DE2221657A1 - RANGEFINDER FOR PHOTOGRAPHIC CAMERAS - Google Patents

Description

Our reference: Re: range finder for photographic cameras The invention relates to a distance measuring device for photo cameras, in particular for measuring the distance between a recording position and the recording object, and particularly relates to a range finder which is suitable for use as a Focusing device is suitable.

It is already known a range finder for photo cameras, the works on the principle that a photoconductive element exhibits a remarkable change in resistance shows when the image of a shooting object is on the one near the shooting position located photoconductive element is projected. Here the picture becomes immediate focused on the light-receiving surface of the photo element.

The subject is thereby of a light source - daylight or artificial light outdoors - irradiated and located at some distance from the shooting position. However, in such a range finder Difficulty determining the distance when the subject is insufficient is illuminated.

As there are also other rangefinders known, for example in U.S. Patents 3,435,744 and 3,443,502. With these rangefinders the information determining the distance is either the change in the angle, below + el2hem the photoconductive element is directed towards the subject, or the Position in which the element reflects the able to intercept the changes in the recording distance corresponding light rays. The subject becomes with the light rays emitted from the recording position irradiated and the light rays reflected by the receiving object are emitted from the element caught. A photo camera with such a rangefinder can because of excessive influence of other light rays falling on the photoconductive element, which, for example, come from daylight and not actually from the subject are reflected, do not guarantee a very reliable adjustment of the distance. The measuring accuracy of the range finder is also low because of the information the distance measurement on a mechanical displacement, for example on / change the position or the angle of the photoconductive element with respect to the subject is based. Especially when using the rangefinder with an automatic Focusing device there is a risk of incorrect focusing.

The object of the invention is therefore primarily to create a Photo camera with a range finder that works while avoiding the known range gauges adhering defects satisfactorily automatically able to focus.

Furthermore, a range finder with a flashlight device and a photoelectric detector for photo cameras to be created, in which a triggered by the flash unit Flash on one in the to be determined The subject at a distance strikes and the reflected light passes through the a photoelectric detector arranged at a certain distance from the flash device is noted while the influence of other light sources is minimized is suppressed.

Finally, a range finder for photo cameras is achieved which has high measurement accuracy and a light-incidence-dependent rheostat e bawf rheostat as a photoelectric detector /, making the immediate conversion of the distance to the subject in a resistance value of the rheostat becomes possible.

This object is achieved according to the invention in that a light Proj ection device with a flash unit that sends a flash of light onto the subject, whose distance is to be measured, capable of throwing a light-receiving Device with a light incidence-dependent rheostat, which is a predetermined piece is arranged away from the projection device, and a. Lens which bundles the light rays reflected from the object and onto the light receiving Can impinge surface of the rheostat and a storage device for storage the change in the resistance value of the rheostat as a change in a voltage and a display device for displaying this voltage change are provided.

According to the invention, a flash of light becomes a recording object whose Distance to be measured, sent, the reflected light of which by means of the photoelectric detector is measured. This can reduce the influence of light, that does not get from the flash unit to the detector are suppressed to a minimum, putting a strong beam of light from a small light source to the Detector is broadcast. Another advantage of the invention is that you can achieve highly accurate focusing by using a incidence of light dependent rheostat enables an immediate conversion of the Distance to the recording object is guaranteed in a resistance value of the rheostat.

The range finder according to the invention enables an accurate one at any time Lens focusing regardless of lighting conditions of the subject in daylight and other conditions. Obviously can thus the range finder according to the invention only for distance measurement, but can also be used for automatic focusing in photographic cameras, where a particularly high level of accuracy is required.

The following is based on a preferred embodiment of the invention explained in more detail by drawings. They show: FIG. 1 a schematic representation an optical system for use in a range finder for photo cameras, Figure 2 is a circuit diagram of an electrical circuit for use in conjunction with a range finder, and FIG. 3 shows a schematic representation of the optical and electrical construction of a photo camera with a built-in automatic focusing device and with rangefinder.

In the optical system shown in Fig. 1, a flashlight device F, for example a flashlight lamp, Light or a light beam is emitted, which is used for distance measurement and is shaped, ie bundled, into a beam via a slit or a diaphragm S and a projection lens LP. The bundled light is then thrown onto objects Oi, 02 and 03 arranged at different distances d1, d2 and d3. The objects lie on a common axis. The light beams reflected by the objects O1, O2 and O3 are focused on a detector DT by a detector lens LD, which is arranged on the base line B running through the projection lens BP. The light beams reflected by the various recording objects are projected onto different points on the light-receiving surface of the detector DT. The light from the distance d1 falls, for example, on the point X1, that from the distance d2 on the point B2 and that coming from the distance d3 falls on the point B3.

According to FIG. 2, the detector DT has two electrodes P1 and P2, a section PC made of a photolithic material such as CdS, which responds quickly to light, and a resistor RP with the photoconductive material PC sandwiched between the electrode P1 and the resistor RP.

When the light beam falls on point L1, the resistance increases of the photoconductive material at L1.

The detector DT then has a resistance value r1 of approximately a length 11 from the base of electrode t2 is proportional to L1, if assumed becomes that the light resistance of the photoconductive material is negligibly small is. When the light beam falls on the point L2, the detector DT has one compared to the previous one Value r1 greater resistance value r2. Falls if the light hits point L3, the detector has an even greater resistance value, namely r3. Since the resistance of the detector DT is so dependent changes from the position of incidence of the light beam, the detector can be dependent on the incidence of light Rheostat are called.

According to Fig. 3, current sources E1 and E2, a diode D, a capacitor C, a switch S19, a changeover switch, resistors R1, R2 and R32 a field effect transistor Tr and a measuring device M are provided.

If the changeover switch SS is connected to a contact (a) and that Flash unit F sends a flash of lightning between the terminals of the capacitor a generates a voltage that is inversely proportional to the resistance of the detector DT or the distance from the recording object, for example the distance d2, if the light reflected from the object 02 is directly proportional. When the distance corresponds to the recording object of the distance d1 (Fig. 1), corresponds to the resistance value of the detector DT has the value r1, so that the voltage between the terminals of the capacitor a is high. On the other hand, if the distance is small and corresponds to, for example Distance d3, eo this voltage is low. This means that between the terminals The voltage generated by the capacitor C is proportional to the distance to the object being photographed In other words, the capacitor a stores one corresponding to the distance Information.

When the switch SS is connected to a contact (b) the conducts Field effect transistor Tr1. If this transistor is an N-doped transistor, its output voltage becomes higher as the terminal voltage of the capacitor a increases.

Since the input impedance of the pelde effects transistor r is high, has its output voltage corresponds to the terminal voltage of the capacitor C a constant value.

By reading this output voltage on measuring device X, the distance to the object being taken. After the distance measurement has been completed, the Switch S1 closed to the electrical charge accumulated in capacitor C. derive. The diode D can reverse the electric charge to prevent before switch 2 is moved from contact (a) to contact (b), after the flash unit F was activated.

Furthermore, a cylindrical lens is preferably used for the lens LD, so that the light incident on the detector DT according to FIG. 2 has the shape of a bright Ray owns.

Fig. 3 schematically illustrates the structure of an automatic Focusing device for photo cameras that have an automatic focus or focus adjustment on the basis of the distance value determined in the manner described above able. In this device, the output signal of the field effect transistor Er1 applied to the base of a transistor Tr2 of a differential amplifier, of transistors Tr2 and Tr3, a potentiometer RB, a current source E2 and so on. The output signal of the differential amplifier is through a servo amplifier SA reinforced and then used to drive a servo motor SM, which the To operate or adjust the objective lens LO in the direction of the optical axis able. A slide tap T of the potentiometer RB is coupled to the lens LO.

As described above in connection with FIG. 2, between the terminals of the capacitor C one of the distance to the recording object corresponding voltage is generated when the changeover switch 52 is connected to the contact (a) and the flash unit F is activated. When the switch S2 is connected to the Contact (b), on the other hand, has the same voltage level on the output side of the field effect transistor Trl generated. Occurs after changing the output signal of the field effect transistor Tr1 has a difference between the outputs of the transistors Tr2 and Tr3, the servo motor SM is driven to compensate for this difference. If therefore the relationship between the transmission value of the photo objective lens LO and the performance properties of the potentiometer RB is set exactly, the lens LO is independent of the Distance to the object to be photographed is always set so that precise focusing is ensured on the film surface FS.

Of course, the invention is in no way intended to merely apply to the exemplary embodiment shown and described may be limited; much more Numerous changes and modifications are possible for those skilled in the art without affecting the scope the invention is abandoned.

The invention thus creates a range finder with a device a flash device for generating a flash of light to the object being photographed, a light receiving device Equipment with a light-incidence-dependent rheostat resp.

Resistance to a predetermined distance from the projection device is removed, and a lens for focusing the reflected from the object Has light to a light beam. The light beam is directed to the light receiving Thrown surface of the rheostat. There is also a converter device for conversion the change in the resistance value of the rheostat into a voltage change and a Display device for displaying the voltage change that themselves especially suitable for photographic cameras. The invention also provides an automatic focusing device constituted by the range finder and instead of the display device one actuated by the voltage change Has objective adjustment device.

Claims (4)

P a t e n t a n s p r a c h e Range finder for photo cameras, characterized in that one Light projection device with a flash unit that sends a flash of light onto the The receiving object, the distance of which is to be measured, is able to throw a light-receiving device with a light incidence-dependent rheostat, which is a a predetermined piece is arranged away from the projection device, and a lens that focuses the light rays reflected from the object and onto the Can impinge light-receiving surface of the rheostat, as well as a storage device to store the change in the resistance size of the rheostat as a change in a Voltage and a display device for displaying this voltage change is provided are. 2. Distance meter according to claim 1, characterized in that it is paired with a viewfinder. 3. Rangefinder, especially for use in an automatic Poktpssiervorriohtung, according to claim 1, characterized by a light projection device with a flash unit that sends a flash of light onto the object being photographed and its distance is to be measured, capable of throwing a light-receiving device with a Borrowed incidence-dependent rheostat, which is a predetermined distance from the projection device is located remotely, and one. Lens, which the light rays reflected from the object bundles and lets hit the liohteipfangende surface of the rheostat, one Charging circuit, which, in addition to the rheostats, has a Capacitor and one Having current source, a differential amplifier device, which in its first Stage an amplifier element with high input impedance that is derived from the terminal voltage of the capacitor is fed, and has a potentiometer, one through the Output signal of the differential amplifier device actuated servo motor and a photographic one operated by the servomotor in the direction of the optical axis Objective lens, the slide tap of the potentiometer in the differential amplifier device is coupled to the objective lens. 4. Distance meter according to one or more of the preceding claims, characterized in that a device provided with a light source for Generation of a light beam to an object, which has a slit or a diaphragm and has a lens, one at a distance from the projection device incidence of light dependent rheostat 'a lens arranged in front of the rheostat, which the light rays reflected from the object in the form of a light beam on the rheostat directed, and a display device for displaying the output signal of the rheostat are provided. L e r s e i t e