DE19903143A1 - Acquiring, projecting 3D film images involves using 2-step process involving optical devices to acquire double image simultaneously with only one camera, superimposing images - Google Patents

Abstract

The method involves using a two-step process involving optical devices to acquire a double image simultaneously with only one camera then using a similar device with polarization filters or color filters (5) to superimpose both images on a projection plane so that a 3D image is seen when the plane is viewed with suitable spectacles. An Independent claim is also included for an image acquisition arrangement and for a projection device.

Description

The invention relates to a method that in the first step three-dimensional images on a Shoots the film in three dimensions with the help of a viewing device appear. Two different procedures are used. Of the three-dimensional process is a double image simultaneously with a camera (2nd Half-frame images). This method is particularly suitable for high Frame rates and shortest exposure times. For this, a special optical two-lens attachment used, which adjust to the focal length and the object distance leaves. The film thus recorded is projected using a similar structure optical attachment, which is arranged in front of the projection lens. This is with Polarization filters or color filters, e.g. B. red-green or red-blue, equipped. On the Projection plane, both images are superimposed with a slight shift, so that when Consider using appropriate polarizing glasses or a color filter glasses three-dimensional image is created. This is also an observation of the recorded Operation possible by several people at the same time.

The two-step process with red-green filter only allows a qualitative evaluation of 3- dimensional shots on viewing with red-green glasses. The double image, So the first step, but also allows a qualitative evaluation if the basis of the Intent is known. For this, the distance of the object-side mirror and the angle of the incident light rays, which are directed to a point of the object. In order to it is possible to change the location of a point with the help of an evaluation program to determine. This way, you don't have to set up a second camera.

The 3-D systems used today, which work with only one camera, use the filter system, which is associated with higher light losses. This is the Use limited to lower frame rates. The usual double image resolutions recordings are for single images, e.g. B. 35mm shots, common and suitable, but not for watching motion pictures. The described two-step process bypasses these shortcomings by eliminating both procedures with the help of appropriate optical attachments for recording as well as for projection. It can also be done with just a header and suitable adapters.

The optical attachments are explained, for example, using drawings.

Fig. 1 shows a two-eyed attachment for the shot with the adjusting device 1 for adapting to the focal length of the taking lens 2 and a device for adjustment to the object, which is particularly necessary for close-ups. The mirrors 3 are rotatably arranged. The 3D effect is dependent on the distance between the outlet openings 4 .

Fig. 2 shows an attachment for the projection with filters 5 in front of the outlet openings 4 , which is otherwise constructed similarly to the receiving attachment. It is therefore possible to work with just one adjustable attachment for both the recording and the projection.

Figure 3 shows the basic principles of the procedure for the quantitative evaluation of the double images. Starting from a base a that is a multiple of the distance between the human eyes, the mirrors 3 are first set to a specific point P of the object O and the angles α1 and α2 are determined, the angles α1 and α2 being set symmetrically or asymmetrically to the camera axis can be. It is important that the image planes are at as large an angle as possible and that all mirrors can be adjusted independently of one another and adjusted to the image in the image plane of the camera.

FIG. 4 shows an optical system in which a separate taking lens 6 is used for each individual image instead of just one camera lens.

FIG. 5 shows an optical arrangement 7 for a larger base length, which allows the image beam to be brought to the image plane in the camera with the aid of an intermediate image 8 on the required scale.

Claims (8)

1. A method for recording three-dimensional films, characterized in that in a two-step process with the aid of optical devices, a double image is initially recorded simultaneously with only one camera, in a second step with the aid of a similarly constructed device, which is additionally equipped with polarization filters or color filters is equipped, and with which both images are superimposed on the projection plane, so that a three-dimensional image is created when viewed with suitable glasses. 2. Recording attachment for the method according to claim 1, characterized by a Gearbox that connects both object mirrors so that they oppose each other move and the two deflection mirrors can be adjusted independently. 3. Recording attachment for the method according to claim 1 and claim 2, characterized indicates that gear transmission for adjusting the object and the deflecting mirror to be used. 4. Recording attachment according to claim 2 and claim 3, characterized in that instead of the mirror reflective prisms are used. 5. Projection attachment with the indicator according to claim 2, 3 and 4, characterized characterized in that polarization or color filters are attached in the beam path. 6. Optical device with the features of claim 2, 3, 4 and 5, characterized characterized in that it is used for both recording and projection can be. 7. Recording attachment according to claim 1 and 4, characterized in that at a fixed predefined basis the 2 lens mirrors independently of one another on a point of Object can be fixed, the angle of the mirror symmetrical or can be asymmetrical to the camera axis and both images independently of each other can be adjusted to the image plane. 8. Recording attachment according to claim 1, 4 and 7, characterized in that each beam of the Partial images has its own lens, which is attached in front of the object mirror and, if necessary, with the help of an intermediate image and another optic Illustration on the image plane allowed on a given scale.