DE2129947A1 - Teaching device - Google Patents

Description

Teaching device The invention relates to a teaching device, in particular a device for the transmission of sound information with an automatic repetition of segments is possible.

There are already many teaching devices for transmitting sound information and / or image information. The known teaching machines or devices have one different structure, depending on the type and amount of information to be handled is determined.

Various teaching devices are suitable for operation with a Electronic computers have been developed, with these teaching devices having design requirements must suffice, as they occur in data processing systems The developed Such teaching devices largely satisfy operational requirements such as safe handling, Reliability, low power consumption, easy information programming, Indestructibility of programmed recording medium input information, recording responses from learners, etc.

The device according to the invention for the transmission of selected recorded Information is characterized according to the teaching of claim 1.

Advantageous developments of the invention are provided by the teachings achieved according to the dependent claims 2-9.

The invention is explained in more detail with reference to the drawing. Show it: 1 shows the block diagram of an exemplary embodiment of the teaching device according to the invention; FIG. 2 shows the functional block diagram used in the exemplary embodiment of FIG Playback control arrangement; 5 shows the circuit diagram of an exemplary embodiment of the Audio processing channel according to the invention; Fig. 4 shows the picture of a sound discriminator and control channel according to the invention; and FIG. 5 shows the circuit diagram of an exemplary embodiment of the control tone processing channel according to the invention.

According to FIG. 1, a teaching device 10 according to the invention consists of a Multi-channel recording medium 12, which is used for playback of selected channels a multi-channel playback device 14 can be controlled, which in turn electrical output signals in the form of a sound information output signal and a Control tone output signal 18 emits. As a multi-channel playback device 14 come various institutions in question, however, it is assumed in the following be that the teaching device 10 is a button-controlled playback device less Power consumption used, the mechanical drive reversing and take-up units, as will be described in more detail, The audio information output signal in the line 16 is fed into a suitable audio channel 20, which the necessary Amplification prior to delivery via line 22 to a suitable sound delivery device 24 makes. The sound output device 24 can consist of one or more headphones and / or speakers, intercom systems, etc.

The line 18 carrying the control tone output signal goes to one Sound channel 26, which carries out the necessary amplification of the control sound signal. The control tone output signal of the sound channel 26 then arrives via a line 28 in a playback control arrangement 50, which in turn emits a control output signal to a line 32 leading to the multi-channel playback device 14 leads back. Control over line 52 may come from an engine control function exist, as will be explained below. The control tone frequency is selected so that that it is compatible with the audio information and auxiliary audio signals. E.g.

a tone with a frequency of about 1500 Hz ensures the required Functions.

An additional device is provided via a further output line) 4 from the audio channel 26 controlled. The output signal in question reaches a suitable one via line 54 Zusatztondiskrimina tor D6, the control tone signal to be fed into a selected Additional arrangement 38 detected and amplified. The additional sound can be any easily detached Be a constant frequency tone that is easily distinguishable from the control tone and is in a frequency range that does not interfere with the control tone; e.g. can the additional tone have a frequency of 100 Hz. The additional arrangement D8 can be different Additional equipment such as slide projectors, film apparatus, card punches or the like. to have.

As already mentioned, the multi-channel playback device 14 be a key-operated playback device, wherein (see. Fig. 2) a key control the functions are mechanical actuation of the various operational controls evokes.

Several actuation buttons 42, 44, 46 and 48 cause a release from "Repeat", "Restart", t'Play ", or

Fast forward, the "Repeat" button 42 operated via a mechanical Coupling 50 a drive reversing device 52 which is of a construction known per se Has. The "repeat" button 42 also operates a main power switch 54 via a Clutch 56.

The “restart” button 44 enables a connection line 58 the actuation of an engine control 59, which will be described in more detail.

The actuation of button 1, playback "46 is released via mechanical clutches 60 and 62 the operation of a playback head positioning.

device 64 or the main power switch 54 off. Similar is done by Pressing the "fast forward" button 48 via clutches 66 and 68 actuates a Fast forward pulley 70 resp.

of the main power switch 54 made. Possible designs of the fast forward pulley 70 and the playback head positioning device 64 are in a wide variety of playback devices known, which can be used as a multi-channel playback device 14.

Fig. 3 shows the audio channel 20 and the associated outputs in all Details. A common cartridge head 80 is between a grounded manifold 82 and an input capacitor 64 are connected to the input signal to an npn transistor 86 forward. The cartridge head 80 can be one half of a stereo cartridge in which case the recording of the audio information and the control segments of information is possible in a conventional stereo channel arrangement. The transistor 86 is connected in an emitter circuit, with its collector being the a Load resistor 88 is connected to a voltage supply line 90 which is connected to a series resistor 92 is connected.

The series resistor 92 is in turn connected to a main voltage supply line 94 connected, which supplies the voltage via another series resistor 96, the is directly connected to the positive terminal of a battery 100. The battery 100 can e.g.

a voltage of 7.5 V using 5 nickel-cadmium dry cells that are connected in series. The amplifying transistor 86 also has one Series resistor 102, which is between the collector and the base, and a filter capacitor 104 suitable capacitance connected between the base and the bus 82 is.

An output from transistor 86 is taken from its collector and fed into the base of an npn transistor 108 via a line 106. Of the Transistor 108, which is a second amplifier stage, is with its emitter Rudder a resistor 110 is connected to the bus 82, being a capacitor 112 bridges the resistor 110, while the collector of the transistor 108 over a potentiometer 114 is connected to the voltage supply line 90. That Potentiometer is used for volume control and gives a variable signal via a Wiper line 116 from, which will be described in more detail. A series connection of a resistor 118 and a capacitor 120 lies between the base and the collector of transistor 108.

A sound information output signal on line 116 is via a Resistor 126 and an input capacitor 128 in the base of an NPN transistor 150 fed in. The transistor 130 is connected in the emitter circuit, with one Parallel connection of a resistor 132 and a capacitor 134 between the Collector and the base is and also the collector with a Sound output signal line 136 is connected, which leads directly to the audio output. That is, in the illustrated embodiment leads the audio output line 136 to headphone jack units connected in parallel # 1 and # 2 with reference numerals 138 and 140. The audio output line 136 is connected to socket connections 142 and 144 in parallel with a return line via headphone jack connectors 146 and 148 and a line 150 and a Series resistor 152 to power supply line 94 takes place. An additional Sound output from a microphone that a learner speaks is also provided the transistor 150 is supplied via an input line 154. The input signal from Microphone comes through jacks 138 and 140, i.

the female connectors 156 and 158 to the manifold and via the socket connectors .160 and 162 via an input capacitor 164 to the base of a transistor 166, with decoupling via a capacitor 168 takes place while the emitter of transistor 166 is switched off via a parallel circuit a resistor 170 and a capacitor 172 is decoupled.

The collector of transistor 166 is connected to the base via a resistor 174 and is connected to a voltage supply line via a load resistor 176 178 connected, which is only excited during the playback halt state, as will be explained will be. A capacitor 180 is connected between the power supply line 178 and bus 82, and the microphone signal as the output of the transistor 166 is connected to a collector connection point 182 via a blocking capacitor 184 and a resistor 186 is fed to the base of transistor 130 which is the sound output amplifier is.

An input signal jack 190 is for connection to a remote arranged power supply. A normally open spring switch 34 which between the negative pole of the battery or power source 100 and the bus 82 lies, grounds the Power supply to energize the multi-channel playback device 14 during the "playback", "restart" and "fast forward" states (see FIG. 2) allow. A capacitor 192 of relatively large capacitance takes power supply filtering because it is between the main power supply line 94 and the ground line 82 lies.

According to FIG. 4, an additional audio input signal (which will be described below will be) into an input 200 and from there into a resistor 201 and a Connection point 202 is fed to the base of an npn transistor 203 is connected. The transistor 205 is connected in the emitter circuit, wherein its collector via a resistor 204 and a capacitor lying parallel to it 205 is connected to a power supply via an input line 206, the will be described in more detail, The additional audio output signal from the collector of the transistor 203 reaches the base of a coupling capacitor 207 via a coupling capacitor pnp transistor 208. The pnp transistor 208 is in the emitter circuit with the main voltage supply line 94, while its base is connected by a parallel circuit of a resistor 209 and a capacitor 210 is biased. The collector is across a load resistor 211 connected to the ground line 82, and and an output signal from a connection point 212, which is decoupled by a capacitor 213, is used as the input signal in the base of an npn transistor 214 is fed.

A voting network enables the band of the additional to be captured Control beep. Such a control or selection is permitted by in Series connected capacitors 215 and 216 between the collector of the transistor 205 and the connection point 202, as well as a potentiometer 217, which is between the Power supply line 206 and a connection point 218 between the capacitors 215 and 216 between the connection point 202 and the collector of the transistor 203 is present, a DC voltage stabilization takes place.

A transistor 214 is connected in common emitter, where its Collector via a winding 230 of a relay 232 to the power supply line 94 is connected. The normally open contacts of relay 252 are in the conduction state of transistor 214 closed to a switch closing message to an additional Output control output signal socket 234. A diode 256 in parallel with winding 230 of relay 232 forms a quenching network and a filter capacitor 238 is interposed the ground line 82 and the power supply line 94.

A unijunction transistor 240 operates as a time delay stage to determine the duration of the rewind excitation so that a predetermined segment of information is replayed with each "repeat" excitation. Therefore it becomes a switch contact 242, which is actuated by the "Repeat" button (Fig. 2), briefly from the normally earthed position in contact with the power supply line 94 brought so that a supply line 244 the unijunction transistor 240 conductive power. The line 244 is connected to the upper base in FIG. 4 via a resistor 246 of the unijunction transistor 240, while the lower base has a connection point 248 and a resistor 250 is connected to the ground line 82. In line condition of the unijunction transistor 240 becomes a pulse arising at the connection point 248 via a line 252 to the motor control circuit, as will be described will. The delay in the conduction state of the unijunction transistor 240 is through the setting of one connected to the emitter of the unijunction transistor 240 Control resistor Z54 and determined by a timer capacitor 256.

An npn transistor 258 connected to a remote control socket 260 performs a stop state function which will be explained later. One Socket 262, which is a normally closed contact, allows remote control by any start switch other than the "restart" button 44 (Fig. 2), and a start enable switch 264.

A drive motor 266 is interposed between the ground line 82 and a line 263, which leads to the motor excitation circuit, as will be explained later. A measuring device 270 for monitoring the power supply is between the power supply line 94 and the earth line 82 switched.

According to Fig. 5, the control tone channel has a pickup head 280 between the ground line 82 and an input capacitor 282 connected to the base of an NPN transistor 284 is connected, which represents a first amplifier stage. The transistor 284 is connected in the emitter circuit, with its collector via a connection point 286 and a load resistor 288 are connected to a voltage supply line 290 is. The voltage supply line 290 is shortened because of a load resistor 292, which is in series with the power supply line 94.

The base of transistor 284 is connected to the collector through a resistor 284 and is connected to ground line 82 through a capacitor 296.

An output from transistor 284 is at connection point 286 for feeding via a coupling capacitor 298 into the base of an npn transistor 300 available. The transistor 500 is connected as a further amplifier stage, wherein its emitter via a parallel connection of a resistor 302 and a capacitor 504 to the ground line 82 and its collector via a connection point 506 and a load resistor 508 is connected to the voltage supply line 290. The basis is biased by the collector through a resistor 310. An output signal from junction 306 is then passed through a coupling capacitor 312 fed into the base of a pnp transistor 514, which is in common emitter circuit is connected, its collector via an output connection point 516 and a load resistor 318 is connected to the ground line 82. The base of the transistor 314 is biased from the voltage supply line 94 through a resistor 320, and a filter capacitor 322 is between output connection point 316 and the ground line 82. An additional control tone output is also provided at the connection point 506 via a capacitor 525 for delivery via line 200 to the additional Control stages (see. Fig. 4) removed.

A converted control tone output from connection point 316 is via line 324 to the normally closed contacts of a switch 326 supplied, which is actuated by the "Repeat" button 42 (see FIG. 2). In its normal position, the movable contact of switch 326 delivers Control tone signal from line 524 to line 328 which is connected to the gate of a Thyristor 330 is connected. The anode of the thyristor) 30 is via a connection point 336 and a second load resistor 338 are connected to the voltage supply line 94. The cathode of the thyristor) 30 is directly connected to a line 340 which leads to Control circuitry is fed back to Fig. 4, as will be described.

A bias resistor 542 is between the gate and the cathode of thyristor 330.

Line 340 connected to the cathode of thyristor 330 is (see Fig. 4) connected via both contacts of a switch 344, which-by pressing the button "Repeat" 42 (cf.

Fig. 2) is operated. This becomes the anode of the thyristor 330 excited, since the switch 344 (see. Fig. 4) via a line 546 with a connection point 348 and a conduit 350 for conduction through the normally closed toggle If it is 262 and the enable switch 264 connected to the ground line 82. at Pressing the "Repeat" button 42 turns the switch 326 (see FIG. 5) to a Line 552 and a resistor 354 to line 252 from the top base of the unijunction transistor 240 connected.

When the thyristor 330 is conductive in response to a control tone has been made, it outputs an output from connection point 356 via a Line 360, which is fed as an input signal into the base of transistor 258 (cf.Fig. 4) is fed in.

The conduction of thyristor 550 also causes removal the voltage at connection point 332, which is connected through a resistor 362 to the base an npn transistor 364 is connected, the base of which is connected to the ground line by one 82 connected resistor 566 is biased. The transistor 564 is in emitter circuit, with its collector connected via a resistor 368 to a connection point 370 is coupled to an engine speed control circuit 572.

The engine speed control circuit 372 consists of a pnp transistor 374 and an npn transistor 576 connected in series therewith.

The emitter of transistor 376 is connected to a connection point 370 while its collector is connected directly to the base of transistor 374 is. The emitter of transistor 374 is directly connected to the supply voltage line 94 while its collector is connected to a connection point 378 is. The connection point 578 is in turn connected to a voltage divider network connected, which consists of a resistor 380, a throttle 382, a potentiometer 584 and a fixed resistor 386 connected to the earth line 82 ..

The wiper of potentiometer 584 is connected to the base of the transistor D76 connected. The connection point 578 is also connected to a resistor 388 via a resistor 388 Connection point 390 connected, which in turn is connected to the motor excitation line 268 is. Two series connected diodes 592 and 394 are between the connection point 590 and the emitter of transistor 576 to maintain a constant voltage difference therebetween to ensure, and the connection point 390 is also from the power supply line 94 biased via a relatively high resistance 396. Another control diode 598 lies between the connection point 590 and the ground line 82 to provide inductive to suppress transient signals from the motor.

According to FIG. 4, the motor excitation line 268 is suitably dimensioned Noise choke 400 is connected to DC motor 266, which is a common permanent magnet DC motor is, wherein a return line takes place via a disturbance throttle 402 air introduction 82. The remote control socket unit 260 has various socket connections, such as they are used in connection with a main recording and teaching unit, used to program and organize teaching materials. So a female connector 410 is connected to a line 412 leading to the Microphone jack connectors 160 and 162 of FIG. 3 leads. A female connector 414 directs a recording excitation voltage to one from a remote source Junction 416 connected to the collector of transistor 258, the represents the halt state control stage. The connection point 416 becomes against the ground line 82 biased by resistor 418 and capacitor 420 while he is connected via a resistor 422 to the line 178, which is used to energize the Transistor 166 is used (see. Fig. 3). The capacitor 420 serves as a time delay Hold or sample capacitor as it interacts with transistor 258.

Further connections of the remote control socket unit 260 consist of one Socket connector 424 that connects a line 426 through switch 264 to the ground line 82 connects. A female connector 428 makes a remote connection to a Line 430 and the normally closed contact of the start release switch 264 before. Finally, a female connector 452 becomes a remote connection reached at connection point 348 and line 346 to switch 544.

In the circuit of FIG. 5 there is also an additional tone deactivation or -Attenuation function provided by an npn transistor 440.

The transistor 440 is connected in an emitter circuit, where its Collector output via a line 442 with the additional sound input 200 (see. Fig. 4) connected is. The base of transistor 440 is between voltage divider resistors 444 and 446 connected between the ground line 82 and a line 448, which is connected to the connection point 416 (see. Fig. 4), which is connected to the collector of the Transistor 258, which is the halt state control stage.

The recorded teaching material exists in its basic form from a multi-channel recording with at least one channel for selected segments of audio information and a cooperating adjacent channel for recording of control tone signals, which are separated from each other in a predetermined programmed sequence are recorded in this channel. The sound information, the length and the distance of the information segments and therefore the arrangement of the control tone signals will be corresponding the information broadcast program as it was originally on the lesson record carrier has been put together.

After inserting a lesson record carrier into the teaching device 10, the operator or trainee can start the information transmission by the "play" button 46 (see FIG. 2), which in turn presses the power switch 54 flips to energize motor 266 so that playback begins. The sound playback head 80 reproduces the information, and the reproduced electrical signals become through transistors 86, 108 and 150 for output over line 136 to the output jack units 158 or 140 reinforced. The operator only uses the one output jack unit 138, while the other output jack unit 140 for a teacher or another Supervisor is available.

The present segment of audio information lasts until it is captured of a control tone signal. That is, an accompanying control tone on a parallel Record carrier channel is reproduced by the pickup head 280 and through transistors 284, 500 and 514 amplified, then beyond the normal position of the switch contact. 726 of the "Repeat" switch and finally fed into the gate of the thyristor 550 to bring it into the conductive state to ignite.

When thyristor 530 is fired, the voltage at the junction becomes positive ) 32 to the first line 82, which because of its connection to the base of the Transistor 364 blocks this, so that the motor 266 is stopped. I.e. that Turning off transistor 564 applies a rising or more positive voltage to the junction point 570 to cause transistor 576 to turn off so that the effectively available Voltage at connection point 590 for feeding into motor excitation line 268 to DC motor 266 is decreased.

As soon as the playback device 14 is stopped by the detection of a control tone signal in that the thyristor 30 has been ignited, the teaching device 10 remains in its idle or halted state in order to start a time interval during which the teacher and / or the student respond to questions or answers can be received. Such responses can take various forms, that is, they can range from simply audible responses to recorded responses and their grading or evaluation. If the learner then wants to move on to the next segment of the audio information, he only needs to press the "restart" button 44, whereby the switch 264 is actuated, which separates the ground line 82 from the line 550, the connection point 348 and the line 346. Line 346 is connected to normally closed switch contact 344 and line 340 is connected to the cathode of thyristor 330. This disconnection of the ground potential from the cathode of the thyristor 730 blocks it so that the transistor 364 can conduct again, whereby the motor speed control circuit 372 comes back into operation to energize the drive motor 266. The learner then receives the next segment of sound information, after which the multichannel playback device 14 again upon detection of a control sound signal by the pickup head 280 Gain and control is stopped as described above.

If the learner receives a segment of information and from any If you want to know this information repeatedly, the teaching device 10 can already rewind reproduced sound information by a predetermined time interval. The learner presses the "repeat" button 42 which the drive reverser 52 and the main power switch 54 as well as the switch contacts coupled therewith 344, 242 and 526 actuated. The switch contact 344 is used for a brief interruption the grounding of the cathode of the thyristor 3) 0, being the interruption long must be enough to clear the thyristor 3) 0. The switch contact 326 acts by flipping the line 528 leading to the gate of the thyristor 250 with voltage from line 252 coming from unijunction transistor 240 which is the time delay stage represents. Pressing the switch contact 242 releases a connection of the voltage supply line 94 with line 244 to charge the RC network (potentiometer 254 and'capacitor 256) connected to the emitter of transistor 240 is.

After a time delay according to the resistance value of the potentiometer 254 there is enough voltage on the control electrode of the unijunction transistor 240, to make this conductive.

This conduction state creates a positive voltage at the connection point 248 generated via line 252 and the (pressed) switch contact 326 again the gate of the thyristor) 30 energized so that it is triggered to the thyristor Disable D64 and stop energizing the DC drive motor 266. By setting the potentiometer 254, the time delay, i.e. the Extent of the sound recording repetition, according to the requirements in the respective Can be varied if necessary.

If the learner or a teacher has a move on in the teaching material only needs to be pressed the button "fast forward" 48, which in turn a mechanical fast forward pulley 70 operated to adjust the tape speed to increase a certain level.

A microphone-headphone boom can be used, however a common headphone may be more suitable for most applications. When a Microphone boom is used, a microphone signal is sent through the jack unit 158 and / or the Socket unit 140 and the amplifier 166 fed back, so that the learner himself from the microphone, from the amplifier and / or from his own headphones. If a teacher or other supervisor uses a microphone-headphone boom when the teaching device 10 is stopped, as when a control tone signal is detected, the amplifier circuits of Fig. 5 released so that the learner and teacher can use the microphone and headphone connections to be able to speak.

It will be understood that the teaching device 10 is not physically present must be to listen and restart. That is, the teaching device 10 can, for example, on a The teacher's control panel can be arranged while the listening and restart or continuation control is available at the learner's place via a cable connection. It understands also shows that an amplifier speaker system can be used so that the Sound output from the lirder 10 to a large group such as two or more Learner> can be radiated, with others being organizing and evaluating Functions related to it are made. Such a system would also require multiple output connections so that the group can use headphones if desired could set independent teaching speeds. The teaching device 10 can also be used in conjunction with suitable rendering recording equipment will. With such cooperation, functions would be provided according to those of the teaching device 10 and the playback recording device alternately would be excited, and responses from the learner on a separate recording medium can be recorded on certain questions.

With such an approach, the teacher would not need the audio information listen to assess the learner's recorded responses.

The device according to the invention is relatively easy to use, it enables a lesson by means of sound information and shows the additional Advantage of being used in many learner / teacher situations, i.e. e.g. for a single or multiple learners, but also in conjunction with other associated Sound and / or image teaching devices, stimulating devices, evaluation devices or the like

Claims (1)

Patent claims Device for sending selected recorded information, G e k e n n n e n n e i c h n e t by an information recording medium (12) with multiple recording channels, with sound information in at least one of the Channels and an associated control tone periodically in at least one parallel of the Channels is recorded; a first playback device (14) for the separate Playback and amplification of at least one channel of the sound information to a Generate audio output signal; a sound output device (20, 24) derived from the sound output signal generates audible sound information; a second playback device (14) for the separate Playback and amplification of at least one channel of the periodic control tone, to generate a periodic control tone signal; a control arrangement (50) which if one of the periodic control tone signals is fed in, the first and the second Playback device stops; a restart device (44, 58, 59)> the at Actuation switches off the control arrangement, so that the first and the second reproducing device can be started up again; and a replay device (42, 50, 52), which reverses the first and second playback device when excited, in order to repeat playback of all channels ddt for a predetermined time interval the sound information and the periodic control sound on the information recording medium to cause (Fig. 1, 2). 2. Apparatus according to claim 1, characterized in that at least the a playback device (14) comprises a playback transport device which accommodates the information recording medium (12) and a drive device for its movement has (Fig. 1). 5. Apparatus according to claim 2, characterized in that the one reproducing device (14) has a pickup and an amplifier (20) to the sound information channel of the recording medium (14) and to generate the audio output signals (Fig.1). 4. Apparatus according to claim 5, characterized in that the one reproducing device (14) has a second pickup and a second amplifier (26) to the channel with the periodic control tone of the recording medium (12) and that generate periodic control tone signal (Fig. 1). 5. Device according to one of the preceding claims, characterized in that that the playback repeater has a reversing device (52) which when energized, the first and the second display device (14) reverses to the To let the information recording medium (12) run back (Fig. 1, 2). 6. Apparatus according to claim 5, characterized in that the playback repeat device has a time delay device which, upon actuation of the reversing device (52) is energized and de-energizes the reversing device after the time delay has elapsed (Fig. 2). 7. Apparatus according to claim 6, characterized in that the time delay device having: a UniJunction transistor (240); an RC time delay element (254, 256), via which the unijunction transistor is made conductive; and a switching device (242) which is actuatable to energize the reversing device (52) and also to to energize the RC time delay element and the unijunction transistor, so that the Unijunction transistor conducts after the predetermined time delay so that the Reversing device is deenergized (Fig. 2, 4). 8. Device according to one of the preceding claims, characterized in that that the control arrangement comprises: a thyristor (550) which, when the Control tone signal is made conductive in its gate; and an amplifier (564), which is blocked when the thyristor is conductive to drive the drive device (372, 268> 266) of the transport device of the playback device (14), so that the movement of the information recording medium (12) is stopped (Fig. 1, 4, 5). 9. Device according to one of the preceding claims, characterized by an additional tone that corresponds to the control tone channel of the information recording medium (12) is recorded superimposed; a sound discriminator (36) that controls the control sound signal receives from the second reproducing device (14) an additional sound output signal submit; and an additional control output signal means derived from the additional sound signal a predetermined control output is generated (Fig. 1).