DE2554289A1 - Optical electronic focussing device - is used in camera and has separator line acting as inverter between light zones - Google Patents

Abstract

An optical-electronic focussing device for a reprographic camera or enlarger, is constructed such that the separation line between two light zones fulfills the function of a mechanical inverter. Twin matched electrical light sensor cells lie in the region of the separation line. The action of the light sensor cells is to disconnect the adjustment drive as soon as the separation line of both light zones reaches the electrical mid-point of both the light sensitive cells. The separator line is internally filtered and focussed through a lens.

Description

Opto-electronic automatic focus for reproduction camera.

The invention relates to an opto-electronically working 5chär = fenautomatik for reproduction cameras and enlargers with automatic distance adjustment the image distance and the object distance according to the position specified by means of light.

For automatic focus it is necessary that the function ######### + ################ = ########## is fulfilled. The elements for the transmission of the automatic focus must be as possible Use directly, i.e. free from play, twisting or distortion. The change on the automatic focus of a different focal length and the setting of the desired one Illustration size should be easy to implement.

It is known that to meet these requirements mechanical = cal Lever inserts, curves, hyperbolic spindles, or adjustable ones connected in parallel Resistors with electr. Follow-up control in a Wheatstone bridge, used will.

A lever-operated control is like any other mechanical one Types of control of mechanical wear and tear at points with high accuracy requirements subject. A larger bellows extension brings an increasing slope and, associated with it, a decrease in the adjustment force. It is also very time-consuming to to automatically focus multiple lenses.

The parallel connection of controllable resistances for the electrical Transferring both distances has the advantage of having several lenses with automatic to record and easy to change, however, makes high demands on linearity the adjustable resistances and stability requirements for the Wheatstone bridge.

The sensitivity increases with this automatic focus Distance from the lens.

The invention is based on the object with simple means To circumvent deficiencies in mechanical transmission links on the direct eg without intermediate links Specify the stop position for your current stretches and also over larger ones to make the distance from the lens almost free of play.

This object is achieved according to the invention in that the door = line of two light zones with differing light as a line the puncture of a known mechanical inverse, which two the type of light matched electrical light receiving cells, of which for the purpose of Direction determination each reacts opposite to the other and which one disconnects of the adjustment drive as soon as the line separating the two light zones the electrical cement of the two light-receiving cells reached.

Around such a dividing line even over several Viennese distances To still be able to send sharply on the photo resistors, it is necessary to have them focus through a lens. This then forms, for example, complementary with superiors Color filters create a fixed straight line in relation to one another, even when they are renewed the point light source is retained.

The advantages achieved with the invention are ins @ esonder: that 1. all disadvantages of the mechanical automatic system disappear 2. all with a scale Focal lengths are recorded 3. the use of a decadic scale for setting the greetings in connection with the light transmitter 4. the automatic system is possible for various Focal lengths can be switched electrically). Glass thickness compensation through Shifting the electrical center of the light receiver is possible A Embodiment of the invention is shown in the drawing and is in The following is described in more detail: FIG. 1 shows: light transmitter with 2 complementarily colored Light = zones and the 1: 1 position of 3 different focal lengths on the lens standard for a camera without mirror deflection.

The point light (P) shines through both pairs of internal filters (iF), their common contact sides in the lenses (L) bundled and through the passage point (D) are irradiated onto the light receiving electric cells (Z). Simultaneously the point light shines through the external filter (aF) and forms in the area around the light transmitter the light = zones with the arrangement - + -, their dividing lines (T), at an angle of 9O0, the position specification for image distance and object distance by turning the light transmitter around the intersection of the two dividing lines. The two reflector mirrors (S) brighten the external filters shaded by the lenses.

Fig. 2: Light receiver (Z) from Sir.1, schematically, with amplifier and Position of the light zones to the receiving filters (EF) in front of the electrical light receiving cells, in stop position. Regulator for the electrical center CM), also as glass thickness equal.

In the case of large-capacity cameras, embedding a laser beam in the dividing line to increase the precision. If this is additionally modulated (laser is usually pulsed light), an audio-frequency alternating voltage can be generated in the light receiver be generated, which initiates a braking function shortly before reaching the sharpness.

Claims (2)

Claims: 1. Upto-electronically working automatic focus for reproduction cameras. Magnifying devices with automatic distance adjustment the image distance and the object distance according to the position specification by means of light, thereby characterized in that the dividing line (T) of two light zones jit from one another distinguishing light as a line has the function of a mechanical known per se Inversore takes over which two electric light = reception cells (Z) adapted to the type of light strokes, each of which is opposite to the other in order to determine the direction reacts to the light zone that hits it and which one switches off the adjustment drive causes as soon as the dividing line of the two light zones reaches the electrical center of the reached both light receiving cells. 2. Opto-electronically working automatic sharpening system according to claim 1, characterized in that the dividing line in the light transmitter by means of an internal filter (iF) and lens (L) is bundled and produced in a fixed position, in a reversed position to Color coverage with aen external filters (a2).