SU744787A1 - Method of adjusting incandescent lamp incandescent body - Google Patents

Description

(54) METHOD FOR ADJUSTING THE BODY OF THE HEIGHT OF THE LAMP

I

This invention relates to the electrical industry and can be used to manufacture light sources.

The invention relates to a method for adjusting the incandescent body of incandescent lamps, for example, film projection lamps in an ellipsoidal-spherical flask. The flask has a complex profile consisting of a spherical part with a transition to an ellipsoid one, and has a cylindrical process for welding the legs of a lamp with a body of heat placed on it. The focus of the ellipsoidal surface coincides with the center of the spherical surface, and is located on the axis of the cylindrical part.

A known method of adjusting the incandescent body of incandescent lamps in an ellipsoidal-spherical flask using a microscope, which consists in that the cylindrical process of the bulb of the sealed lamp is mounted on. a certain distance into the cylindrical hole and observe the image of the filament body. While the glass in the place of welding does not freeze and has some plasticity, the body of the heat behind the pinge is moved in such a way as to see it in contrast.

and arrange symmetrically with respect to the axial lines of the eyepiece 1 grid.

The optical system of the microscope is adjusted so that when the lamp is mounted at a certain distance, the body of the filament can be seen as contrasting if it is located in the focus of the bulb ellipsoid. Then the position found is fixed rigidly so that it does not accidentally change. A metal standard is used to set up the system. However, all optical devices, in this case a microscope, possess a certain depth of contrast vision of the image of the object being observed.

The filament body is seen as contrasting at a depth of 1.0 mm, i.e., the process of positioning the filament body in a specific place with respect to the focus has reproducibility accuracy. Moreover, the position of the pattern in front of or behind the focus is indefinable, as is the position of the incandescent body during its contrast vision, which gives an even greater variation in the incandescence of the incandescent body. In addition, workers working with a microscope, there are 6o, visual overload. With a known method, the body glow is visible

contrast, even if It is under

glom to the focal plane. ,: ..,.

The closest to the described isoretenie is a method that provides full-time location of the incandescent body relative to the centerline of the base (base) using a projection unit 2.

The projection unit has a template.

For placing a focus in it. The screen shows in the corresponding scale rectangles into which the images of the heat body in the frontal and profile planes fit. The output of the setup is adjusted so that the intersection points of the symmetry axes of the rectangles on the screen coincide with the vertex of the reference. Adjustment of the projection installation allows the filament body to be positioned with a certain accuracy on the centerline of the plate (outer glass of the focusing base). Then, the outer cup of the focusing plinth is placed in the template, and the inner cup of the socle-pointed lamp is inserted into it. By moving the lamp up and down, left and right by the flask, a position is found at which the image of the heat body is squeezed into the rectangles of the screen. Then fix the position of the lamp, solder the inner cup to the outer cup. However, the position of the bulb axis with respect to the filament body, the axis of the outer lens of the focusing base (base) is arbitrary. So the axis of the bulb can be tilted in any direction or parallel to the axis of the focusing base within the differences in the diameters of the glasses of the bases, technological tolerances on the welding of lamps, the shape of the neck of the lamp.

Such a body position is unacceptable in lamps with an ellipsoidal spherical bulb.

The aim of the invention is to improve the accuracy of the adjustment of the filament body in an ellipsoidal-spherical bulb.

This goal is achieved in that in the method of adjusting the incandescent body of the incandescent lamp, which consists in combining the image of the incandescent body with rectangles of the corresponding sizes in the frontal and profile projections on the alignment setting screen by moving the incandescent lamp body installed in the template for the stengel that flask The lamps in the pattern are rotated until the shadow line of the sphere transitions into an ellipsoid in the form of a straight vertical line on the screen, fixes the position of the bulb in the pattern, and then produces combining the image of the filament body with the rectangles on the screen.

The drawing shows an adjustment setup.

The configuration of the projection installation is performed in a known, described manner.

The base surface is the myrofil of the flask.

The alignment of the lamps is as follows.

The lamps are welded in the usual way. Then a lamp with still diluted glass at the welding point is inserted into the pattern.

Pattern 1 as a turned hollow part

has ynopHbie screws 2, with which a lamp bulb inserted into the black takes a certain position, and an integrated heating element to increase the time it takes to harden

places of welding glass. Using lanterns 3 of the installation and an optical system consisting of lenses 4 and 5 and prisms 6, a contrast image of the incandescent body and the transition line of the spherical part of the bulb into the ellipsoid (bulb edge) on the screen 7 are obtained.

Stop screws 2 allow the flask to rotate around an axis. The flask is turned so that the shadow image of the line of transition of the sphere into the ellipsoid is seen as a vertical line, then the position of the flask is fixed, pressing its spherical part to the template.

For the time being, the glass in the place of welding did not freeze and is in a softened state; the heat body is moved by the shtengel. To achieve its position in the rectangles of the screen. The shadow image of the bulb edge must coincide or be parallel to the vertical axis of the rectangular profile projection. The predetermined position of the lamp and the filament body is maintained until the end of the process of solidification of the glass, after which the lamp is removed from the plate of the projection installation and transferred to the pumping.

Using this method of alignment allows you to achieve accurate positioning of the filament body relative to the bulb, which ultimately ensures the reproducibility of lamp parameters.

Claims (2)

Invention Formula The method of adjustment of the incandescent lamp body, which consists in combining the image of the incandescent body with directors of the corresponding sizes in the frontal and profile projections on the screen of the alignment unit by moving the incandescent lamp body installed in the template, for increasing the accuracy of body alignment in an ellipsoidal-spherical bulb, a lamy flask in a pattern is rotated to obtain on the screen a shadow image of a transition line of a sphere into an ellipsoid in the form of a straight vertical They fix the position of the bulb in the template, after which the image of the glow body is combined with the rectangles on the screen. Sources of information taken into account in the examination I. Kruger M. Ya. And others. Reference designer optical-mechanical devices. L, “Mechanical Engineering, 1967, p. 139. 2. Ulmishek L. G. Manufacture of incandescent electric lamps. “Energie, 1966 p. 544-549.