1)

<EMI ID = 6.1> in that in the case of using a single spiral, the loop is formed by the helical part and the current supply parts are not he-. licoidaleso <EMI ID = 7.1> in that when using a double spiral, the loop is formed by the double helical part, the current supply parts not being at all helical or only simply helical. <EMI ID = 8.1> terized in that the loop of the incandescent body is circular. <EMI ID = 9.1> This is because the loop of the incandescent body is elliptical.