EP0378667A1 - Motion picture camera with partial or total fading-in - Google Patents

Abstract

A camera includes optics that serve to project images onto a film transported along a lane by a film advance mechanism. In the region of the corridor there is arranged an additional projection device (16) which serves to project an additional image (32) onto the film (3) and/or a partial image (36, 37) faded onto the image (31 ) exposed or to be exposed by the optics (15).

Description

 Motion picture camera with full or partial image overlay

Description

The invention relates to a motion picture camera with recording optics for projecting film images onto a motion picture film which is moved along a film path by means of a film transport mechanism, and with an additional image projection device arranged in the region of the film path. '.) It is known to expose additional information on the film images projected by the recording optics onto the motion picture film during the recording of motion picture films by means of a motion picture camera. The additional information consists of alphanumeric, alphabetical or numerical data, which are usually projected onto the top or bottom edge of the image. The data are reflected electronically, with light-emitting diodes, optical fibers or the like. are used, which are arranged in the area of the film web and are electronically controlled.

A keyboard attached to the motion picture camera is used for data input, but can also be arranged separately and from which the corresponding data is transmitted to the motion picture camera via an interface. Such data overlays in parts of a film image exposed via the recording optics of the motion picture camera are, however, insufficient for extensive presentations, in particular in medical technology, and for trick recordings.

From DE-A-24 12 492 a motion picture camera with a recording optics for projecting film images onto a motion picture film is known, which has an additional device for recording data such as times, serial numbers, code numbers or the like on the motion picture film. When the camera shutter is open, the motion picture film is exposed at the same time via an image intensifier for the projection of film images onto the motion picture film by a digit input device.

The numerical input device comprises a digital display circuit via a '' ¹ with the optical system Picture window of the motion picture camera is optically connected, with the digital display circuit being preceded by a control circuit which is connected to an analog signal source. As a result, analog signals in digital form can be exposed as digital signals on the motion picture film by means of semiconductor display digits via an analog / digital converter and a sample and hold circuit.

In the case of a data and signal insertion known from DE-A-24 12 492, the data reflection and the projection of an x-ray image take place via a cathode ray tube and an optical system and via one and the same image window, only a limited information overlay being possible is because the additional information exposed in digital form is superimposed on a limited part of the film image. For this purpose, a part of the image must be covered to record the actual (X-ray) film image so that the additional digital information can be displayed in these parts of the image.

From DE-A-28 11 289 a motion picture camera with a device for recording additional information on a motion picture film is known, in which the display of an optical information output device with a screen image representation is mirrored into the recording beam bundle of the motion picture camera via a recording lens. A switchable mirror is arranged in the reflection beam path, which alternately exposes the additional information onto the motion picture film and reflects a viewfinder image into the viewfinder of the motion picture camera. This allows the reflected information can be observed in the viewfinder of the motion picture camera.

The additional information is thus reflected in via the viewfinder of the motion picture camera using a reflection beam path, so that there is no separate recording of the film image. and the additional information and also a separate consideration of the subject and the additional information is possible.

DE-A-30 31 100 discloses a method and an arrangement for applying information to a motion picture film, in which the information is entered, stored and stored in a microcomputer connected to the film camera via a function keypad The triggering process of the film camera can be converted into light pulses which are emitted from a light spot line via light guides onto the motion picture film in the cassette or reel space of the motion picture camera. In this way, film titles and other additional inputs can be exposed in digital form as an information line on the motion picture film as a supplement to the actual film picture in the manner of a data reflection.

A second, separate film image exposure is thus not used, but rather a reflection of additional information into the recorded film images, which naturally limits the information content of the additional information displayed.

The object of the present invention is to provide a motion picture camera of the type mentioned at the beginning with which In addition to the film images exposed on the motion picture film via the optical system of the camera, extensive information can be superimposed on the motion picture camera and recorded on the motion picture film, the content of which can correspond to a complete film picture.

This object is achieved by the characterizing feature of claim 1.

In addition to alphanumeric data, the solution according to the invention can also be used to superimpose and expose information on the motion picture film, which range from diagrams and curves to complete additional film pictures. The additional film images can be electronically post-processed images that are obtained from the images recorded by the recording optics of the motion picture camera. In this way, in addition to trick recordings, contrast increases, the filtering out of certain information by adding or subtracting certain image contents and the like are possible.

In the solution claimed, a second exposure of additional information separate from the projection of the film image onto the motion picture film thus takes place and no cross-fading as in the case of the known data reflections.

As a result of the separate exposure of the additional information via a second image window, the information content can be significantly increased compared to the known data reflections and a large number of individual information items can be tion, for example sequences of digits, text entries, graphic representations and image recording and image development information.

A special area of application for full-format overlay is medical technology, in which a wealth of additional information can be stored on a motion picture film, which serves to facilitate diagnosis, documentation and post-processing of the film.

For example, in addition to the X-ray film images recorded with the motion picture camera, patient-specific data, curves or diagrams, as well as images recorded and electronically processed with a video camera, can be blended directly onto the motion picture film so that a large amount of information is provided for reliable diagnosis ¬ tions can be stored continuously on the motion picture film without the risk that additional notes attached to the motion picture film can cause information to be lost or confused.

An advantageous embodiment of the solution according to the invention is characterized in that the additional film image or partial image is exposed onto the motion picture film at each film transport step.

In this way, a time-synchronous storage of the film images recorded by the motion picture camera is achieved with the images faded in via the additional image projection device, so that, for example, an X-ray image recorded simultaneously with the associated EKG Impulse or other current recording data when examining a patient can be saved and played back.

In an advantageous development of the invention, the image projection device consists of a second recording optics or an image monitor, a radiation guide system being arranged between the image monitor or the recording optics and the location of the exposure of the additional film image onto the motion picture film. In order to hide the second image during film transport, a further aperture device is required in connection with a second recording optics, while if an image monitor is used, this can be darkened during the motion phase of the motion picture film.

By arranging a radiation guide system, the second full image or partial image can be faded in at an optimal location in the area of the film track so that essentially no changes need to be made to the film transport mechanism or to the film track.

A further advantageous embodiment of the solution according to the invention is characterized in that the image monitor is connected via an electrical line to a second recording device, preferably a video camera, preferably a video tape memory between the video camera and the image monitor , Video disk memory and / or a digital memory is arranged so that image information can be transferred directly to the monitor via the video camera or from the memory or memories. A further advantageous embodiment of the solution according to the invention is characterized by a matching circuit for adjusting the brightness of the image monitor, which contains a photo diode which can be pivoted mechanically in front of the image monitor and whose output is connected to an input of a comparator, the other input of which is connected to a standard voltage source and its output together with the output of a clock oscillator to an input of a counter that can be reset to trigger the adjustment process, the output of which controls a brightness control element for the image monitor via a digital / analog converter and an amplifier.

With this additional arrangement, a brightness adjustment is possible, so that the additional film images exposed on the motion picture film have a desired degree of brightness which corresponds to the degrees of brightness supplied by the recording optics of the motion picture camera. In addition, aging effects of the monitor can be compensated.

Advantageous developments of the invention are characterized in the subclaims or are shown in more detail below together with the description of the preferred embodiment of the invention with reference to the figures. Show it:

Figure 1 is a plan view of a motion picture film in the area of the film path of a motion picture camera;

FIG. 2 shows a section of the motion picture film with various picture positions; FIG. 3 shows a cross section through the transport mechanism of a motion picture camera with a radiation guidance system for fading in a full or partial picture;

FIG. 4 shows a plan view of the transport area of a motion picture camera with a radiation guide system and monitor for exposing an additional full or partial picture;

FIG. 5 shows a section through the monitor according to FIG. 4;

FIG. 6 shows a circuit arrangement for adjusting the brightness of an image monitor;

characters

7 and 8 two different operating modes for displaying data overlays and

FIG. 9 shows a block circuit diagram for the image processing of the image sequence in cardangiography recorded with a motion picture camera with full image and partial image insertion.

FIG. 1 shows a plan view of a motion picture film 3, which is provided with two rows of perforations 33, 34 running in the transport direction, into which a transport gripper with gripper tips 11, 12 for intermittent film transport and a blocking gripper with a for improving the image position Engage the locking hook tip 13.

Film images are exposed between the rows of perforations 33, 34; is arranged to the right of the drawing plane and projects a first film image 31 onto the motion picture film 3. The image is projected in a manner known per se during the film stand, in that the aperture opening of a rotating overflow aperture 14 according to FIG. 3 releases the beam path from the recording optics to the motion picture film 3.

According to the invention, an additional full or partial image 32 is shown in front of the first film image 31 in the direction of transport of the film, which is indicated by the arrow, whereby in the case of a full image approximately the same area is exposed as in the first film image 31, while at Areas of the full image corresponding to a partial image are darkened.

As an alternative to the exposure of additional film images to a motion picture film 3 shown in FIG. 1, partial exposures can also be carried out on the first film image 31 during a subsequent transport step of the film transport mechanism in the area of the second film image 32 by means of the associated image projection device.

In the embodiment shown in FIG. 1, the second film image 32 is faded in in the region of the film transport mechanism in the direction of the film in front of the center of the stroke of the transport gripper, the gripper tips 11, 12 of which engage in adjacent perforation holes and transport the film in the direction of the arrow via a selectable transport step. The advance of the motion picture film 3 depends on the size of the image web remaining between the film images and on whether a second one Film picture 32 is to be projected onto moving picture film 3 at the same time as first film picture 31, or whether partial overlays are to take place on the first film picture taken by means of the recording optics of the moving picture camera.

For the arrangement of the film transport mechanism, a somewhat smaller space in the direction transverse to the transport direction of the motion picture film 3 may be available for the insertion of the second film picture 32, so that the second film picture 32 is exposed on a slightly smaller area of the motion picture film 3 . For example, in the case of a 35 mm film, the size of a film image exposed with the recording optics of the motion picture camera can be 18 x 24 mm, while the additional film image 32 has the dimensions 18 x 22-23 mm.

In Figure 2 possibilities of exposure of full and partial images are shown schematically.

While the film image recorded by means of the recording optics of the motion picture camera takes up the entire area of 18 x 24 mm in the case of a 35 mm film, an accompanying information field B can be present as a partial picture, which points to the motion picture film 3 according to FIG. 1 or at the location of the second film picture is exposed onto the first film image 31 recorded by means of the camera optical system. A full-frame data display can take place in area C, while, for example, a post-processed image is taken in area A. The first film image recorded via the recording optics of the motion picture camera can also be placed in this area A. Of course the arrangement is of a first film image in the area covering areas A and B is possible.

FIGS. 3 and 4 show a cross section through or in a top view of the film track of the transport mechanism, the recording optics and the image projection device of a motion picture camera with second picture imagery.

The cross section shown in FIG. 3 through the film transport mechanism with second image overlay shows in the region of the film plane the transport gripper tips 11, 12 reaching through the film perforations as well as the locking gripper tip 13 and the transport gripper 10. In the area of the path of movement of the transport gripper 10 a deflection mirror 17 is arranged, which directs the rays emerging from an objective 18 onto the motion picture film 3.

A further deflecting mirror 16 is arranged at the beam input of the objective 18, the side designations given on the deflecting mirror being used to identify the image position.

Of course, a direct secondary image display is also possible without the arrangement of deflecting mirrors and can be carried out analogously to the above statements.

FIG. 4 shows a top view of the film transport mechanism with the second image superimposition, that is to say an illustration rotated by 90 ° with respect to the illustration according to FIG. 3. The motion picture film 3 is transported in the direction indicated by the arrow by means of the film transport mechanism, which in the exemplary embodiment shown consists of the transport gripper 10 and the locking gripper 13. It is moved past the recording optics 15 of the motion picture camera, a first film image 31 being projected onto the motion picture film 3.

In the area of the movement path of the film transport mechanism 10, 13 of the motion picture camera, a second film picture 32 is projected onto the motion picture film 3 in the same image position. For this purpose, an image monitor 19 is used, the screen of which is directed towards a first deflecting mirror 16, which directs the rays emanating from the screen of the image monitor 19 onto a lens 18, the output of which is directed via the second deflecting mirror 17 onto the motion picture film 3 .

The objective 18 consists of two lens systems 181, 182, which are divided at an interface 183. In this way it is possible to attach the monitor part 2 to the actual camera body of the motion picture camera 1 and, for example, to replace it with another monitor part with a higher resolution or a black / white monitor with a color monitor.

FIG. 5 shows a longitudinal section through the monitor part 2 with the actual image monitor 19 and the first deflecting mirror 16, to which the one lens system 181 of the objective 18 connects. The monitor part forms a separate structural unit, the connections of which are adapted to corresponding connections on the motion picture camera, so that a standardized This part can be exchanged depending on the needs and requirements. The monitor part 2 has electrical connections for transmission of the BAS signal, for brightness adjustment and for dark control of the picture tube of the picture monitor 19. Also provided is a power supply device that can be coupled to the power supply device of the motion picture camera.

The image monitor 19 is preferably a monitor with a 1 "picture tube, which can be designed either as a high-resolution or as a normal-resolution monitor tube.

A normal television picture tube is used as the picture tube, but is provided with a modified picture deflection circuit, since the monitor 19 must be switched dark during the film transport. The frame change pulse period is specified by the maximum aperture opening time of the motion picture camera. The line deflection periods remain as in normal television distractions.

In order to eliminate signs of aging of the picture tube of the picture monitor 19 and to make it possible to adjust the brightness of the picture monitor 19 to the brightness of the first film image, a basic adjustment of the tube brightness is carried out, the circuit according to FIG. 6 being used.

FIG. 6 shows a circuit diagram of the brightness adjustment circuit or for monitor light measurement. For brightness adjustment, a photodiode 20 is pivoted in front of the picture tube window of the monitor 19, which detects the light emitted by the picture monitor and converts it into an electrical signal which is emitted to an input of a comparator 22. A standard voltage source 21 is connected to the other input of the comparator 22, the value of which corresponds to the desired brightness level.

The output of the comparator 22 is connected to an input of an AND gate 24, the further inputs of which are connected to a clock oscillator 23 and to the output of a reset pulse generator 25. The reset pulse generator 25 receives an enable signal to initiate the sequence cycle of the brightness adjustment after the warm-up time of the image monitor 19.

During the measurement phase, a standard BAS signal is applied, which is composed of the picture content signal, the blanking signal and the synchronization signal of a video camera.

The output of the AND gate 24 is connected to the input of a counter, which is reset by the output pulse of the reset pulse generator 25 and the counter pulse is enabled by the comparator 22. The output of the counter 26 is connected to the input of a digital / analog converter 27, which is also reset by the reset pulse generator 25. Depending on the respective counter reading, the digital / analog converter 27 emits an analog signal to a downstream amplifier 28 which controls a brightness control element 29 for setting the picture tube brightness of the picture monitor 19. After completion of the adjustment process, the photodiode 20 pivoted in front of the image monitor 19 is pivoted back, so that the image information output by the image monitor 19 can be exposed unimpeded onto the motion picture film.

When a second picture is superimposed on the motion picture film, a distinction is made between data reflection and full-format overlay. While corresponding alphanumeric characteristics are inserted into the film image taken via the recording optics of the motion picture camera or at the location of an additional film picture, an additional film picture is superimposed on the motion picture film in the above-described manner when the full format is displayed exposed together with the film image taken via the recording optics of the motion picture camera.

Both the data reflection or partial image insertion and the full-format insertion can take place in the film advance from the stationary film transport mechanism until the desired film speed is reached, as well as in synchronous operation, that is to say when the desired number of images per second is reached. In both operating modes, information has to be stored optically, which is used for improved film image analysis and the elimination of disturbances.

Below are some options of the part - * and

Full screen overlay both in the lead and in the synchronous run with reference to the operating modes to be gathered from FIGS. provided, which, however, makes no claim to the completeness of all possibilities given with an additional image overlay.

According to a preferred exemplary embodiment, a normal 625/525-line monitor with circuit modifications is used as the reflection source for the data reflection. The start for each image is in the upper left corner, which is achieved with the help of a DC deflection amplifier, which is installed instead of the usual AC amplifier. The control of the monitor is also carried out with inserted line pulses, even in the case of video signals without image content, in order to maintain stable line synchronization.

The adjustment of the monitor contrast to different film types bpsw. for X-rays, you can select preset potentiometers. In certain operating modes, a general increase and decrease in brightness is carried out, since only characters are reflected in these operating modes, for example.

In the case of data mirroring, it is preferably possible to choose between a normal resolution data mirror with 625 lines for a full image and a high resolution data mirror with 1000 lines for a full image. In principle, three mirroring modes are possible:

A. Mode 1 (Figure 7)

With this type of data reflection, general data is stored in the film leader before taking, for example, X-ray images Applied to fill the frame. In a data type 1, the data for the displayed information is supplied externally to the data reflection generator via a signal bus before the start of the motion picture camera, while in a data type 2 the BAS signal offered externally is supplied directly via the data reflection after the camera synchronous operation has been achieved is exposed to the film without intermediate processing.

In data type 1, the data are entered via an external keyboard and the data bus transmission is carried out using a transmission protocol. This data protocol is processed in the data reflection bus, the information is temporarily stored in a data reflection controller and, after the motion picture camera is started, exposed onto the motion picture film via the data reflection device.

In the case of a normal resolution data mirroring, the resolution is carried out with 60 characters / line with 20 character lines via the data mirroring controller. The data reflection picture tube is deflected with 625 lines / full picture.

In the case of a high-resolution data reflection, the resolution with 80 lines / line with 40 character lines is called up via the data reflection controller. The data reflection picture tube is deflected with 1000 lines / full picture.

In data type 2, an external video signal is delivered with standardized picture synchronizing signals. The amplitude of the image signal directly affects the brightness of the data reflection monitor. Every second complete video image is exposed at a frequency of 12.5 frames / second. For example, the data generated with a central computer can be used for exposure.

B. Mode 2 (Figure 8)

To execute this mode, the frame change pulse occurs after 6 ms for each frame. For this purpose, the image change synchronous circuit is modified in the existing monitor circuit for a pulling range from 5 to 120 Hz.

With this type of data reflection, information is mirrored in parallel, for example, to an X-ray image recording by means of the motion picture camera with two images with a time offset in a speed range of the motion picture camera from 5 to 120 images per second. In this operating mode, the reflection location is the two upper corners of the film image corresponding to FIG. 8.

In data group 1, the reflection is made in the upper left corner of the film with 3 or 4 character lines of 10 characters each. For example, a continuous image counting, a clinic logo, a camera recording angle (frontal, lateral), a right-left stereo identification, a speed asynchronous mark, the image frequency or an event identification can be faded in as information.

For data group 2, the exposure takes place in the upper right corner of the film as a dot matrix for a symbolic see representation of curves. The horizontal resolution is approximately 120 points, the vertical resolution is approximately 50 points.

When the data reflection is used for hospital purposes, a blood pressure curve or an EKG curve can optionally be faded in as timely information.

The time range shown can be preset, the correct curve value is on the right edge, the values that have expired are in the direction of the left edge of the screen.

C. Mode 3

This data reflection mode is provided for the direct recording of an externally supplied video image. Depending on the running speed of the motion picture camera (12.5 pictures per second or 25 pictures per second), every second complete video picture or every second video field is recorded. The synchronization signals for the camera run are derived directly from the video synchronization signal. The video image is exposed on an area of approx. 18 x 23 mm.

For example, image post-processing, calculated project data or a back-up storage medium can be provided as recording information. D. Mode 4

This operating mode enables the basic data reflection setting to be checked by specifying brightness-related video signals for the data reflection. Different types of tests can be provided.

The following data overlays can be carried out, for example:

1. Multi-level fade-in

In this operating mode, different levels of brightness are exposed on the edge of the motion picture film, the above-described prior adjustment of the picture tube of the picture monitor to a normalized brightness at a controlled BAS standard level being necessary. For this purpose, a five-level gray wedge, for example, is exposed at the edge of the image, which enables the subsequent exposed images to be evaluated and, after the subsequent film development on an image analyzer, to be evaluated by means of the film density evaluation, so that it can be determined whether the motion picture camera , errors have occurred on an imaging device such as an X-ray machine or during the development of the motion picture film.

2. On the elimination of key data

In this operating mode, both in advance and in synchronous operation of the motion picture camera in a sub-picture see data such as date, time, place and subject of the recording are marked. In this operating mode, the data of the examining doctor or the hospital in which an examination is being carried out and specific patient data are shown for medical technology purposes.

The data can be superimposed both on the film image previously exposed via the recording optics of the motion picture camera and on a separate partial picture which is exposed simultaneously with the first film picture.

The alphanumeric data can be entered via the BAS signal or via a separate keypad. For example, a video camera can be pointed at a patient data sheet to record the patient-specific data, or the attending doctor. an assistant enters patient-specific data as well as the time and the location of the examination using a separate keypad.

3. Continuous image counting

In this operating mode, the film images are numbered consecutively, so that a precise search can be carried out during subsequent image processing. Furthermore, there is the possibility of certain; Subject film images to a separate analysis and derive special documentation from them, for example.

4. Display of technical data In this operating mode, additional information, such as the number of frames per second, can be displayed both during startup and in synchronous operation. This additional information is particularly important for the evaluation of the motion picture film, since the change in the film pictures and the superimposed pictures per second enables a precise chronological progression of the recorded object.

A further possibility of recording technical data in the field of medical technology is to record, for example, pressure values and ECG code numbers as well as curves in the form of pressure value curves and an EKG or brain waves.

6. Recording manipulated film images

In this operating mode, temporarily stored and manually or computer-processed images can be recorded directly on the motion picture film. As a result, computer images can be stored, particularly in synchronous operation, which provide indispensable additional information, in particular in the field of medical application of the motion picture camera according to the invention.

Such an application for creating a computer x-ray image and the operating modes shown above will be explained below with reference to the block diagram according to FIG. 9.

FIG. 9 shows a block diagram of the image processing in the cardangiography by means of a motion picture camera with the insertion of a second film image. The recording lens of the motion picture camera 1 is coupled to the screen of an X-ray device 4, to which a video camera 5 is additionally connected. The signal output of the video camera 5 is optionally connected to a video tape memory 40, a video disk memory 41 and / or digital memory 43. The outputs of the aforementioned memories 40, 41, 43 are connected via a corresponding line to the image monitor of the motion picture camera -1 in order to display a full or partial picture in the manner described above. In addition, both the disk memory 41 and the video tape memory 40 can be connected to a monitor 42 and the digital memory 43 to a monitor 44 and a multi-format documentation device for various sheet film formats 45.

The film which has been exposed from the motion picture camera 1 and is exposed in the above manner is developed in a developing machine 8 and inserted into a film projector 7 for viewing the film picture, the film projector 7 simultaneously making it possible to analyze the optical information stored on the motion picture film. Such an analysis consists in the optional display of the various information stored in the additional images, a blend of individual film images, an image-specific search run, etc.

The output of the film projector 7 for viewing the film image is optionally connected to the video tape memory 40, for example for creating a film documentation via a video cassette for a general practitioner, and to an additional image processing device 6 with which an exact image analysis and evaluation of the film images stored on the motion picture film is possible. The output of the image processing device 6 is connected to the multi-format documentation device 45 for documenting and storing various sheet film formats.

In addition to the illustrated image processing, there is the possibility of creating documentation via the video camera 5 and a scanning device 9 connected to the video camera 5, with which a 100 mm sheet film is created. Alternative cameras with, for example, a 105 mm roll film or a 70 mm sheet film can be connected to this. The resulting films are developed in a processing machine 50 and then archived or fed to film viewers.

Thus, the developed film images can be used in a film archiving device 51 to create archive cards 53, which can be viewed or shown in a showcase 54 or a film image projector 55 or in an overhead projector 56 before they are used filed in a large film archive or given to a referring doctor. In the same way, diagnosis palettes 59 can be created, which are placed in film bags for 100 mm images 58 or sent to the referring doctor and can be viewed there as well as in a film viewer for 100 mm images 52.

The above description of an exemplary embodiment for the use of additional image information in a motion picture camera with partial or full-format insertion created can only be seen as an example and can be supplemented by any other examples.

The embodiment of the invention is not limited to the preferred embodiment described above. Rather, a number of variants are conceivable which make use of the solution shown, even in the case of fundamentally different types.

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Claims

'a + eh i ~ ° <- * ι • £ / * •• * - • - ■ "e' ■

1. motion picture camera with a recording optics for projecting film images onto a motion picture film which is moved along a film path by means of a film transport mechanism and with an additional image projection device arranged in the area of the film path,

characterized ,

that the image projection device (16 to 19) is arranged immediately in front of or behind the recording optics (15) of the motion picture camera (1) and an image frame essentially corresponding to the format of the film images (31) for optionally exposing an additional film image (32) and / or exposure of a partial image (36, 37) immediately before and / or behind the film image (31) projected or to be projected onto the motion picture film (3) by means of the recording optics (15).

2. motion picture camera according to claim 1, so that the additional film image (32) or partial image (36, 37) is exposed to the motion picture film (3) during each film transport step.

3. Motion picture camera according to claim 1 or 2, characterized in that a partial image (36, 37) is superimposed on the film image (31) projected or to be projected onto the motion picture film (3) by the recording optics (15).

4. Motion picture camera according to one of the preceding claims, d a d u r c h g e k e n e z e i c h n e t that the image projection device consists of a second recording optics and a radiation guide system.

5. Motion picture camera according to one of the preceding claims, characterized in that the image projection device consists of an image monitor (19), between which and the location of the exposure of the additional film image (32) on the motion picture film (3) a radiation guide system ( 16, 17, 18) is arranged.

6. motion picture camera according to claim 4 or 5, characterized in that the radiation guide system contains a first deflecting mirror (16) which projects the image received by the second recording optics or the image monitor (19) onto a lens (18), from which the image a second deflecting mirror (17) is directed, which is arranged between the lens and the film web in such a way that the additional film image (32) at a point in front of or behind the exposure of the optical system (15) of the motion picture camera (1 ) is projected onto the motion picture film (3) projected film picture (31).

7. motion picture camera according to claim 4 or 5, characterized in that the radiation guide system consists of an optical fiber bundle with an entry and exit optics in the region of the film web.

8. motion picture camera according to claim 6 or 7, so that the second deflecting mirror (17) or the exit optics of the optical fiber bundle is arranged in the region of the movement elements (11, 12, 13) of the film transport mechanism.

9. motion picture camera according to claim 5, that the image monitor (19) is connected via an electrical line to a recording device (5), which preferably consists of a video camera (5).

10. motion picture camera according to claim 9, dadurchge ¬ indicates that a video tape storage (40), disk storage (41) and / or digital memory (43) between the video camera (5) and the image monitor (19) of the motion picture camera (1) is arranged .

11. Motion picture camera according to one of the preceding claims, characterized by an adjustment circuit for adjusting the brightness of the picture monitor (19) with a photodiode (20) that can be pivoted mechanically in front of the picture monitor, the output of which connects to the input of a comparator (22 ) is connected, the other input of which is connected to a standard voltage source (21) and the output of which, together with the output of a clock oscillator (23), is connected to an input of a counter (26) which can be reset to trigger the adjustment process, the output of which is connected via a digital / analog converter (27) and an amplifier (28) controls a brightness control element (29) for the image monitor (19), which adjusts directly with the signal from the image content signal, the blanking signal and the synchronization signal. BAS signal of a video camera (5) composed of signals is applied.

12. motion picture camera according to one of the preceding claims before, characterized in that in the run-up phase of the film transport mechanism before Errei- _. Chen the target speed of the motion picture film (3) and in synchronism of the motion picture film (3) with the predetermined target speed, a continuous image count is encoded or numerically faded in and a multilevel brightness display on a partial image of the motion picture film (3).

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