FR2479516A1 - Visual piano key selecting instructing appts. - has coloured light diodes above each key controlled by one channel from cassette deck to provide key guide to music played - Google Patents

Abstract

The appts. gives visual instructions for the piano and has a pad carrying light emitting diodes. This is positioned above the piano keys with a diode positioned above each key. A red diode is provided for white and a green diode is provided for black keys. The diodes also include yellow diodes indicating the required state of the piano pedals. A microprocessor is coupled to the diodes and receives signals from one track at a stereo magnetic tape cassette whose other track transmits music to a loudspeaker through a volume control and amplifier. The microprocessor illuminates those diodes indicating the keys to be depressed to reproduce the music. The light intensity indicates the required force. Respective pedals (16,17) control forward and reverse winding of the tape cassette.

Description

Caught up in the constraints of hectic modern life, there are more and more people who, to relax their nervous system, therefore their psychic balance, must not listen to music, which is very easy, but play music. music by themselves. The piano is the ideal relaxation instrument for those who need to play music to relax while doing a manual exercise which, while difficult, is extremely relaxing. To obtain this physical and psychological satisfaction, the Classical methods for learning to play the piano are so long and tedious that many people cannot manage to pass the step of the first satisfaction, even if they have a piano at their disposal. It takes a lot of time and courage to learn music theory properly and in one's brain to decode a score by transmitting commands to the fingers to obtain music which is not discouraging. The object of the present invention is an electronic system of instructive visualization for piano which, for the one who learns to play the piano, allows him to avoid from the beginning the study of music theory and the decoding in his brain of the notes written in a score to give orders to his fingers; the present invention allows the beginner pupil to concentrate on the skill of the fingers without taking care of music theory and consequently, to be able relatively quickly to play a very pleasant and relaxing music for him, since it is caused by his fingers , and much less annoying for others than the ranges which are typical exercises by conventional methods for acquiring skill of the fingers without having to decode music theory in his brain. The electronic instructive visualization system object of the present invention has also a very important goal for those who want to advance further in the practice of piano and music in general by learning to master music theory; in effect, the system which is the subject of the present invention allows the individual who, after a certain practice, plays the piano, also having the score written in music theory, to get used to seeing a written note when hearing it, therefore to instinctively assimilate music theory, which is much simpler than the opposite; the possibilities of errors are infinitely reduced by the phenomenon of "hearing a sound and seeing it written" than by the opposite, seeing it written then making it with your fingers. For large amateurs, the system according to the invention makes it possible to complete a partition with nuances that can be grasped by great artists, nuances that cannot be transcribed on a written partition but which can be viewed by the system object of the present invention. To this effect the electronic system according to the invention uses standard stereo cassettes each side of the cassette corresponding to the unwinding of two magnetic tracks in front of the dual-circuit reading head; on one track the piece of music is recorded, on the other track signals corresponding to both the key (s) struck and the pedal depressed are recorded parallel to the piece of music. When the tape is unrolled in front of the read head the potentiometer corresponding to the circuit of the first track> ie the sound can be adjusted at will by the operator, it can even be practically eliminated; the circuit of the second track transmits its signals to a microprocessor on which is connected a ramp comprising 90 leds, that is 88 for the keys and 2 for the pedals, this ramp is located just above the keys parallel to the keyboard being fixed, preferably by an appropriate adhesive, on the inside wall of the keyboard cover which is located just above the keys when this cover is open. In principle the LEDs corresponding to the white keys, chromatic notes, are preferably red and the LEDs corresponding to the keys black, diotonic notes, are preferably green, each led is located exactly above the corresponding key; the LEDs corresponding to the two pedals are preferably yellow and are located slightly above the button LEDs. To facilitate beginners, the tape speed can be slowed down and adjusted using a potentiometer controlled by a solid area pedal of a box located near the piano pedals; the aforementioned pedal is preferably a double rocking pedal which allows the desired unwinding speed to be chosen with the foot, this speed remaining constant when the foot is removed from the pedal. on the same gearbox, at a reasonable distance from the speed pedal, there is a reversing pedal with return spring which causes the belt to go back when a foot pressure is applied to this reverse pedal. It is obvious that without changing anything in the character of the invention, the aforementioned pedals as well as the leds and the cassette holder, amplifier, loudspeaker and microprocessor can either be produced in the form of a kit adaptable to existing pianos, or be integrated in the cabinet for pianos equipped with the system according to the invention during their manufacture. The attached figure shows by way of non-limiting example an instructive electronic display system according to the invention. 1 are the white keys of the piano 1 2 are the black keys, for simplicity there are only two portions of the keyboard which are shown, that is a portion located at one end and a portion located substantially in the middle of the keyboard, 3 and 4 are the yellow LEDs corresponding to the piano pedals, 5 are the red LEDs corresponding to the white keys, 6 are the green LEDs corresponding to the black keys, 7 is the link between the ramp carrying LEDs 8 and the microprocessor located in the case 9, case which is supplied by the power outlet 10, 11 is the stereo cassette, one track of which gives in a known manner its signals to the microprocessor which controls the lighting of the leds of the ramp 8, the other track transmits in a known manner, the music to the loudspeaker 12 passing through the potentiometer 13, 14 is the connection between the box 9 and the pedal holder box 15, 16 is the rocker pedal which controls in a known way, preferably by the intermediary area of a potentiometer, the speed of unwinding of the tape of the cassette 11, 17 is the reversing pedal which makes reverse the same speed as for the normal unwinding the magnetic tape of the cassette 11, 18 is the button for the rapid unwinding of the tape by moving the button 18 either to the right or to the left depending on the direction of unwinding desired, 19 is the button for placing the cassette 11 and 20 is the start button. shutdown of the whole system; 21 is a button that allows you to adjust a slight delay between the lighting of the LEDs and the sounds emitted by the speaker, i.e. LEDs light up slightly before the sound is emitted to facilitate synchronization with the speaker. adjustable signals transmitted to the microprocessor with respect to signals transmitted to the speaker is achieved in a known manner. For beginners it is enough that the LEDs is a fixed light intensity on the other hand for the systems according to the invention intended for the reproduction of the interpretation of a score by a great artist, it is necessary that the LEDs have a varying light intensity with the striking force on the keys, this can be achieved by using capacitors and a microprocessor with twice the capacity, the conductors between microprocessor and leds remaining unchanged for the beginner model and the great artist model.

Claims (6)

1) Electronic instructive visualization system for piano characterized by what a led door ramp is placed just above the keys, a ledo being located above each key, the ramp and its levas being connected to a microprocessor which receives its signals from the track of a magnetic tape stereo cassette tape whose other track transmits music to a speaker via an amplifier and an adjustable potentiometer, the microprocessor pulsating the leds of the keys that must be pressed to repro play music with the piano. 2) Electronic instructive visualization system for piano according to resold cation 1 characterized in that the 16s ramp also includes leds to indicate actions to be taken on the piano pedals. 3) Electronic instructive visualization system for piano according to one any one of claims 1 and 2 characterized in that a pedal to toggle adjusts the tape speed of the cassette. 4) Electronic instructive visualization system for piano according to one any one of claims 1,2 or 3 characterized in that a pedal allows you to rewind the tape. 5) Electronic instructive visualization system for piano according to one any one of claims 1,2,3 or 4 characterized in that capacitors and a higher capacity microprocessor allow vary the light intensity of the LEDs according to the strength of hits the keys. 6) Electronic instructive visualization system for piano according to one any one of claims 1,2,3,4 or 5 characterized in that the shift in the time between the lighting of the LEDs and the emission of sounds from above speaker can be adjusted by the operator.