DE2304110A1 - FILM PROJECTOR, IN PARTICULAR FOR TEACHING EQUIPMENT - Google Patents

Description

Film projector 'in particular for Lehrfferäte The invention relates a film projector, especially for teaching equipment, the one with control marks provided film is operated, by means of the markings and associated therewith Sensing elements control signals are generated by which an actuator in action is moved.

In film projectors, there is a device for adjusting the image height once required, as the distances between the image and the perforation associated with it Have tolerances that either when recording film from the recording cameras or may result from the process of copying films onto another film format 0 For Others may need a device to adjust the image height, if the film is transported via gripper fingers, with an inevitable image offset occurs between forward and reverse of the film because the gripper finger is in the forward direction touches the lower edge of the perforations and their upper edge in the return direction.

To compensate for the specified tolerances and transport inadequacies facilities are known by means of which the gripper fingers vertically to the film carrier is shifted, so that a corresponding vertical displacement of the film to the film stage takes place, the shift takes place exclusively during the film run, with the German Utility model 7 208 770 is also a hand-operated device for image height adjustment also known for still image playback for film projectors, their lenses on lens carriers are appropriate. The device allows the lens to be adjusted by means of lever members and a handwheel that actuates them.

For the construction of teaching equipment it is important to have one if possible strive for ease of use of the devices in order to get the students through as little as possible To keep adjustment operations from the actual learning operationO With previously known Lelir devices meet this requirement especially with regard to image height adjustment No account is taken from German patent specification 1 200 029 such Teaching device known, which consists essentially of a film projector, the associated Educational film is with program-related, chessboard-like light-dark markings provided in the case of teaching, depending on the content of the Film frames and the student's button selection the passing through the markings Light converted into control signals for the film transport elements by means of photo resistors, As a result, the film is transported forwards or backwards by one or more frames.

A differential vertical image adjustment of the film images relative in the known teaching device, however, nothing is used to outline the projection surface Aimed for means. Automatic image height adjustment is also available for conventional film projectors unknown0 It is an object of the present invention to provide a film projector with a low-cost, automatic image height adjustment device that works automatically when the film is made to equip, which is able to compensate for image offset tolerances and / or Achieving film transport tolerances in the forward and reverse motion of the film. The task is used for a film projector, especially for teaching equipment, the one with control marks provided film is operated, by means of the markings and associated therewith Sensing elements control signals are generated by which an actuator in action is added, solved according to the invention in that on the film, preferably At the beginning of the film, a series of markings are provided, at least one for each Marking assigned to each film image is and the series of Markings are assigned to at least two stationary scanning elements Film run control signals can be generated and fed to an actuator, whereby the Actuator is operated so that the vertical frame position of the film frame he to compensate of film and / or film transport tolerances during film run is corrected this embodiment according to the invention is a flawless image status with simple means achieved regardless of the size of the film perforation or film transport tolerances and the transport system of the film projector used. In appropriate training According to the invention, the markings are arranged within the film image outline a fixed assignment of the markings to the image outline is achieved. The markings can basically be designed as optical or magnetic markings0 In a further advantageous embodiment, the markings are transparent Window formed0 The markings can thus be easily used during the film recording process be faded into the film pictures0 In a practically advantageous embodiment of the Invention are the series of marks two symmetrical to the center line of each Marking of stationary photoelectric components arranged transversely to the direction of film travel assigned as scanning elements, the illumination of the markings and those behind them photoelectric components are inevitably carried out by the projection lamp of the Projector, and the symmetrical arrangement of the components makes the formation a differential photocurrent that can be used for control purposes.

A simple, reliable actuator can according to the invention by be given a servomotor, through which the vertical position of the projection lens can be changed very precisely.

In a further embodiment of the invention for a film proåektor with Gripper finger system, a servomotor can also be used as an actuator, by which the vertical position of the gripper finger system can be changed0 details an embodiment of the invention are described below and in the Drawing shown.

The drawing shows in Figure 1 a pivotable lens carrier Film projector with a servomotor Figure 2 shows a circuit arrangement of the servomotor and the scanning elements and their spatial arrangement to form a window marking FIG. 3 shows a starting piece of a film with markings 0 A lens 1 of a film projector is rigidly attached to a carrier 2, for example, of two rails 3 with Connecting webs 4 - 6 exist 0 The connecting web 4 carrying the lens 1 is formed extended downwards and has a lower beveled edge 7 0 The connecting web 4 is attached to the projector housing on the other hand by means of a Tension spring 8 is resiliently supported with respect to the housing. In the web 5 there is a perpendicular slot 9, in which a fixed housing pin 10 engages0 The rear web 6 has a central bore 11 through which a further housing pin 12 entry. The bore 11 and the pin 12 form the pivot point of the carrier 2, which must be as far away as possible from the lens 1, so that its Pivoting movement takes place approximately in a straight line. Slot 9 and pin 10 serve as the upper one and lower stop for the carrier 2 during pivoting movement. At the beveled Edge 7 of the connecting web 4 is a mandrel 13 of a lever 14 which has broken through is shown.

This lever 14 is pivotable about a fixed pin 15 on the housing stored, with a pivoting movement there is a limit for the lever 14 upwards through the elongated hole 9 and down through a fixed stop 16o at the free end of the lever 14, an extension 17 with an actuating part 18 is provided. The part 18th is angled downwards with respect to the extension 17 and stands constantly in contact with the eccentric 19 of a direct current generator 20, which as Actuator acts. The drawn position of the eccentric 19 with respect to the Part 18 corresponds to the illustrated center position of lens 1. The eccentric disc 19 rotated in the direction of the double arrow A, the lever is actuated 14 and thus a movement of the carrier 2 and the lens 1 in the sense of the double arrow B. The lens moves up or down a certain angle on the circumference of a determined by the distance of the pivot point 11, 12 from the lens Circular path. The motor 20 is designed with a reduction gear and rotates about with a speed of rotation of 1 rev / sec.

The adjusting process is conditioned by the shape of the eccentric disk 19 finished after a maximum of half a turn. The coupling between motor 20 and Carrier 2 can also be realized with other suitable means0 in the middle position of the objective 1 and the carrier 2, a central axis 23 runs through the pin 12 and the objective 1. The end positions of the carrier 2 and thus of the objective 1 are indicated by the dashed lines 24 and 25 0 in front of the lens 1 is through a line 26 indicates the direction of travel of the film provided with arrows Basically, it is possible to set any swivel angle 0 Um, however, distortions to be kept as small as possible and there usually only small tolerances between Image and perforation are to be balanced, a height adjustment of about plus-minus is sufficient an eighth image height (about 0.9 mm for 16 mm film) directly on lens 1 normally the end. The image height adjustment is continuous up to a maximum possible amount continuously adjustable0 The directions of movement of the carrier 2 and thus of the lens 1 are marked with a double arrow B gF 0 To avoid any distortion caused by a to switch off the circular swivel path of the lens, it is of course also possible to the lens carrier 2 parallel to the film direction by means of suitable devices to move 0 The circuit arrangement in Figure 2 consists essentially from two parallel branches connected between the lines + UB and UB, the each formed from a series resistor R1 or R2 and a photoresistor F1 or F2 are0 between Rn and F1 resp.

The leads of an amplifier V are connected between R2 and F2 The output line of the amplifier V is connected to the motor 20, with the motor 20 on the other hand is connected to ground, via the photoresistors F1 and F2, which are in the film direction, Arrow C, parallel one above the other at a suitable point on the projector chassis or at Use of a ground glass as a proåectiona surface in the side area can be, a dot-dash rectangular window 27 is shown.

The window 27 represents one of the markings and can be used as an opening or be designed as a translucent rectangle0 The window is, as out FIG. 3 can be seen in the film image 28 on the transverse center line 29 at the perforation 30 arranged opposite edge of the film image, i.e. inner part of the film image outline, Other markings, e.g. magnetic strips, etc., can also be applied to the film be0 Also suitable when using one or more optical markings Form it is necessary to fix its position to the picture outline, so that a spatial Relation to the film image is obtained. In principle, it is also possible to use the markings to be provided between successive film frames or at the edge strips of the film. The photoresistors can be made up of any photoelectric components such as e.g. Phototransistors or photo elements are replaced 0 The photoresistors are in one Projection plane arranged at a distance from one another that corresponds to the projection of the The length of the window 27 corresponds to 0 Thus, in the ideal case, there are film and film transport tolerances equal to zero, both photoresistors F1 and F2 then from the projector lamp, not shown evenly illuminated so that currents of the same size flow in both branches and no current differences at the input of the amplifier occurs so that the motor 20 is not operated. However, the position of the window 27 is related not symmetrical on the photoresistors, which is due to film and / or film transport tolerances is to be attributed, currents of different sizes occur in the associated branches on, a current difference appears at the input of the amplifier V, which amplifies the Controls motor 20, which rotates in one of the directions (arrow A), so that the lens 1 is pivoted accordingly and the film images on one Projection surface, not shown, is again presented at the correct height. Is the latter State reached, both photoresistors are illuminated evenly again, see above that the control process has ended. If tolerances occur again that cause a height shift of the window or windows 27, the control process is repeated in the manner described0 The control process can be dimensioned as desired0 In practice, a rule duration of about one to two seconds has proven successful sufficient to avoid normally occurring image frame fluctuations during the film run to integrate.

FIG. 3 shows the beginning of a film 31 with film image areas 28, perforations 30 and marker windows 27. The hatching should indicate that the beginning of the film with Except for the window 27 and the perforations 30 is black, so that a good light-dark contrast is created. It is for the practical design however, it is not necessary to forego the presentation of film images at the beginning of the film. Thus, as already indicated above, the windows 27 can also be inside a black one Edge strip may be provided, possibly even between the perforations 30. It is also possible, not in every image area 28, but only in every second or third image area 28 to provide windows 27. To avoid loss of information, however, it is advisable to use a series of around 40 film frames only at the beginning of the film to be continuously provided with marking windows, so that in a maximum of two seconds the image adjustment process is finished. In principle, however, the markings can also be applied over the entire length of the film, expediently at the Perforation edgeO The setting arrangement can be set according to the direction indicated by the control marks can also be switched off for a certain length of film by special code characters and appropriate scanning devices. There are other suitable measures for shutdown purposes are also conceivable. Of course, the control circuit can also remain in function during the entire film screening operation, so that constantly an automatic correction of the image position takes place, which is particularly the case with poorly copied copies Films or projectors with frequent rewinding and gripper finger transport system would be advisable. There are other versions of Fm projectors with self-regulating Image height adjustment devices conceivable. The design described has become proven to be reliable in practical operation despite relatively low technical levels Effort. For equipment projectors and any other film projectors such a picture standing device can be used advantageously in the same way - possibly also afterwards - because the operating effort of such devices is considerably reduced for the user.

Claims (5)

Claims W Film projector, especially for teaching equipment, the one with control marks provided film is operated, by means of the markings and associated therewith Sensing elements control signals are generated by which an actuator in action is offset, thereby gekennzeicnnet that on the film, preferably at the beginning of the pil (C), a series of markings (27) is provided, at least one marking each (27) is each assigned to a film frame (28) and at least the row of markings two stationary scanning elements (F1, F2) are assigned, which means that control signals are used when the film is running can be generated and fed to an actuator (20), whereby the actuator (20) is operated so that the vertical frame position of the film formers (28) to compensate film and / or film transport tolerances are corrected during the film run. 2. Film projector according to claim 1, characterized in that the Markings (27) within the outline of the film images (28) symmetrical to their Transverse center line (29) are arranged. 3o film projector according to claim 1 or according to claims 1 and 2, thereby zekennzeicnnet that the markings as a translucent window (27) are trained. 4. Film projector according to one or more of claims 1 to 3, characterized ze indicates that of the series of markings (27) two symmetrical to the center line (29) of the film images (28) arranged transversely to the film direction (C), stationary photoelectric Components (F1, F2) are assigned as scanning elements. 5. Film projector according to one or more of claims 1 to 4, characterized indicates that the actuator is a servomotor (20) through which the vertical The position of the projection lens (1) can be changed 0 60 film projector with gripper finger transport system according to one or more of claims 1 to 4, characterized in that the Actuator is a servomotor through which the vertical position of the gripper finger transport system is changeable. Sign.