SU748330A1 - Diaprojector - Google Patents

Description

The invention relates to automation of the educational process, namely, to technical training. _ It can be used independently as an information ^e device, as well as part of the training and the information machines.

Known slide projectors in which the exact stop of the carrier frame is carried out using the jump ' ^υ mechanism' with the Maltese cross [1]. The main disadvantage of such devices is the impossibility of combining the exact stop of the frame in the frame window with fast-forward.

The closest in its technical essence to the invention is a slide projector containing a projection optical system 20, a drive mechanism kinematically connected to the gear drum of the tape drive mechanism, a control unit electrically connected to the frame sensor 25 marks as a light source 's photocell, and the frame stop node in the frame window [23.

The disadvantage of this slide projector is the lack of accuracy jg frame stop in the frame window with a wide range of speeds of movement of the information carrier and reversing.

The aim of the invention is to increase the accuracy of stopping the frame in the frame window with a wide range of speeds of movement of the information carrier.

This goal is achieved in that the slide projector is equipped with an electromagnetic clutch and a pulley mounted on the shaft of the gear drum and interacting with each other through the rotor, on which frame marks are made, and the frame mark sensor is equipped with a movable plate with a figured slot placed between the light source and the photocell and installed displacements along an arc of a circle.

In FIG. 1 shows a diagram of a slide projector; in FIG. 2 - drive mechanism and control unit of the drive mechanism; in FIG. 3 - frame mark sensor with frame angle in the frame window? in FIG. 4 - control unit of the drive mechanism; figure 5 control unit of the drive mechanism [with the electronic circuit of the stop frame.

The device comprises a housing 1 (Fig. 1) with a screen 2, an information carrier 3, a illuminator 4, a frame window 5, a lens 6, a drive mechanism 7 with a gear drum 8, a control unit 9 for a drive mechanism 7, and control keys 10. The drive mechanism 7 and the control unit 9 (figure 2) · contain the following components and parts: an electromagnetic clutch 11 with a winding 12 and a rotating rotor 13, the pins 14 of which are included in the pulley 15, rigidly. connected to the shaft 16 by means of a nut 17 ', on which a gear drum is fixed 8. In the pulley 15 there are marks a in the form of holes through which light from the light source 18 enters the photosensor 19. The drive mechanism 7 also includes an electric motor 20, which is kinematically connected with pulley 15.

The frame of the sensor 21 of the frame marks is mounted on the plate 22 with slots b (Fig. 3). The plate 22 is attached to the housing 1 of the overhead projector using screws 23 and 24. In the body of the sensor 21 of the frame marks, a shutter 25 is installed with a figured cut in, moving with a nut ^ 6 and screw 27. '

The drive mechanism control unit 9 (Fig. 4) contains a trigger 28. One of the outputs of the trigger 28 is connected to the winding 12 of the electromagnetic clutch 11, and the other to the winding of the electric motor 20. One of the inputs of the trigger is connected to the photosensor 19, the other to the control keys 10.

The device operates as follows.

Information from the carrier 3 is projected on the screen 2. When a signal is received from the keys 10 in the control unit 9 of the drive mechanism 7, the trigger 28 is activated and the motor 20 is turned on. Due to the rigid connection of the pulley 15 with the gear drum 8 through the shaft 16, the movement of the information carrier 3 is ensured. When the frame mark a of the pulley 15 is on the axis connecting the light source 18 with the photosensor 19, the latter generates a signal that will switch the trigger 28. In this case, the electric motor 20 is de-energized and the winding 12 of the electromagnetic clutch 11 is turned on. The rotor 13 will be attracted and provide due to friction with the clutch 11 a quick stop of the pulley 15, and therefore the stop of the gear drum 8 and the information carrier 3. The frame marks on the pulley 15 are arranged so that the rotation of the pulley 15 by an angle between the frame marks corresponds to the movement of the carrier 3 for one _hour frame. Therefore, when applying a single short pulse from the keys 10 pro.

the medium will move one frame, when applying from the keys 10 a series of short pulses, the carrier 3 will move by the number of frames equal to the number of pulses in the series. When a pulse is supplied with a duration significantly exceeding the time that the medium moves by one frame, the signal from the photo sensor 19 does not trigger the trigger 28 and the engine 20 does not stop. With this signal, the medium will be rewound 3. The trigger 28 is executed (Fig. 4) on the thyristors 29 and 30 and has a winding 12 of the electromagnetic clutch 11 and an electric motor 20 as a load. The capacitor 31 provides the shutdown of one of the thyristors when a control signal from the keys 10 or from the photosensor 19 is applied to the second thyristor ora 32 can vary the amount of current flowing through the motor 20 and / Consequently, the speed of movement of the carrier 3 information. The reversal of the engine 20 is carried out using the block 33 of the reversal. It can be carried out according to one of the known methods (switching the field winding or rotor’s winding, switching the field winding, etc.). Exact stopping of the carrier 3 in the frame window 5 can be carried out in various ways. One of them is as follows.

In order to ensure an exact stop of the frame of the carrier 3 in the frame window 5, the signal from the photosensor 19 must come with some lead. Moreover, this lead should be greater, the higher the speed of the carrier 3. If a slow speed of movement of the carrier 3 is required, the current through the electric motor.20 decreases using a resistor 32, and the curtain 25 with a curly slot rises up with the help of a nut 26 and a screw 27 (Figs. 3 and 4). In this case, the edge of the frame mark a of the pulley 15 will cross the beam of light from the source 18 somewhat later than if the shutter 25 is in the middle or lower position. In the case of a higher speed of movement of the carrier 3, the shutter 25 is lowered. The moment of turning off the engine 20 and turning on the winding of the clutch 12 when the pulley 15 rotates in this case will occur earlier relative to the moment the center crosses the frame mark and the axis connecting the I center of the light source 18 with the center of the photosensor 19. By adjusting the current flowing through the electric motor 20 and the location of the shutter 25, it is possible to achieve an exact stop of the pulley 15 at the moment when the center of the frame mark is on the axis connecting the center of the light source 18 with the center of the photosensor 19. B

748330 * 6 In this case, the exact installation of the frame 'media 3 in the frame window 5 will be provided regardless of the direction of movement of the media 3.

In the manufacture of the information carrier, the exact position of the interframe stroke relative to the perforation is not ensured. In well-known film projection apparatuses and slide projectors, the film installation unit in the frame window is either in the form of a mechanism, jq. providing the movement of the frame window, or in the form of a mechanism that provides rotation of the gear drum relative to the axis from which it receives rotation. In this case, the installation of the frame in the frame window ¹³ 5 can be carried out by changing the location of the housing of the sensor 21 frame marks within the limits limited by slots b, and with screws it changes the moment the frame crosses 20 marks and the axis between the center of the light source 18 and the photosensor 19, and therefore, the frame stop relative to the frame window 5. 25

Moreover, it is necessary to change the place. laying stop inter-frame stroke within the same perforation. With the accepted standards for 35 mm film, the necessary adjustment limits of -30 ki will be provided if the slots b provide for the movement of the frame mark sensor within + 15 ° along an arc of a circle with a center coinciding with the axis of the shaft 16. 35

The control unit of the drive mechanism with an electronic unit for stopping the frame in the frame window (Fig. 5) contains an additional trigger 34 th single vibrator 35. 40

The slide projector in this case works as follows. When passing the frame mark a near the photosensor 19, a pulse is generated at its output, which turns on the thyristor 29, triggers the single-shot 35 with its trailing edge and switches the trigger 34 to the counting input. In this case, the thyristor 30 is turned off, the engine 20 is de-energized and reversed. The carrier 3 is decelerated, after which a pulse is received from the output of the single-vibrator 35, which starts the engine 20 through the thyristor 30. The reverse mechanism of the drive mechanism 7 occurs until the frame mark a matches the photosensor. Since due to the inertia of the drive mechanism 7, the return occurs at a speed substantially lower than the speed of the drive, when you return at the output of the photosensor 19 there will be an enable signal. Thyristors 29 and 30 are triggered from it and the drive mechanism 7 is braked, since there will be no trailing edge of the signal from the photosensor 19 and the one-shot 35 will not work again.

Claims (2)

The invention relates to the automation of the educational process, namely, to the technical means of training. It can be used independently as an information device, as well as be part of training and information machines. Overhead projectors are known in which the exact stopping of the carrier frame is carried out using a jump mechanism with the Maltese cross ij. The main disadvantage of such devices lies in the impossibility of combining an accurate frame stopping in a frame window with fast rewinding. The closest in technical essence to the invention is the overhead projector containing a projection optical system, a drive mechanism, kinematically connected with a toothed drum of a tape drive mechanism, a block control, electrically connected to the frame tag sensor in the form of a light source with a photocell, and the frame stopping unit in the frame window 2. The disadvantage of this overhead projector is the insufficient accuracy of frame stopping in the frame window with a wide range of speeds of movement of the information carrier and reversal. The aim of the invention is to improve the accuracy of frame stopping in a frame window at a wide range of speeds of movement of the information carrier. The goal is achieved by the fact that the overhead projector is equipped with an electromagnetic clutch mounted on the shaft of the gear drum and interacting with each other through a rotor by an electromagnetic clutch and pulley, on which personnel tags are made, and the frame marker sensor is equipped with a movable plate placed between the light source and the photocell and fitted with move along the arc of a circle. FIG. 1 shows a slide projector; in fig. 2 — drive mechanism and drive mechanism control unit; in fig. 3 - frame mark sensor with a frame setting angle in the frame window in FIG. 4 — drive unit control unit; in Fig. 5, the control unit of the drive mechanism jc by the electronic circuit of the frame stopping unit. The device comprises a housing 1 (Fig. 1) with a screen 2, a carrier 3 of information, an illuminator 4, a personnel window 5, a lens b, a drive mechanism 7 with a toothed drum 8, a block 9 of control of the drive mechanism 7 and keys 10 of control. The drive mechanism 7 and the control unit 9 (Fig. 2) contain the following components and parts: an electromagnetic clutch 11 with a winding 12 and a rotating rotor 13, the pins 14 of which enter the pulley 15 rigidly connected to the shaft 16 by means of a nut 17-, on which the toothed drum 8 is fixed. The pulley 15 is provided with markings and in the form of holes through which light from the source 18 of light falls on the photosensor 19. The drive mechanism 7 also contains an electric motor 20, which is kinematically connected to the pulley 15. Sensor housing 21 frame marks installed on the plate 22 with slots b (f ig.3). The plate 22 is fastened to the overhead casing 1 with screws 23 and 24. In the frame tag sensor housing 21, a shutter curtain 25 is installed with a figured slot in, moving with the help of a nut 6 and screws 27. The drive control unit 9 ( Fig. 4) contains the trigger 28 One of the outputs of the trigger 28 is connected to the winding 12 of the electromagnetic clutch 11, and the other to the winding of the electric motor 20. One of the trigger inputs is connected to the photosensor 19, the other to the control keys 10. The device works as follows. Information from the carrier 3 is projected onto screen 2. When a signal is received from the keys 10 in the control block 9, the drive mechanism 7 triggers the trigger 28 and the electric motor 20 is turned on. Due to the rigid connection of the pulley 15 with the toothed drum 8 through the shaft 16, the information carrier 3 is moved. When the frame mark of the pulley 15 is on the axis connecting the light source 18 to the photosensor 19, the latter produces a signal that switches the trigger 28. In this case, the electric motor 20 The coil 12 of the electromagnetic clutch 11 is de-energized and turned on. The rotor 13 is pulled and both bakes due to the friction with the clutch 11 a quick stop of the pulley 15, and hence the stop of the gear bar of the ban 8 and the carrier 3 of information. The frame marks on the pulley 15 are positioned so that the rotation of the pulley 15 on the side between the frame marks corresponds to the movement of the carrier 3 by one, frame. Therefore, when applying a single short pulse from the keys 10, the carrier will move one frame at a time, and when the series 10 short pulses are delivered from the keys 10, the carrier 3 will move by the number of frames equal to the number of pulses in the series. When a pulse with a duration significantly longer than the carrier travel time for one frame is applied, the signal from the photo sensor 19 does not switch trigger 28 and the motor 20 does not stop. With this signal, carrier 3 is accelerated. The trigger 28 is executed (Fig. 4) on thyristors 29 and 30 and has as a load the winding 12 of the electromagnetic clutch 11 and the electric motor 20. The capacitor 31 switches off one of the thyristors when the control signal from the keys 10 or the photo sensor 19 is applied to the second thyristor Stories 32 may vary the amount of current passing through the motor 20, and therefore, the speed of movement of the carrier 3 information. The reversal of the engine 20 is performed by the reversing unit 33. It can be carried out according to one of the known methods (switching the excitation winding or winding of the rotor, switching the excitation winding, etc.). An exact stop of the carrier 3 in the frame window 5 can be carried out in various ways. One of them is as follows. In order to ensure an accurate stopping of the frame of carrier 3 in the frame window 5, the signal from the photo sensor 19 must come with some lead. Moreover, this lead must be the greater, the higher the speed of the carrier 3. If the speed of movement of the carrier 3 is low, the current through the electric motor 20 is reduced by means of a resistor 32, and a curtain 25 with a figured slot is raised up by means of a nut 26 and a screw 27 (Figs. 3 and 4). In this case, the edge of the frame mark and the pulley 15 will cross the beam of light from the source 18 somewhat later than if the shutter 25 is in the middle or lower position. In the case of a higher speed of movement of the carrier 3, the shutter 25 goes down. The moment of turning off the engine 20 and turning on the coil of the coupling 12 when the pulley 15 rotates in this case is earlier relative to the center of the frame tag crossing the axis connecting the center of the light source 18 to the center of the photo sensor 19, adjusting the current flowing through the electric motor 20 and the position of the curtain 25, it is possible to achieve an exact stop of the baffle 15 at the moment when the center of the frame tag, but will be on the axis connecting the center of the light source 18 to the center of the photosensor 19. In this case, the frame of the carrier 3 is precisely set in the frame window 5 will be ensured regardless of the direction of movement of the carrier 3. In the manufacture of the information carrier, the exact position of the interframe bar perforation is not ensured. In the well-known film projection apparatus and slide design, the film installation unit in the window frames is made either as a mechanism. Providing the frame window movement, or in the form of a mechanism. Ensuring the rotation of the gear bar relative to the axis from which it receives rotation, in this case, frame installation in the frame window 5 can be done by changing the location of the sensor body 21 frame marks within the limits slits b, and screws il changes the moment of intersection of frame marks on the axis between the center of the source of light 18 and the Photosensor 19, and, consequently, the place where the frame is stopped relative to the frame window - Change the location of the interframe dash stop within a single perforation. With accepted standards for 35 mm film, the required adjustment limits will be provided if the slots b allow the sensor to move r v iJ4c; nrn sCl 1. NO. frame labels within + 15 ° along the arc of a circle with the center coinciding with the axis of the shaft 16. - The drive control unit with the electronic frame stopping unit in the frame window (Fig. 5) contains an additional trigger 34 and one-shot 35. The overhead projector in this case works as follows. When the frame tag a passes near the photosensor 19, a pulse is generated at its output, which turns on the thyristor 29 by its falling edge, triggers the one-shot 35 and switches the trigger 34 on the counting input. When this is done, the thyristor 30 is turned off, the motor 20 is de-energized and reversed. The carrier 3 slows down, after which a single pulse from the output of the one-shot 35 triggers the motor 20, triggered through the thyristor 30. The reverse operation of the drive mechanism 7 takes place until the frame label a coincides with the photosensor. Since, due to the inertia of the drive mechanism 7, the return occurs at a speed substantially lower than the speed of the drive, a turn-on signal will occur when returning the output of the photo sensor 19. From it, the thyristors 29 and 30 are triggered and the drive mechanism 7 is braked, since the trailing edge of the signal from the photo sensor 19 will not be in this case and the one-shot 35 will not work again. Claims An overhead projector containing a projection optical system, a drive connected kinematically to a toothed drum of a tape mechanism, a control unit electrically connected to a frame marker sensor in the form of a light source and a photocell, and a frame stopping unit in a frame window, characterized in that In order to increase the accuracy of frame stopping in the frame window with a wide range of speeds for moving information carriers, it is equipped with interconnected through mounted on the gear drum shaft the rotor is an electromagnetic clutch and a nod on which the frame marks are made, and the frame tag sensor is located located between the power source and the photocell of the movable plate with the figured slot and is mounted so that it can be moved along the circumference. Sources of information taken into account in the examination 1. US Patent 3501851 l. 35-9, 1970. 2. The patent of France 1579807.. G 09 B, 1969 (prototype).