SU1689914A1 - Color mixing device for additive photo printing - Google Patents

Abstract

The invention relates to a photographic technique and allows for increasing the intensity of the output luminous flux in devices for obtaining a luminous flux of a given chromaticity. In the device, the reflector of zonal light beams from three light sources 1 is made in the form of a triangular pyramid 4 with mirror edges, each of which is coupled through a condenser system 2 and the zone light filter 3 behind it with a corresponding light source 1. Behind the pyramid 4, an afocal lens system 6 is located with an increase of less than 1, mounted for movement along the optical axis. When the device is operating, the longitudinal movement of the afocal lens system 6 adjusts the magnitude of the illumination of the negative plane, and the conjugation of the light sources 1 to the water pupil of the projection lens 7 is not disturbed. 2 Il. w YO O 00 h y

Description

This invention relates to a photographic technique, specifically to an apparatus for color printing.

The purpose of the invention is to increase the intensity of the output light flux,

Figure 1 shows the principal optical layout of the device; FIG. 2 is a view A of FIG. 1,

The color mixing device for additive photo printing contains three illumination channels, each of which includes a point source 1 of light arranged in series along the beam, a capacitor 2 made, for example, in the form of an aspherical lens, and a corresponding zone filter 3 (blue, green, red), while the optical axes of the channels are arranged at an angle of 120 ° to one another, installed at the intersection point of the optical axes of the lighting channels of a three-sided regular pyramid of small dimensions - micropyramid 4 from mirrors GOVERNMENTAL facets mounted for microprism and optically associated therewith a solenoid valve with shutters 5 and afo- Calne lens system 6 formed, for example, in the form of positive and negative components with the possibility of longitudinal movement along the optical axis.

The correct micropyramid 4 with respect to the lighting channels is set (Fig. 2), that their optical axes in planes passing through the height of the micropyramid and the normal to the corresponding face form a flat angle with this normal equal to the dihedral angle at the base of the micropyramid 4 In the proposed device, the dihedral angle at the base of the micropyramid is 45 °. Power is supplied to each light source 1 through a stabilizer and a calibrated power regulator (not shown).

The device works as follows

In each lighting channel, the rays coming from point source 1 of light pass through capacitor 2, light filter 3 and build an image of source 1 on the corresponding face of micropyramid 4. The amount of light energy arriving at micropyramid 4 is determined by the angle of coverage of the lighting condenser 2 channel. Diffused light beams reflected from each face, the optical axes of which are parallel, and their tops are located close to one another, are superimposed. one on top of another and pass through an electromagnetic gate orifice, the shutters 5 of which are open -or only n given

exposure time, thereby eliminating the exposure unstable periods of heating and attenuation of light sources. A three-element luminous flux passed through the blinds 5 falls on the entrance pupil of the afocal lens system 6, which builds secondary imaginary images of the light sources 1 in the plane interfaced with micropyramid 4. Since the magnification of an afocal lens system 6 is less than 1, the linear distance between adjacent images of three sources 1 of light and the distance from each of them to the optical axis of the afocal lens system 6 is so small that the imposition of three light beams on one another becomes absolute, providing high quality color mixing.

This mixed luminous flux is then used to illuminate the original for photo printing. In the case of projection photo printing, the image of the light source 1, constructed by the afocal lens system 6 by means of the projection apparatus's lighting system, is mated to the entrance pupil of the projection lens 7, for example, a photo magnifier (Fig. 1). This interface is achieved by moving the entire color mixing device along the optical axis of the photographic enlarger.

By longitudinal movement of the afocal lens system 6 relative to the micropyramid 4, the illumination value of the negative is adjusted by changing the output aperture of the afocal lens system 6, which leads to a change in the illumination in the negative plane, while the light source 1 of the light source does not interfere with the entrance pupil of the projection lens 7.

The adjustment of the spectral composition of the mixed luminous flux emerging from the light mixing device is carried out by a stepless change in the power of the respective light sources 1 by means of a power regulator. Thus, the percentage of each of the primary colors (blue, green, red) in the mixed luminous flux is determined by the power of the respective light source.

Claims (1)

Invention Formula A color mixing device for additive photo printing, containing three illumination channels, each of which has a light source, a condenser and a zone light filter, and a reflector with three mirror edges optically coupled to the light sources corresponding to the optical. channels, the optical axis of each of which in the plane passing through the normal to the corresponding mirror face and the straight line drawn from the intersection point of the optical axes of the lighting channels perpendicular to the plane of the optical axes of the lighting channels, forms a flat angle with a normal equal in size to the dihedral the angle between the mirror face and the plane of the optical axes of the lighting channels, the node forming the output light beam and the shutter that differs 0 so that, in order to increase the intensity of the output luminous flux, the reflector is made in the form of a three-sided regular pyramid installed at the intersection point of the optical axes of the lighting channels arranged at an angle of 120 ° to each other, and the node forming the output light beam - a lens system with an increase of less than 1 installed behind the pyramid with the possibility of movement along the optical axis. Type A fa, t.t