DE3544370A1 - Remote control system - Google Patents

Abstract

The invention concerns a remote control system. According to the invention, a transmitter transmits light rays, which a reflector codes with barcodes and reflects to a receiver. <IMAGE>

Description

The invention relates to a remote control system according to the Preamble of claim 1.

The invention has for its object an improved Specify remote control.

This object is achieved according to the characterizing part of the patent spell 1 solved. Advantageous developments of the invention are specified in subclaims.

The article "Stripes become Bytes" on pages 58 ff Issue 6, June 1981, the magazine Elektor is a light pen described. This light pen contains an emitter that Light emits and a detector that reflects reflected light takes. The reflected light is made using a bar code provided information and in the light pen by a Sensor circuit evaluated.

For a better understanding of the invention, some of the Exemplary embodiments explained with reference to figures.

Show it

Fig. 1 is a schematic representation,

Fig. 2, a first remote control,

Fig. 3 illustrates a second remote control,

Fig. 4 shows the operation of the second remote control,

Fig. 5 shows a third remote control,

Fig. 6 shows a fourth remote control,

Fig. 7 shows a fifth remote control,

Fig. 8 is a block diagram for a television receiver and the effect of a remote control and

Fig. 9 voltage curves.

Fig. 1 shows a television receiver 1 with a transmitter 2, a second sensor 3, a sensor 4, a second sensor 5, and a third sensor 6. A wave 10 emitted by the transmitter 2 is reflected by a mirror film 7 and the mirrored wave beam 11 , hereinafter called light beam, acts on the sensor 4th The mirror film 7 is moved behind a cover 8 in front of a slot 9 . The mirror film 7 has 12 mirrors 12 in bright areas which reflect the light beam 10 , 11 and no mirror in dark areas 12 a which do not reflect any light beam. The arrangement of the mirrors on the mirror film are arranged according to a bar code. The cover 8 prevents light rays 10 from being reflected on the entire mirror film 7 . Only light rays 10 are reflected which fall through the slot 9 onto the mirror film 7 and are reflected again through the slot 9 from the mirror film to the sensor 4 . The second encoder 3 can be used as an alternative for the encoder 2 . The sensors 5 and 6 can be used as an alternative for the sensor 4 . The Spiegelfo lines are moved in directions 18 . The light spots 12 and the dark spots are large compared to the gap 9 . When the mirror film 7 moves past, if a light strip 12 passes through the slot 7 , the light beam 11 is reflected.

Fig. 2A shows the side view of a remote control in a sectional view with valves 13 and 14 which can be moved by movement of the hand on the handles 17 in devices 18. A mirror film 7 with a bar code is moved in front of a slot 9 . The slides 13, 14 are moved in rails 15 and 16 .

Fig. 2B shows a plan view of the remote control. After a movement in directions 18 , the slides 13, 14 are returned to an initial position by springs 19 .

Fig. 3 shows a further remote control, which works as a reflector, with buttons 21 and windows 20th

FIG. 4 shows the mode of operation of the remote control according to FIG. 3. When the button 21 is pressed down, a cover 8 with a slot 9 is moved in front of a mirror film 7 . The cover 8 is connected to the button 21 via a rope 24 which runs over deflection rollers 25 . A spring 23 on the cover 8 always returns the slot 9 to an initial position. The window 20 is formed by an infrared filter.

FIG. 5 describes a third remote control with pushbuttons 28 which are rotatably mounted about their axes 27 . A spring 29 leads these keys 28 back to their rest position. When a button 28 is pressed down, a mirror film 7 is moved in front of a slot 9 . A reflection lock 26 prevents the entire bar code on the mirror film 7 from acting on a sensor in a television set. Light rays 10 , 11 only pass through the slot 9 to the mirror film 7 and scan this mirror film 7 only in the axial extension of the slot 9 .

FIG. 5B shows the same remote control in plan view.

Fig. 6 shows a fourth possibility of remote control. After pressing one of the keys 30 , the coded mirror film 7 is moved in front of a slot 9 to different extents, ie the mirror film 7 is guided past the slot 9 in a length of 2, 3, 4 or 5 cm. Depending on the length of the mirror film 7 , various information is entered into the transmitter of a television receiver. A tension spring 31 returns the mirror film 7 to its rest position. The mirror film 7 runs over order rollers 32 and 33 . The buttons 30 can be pressed in to different extents and therefore move the mirror film 7 past the slot 9 to different extents.

Fig. 7 shows a fifth possibility of remote control. Fig. 7A shows a side view with a handle 36, a small switch 34 and a switch 35 large. FIG. 7B shows that mirror films 7 are arranged in a circle on an inner circle and an outer circle. These mirror films 7 are moved in front of slots 9 . Fig. 7C shows the rear view of the remote control to the switch 34, the one of the column 9 closes, so that only the inner or the outer circle of the coded mirror films is effective. Various positions A, B, C, D, E to N can be traversed with the switch 35 . The L position is a neutral position. Since there are thirteen mirror films on the inner circle as well as thirteen mirror films on the outer circle, a total of thirteen different positions are possible. Each mirror film 7 stands for a command, ie for a function desired by the operator. If the large switch 35 is turned to E and from E to the rest position L , six mirror foils with different bar codes run past the slot. Incoming light rays are reflected according to the bar code.

Fig. 8 shows the block diagram of a television receiver in which the invention is incorporated. Incoming signals are received by an antenna 37 and fed to a receiving part 38 . The receiving part 38 demodulates the incoming signal and supplies a demodulated image signal to an amplifier 39 and a demodulated audio signal to an amplifier 40 . The demodulated sound signal is sent from the amplifier 40 to a loudspeaker 41 , where it is converted into acoustic signals. The demodulated image signal coming from the amplifier 39 controls a screen 42 . A counter 45 is switched so that only one output U, V, W or X is high at its outputs U, V, W, X. This means that a voltage is only ever applied to one of the outputs U, V, W or X. Resistors 43 operate as limiting resistors. The diodes 44 work as sensors or sensors that react to light and always switch on when the light hits. A voltage source U + controls a diode 50 that emits a light beam 10 . This light beam is influenced by the mirror film 7 and acts on the light emitting diodes 44 via a mirrored light beam. The direct light incidence of the light-emitting diode 50 on the sensors 44 is prevented by an aperture 51 . When a light beam strikes one of the diodes 44 , the struck diode is turned on and one of the inputs 49 of operational amplifiers in the circuit 46 , which contains four operational amplifiers, is pulled to ground. If the reflected light beam 11 is interrupted, one of the diodes 44 becomes non-conductive, it blocks and the voltage applied by the counter 45 reaches one of the inputs 49 . These voltage changes are amplified in the operational amplifier 46 and fed to a summer 47 . The summer 47 supplies a signal to a receiver IC 48 which acts as a control on the amplifiers 39 and 40 and thus regulates, for example, the image brightness and / or the volume. From the controller 48 , a program in the receiving part 38 can also be selected. The diode 50 , which works as a transmitter, the resistor 49 and the voltage source U + form the transmitter. The receiver is formed from the diodes 44 , the resistors 43 , the counter 45 , the operational amplifiers 46 , the summer 47 and the receive IC 48 .

FIG. 9A shows the voltage waveform of the voltage source U +. The period of oscillation T 1 is short compared to the time that a mirror of the mirror film 7 needs to be moved past a slot 9 .

FIG. 9B shows a voltage curve Y which is applied to one of the inputs 49 . During the time T 2 , a dark spot, ie no mirror of the mirror film 7 , is moved past the slot 9 . The ratio of the number of pulses 49 and / or the non-occurring pulses during the time T 2 is evaluated as information for a function desired by the operator in the receiver IC 48 in the television set.

Claims (12)

1. Remote control system with a transmitter and a receiver, characterized in that the transmitter ( 1 , 2 , 3 , 49 , 50 ) emits a wave beam ( 10 , 11 ) that a reflector ( Fig. 2, 3, 5-7) is provided for the wave beam (10, 11), in that the reflector (2, 3, 5-7.) means (7-9) are allocated for encoding the wave beam (10, 11) and that the receiver (1, 4 - 6 ) has means ( 43 - 48 ) for decoding the wave beam ( 10 , 11 ). 2. Remote control system according to claim 1, characterized in that the reflector ( Fig. 2, 3, 5-7) contains a moving mirror film ( 7 ) with an applied bar code ( 7 , 12 , 12 a ). 3. Remote control system according to claim 2, characterized in that the mirror film ( 7 ) is moved in front of a slot ( 9 ). 4. Remote control system according to claim 2 and / or 3, characterized in that the mirror film ( 7 ) in bright areas ( 12 ) has mirrors and in dark areas ( 12 a) has no mirror. 5. Remote control system according to claim 1, characterized in that the wave beam ( 10 , 11 ) is an infrared light beam. 6. Remote control system according to one or more of claims 1-5, characterized in that the reflector ( Fig. 3) has buttons ( 21 ) over which a cover ( 8 ) is moved in front of a mirror film ( 7 ) ( Fig. 3, 4). 7. Remote control system according to claim 6, characterized in that windows ( 20 ) are provided which are formed by an infrared filter ( Fig. 4). 8. Remote control system according to one or more of claims 1-5, characterized in that keys ( 28 ) are rotated in a pivot point ( 27 ) ( Fig. 5). 9. Remote control system according to one or more of claims 1-5, characterized in that the mirror film ( 7 ) is moved past the slot ( 9 ) to different degrees ( Fig. 6). 10. Remote control system according to one or more of claims 1-5, characterized in that the mirror films ( 7 ) are arranged in a circle ( Fig. 7). 11. Remote control system according to one or more of claims 1-5, characterized in that the mirror films ( 7 ) on slides ( 13 , 14 ) are arranged ( Fig. 2). 12. Remote control system according to one or more of claims 1-11, characterized in that in a Rundfunkge advises ( 37 - 42 ) a circuit ( 43 - 48 ) for detecting reflected rays ( 11 ) and a second circuit for emitting ( 10 ) is arranged by rays.