SU836616A1 - Device for preparing animation film for photography - Google Patents

Description

The invention relates to the field of film technology, in particular to the production process of drawn cartoon films.

Known devices for the preparation and shooting of animated films using television methods. The apparatus comprises a translucent table multstanka optically soe- ^one of the connections to the inputs of the cameras and television sighting device, whose output is connected to the input of the video control device. However, this device provides only television viewing of the image, which certainly improves and simplifies the work with the multi-station, without introducing, however, significant acceleration in the process of manufacturing drawings of the phases of the movement of the object. In this case, the drawings of the phases of the movement of the object are performed by comparing the executed image with one or more drawings of the previous phases of the movement of the object [1].

The closest technical solution to the proposed one is a device for preparing drawn animated films for filming, containing a light source that is optically coupled through a multi-station table on which a draft picture with a movie camera and a transmitting television camera, the output of which is connected to the input of a video monitoring device, is fixed, The device has the ability to control the resulting image on the screen of a video monitoring device, mix it with the background, etc. d. [2].

However, the drawings of the individual phases of the movement of the object are performed by applying a translucent base to 5 one or more drawings of the previous phases of the movement and changing the same elements of the picture, which then should be shown in motion. After making all the drawings! 0 phases of the object’s motion, frame-by-frame filming is carried out with further processing of the film and control viewing of the received material. From what has been said it is clear that the production process of a draft version of an animated film is extremely slow. (Thus, an error in the manufacture of one picture of the phase of motion of an object leads to the rejection of all subsequent phases of motion, moreover, this error can be detected only in the process of checking the motion of the captured film.

In addition, the process of preparing a draft of the animated. The film is divided into two stages - the production of drawings and frame-by-frame shooting. This leads to the fact that the preparation time of the animated film for filming remains unreasonably long.

The aim of the invention is to increase productivity.

This goal is achieved by the fact that in the device for preparing the drawn animated films for shooting, containing a light source, optically coupled through the luminal table of the multi-station, on which a draft drawing of the motion phases is fixed in a predetermined position, with a movie camera and a transmitting television camera, and a video monitoring device, a control unit, six electronic switches, two shapers of a write signal, two shapers of an erase signal, two memory elements, a block for selecting a zone, a block for selecting and the storage section and the adder, while the inputs of the first, second, fourth and sixth electronic switches are connected to the output of the transmitting television camera, the control inputs of all electronic switches are connected to the outputs of the control unit, the outputs of the first and fourth electronic switches are connected respectively through the first and second shapers a recording signal with the first inputs of the first and second memory elements, which are the second inputs, respectively, through the zone selection unit and the second eraser of the signal and control inputs are directly connected to the inputs of the control unit, the third input of the first memory element through the first driver of the erase signal is connected to the second electronic switch, the third input of the second. memory element is connected to the selection unit of the storage section connected to the control unit, and the outputs of the first and second elements memory are connected respectively through the third and fifth electronic switches to the first and second inputs of the sugator, the third input of which is connected to the sixth electronic switch, and in stroke adder connected 'to the input of the video control device, wherein the second memory element output is connected in parallel to one input of the second electronic switch.

The drawing shows a functional diagram of the proposed device.

A device for preparing hand-drawn animated films for shooting contains a light source 1, which is optically connected to the movie camera 3 and the television transmitting camera which is connected to the video monitoring device 5 'through the input units through the table of the multi-station 2 with the pattern (not shown) mounted on it; the control unit 6 is connected to the first electronic switch 7, the second input of which is connected to the output of the television camera 4, the electronic switch 7 is connected to the first signal conditioner records 8.

The output of the television camera 4 is connected to a circuit consisting of a second electronic switch 9, a first driver of the erase signal 10, the first memory element 11 and the third electronic switch 12, the control unit with its outputs connected to the control inputs of the second electronic switch 9, the first memory element 11 through the first zone selection unit 13 to the first memory element 11, the control unit 6 is connected to the selection unit of the storage section 14 and to the control input of the fourth electronic switch 15, the output of which is cut the second shaper of the write signal 16, the second memory element 17 is connected to the fifth electronic switch 18. The corresponding outputs of the control unit 6 are connected to the second memory element 17, and the control unit 6 is also connected to the input of the second memory element 17 through the second erase signal shaper 19. The output of the second memory element 17 is connected in parallel to the fifth 18 and second 9 switches. The control unit 6 is connected to the electronic switches 18 and 20, the output of the sixth electronic switch 20 through the adder 21 is connected to the input of the video monitoring device 5. Moreover, the television camera 4 is connected to the electronic switch 20, and the electronic switches 12 and 18 are connected to the adder 21,

The proposed device can operate in one of the following modes,

1. Control of the received picture on the screen of a video monitoring device,

2. Recording of the motion phase picture in the selected area of the first memory element 11.

3. Writing the pattern of the phase of motion in the storage area of the second memory element.

4. Image control from the output of the first memory element 11.

5. Image control from the output of the second memory element 17.

6. Erasing the pattern of the phase of the movement of the object from the first memory element 11 using the video signal from the output of the television camera 4,

7. Erasing the pattern of the phase of the movement of the object from the first memory element 11 using the video signal from the output of the second memory element 17.

8. Erasing the pattern of the phase of movement of the object from the second memory element 17.

9. Single-frame filming.

Consider each of the proposed modes,

1. The image of the phase picture of the object’s motion is projected onto the target ·. the transmitting tube of the television camera 4, The video signal from the output of the camera 4 is fed to an electronic switch 20, to the control input of which an enabling signal is supplied from the output of the control unit 6. From the output of the electronic switch 20, the signal is fed to the adder 21 and then to the video monitoring device 5. In mode 1 all switches except switch 20 are closed.

2. From the output of the television camera 4, the video signal is supplied to the first electronic switch 7, opened by a signal from the control unit 6, and then to the recording signal generating unit 8, where the required recording time interval is formed. From the output of block 8, the signal enters the first memory element 11, the desired recording area of which is selected using the zone 13 selection unit and control unit 6.

3. From the output of the television camera 4, the video signal is supplied to the electronic switch 15, opened by the signal 'from the control unit 6, and then through the second shaper of the recording signal 16 (similar to the shaper of the recording signal 8) to the input of the second memory element 17. Using the memory selection unit section 14 is the spatial distribution of the signal from the output of the camera 4 in the second (memory element 17.>

Points 1-3 are repeated for several required patterns of phases of the movement of the object. The repetition of a recording according to claim 2 differs from paragraph 3 in that, using a block, a record such as memory 11 wounded according to the wish of the multiplier artists is used. In the second case, the recording of each subsequent pattern using block 14 is carried out in adjacent to the previous section of the second memory element 17 ..

repeating recordings in the first case with 13 can carry out the same area in the same zone and in another, select 60 using the playback mode - block 11), on the third

4. From the output of the first memory element 11, the switched control unit 6 to the information (the video signal unit is connected, the electronic switch 12 is supplied to the adder 21, and its output to the input of the video monitoring device

5. The selection of the desired playback area and control of the third switch 12 is carried out using the control unit 6, and the playback area is selected by the unit selection zone 13.

5. The work in this mode is similar to the work in mode 4 and differs in that the control unit for the memory section 14 and the fifth electronic switch 18 take part in the control of the second memory element 18. A significant difference between the two modes is that in mode 4 playback is performed only with one zone of the first electronic memory, and in mode 5 - sequentially from all recorded sections.

6. In the event that the picture of the phase of the movement of the object does not satisfy any requirements, it is erased from the first memory element 11.

The aforementioned pattern is installed on the table of the multi-station 2 and re-projected onto the target of the transmitting television camera 4. The received video signal is fed to the second electronic switch 9 and then to the eraser

10. The first memory element 11 is transferred by the control unit 6 to the erase mode and the signal from the output of block 10 erases the phase of movement of the object from the zone into which it was recorded (block 13).

7. In this case, the erasure is performed in the following sequence. Using the selection unit of the storage section 14 of the second memory element 17, the section of the memory element corresponding to the variable phase is selected, the block 17 is transferred to the playback mode and the received video signal is input to the second electronic switch 9. Next, all subsequent operations are performed according to p. 6.

8. Using the selection unit of the storage section 14 of the second memory element 17, the area of the memory element 17 required to be erased is selected, and using the second block of the erasure signal generator 19 connected to the control unit 6, erasing is performed from the said section. Moreover, using the control unit 6, the second memory element 17 is transferred to the erase mode.

9. Single-frame filming is carried out using the blocks of the light source 1, the illumination table of the multi-station 2, and movie camera 3 for single-frame shooting.

Using the proposed device can significantly reduce the process of preparing a drawn cartoon film for filming and significantly expand the creative capabilities of the director and artist of the animator. In the process of preparing the cartoon for filming, there is no need for the operator to participate in frame-by-frame shooting, since the production of a draft version of the film is carried out by the animator in the process of making drawings. The possibility of superimposing several phases of the movement of objects allows you to completely eliminate the marriage in the manufacture of drawings and, accordingly, to avoid the operation of plot correction. The ability to control the dynamic image from the output of the second memory element allows you to abandon the process of frame-by-frame shooting and processing of film, and thus a draft version of the animated film can be performed by editing videos from the second memory element to a VCR. The resulting video can be used to control, draft dubbing cartoons, etc.

The first memory element is implemented on the basis of a television camera with a storage cathode ray tube type ¹ 'lithocon''. The second memory element can be built on the basis of a video recorder, providing frame-by-frame recording, for example, of a disk video recorder.

Claims (2)

one The invention relates to the field of motion picture production, in particular, to the process of producing cartoon films. Devices are known for preparing and shooting animated films using television techniques. The device contains a multistalk luminal table, optically co-junction with the inputs of a cinema camera and a television reticle, the output of which is connected to the input of a video monitor. However, this device provides only television sighting of the image, which certainly improves and simplifies work with the multi-station, but does not significantly accelerate the process of making the patterns of the movement of the object in the process. In this case, the drawings of the phase of the movement of the object are performed by comparing the image to be taken with one or several pictures of the previous phases of the movement of the object 1. The closest technical solution to the proposed is a device for the preparation of drawing cartoon films for shooting, containing a source of light stream, optically coupled through the table of the multistalk, on which the draft picture with the camera and the transmitting television camera is fixed at a predetermined position, the output of which is connected to the input of the video monitor. The device has the ability to control the resulting image on 0 the screen of the video monitor, mix it with the background, etc. 2 However, the patterns of the individual phases of the movement of an object are made by laying a semitransparent base on 5 one or more patterns of the previous phases of the movement and changes of the same elements of the pattern, which then must be shown in motion. After making all the drawings The 0 phase of the movement of the object is carried out by frame-by-frame filmmaking by further processing of the film and checking the obtained material. It is clear from the above that the process 5 h production: the drama version of the animated film is extremely slow. So, an error in the production of a single motion picture of an object leads to the rejection of all subsequent motion phases, and this error can be detected only in the course of the control review of the film, In addition, the process of preparing a draft version of the animated film is divided into two na - making drawings and frame-by-frame shooting. This leads to the fact that the preparation time of the animated film for the shooting remains unreasonably long. The aim of the invention is to increase productivity. This goal is achieved by the fact that the device for preparing drawn cartoon films for shooting, containing a light source, optically coupled through a translucent table of the instrument, on which a draft of the motion phases is fixed in a predetermined position, with a movie camera and a transmitting television camera, and video monitoring device, control unit, six electronic switches, two recording signal formers, two erase signal formers, two memory elements, zone selection unit, the memory section and the adder, while the inputs of the first, second, fourth and sixth electronic switches are connected to the output of the transmitting television camera, the control inputs of all electronic switches are connected to the outputs of the control unit, the outputs of the first and fourth electronic switches are connected through the first and second recording signal conditioners with the first inputs of the first and second memory elements, which are the second inputs, respectively, through the zone selector and the second stiran signal generator and the control inputs are directly connected to the inputs of the control unit, the third input of the first memory element is connected to the second electronic switch through the first erase signal generator, the third input of the second memory element is connected to the storage selection module connected to the control unit, and the outputs the first and second memory elements are connected respectively via the third and fifth electronic switches to the first and second inputs of the core, the third input of which is connected to the sixth electronic switch, and the output of the adder is connected to the input of the video monitor, with the output of the second memory element connected in parallel with one of the inputs of the second electronic switch. The drawing shows a functional diagram of the device. A device for preparing hand-drawn animated films for shooting contains a source of luminous flux 1, which through the table of the multistack 2 with a motion pattern fixed on it (not shown) of the motion phase is optically connected with the movie camera 3 and the television transmission camera 4i which is connected to the video monitor the device 5, the control unit 6 is connected to the first electronic switch 7, the second input of which is connected to the output of the television camera 4, the electronic switch 7 is connected to the first driver si Record 8. The output of television camera 4 is connected to a circuit consisting of a second electronic switch 9, a first erasing signal generator 10, a first memory element 11 and a third electronic switch 12, and the control unit 6 is connected to the control inputs of the second electronic the switch 9, the first memory element 11 through the first zone 13 selection unit to the first memory element 11. The control unit 6 is connected to the memory section selection unit 14 and to the control input of the fourth electronic switch 15, the output of which is through the second write signal generator 16, the second memory element 17 is connected to the fifth electronic switch 18. The corresponding outputs of the control unit 6 are connected to the second memory element 17. Moreover, the control unit b is connected to the input-second memory element 17 the second erase signal driver 19. The output of the second memory element 17 is connected in parallel to the fifth 18 and second 9 switches. The control unit 6 is connected to the electronic switches 18 and 20. The output of the sixth electronic switch 20 through the adder 21 is connected to the input of the video monitor 5. Moreover, the television camera 4 is connected to the electronic switch 20, and the electronic switches 12 and 18 are connected to the adder 21 work in one of the following modes. 1. Control of the received picture on the screen of the video monitor. 2. Record the motion phase pattern in the selected area of the first memory element 11. 3. Record the motion phase pattern in the storage section of the second memory element. 4. Control of the image from the output of the first memory element C. 5. Control of the image from the output of the second memory element 17. 6. Erasing the pattern of the phase of movement of an object from the first memory element 11 using the video signal from the output of the television camera 4, 7. Erasing the image the phases of movement of the object from the first memory element 11 using the video signal from the output of the second memory element 17. 8. Erasing the pattern of the phase of movement of the object from the second memory element 17. 9. Frame-by-frame shooting. Consider each of the proposed modes, 1. The image of the motion phase of the object is projected onto the target tube of the television camera 4. The video signal from the output of camera 4 is fed to an electronic switch 20f to a control input which gives an enable signal from the output of the control unit 6. From the output the electronic switch 20, the signal is delivered to the adder 21 and then to the video monitoring device 5. In the mode, all switches, except switch 20, are closed. 2. From the output of the television camera 4, the video signal is fed to the first electronic switch 7, opened by the signal from the control unit 6, and then to the recording signal generating unit 8, where the required recording time interval is formed. From the output of block 8, the signal enters the first memory element 11, the desired recording area of which is selected, using the zone selection unit 13 and the control unit NIN b. 3. From the output of the television camera 4, the video signal is fed to the electronic switch 15, opened by the signal from the control unit 6, and then through the second signal generator of the recording 16 (similar to the recorder signal generator 8) to the input of the second memory element 17. By means of the selection of the storage section 14 is carried out by the spatial distribution of the signal from the output, camera 4 in the second: the memory element 17. Points 1-3 are repeated for several desired patterns of the phases of the movement of the object. Repetition of recording according to claim 2 differs from repetition of recording according to claim 3, in which case, using block 13, it can be recorded both in the same zone of the memory element 11 and in another, selected according to the artists of the multiplier. In the second case, the next pattern is recorded using block 14 is carried out in an adjacent section of the second memory element 17 .. 4. From the output of the first memory element 11 switched by the control unit 6 to the playback mode (link block b block 11) the video signal goes to the third electronic switch 12 and then to the adder 21, and its output to the input of the video monitor 5. The desired playback and control zone is selected by the third switch 12 using the control unit 6, and the product is selected by the zone selection unit 13. 5. Operation in this mode is similar to operation in mode 4 and differs in that the selection unit of the storage section 14 and the fifth electronic co-switch 18 take part in managing the second memory element 17. The essential difference between the two modes is that in mode 4, playback is played out only from one zone of the first electronic memory, and in mode 5, sequentially from all recorded sections. 6. In the event that the drawing of the phase of the movement of the object does not satisfy any requirements, it is erased from the first memory element 11. The above drawing is placed on the table of the second machine 2 and re-projected onto the target of the transmitting TV-ion camera 4 The received video signal is fed to the second electronic switch 9 and then to the erase signal generator 10. The first memory element 11 is transferred by the control unit b to the erase mode and the signal from the output of block 10 erases the motion phase of the object from the zone, he was recorded (block 13). 7. In this case, erasing is performed in the following sequence. Using the block of selection of the storage section 14 of the second memory element 17, the section of the memory element corresponding to the variable phase is selected, block 17 is transferred to the playback mode and the received video signal is fed to the input of the second electronic switch 9. Next, all subsequent operations are performed according to item 6 8. With the help of the block of selection of the storage section 14 of the second memory element 17, the area of the memory element 17 required for erasing is selected and using the second block of the erasure signal generator 19 connected to the control unit Events 6 erase from the area. Moreover, using the control unit 6, the second memory element 17 is transferred to the erase mode. 9. The filming is performed using source blocks. luminous flux 1, translucent table of multistank 2 and movie camera 3 for frame-by-frame shooting. The use of the proposed device makes it possible to significantly shorten the process of preparing a cartoon animated film for filming and significantly expand the creative capabilities of the director and artist of the animator. In the process of preparing the cartoon for the shooting, there is no need for the operator to participate in the Tug-Up Shooting, since the production of a draft version of the film is carried out by the artist-animator in the process of making drawings. The possibility of superimposing several phases of movement of objects makes it possible to completely eliminate defects in the manufacture of drawings and, accordingly, to avoid a plot correction operation. The ability to control the dynamic image from the output of the second memory element makes it possible to abandon the process of frame-by-frame shooting and film processing, and thus a draft version of the animated film can be made by mounting the VC records from the second memory element to a VCR. The resulting video can be used to control, dub sounding yy-ultfilms, etc. The first memory element is implemented on the basis of a television camera with a lithocon type cathode ray tube. The second memory element can be built on the basis of a video recorder, which provides frame-by-frame recording, for example, a disk video recorder. Invention Formula A device for preparing hand-drawn animated films for shooting, containing a source of luminous flux optically coupled through a translucent table of a multi-station, on which a draft of motion phases is fixed in a given position, with a movie camera and a transmitting television camera, and a video monitor, So that, in order to improve performance, a control block, six electronic switches, two write signal generators, two erase signal generators, two elements are introduced into it. This memory, unit, zone selector, storage unit selection unit and adder, while the outputs of the first second, fourth and sixth electronic switches are connected to the output of the transmitting television camera, the control inputs of all electronic switches are connected to the outputs of the control unit, the outputs of the first and the fourth electronic switches are connected respectively via the first and second write signal drivers to the first inputs of the first and second memory elements, which are respectively the second inputs through the zone selector The s and the second erase signal generator and control inputs are directly connected to the outputs of the control unit, the third input of the first memory element is connected to the second electronic switch via the first erase signal generator, the third input of the second memory element is connected to the storage section selector unit to the control unit, and the outputs of the first and second memory elements are connected respectively through the third d. fifth electronic switches to the first and second inputs of the adder, the third input of which is connected to the sixth electronic switch, and the output of the adder is connected to the input of the video monitor, the output of the second memory element connected in parallel with one of the inputs of the second electronic switch. Sources of information taken into account in the examination 1, Requirement to the future animation machine NeiBson Peter, Brit Kinematogr. Sound und TeEev 52, 1970, No. 6, 166-167, England, 2. Modern multstanok, NeEE son P.BXST, 52, 1970, No. 6, p. 1-2 (prototype)