DE102014101706A1 - Optoelectronic module for room image recordings - Google Patents

Abstract

The optoelectronic module can be used in device technology for room image recordings and has a socket in which two identical optical units are arranged on a movable support plate parallel to the axis. The optical units are coupled to a servo drive to adjust a stereo recording base and coupled to another servo drive to change the aperture values in both optical units. In this case, said support plate is connected to the servo drive to adjust the lens sharpness. The control inputs of all servo drives are connected to outputs of a process computer, which specifies the characteristic values for the room image acquisition. The right and left frames are projected onto a sensor. The sensor sends an electronic signal to a converter and then to a signal storage device. The technical effect is to increase the accuracy and to avoid subjective factors in the production of conditions for the room image acquisition by means of a process computer and to ensure remote controllability (including remote control capability) of all characteristics.

Description

The invention relates to an optoelectronic module for space imaging according to the preamble of claim 1.

The invention can be used in the device technology for room image recordings (stereo film recordings).

By the SU 92980 , Bernstein ND, 1953, SU 1053329 , Gorelov LV, 1983, optical devices are known with which to get a stereoscopic image (space image).

The closest prior art to the invention is a stereo film lens with a lens mount. In the lens mount two identical optical units are arranged. The optical units sit axially parallel on a platen and are coupled to a drive to adjust the stereo recording base with the drive. The drive is used to change the aperture values in both optical units ( Cinematography and Technology, 1, 2009, p. 23 ).

The lack of this technical solution is that only one manual operation is possible. Thus, the operation is inaccurate and depends on subjective factors and characteristics of mechanical engraved scales. In this case, special characteristic data tables must be used to determine the ramp distance.

It is an object of the invention to develop an opto-electronic module with increased accuracy, to avoid the subjective factors in creating certain conditions for a space image picking by choosing the ramp distance by means of a process computer, and the remote controllability, including the Fernfunksteuerbarkeit, ensure all characteristics.

The stated object is solved by the features of claim 1.

The technical effect is achieved as follows.

The optoelectronic module contains a socket. In the version, two identical optical units are arranged axially parallel on a movable support plate. The optical units are coupled with two servo drives. The one servo drive is provided to adjust the stereo recording base. The other servo drive is used to change the aperture value in both optical units. Said pad is connected to a servo drive to adjust the lens focus. The control inputs of all servo drives are connected to outputs of a process computer, which specifies the characteristic values for a room image acquisition. Two projected frames on the fixed sensor are horizontally movable. This provides the opportunity to maintain the maximum frame area when the frames overlap each other.

The essence of the invention will be explained in more detail with reference to the drawing. It shows:

1 an overview picture of the optoelectronic module.

The optoelectronic module contains a socket 1 , In the version 1 are axially parallel two identical optical units 2 and 3 on a movable platen 9 arranged. The optical units 2 and 3 are with a servo drive 4 coupled to adjust the stereo recording base, as well as with a servo drive 6 coupled to the aperture value in both optical units 2 and 3 to change. The platen 9 is with a servo drive 5 coupled to adjust the lens focus. The control inputs of all servo drives 4 and 5 are with outputs of a process computer 7 connected, which specifies the characteristic values for the Raumbildaufnahme. The process computer 7 generates control signals according to the signal coming from a remote control panel 8th arrives. The signal comes from a sensor 10 to a translator 11 , is converted into a video signal and enters a signal storage device 12 ,

Function of the optoelectronic module

The presetting of the characteristic values (calibration) takes place automatically with the aid of a process computer 7 , After that, the lens is ready for use.

Lp

der Rampenabstand (m),

B

die Stereoaufnahmebasis (mm),

f

die Brennweite des Stereoobjektivs für die Filmaufnahme (mm),

H

der Rampenindex und

P

die Unendlichkeitsparallaxe des Stereokinematographie-Systems (mm) sind.

After completion of the calibration is on the on the version 1 the module arranged screen the information with all characteristics regarding the film recording displayed. These are the aperture values, the focus distance, and the distance between the ramps, which the operator sets according to the shooting conditions. In this case, for example, the stereo recording base by means of the process computer 7 controlled servo drive 4 be changed according to the following formula: Lp = Bf / Hp, in which:

Lp

the ramp distance (m),

B

the stereo recording base (mm),

f

the focal length of the stereo lens for movie recording (mm),

H

the ramp index and

P

the infinite parallax of the stereo cinematography system (mm).

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• SU 92980 [0003]
• SU 1053329 [0003]

Cited non-patent literature

• Cinematography and Technology, 1, 2009, p. 23 [0004]

Claims (4)

Opto-electronic module with a socket ( 1 ), in the axis-parallel two identical optical units ( 2 . 3 ) on a movable platen ( 9 ), characterized in that the optical units ( 2 . 3 ) with a servo drive ( 4 ) to adjust the stereo recording base, as well as with another servo drive ( 5 ) are used to determine the aperture values in both optical units ( 2 . 3 ) that said support plate ( 9 ) with the servo drive ( 5 ) to adjust the lens focus, with the control inputs of all servo drives ( 4 . 5 ) with outputs of a process computer ( 7 ) and that the process computer ( 7 ) specifies the characteristics for the spatial image recording, wherein two images from a sensor ( 10 ) and via a converter ( 11 ) converted into a signal storage unit ( 12 ) for further use. Optoelectronic module according to claim 1, characterized in that the process computer ( 7 ) Generates control signals according to the signal received from a remote control console ( 8th ) arrives. Optoelectronic module according to claim 1 and 2, characterized in that the default setting of the characteristic values automatically by means of the process computer ( 7 ) he follows. Optoelectronic module according to claim 1 to 3, characterized in that the stereo recording base by means of the process computer ( 7 ) controlled servo drive ( 4 ) according to the following formula: Lp = Bf / Hp, where Lp is the ramp spacing (m), B is the stereo recording base (mm), f is the focal length of the stereo lens for movie recording (mm), H is the ramp index, and P is the infinity parallax of the stereo cinematography system (mm).

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