DE2751629A1 - ELECTRONIC FLASH DEVICE FOR PHOTOGRAPHY - Google Patents

Description

DR. BERG DIPL.-ING. STAPF DIPL.-ING. SCHWABE DR. DR. SANDMAIR 2751629

PATENT LAWYERS S MUNICH (6. POST BOX 8602 45

. 3.

Attorney's file: 28,628 November 18, 1977

West Electric Co., Ltd. Osaka-shl, Osaka-fu / Japan

Electronic flash device for photo

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vii / xx / ha 809821/0955

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Attorney's file: 28 628

description

The invention relates to an electronic flash device for taking photos, the flash duration of a flash tube or lamp is automatically controlled according to the amount of light generated by the flash device and from an object is reflected, and relates in particular to a light receiving device for the electronic Flash device to capture the light reflected from the object.

An automatic electronic flash device of the above Art is described, for example, in US Pat. No. 3,857,064. Depending on the taking lens used, whether it is, for example, a wide-angle, normal or telephoto lens, the light receiving angle (which below to be determined) of a borrowing institution to be changed. For example, the light emitted by the flash device should be designed for a "flash" angle be that corresponds to a telephoto lens; however, the light reception angle is then too large or wide. The light-receiving Facility then picks up (any) light rays and not the light rays coming from the object have been thrown back, making it a faulty one

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Exposure with flash is coming.

To overcome this difficulty is already a facility has been proposed at which the light receiving angle depends on the type of a taking lens used is changed. Such a device is for example in the laid-open Japanese utility model No. 50-100541. In this device a number of lenses or objectives are used in such a way that that the light receiving angle can be changed by a combination of these lenses or objectives. Consequently the device is very complicated in structure and due to the expensive lenses or objectives used as a whole also very complex and expensive.

According to the invention, a light-receiving device for an electronic flash device is therefore to be created, in which no expensive lenses or objectives are used, in which the construction and operation are changeable the light receiving angle is very simple and their production is inexpensive overall.

According to the invention, therefore, a light-receiving device is provided in which the light rays which from reflecting an object and passing through a positive or converging lens, at a predetermined one

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The angle of incidence is set in focus through a kind of light shaft or through a pipe on a photo or light sensor will. Furthermore, a device is provided to determine the distance between the converging lens and the photo sensor as a function from a used taking lens to change. Corresponding to the output on the light receiving device an electronic flash device can then correctly control the flash duration and thereby a correct exposure by means of Ensure flash light.

According to the invention, an electronic flash device with a light receiving device is thus created, which can change the light receiving angle over which the device reflects what is reflected from an object Receives light. The flash device can automatically according to the output from the light receiving device control the flash duration. Here, the light-receiving device is simple both in structure and in its mode of operation and also inexpensive to manufacture.

The invention is described below on the basis of preferred embodiments explained in detail with reference to the accompanying drawings. Show it:

1 shows a schematic perspective, partly in section Representation of a light receiving

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menden device according to the invention;

2 shows a schematic representation for explanation

the recording method with a normal lens;

3 shows a representation corresponding to FIG. 2, however for the recording process with a wide-angle lens;

4 shows an experimental arrangement with the light-absorbing Device according to the invention for measuring the light receiving angle and the strength of the received light if an outer light shaft or a corresponding tube (6), such as shown, is fixed at a measuring point;

Fig. 5 Intensity curves at corresponding measuring points,

when a positive or converging lens (5) is removed;

Fig. 6 Intensity curves when the converging lens is used is; and

7 shows a graph in which the light intensities, are plotted integrated over the light reception angle in the intensity curves shown in FIG.

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A preferred embodiment is shown in FIG. 1, partially in section a light receiving device according to the invention. A main part 1 of an electronic Flash device has an electronic circuit which is based on a predetermined time-integrated value of the Responds to the amount of light emitted by the flash device and reflected from an object or thrown back to automatically extinguish a flash lamp, i.e. to automatically control the flash duration. The electronic The circuit has a light-receiving device designated in its entirety by 2.

The light-receiving device 2 has a light or photo sensor 3, which reflects the reflected from the object Light converts into an electric current according to the strength of the light received, an inner light shaft or a pipe 4 to which the photo sensor 3 is attached is, a positive or converging lens 5, through which the light reflected from the object on the photo sensor 3 is focused, and an outer light shaft or a tube 6, on the front of which the Converging lens 5 is attached. The outer light shaft or the outer tube 6 is displaceable over the inner light shaft or tube 4 is attached so that the distance between the converging lens 5 and the photo sensor 3 can be changed as will be described in detail below.

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For this purpose, a helical internal thread of the outer light shaft or tube 6 can also be connected to a helical external thread of the inner light shaft or tube 4 in a known manner stand. On the other hand, the inside and outside diameters of the two pipes, i.e. of the inner and outer tubes 4 and 6 be chosen so that the inner and outer tubes 6 and 6 are frictionally displaceable with respect to one another. on In this way, the inner pipe 4 or the outer pipe 6 can then move in the directions with respect to the respective other pipe. and moveable, indicated by a double-headed arrow.

The light receiving device 2 having the structure described above may be provided in the flash device in this manner and be arranged that the inner tube 4 is fixedly attached to the main part 1, while the outer tube 6 is telescopic Slidably mounted over the inner tube 4, and the photo sensor 3 electrically with the above-described electronic Circuit is connected.

With reference to Fig. 2 and 3, the method of operation is next of the light receiving device 2 is described. In Fig. 2, the "normal recording process" (i.e. the recording process with a normal lens), the normal converging lens 5 with a focal length F and a counter-

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stood E at an indefinite distance. Light rays 7 and T , which are reflected from the outermost points of the object E, go through the periphery of the lens or at the edge of the maximum effective aperture diaphragm with a diameter D. and hit the undeflected light rays 8 and 8 ', which pass through the center of the Pass through lens 5, near the focal point f, in order to focus the image with an area S ... When the photometer sensor 3, which has a light receiving area larger than the area S-, is arranged in the image plane, it can receive a maximum amount of light reflected from the object E and passed through the lens; however, this arrangement is not practical in terms of space and cost. The refracted light rays 7 and 7 ', which are reflected from the outermost points of the object E, intersect at a point 9. Infolaedessen can be assumed that all the light emitted by the object E with a light reception or light angle of incidence Θ . is reflected, is concentrated or united or converged at this point 9. According to the invention, it is therefore at this point 9 where the photo sensor 3 is arranged, and the method of converging the light reflected from the object E by means of this arrangement is referred to as the "normal recording method".

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In the case of a wide-angle lens, the angle of view is larger or wider, and the image of the object 1 is also larger, so that the reflected light receiving angle or the object angle of the light receiving device 2 must be enlarged accordingly. For this purpose, the inner tube or the inner light shaft 4 is moved closer to the lens, as shown in FIG is to be enlarged. This is because, in the case of the converging lens, the closer a ray of incident light is to the axis of the lens, the greater the angle of refraction of the ray. As a result, when the inner tube 4 is moved closer to the lens 5, as shown in Fig Positions of the object E at the larger light reception or incidence angle or the object angle Q _{2 have been} reflected.

In the so-called "wide-angle recording mode" (ie the recording mode when using a wide-angle lens), in which, as described above, the inner tube 4 is moved closer to the lens 5, the effective, free opening D _{2 is} smaller than the effective one , free opening D. at the

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so-called "normal shooting mode", so that the image S2 of the object E in the so-called "wide-angle shooting mode" is larger than the image S ₁ in the "normal shooting mode". The relationship between the areas of the images S and S "and the effective, free openings D .. and D" is given by

S ₁ : S ₂ = D ₂ : D ₁

Both in the "normal as well as in the wide-angle recording mode" intersect or converge the light rays which have been reflected from the outermost points of the object E at the point 9 after they have passed through the differently sized (diaphragm) openings D ₁ and D have passed so that the photo sensor 3 can receive the same amount of reflected light. As a result, according to the output from the photo sensor 3, the electronic flash device can accurately control the flash duration.

In the so-called "wide-angle recording mode", the inner tube 4 is turned to the left with respect to that shown in FIG Position moved further away from the lens 5, so that the distance between the lens 5 and the photo sensor 3 is greater is.

Based on FIGS. 4 to 7, experiments and the results thereof are now shown data obtained. The shown in Fig. 4,

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light receiving device has a converging lens 5 with a diameter of 19mm and a focal length of 37mm, an outer one Tube 6 with an inner diameter of 18mm and an inner tube 4 with an outer diameter of 17.8mm. The total stroke or the displaceability of the outer tube 6 with respect to the photo sensor 3 is assumed as unit (1) and is shown in FIG divided into four sections. As a result, the measurements at locations 1, 3/4, 1/2, 1/4 and 0 became as shown in Fig. 4 is carried out for the light reception angle and light intensities of or based on a point source 7, which in one Distance from the light receiving device 2 has been arranged, which is sufficiently greater than its length, and in the event that the lens 5 was inserted into the outer tube 6 and that it was removed therefrom. In the present Description refers to the term "T, ichtaufnahmewinkel" to the angular width between the points 1/2 of the maximum of an intensity curve, as shown in FIGS is when the light receiving device 2 is in the directions indicated in Figure 4 by a two-headed arrow are rotated about a point in the photo sensor 3 on the axis which the point source 7 and the light receiving means 2 connects.

In Fig. 5 the intensity curves are at the points 0, 1/4, 1/2, 3/4 and 1 shown with the converging lens 5 removed. From this it can be seen that when the converging lens 5 is removed

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the light reception angle and the received light intensity will remain almost constant. In FIG. 6, the intensity curves are plotted at the points listed above, with the converging lens 5 inserted. From this it can be seen without further ado that the light reception angle and the received light intensity change from one measuring point to the other, and that
the greater the distance between the photo sensor 3 and the
Objective 5, the light receiving angle of the light receiving device 2 is smaller and the received light intensity is larger.

FIG. 7 shows the amount of light received or the relative sensitivity at each of the measuring points. With the
electronic flash device used in conjunction with the light receiving device according to the invention
is, when the amount of light reflected from the object reaches a predetermined value, the flash (ie, the
Flash duration limited automatically. As a result, the flash device must measure that predetermined amount of light that has been reflected from the object, wherever it may be located. That is, the flash device must accurately measure a predetermined amount of reflected light at each of the measuring points. As a result, the strength of the received light with respect to the light reception angle was integrated at each measuring point for each of the intensity curves shown in FIG
and was plotted as shown in FIG

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the integrated intensity, the amount of light received, or the relative sensitivity measured at point 1/2 when 100 is stated. From this it can be seen that the amount of light received at the respective measuring points regardless of the distance between the lens 5 and the photo sensor 3 and regardless of the distance to is essentially the same as the object.

End of description

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Claims (3)

DR. BERG DIPL.-ING. STAPF DIPL-ING. SCHWABE DR DR. SANDMAiR 2/51629 PATENT LAWYERS S MUNICH Se. POST BOX M 02 45 Attorney's file: 28 628 Claims .] Electronic flash device for taking photos, with which the flash duration is automatically controlled according to the amount of light generated by the flash device and is reflected from an object, characterized in that the flashing device is a the reflected light receiving device (2) has a converging lens (5) through which the light rays reflected from the object (E) pass a tube (4) acting as a light shaft. so that the light rays which pass through the converging lens (5) under a predetermined angle of incidence, with a photo sensor (3) attached to the tube (4) for recording of the incident rays, and with a device (4, 6) for changing the distance between the converging lens (5) and the photo sensor (3). 2. Electronic flash device according to claim 1, characterized 809821/0956 originally inspected * «»: 72 «Some M. MMatirchrniiälc 45 refuel: B ^ crücke Verein« «·« * Some 453100 *? 043 Telegram «: IEtGSTAPFPATENT Manchen Hypo-tvtk Manchen 3f» O002 »24 4 * 3310 TELEX: 05245 * 0 BEtC d MMdMCk Some »« 5343-101 characterized in that the photo sensor (3) is arranged at a position at which the outermost converge light rays refracted by the converging lens (5). 3. Electronic flash device according to claim 1, characterized in that the means for changing the distance between the converging lens (5) and the photo sensor (3) another tube acting as a light shaft (6) has, which is mounted telescopically displaceable or rotatable over the first tube (4) and on the one, the end remote from the photo sensor (3) is the converging lens (5) carries. 809821/0955