DE1911494C - Motion picture projector - Google Patents

Description

The invention relates to a motion picture via this crank mechanism, the drum takes the

projector in which a film tape is continuously attached to the mirror. The mirror moves back

a picture window can be moved past and for the optimal by a cam or crank drive, which is connected to the

see compensation a tiltable projection pin wheel for the film drive is connected, Mirror is provided, which by means of synchronizing pulses 5 is also this drive for the projection mirror

is controllable, which is inevitably inaccurate by a synchronization mark, since a frictional

on the film scanning scanner generated gene entrainment of the drum through the film syn-

will. chronological deviations between the film movement and

From US Pat. No. 1 968 938, a barrel rotation must be stopped. Furthermore, image projector is known in which the projection mirror io s ^; ch a play in the transmission organs between a shaft frictionally engaged in a drum against the drum shaft and the mirror is stored. The drum is in gear connection. Finally, this motion picture projector also has the one with a drive roller for the film. By means of a disadvantage that a large-diameter drum in front of electromagnets, the mirror axis must be seen opposite to, which takes up the space considerably. The 15 increases.

The invention is based on the object of providing a controls that of a photoelectric scanning device moving image projector of the type described above be generated. The scanning device acts to design so that a very precise synmit the perforation holes of the film or with intermediate synchronization between film and mirror movement see the image fields arranged on the edge of the film, ao is achieved.

transparent surfaces together. The projection This task is achieved according to the invention

mirror is released by the electromagnet in each case in that the projection mirror by means of a syn-

moves back to its original position when the scanning chron motor can be driven via a clutch and

device generates a pulse. Then that the synchronous motor by means of a first, from the

the drum can control the projection mirror by means of a synchronous pulse train derived from a scanning device

turn the exercise again. speed controllable and the clutch by means of a

However, the working accuracy of this I .know motion picture second synprojector derived from the scanning device leaves something to be desired. The chronological pulse sequence is controllable.
Drive connection between the drive roller and the drum with the motion picture projector according to the invention necessarily has a certain amount of play, the mirror is driven by a synchronous motor, which drove to deviations in the mirror movement, the speed of which can lead exactly as a function of the film movement. Furthermore, the synchronizing marks on the film are regulated by friction of the mirror axis through the drum. The coupling between the film movement and mel is not accurate enough. This friction can take place purely electrically through the synchronous motor, small, jerky accelerations of the drum, thus free of play and inertia. The oscillating movement of the mirror, as it is caused by the gear play, can be overcome by a clutch, whereby the synchronous controls, which in turn are disturbed exactly in sync with the running between film and play. The problem of film movement, which is settled by a synchronous pulse train, occurs at the beginning of the entrainment movement, which is carried out by the same scanning device of the mirror through the drum. There must be derived 40 device, which also generates the synchronous pulse sequence for the inertia of the mirror and its axis, the synchronous motor. Here, too, the problem has to be overcome, which means that the control system is free of play and inertia for a short time. Overall, there is a non-rotatable connection between the mirror axis and a motion picture projector in which a drum can be canceled due to insufficient friction and perfect synchronization between the mirrors. These inaccuracies are shaped in the movement and the movement of the film is achieved. In the course of time with the known motion picture projector, the film does not need to have a drum with even more power, since the play in the gearbox has to be guided between large diameters. In spite of the drive roller and drum wear and tear of the synchronous motor and the clutch, the space is increased and the friction between the drum and the need is relatively low, since a very small mirror axis decreases for the same reason. A 50 motor and an even smaller clutch can be used as a further disadvantage of this known moving picture project.

tors is that a relatively large In an advantageous development is provided,

Must be present to a gear that to generate the sync pulse trains of the drum

connection between drive roller and drum scanning device multivibrators connected downstream

to be able to manufacture. If you use Ss instead. The use of multivibrators has the

a smaller drum, then the problem of the advantage that due to its natural frequency already a

Gear backlash by the necessary intermediate gears pre-synchronization is made, which only

or other parts of the transmission even more serious. must be readjusted in a small area.

From the German patent specification 523 407 a further features and advantages of the invention is he · Motion picture projector known, in which the film tape 60 are given from the following description of a

guided over a freely rotatable drum and against the exemplary embodiment on the basis of the drawing,

this drum is pressed by pressure rollers. In it shows

The film itself is powered by a pin wheel. F i g. 1 a schematic oblique view of a he * As a result of the pressing of the film against the drum device according to the invention and

this is frictionally taken along. The axis «5 F ί g. 2 the timing and allocation

ttat drum is one behind the movement of movement processes of the device

similarly serving, tiltable projection pig. I.

mirror connected by a crank mechanism. The in F i g. 1 arrangement shown leaves a

_Λΐη,, image surfaces or, or standing projection optics 34, a standing image pro-

110 is provided and a perforation 12 is injected.

Edge oaer brid ^ S! ^? * T ^ ^e '" ^{er Ra} " ^d " ^The illustrated optical arrangement designs a

SeordSe is Znrin " I \ Δ ^{η d <} ? ™ ^mstrip P image with magnification one, in which the light emanating from the perforation 12 Sn SS T £." R ⁸ ^ """ ^{the 5} " agendas projection mirror 30

KcKr ^ reflected back ^{through the} lens 28

ηί ΐίΐΖ / ηΓ, Γΐϊ _t ^nS - ^he will move uM ^ ^{Orfaei 2U} - ^will · In this preferred arrangement, the

Control _ste £ 22 ή ^ei "5 ^{dfenste" r 20 and a} mirror dimensions to a minimum, reduced,

At least the thin, ^{thin window 20 has a} width. However, arrangements are also possible, with the length of the individual images 10. The ₁₀ which the mirror 30 passes the light past the sight

at the edge of the FiInV ", la" * ^{reflected to the image window 20} , so that the lens 28 is only visible once

m? t the pfrfn ™ S »" «u ° ^a " f ^arranges · ^{that it} penetrates. In such a system, this is used

Zl FMmfen ^ r 18 · wf ^Vorzu i ^sweise has lens 28 as a projection lens, and the mirror

ίη »ΐΑ VT, ^kre ' ^sbo Ben-shaped curvature 30 must be considerably larger'
rSuS an Stan ^ SE * Η «* wind« ility of the film _{15 The} operation of the electromagnetic clutch

ia. ^r b ^Ch d ^U es ^S FHm IZlf 8 ° dfe rfdSwdi Tails "2? ^S ° ^ ^{Vj? the} 4 ***? * *? ⁵ ^

not perforated film benuSt Xd can Psoe 1 ° ^ ^{"flim feed} _f; f ^arrange '' f ° ^ie 8 ^{e" AUC}

mtinn 12 u / f. | ph "_e;""ö ucl ·." Allocation takes place by means of d., r subsequently cut

rnarker u ^ f H? ι ^! * "ΝοπSynchronisations- _bene n facility. Aligns a perforation hole 12 Trsett _se r dfeXi, h ν ^hchtdurcblas _l ^SI g ^e areas ₂₀ with the advancing movement of the film strip F.

St are bzt Sf ^g "τϊ"? · ΚΓ'μ '" ** ~ ^the control window 22, so light comes from a

Area Tbtw ςΤη.Γ _t ^C "^» «hateful _lamp 24 in a light scanner 50, the example

either A ^? η """^" ^ J ™ * " ¹ as a solid state element or as a photoelectric element

hSete _ra n ^ f ⁿ p, ^im K ^lIm f ^eifen ί, °? "^ ^tube may be formed.

trained transparent flat parts. _{a5 good success} | _{t at} intervals that allow for the film advance

The image area aligned with the image window 20 is proportional to the speed. The light scanner

is produced by a lamp 24 and a condenser - ₅ 0 therefore low-voltage pulses, which one

Lens system 26 illuminated. The image areas or differentiating stage 52 and a preamplifier 54 to-

Individual images 10 are therefore penetrated by light, are guided. The latter forms together with one

the through the image window 20 and a lens 28 30 astable or free-running multivibrator 56 and a

got through and then from a pro power amplifier 58 and the associated Verbir, -

jcKtionsspiegel Jü, the optical compensation needed a first circuit arrangement, the drive

serves, reflected and in turn by the lens circuit. The output of the preamplifier 54 is with

28 is projected back through. The latter designs the astable multivibrator 56 connected, its

the normal frequency is approximately 48 Hz essentially in the plane of the image window 35. He follows

WaV ^ J ¹ V ₁ T ^{the film window} 18 a re the projection with an image frequency of 24 individual

elles image 32 of the image area or the individual image 10. frames per second, the impulses of the previous

The real image 32 is then displayed by means of a lens or amplifier 54 with a frequency of 24 Hz

I projection optics 34 are created on a suitable surface with twenty-four perforation holes in the film.

For example, a screen or a light strip F in the control window 22 every second

sensitive equipment of a television projection can be moved past. The astable multivibrator 56

^a £ ^e ',, contains a conventional synchronizing device

The projection mirror 30 around an axis 36 for synchronizing other, or abwechselnuu λ ^scnkrecht the output pulses to the output of Vorlchubs and parallel to the axis of curvature of 45 FiIn- amplifier 54. The timing of the output pulses extends ^to respect the film screenings lcnstersie. A controllable synchronous motor of the astronomical multivibrator 56 can in small size, which can be varied by means of an electromagnetic coupling 40, so that it is in small external connection with the mirror 30, fluctuates fluctuations in the output frequency of the latter periodically in circulation or in the oscillating amplifier 54, which is caused by small entanglements. The motor 38 rotates in the direction of the arrow 42 5 ° changes in the film advance speed generated uniformly. Is the electromagnetic coupling. The frequency of the output pulses of the treatment 40 is engaged, so the motor 38 moves the astable multivibrator 56 is therefore through a mirror 30 in the direction of arrow 42. The electrical power amplifier 58 is amplified. The frequency of the magnetic clutch 40 is disengaged, however, so output pulses of the power amplifier 58 depends. A spiral spring 44, contrary to 55, obviously also depends on changes in the direction of the arrow 42 and fetches it to an initial feed speed. Because the output is now back, which is fixed by a pin or a tab of the power amplifier 58 to the synchronous motor 46, which is connected to a with the projector 38, fluctuations in the film frame permanently connected stop 48 lead to the system feed speed - how to without further ado. If the mirror 30 is in the gear positions determined by the 6o - for changes in the rotational speed tab46 and the stop 48, or the speed of the synchronous motor 38., it is aligned with the image window. and therefore takes a single image 10, the speed causes a corresponding increase straight into the image window 20 runs. Another device explained above about the motor speed and a drop in the film then moves the electric thrust speed, activates a corresponding Abmagnelic clutch 40, so that the mirror 30 takes the rotational speed or the rotation of the single image 10 while the motor 38 is running through .
Image window 20 follows. As a result, the lens, as already mentioned above, is

The output of the light scanner 50 is also fed to the differentiating stage 52 and further to a monostable multivibrator 64. These switching stages or components form a second circuit arrangement, the clutch circuit. In Fig. 2, the output of the differentiating tube 52 is denoted by 60 and the output of the multivibrator 64 has the reference numeral 66. Each input pulse arriving from the light scanner 50 to the differentiating stage 52 causes the latter to emit a needle pulse which is fed to the monostable multivibrator 64. Each needle pulse 62 causes an essentially immediate drop to a lower level L ₁ at the output of the monostable multivibrator 64. The output of the monostable multivibrator 64 then remains at the lower level / - for a predetermined period of time equal to T., - T _{ , after which it returns to an upper level L. (Fig. 2). At this upper level / .., the output remains until the next pulse 62 "occurs. The output of the monostable multivibrator 64 is fed to a power amplifier 67, which amplifies the output of the multivibrator 64 in such a way that the electromagnetic clutch 40 can thereby be actuated or operated The clutch 40 is engaged during the time during which the output of the monostable multivibrator 64 is at the upper level L. , and the clutch 40 is disengaged when the output of the monostable multivibrator 64 is at the lower level L. _1. The curve 68 shows the periodic actuation of the clutch 40 (FIG. 2).

Hs is of course not wanted, a single image to project during the return of the mirror 30 into the starting position by means of the spring 44. Therefore, the output of the monostable multivibrator 64 becomes simultaneous with the clutch 40 an electrical shutter control 70 is actuated. As such, any electrically actuatable Find locking device of conventional type use. The lock canoe on somebody appropriate place in the light path, which by the overall arrangement in question the projector system is intended. The periodic actuation of the shutter control 70 is carried out by the wave train 72 of FIG. 2 shown. You can see that the shutter is closed during the time during which the clutch 40 is disengaged. This is the period of time for the return of the

ίο mirror 30 in the starting position by means of the Coiled spring 44 stored energy.

Claims (3)

Patent claims: 1. Motion picture projector in which a film tape can be continuously moved past a picture window and a tiltably mounted projection mirror is provided for optical compensation, which is controllable by means of sync pulses, which ao are generated by a scanning device scanning synchronization marks on the film, characterized in that the projection mirror (30) can be driven by means of a synchronous motor (38) via a clutch (40), and as that the synchronous motor by means of a first, of the scanning device (22, 24 ', 50) derived synchronous pulse sequence speed controllable and the Coupling by means of a second synchronous pulse sequence derived from the scanning device is controllable. 2. motion picture projector according to claim 1, characterized in that for generating the Synchronous pulse trains of the scanning device (22, 24 ', 50), multivibrators (56 or 64) connected downstream are. 3. motion picture projector according to claim 1, characterized in that the projection mirror (30) into its starting position by means of a return spring (44) when the clutch (40) is disengaged is traceable. 1 sheet of drawings