SU1091259A1 - Electric lamp - Google Patents

Abstract

ELECTRIC SHSKAYA LAMP, containing an argon-nitrogen full 1-n-1U1o argon-nitrogen mixture, a glass flask with a paraboloid part, on the inner surface of which a reflective coating is applied, which is connected to the neck connected to the base, and the arc-shaped. with the help of supports on the stem and positioned in the plane, the partial symmetry axis of the flask and the paraboloid part of the bulb passing through the focus, which is about the same. with the aim of exploring its effectiveness, by providing the required “5-way distribution paraboloid. part of the bulb is formed by rotating around the axis of symmetry of the parabo.H1Y flask, the axis of which is separated from the axis of the flask by a distance equal to the radius of the body of the pock. "SE

Description

The invention relates to electrical engineering and can be used in the production of mirror light sources for general, local and other types of illumination. Incandescent electric mirror lamps are known for general illumination with an extended filament body and a paraboloid bulb, the axis of symmetry of which coincides with the optical axis of the paraboloid of rotation. The point of the paraboloid is on the optical axis С 1 X Closest to the proposed technical essence is an electric lamp containing a glass flask filled with an argon-nitrogen mixture with a paraboloid part, on which the surface of the reflecting coating is matched with connected to the socle neck, in which the leg is welded, and an arcuate body of incandescence, installed with the help of a leg on the leg and located in a plane, perpendicular to the axis of the bulb and passing through the focus of the pair of boloid part ARS 23Nedostatkom said lamps vl51e pravilkuyu failure to form a predetermined audio svetoraspredel as but practically impossible to place prot zhennoe bunk body la in the point of focus of the lamp. The purpose of the invention is to improve the lamp efficiencies by providing the required light distribution. The goal is achieved by the fact that in an electric lamp containing a glass flask filled with an argon-nitrogen shaker and a paraboloid part, on the inner surface of which a reflective coating is applied, which is connected to a neck connected to the socle, a bore is welded into the inner surface , and the arcuate body of incandescence, established with the help of supports on the stem and located in P. POSKOSTI, perpendicular to the axis of symmetry of the bulb and passing through the focus of the paraboloid part of the bulb, the latter formed by rotation around the axis of symmetry of the bulb ols, which axis is spaced atom bulb axis by a distance equal to the radius of the filament body. Figure 1 shows the principal construction of the lamp proposed; 92 figure 2 - cross section of the bulb proposed lamp. The lamp (Fig. 1) B1 is a glass flask filled with an argon-nitrogen mixture and consisting of dome 1, a parabolic; Part 2, on the inner surface of which there is a mirror coating 3, the transition section from the dome to the paraboloid part 4, the neck 5 and the transition section from the paraboloid part to the neck 6. The arched filament body 7 is a tungsten coil, mounted with supports 8 on the comb leg 9, brewed in the neck 5 of the bulb. The lamp has a threaded base 10 fixed to the neck of the bulb with the help of mastic. The flask (Fig. 2) is a surface of revolution with an axis of symmetry 11 of the flask. The focuses 12 of the paraboloid part of the bulb are removed from the axis of symmetry of the 1 1 bulb on. distance equal to the radius of the arc-shaped filament body. This is achieved by the fact that the paraboloid shape of the flask profile in the radial direction from the symmetry axis of the flask is moved apart by a distance equal to the radius of the incandescent body, resulting in numerous incandescent arcs around the circumference, the optical axes 13 of the parabolas, the outer branches of which are paraboloid forming profile of the bulb, coincide with its paraboloid part 2. The expansion of the parabolic shape of the profile of the flask to a distance equal to the radius of the arcuate bulb. combine the incandescent body with the locus of the focal position of the flask. Increasing or decreasing the distance will lead to a mismatch of the arcuate body of filament with the geometrical location of the foci of the bulb. The technical advantages of the proposed lamp as compared to the base one are that in a known lamp, strictly in the direction of the axis, only rays emanating from a single point focus are reflected, which does not allow to get the correct shape of the specified light distribution, and in the proposed one - from a multitude of foci located around the circumference of the arc-shaped filament body, forming a beam of light with the correct shape of a given light distribution.

FIG.

Claims (1)

ELECTRIC LAMP containing a glass flask filled with argon-nitrogen mixture with a paraboloid part, on the inner surface of which a reflective coating is applied, paired with a neck connected to the base, into which the leg is welded, and an arc-shaped glow body installed using supports on the leg and located in a plane perpendicular to the axis of symmetry of the flask and passing through the focus of the paraboloid part of the flask, with the fact that. in order to increase its efficiency by providing the required light distribution, the paraboloid part of the flask is formed by rotation around the axis of symmetry of the flask of the parabola, the axis of which is spaced from the flask axis by a distance equal to the radius of the cocoa body. FIG. / 6SZ160g