DE102004A - - Google Patents

Description

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IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 57: Photography.

JULES CARPENTIER in PARIS.

Patented in the German Empire on June 20, 1897.

The present invention aims at the automatic adjustment of magnification or reduction devices and uses a compulsory connection between the two plate carriers and the lens, which is designed in such a way that it can be used for all setting widths both plates automatically assume the position of image and object in relation to the lens. It is for this purpose It is only necessary to arrange the mechanical guides in such a way that they pass through the optical Given formula correspond to actual distance relationships.

If φ is used to denote the focal length of the objective and f and f ¹ denote the distances between the two plates and the focal points closest to them, the simplest formula on which a mechanical design is based is:

ff ¹ = ^ -

The problem is thus solved as soon as the compulsory guidance is arranged in such a way that this equation remains fulfilled. On the other hand, since the magnification depends in a simple manner on the image width / ¹

she

it is up to you to precisely pause for any desired magnification.

For the basic principle of the apparatus it is of course irrelevant whether the lens is used Läfst fixed and the two plate carriers by the corresponding positive guidance connects, or whether you hold one plate carrier and the other plate carrier as well as makes the lens movable.

A camera built according to this principle is described by Pizzig belli in Eder's yearbook for photography and reproduction technology, year 1895, page 290 ff. The inevitable leadership is represented here by equilateral hyperbolas.

The present invention is intended to achieve the same purpose in a simpler manner only by using straight guides. She uses the theorem, that in a right triangle the height is the mean proportional between the hypotenuse sections forms.

The accompanying drawing shows a magnification camera, which according to the given formula is built.

FIGS. 1 and 2 show schematically that on which the present invention is based Princip.

Fig. 3 shows the apparatus in longitudinal section,

Fig. 4 in the basic outline and

Fig. 5 in bottom view.

In Fig. ¹ , O represent the objective, A. the object, A 1 the image, F and F ¹ the associated focal points of the objective. The distance f of the object A from the focal point F which is closest to it is multiplied by the distance f ^{1 of} the Image A ¹ of the focal point F ¹ lying next to it is equal to the square of the focal length, that is

ff ¹ = φ ² . This relationship is shown geometrically in Fig. 2 in such a way that a right-angled triangle BCB ¹ is constructed, the height of which is made equal to φ and the hypotenuse sections of which are equal to f and f ¹ . If the distance φ is now plotted on the hypotenuse to the left of B and to the right of -B ¹ , the end points correspond to the positions of the object and the image if the objective is assumed to be located at the base point O of the height φ of the triangle BCB ¹ . If, for example, the plates carrying the object and the image are connected to the end points of a lever bent at right angles, that between the points of application of this lever and the object respectively. The distance φ remains in the image, and if the angular point of the lever is fixed perpendicular to the cylindrical axis in the plane of the objective and at a distance φ from its center, so that the lever can rotate about this point, then when the lens is shifted the Object plate and the image plate can always be shifted in such a way that the relationship given above is preserved. Both plates must of course be guided in a straight line in the direction of the optical axis.

An apparatus constructed according to this principle is shown in FIGS. 3 to 5. A rigid angle lever HH ¹ , which can move horizontally around point C, is arranged on the base plate of the apparatus. The two arms of the angle lever are at their ends with slots h BEZW. h ¹ , in which the fingers B and B ^{1 of} the carriage E, which carries the object A, and of the carriage E ¹ , which carries the image A ^y , engage. The fingers B and B ¹ are respectively from the object A. the image A ¹ by the distance φ away. The fulcrum C of the angle lever lies in the plane perpendicular to the optical axis through the center of the objective O , at a distance φ from the objective.

The relationships shown schematically in FIG. 2 are therefore present here; the angle lever forms the triangle BCB ¹ of FIG. 2, the height of which is equal to φ. If the slide E ^{1 of} the image carrier is now displaced, for example, by toothed wheels which engage in toothed racks on the frame of the stand, then his finger JB ¹ is also displaced in the slot ^ ¹ . As a result, the angle lever H ¹ receives a rotary movement about its pivot point C, so that its other arm H also swings and, by means of the finger B, moves the object A in suitable guides. After this shift, a right-angled triangle BCB ¹ is obtained again, in which the height is φ and the sections f and f ^{1 of} the hypotenuse determined by the base point of the height have the height φ as mean proportions. The image and the object are thus again adjusted in such a way that their distances from the focal point of the objective which is closest to them have the focal length of the objective as mean proportions.

Claims (1)

Patent claim: Reproduction camera with inevitable guidance of the object and the image carrier for the purpose automatic adjustment, characterized in that the guidance is effected by shifting two firmly connected with slide and image carrier and from this pin, which is removed by the amount of the focal length, in slots of a right-angled Angle lever, whose vertex and pivot point are in the middle of the lens is perpendicular to the optical axis and a distance equal to the focal length from the lens center. : 1 sheet of drawings.