DE3823402A1 - Learning and relaxing device - Google Patents

Abstract

Learning and relaxing device for stimulating the central nervous system and the brain currents of a human being by transmitting pulsating light signals to the left-hand and right-hand eyes and pulsating sound signals to the left-hand and right-hand ears of the human being, as far as possible excluding optical and acoustic perceptions from the surroundings of the human being, having a control device for individually varying the pulsating light and sound signals of the respective right-hand and left-hand channel, and a program-controlled control device (1, 6) which outputs an individual function or a selection of functions of varying frequencies and/or amplitudes and/or pulse duty factors (mark-space ratios) and/or phase angles of the light or sound signals. <IMAGE>

Description

The invention relates to a learning relaxation device according to the preamble of claim 1.

From US-PS 43 15 502 is a learning relaxation device stimulation of the central nervous system and the Ge A person's brainwaves known to pulsate light signals to the left and right eye as well as pulsating Sound signals to the left and right ear of man wearing. The transmission takes place by means of an environment human shielding glasses in which light sources in Shape of light-emitting diodes directly in front of the eyes of the men are arranged and via a headphone that the sound frequencies emitted by a control device Vibrations directly on human hearing wearing.

This makes optical and acoustic truth as far as possible excluded from human surroundings and both the auditory and visual sensory channels of the People stimulated immediately by being in a be tuned frequency flickering light and in the same Frequency pulsating tones from the human nervous system be included.

By varying the frequencies and the intensity of the pulsating sound and light signals or the phase position between the sound and light signals are certain Ge brain waves or brain waves provoked, the symptomatic  are for specific relaxation states. The one visible vibration frequency before the eyes of man flickering light causes the brain waves to coincide with adjust a certain delay of this light frequency so that brainwave activities change. The practice sound signals emitted at a certain frequency the same effect. Both signals taken together result in a stronger effect than the sound or light si gnal taken for itself.

In the known learning relaxation device, the Control parameters frequency, amplitude and / or phase position the sound and light signals individually using an ent speaking control device changed, why in the As a rule, a treating doctor is required because controlled change of the mentioned parameters the danger entails that the desired success of a deep, creativity-promoting, healing relaxation not he is aimed and on the contrary even harmful effects can be caused.

In addition, it is also for a treating doctor or Psychotherapists hardly possible, with the numerous, for an individual treatment possible variations the pa set parameters in the correct selection and size, to an exact, tailored to the respective patient ensure the functional sequence.

The present invention is based on the task reasons, a learning relaxation device of the beginning to create the type that enables self-treatment  light and the doctor or psychotherapist from the through management of various functional processes for changes Control parameters with the possibility of an individual duel coordination on the patient is relieved and there with additionally gives the opportunity to focus on complementary focus therapeutic measures.

This task is characterized by the characteristic of Claim 1 solved.

The solution according to the invention enables self-treatment treatment without the risk of negative effects of the treatment and relieves the doctor or psychotherapist of the Implementation of various functional processes for ver change of control parameters. At the same time, the poss opened, the functional sequence to the individual coordinate each patient and repeat at any time to make cash, so that, for example, continuous progress can be achieved. In addition, the inventor creates Solution according to the prerequisite that the Doctor or psychotherapist on complementary therapeutic Can concentrate measures that are independent of the radio flow of the function set in each case can be led. A major advantage of the inventor Solution according to the invention is that a reinforced Brain-half synchronization is achieved, which ver different variations of light and sound signals achieved becomes.

An advantageous development of the Lö according to the invention solution is characterized in that the control device  consists of a microcomputer, which is an operating console le and a read-only memory and / or a memory with has random access. This allows any Function selection with continuous or abrupt over gears can be programmed and called up accordingly.

In a further advantageous embodiment of the inventions The solution according to the invention is the memory with a floppy disk drive connected, the individual functions or the function selection on different disks stores are. By storing the functions on Separate disks can be used for certain therapy steps Specify te in advance or a function can be choice is made for a specific therapy is suitable. For learning purposes, additional ones can be added Exercises are stored on the diskette, so that for Achieving the learning goal an appropriate division can be made.

Another advantageous embodiment of the fiction moderate solution is characterized in that the tax device from a magnetic and / or optical There is memory that un and a filter and amplifier is indirectly connected to the signal transmitters. These The solution is particularly suitable for self-learning purposes or Self-treatment purposes and provides an inexpensive Alternative to the above embodiment.

In a further advantageous embodiment of the inventions solution in accordance with the light signals Transfer light-emitting diodes in the middle of the glasses  or a correspondingly darkened one, in a pair of glasses stell bordered area are arranged. Preferably are two light-emitting diodes horizontally on the glasses surface arranged. This allows a particularly intensive op Communicate table irritation.

Advantageous developments of the invention are in the Un claims marked or become below together with the description of the preferred embodiment of the Invention illustrated with reference to the figures. Show it:

Fig. 1 is a schematic representation of a learning Ent voltage device with a microcomputer as a control device and

Fig. 2 is a schematic representation of a learning Ent voltage device with a magnetic memory.

The learning relaxation device shown in Fig. 1 consists of a pair of headphones 2 with earcups 21 , 22 , which independently transmit sound frequency signals to the ears of a person, and an environment abdun keling glasses 3 , the glasses lenses 31 , 32 with an op tables Device in the form of two light-emitting diodes 41 , 42 are provided. The light-emitting diodes 41 , 42 are arranged horizontally in the middle of the darkened spectacle lens or an opaque surface which is enclosed in a spectacle lens. In addition, a cover comprising the glasses is provided, which shields a stepping light from the side and thus limits the field of vision of the user to the light-emitting diodes 41 , 42 . Both the headphones 2 and the glasses 3 are individually adaptable to the shape of the head of a patient and are constructed in such a way that optical or acoustic environmental stimuli can essentially be excluded, so that the patient or user to be treated only the sound and light frequency signals from the headphones 2 or the glasses 3 perceives.

The left and right earpieces 21 , 22 of the headphones 2 and the light-emitting diodes 41 , 42 of the glasses 3, which are sensitive in the left and right spectacle lenses 31 , 32 , are each separately connected to the output of an amplifier 51 , 52 , 53 , 54 , the degree of amplification is either adjustable or adjustable. The inputs of the amplifier 51 to 54 are connected to the output of a microcomputer 1 , which in the illustrated embodiment consists of a central unit with a read-only memory and a floppy disk drive 11 , an operating keyboard 12 and a screen 13 .

The microcomputer 1 according to FIG. 1 emits low-frequency signals in the form of sound and light signals at its output, which signals are transmitted to the headphones 2 or the glasses 3 via the amplifiers 51 to 54 . Frequencies above 12 Hz, so-called "beta waves", correspond to a patient's awake state, frequencies between 8 to 12 Hz (so-called "alpha waves") correspond to a state of relaxation, frequencies 4 to 7 Hz (so-called "theta Waves ") a transition to sleep with very deep relaxation and frequencies from 0 to 3 Hz (so-called" delta waves ") of an unconsciousness or a deep sleep of the patient.

The sound and light signals can oscillate in or out of phase or out of phase and have an amplitude that is either specified by the microcomputer 1 or set on the amplifier 51 to 54 . In addition, the clock ratio, ie the respective on and off time of a tone and light frequency sequence and the phase position with respect to the right and left channel of the headphones 2 or the glasses 3 can be varied. A further variation possibility is to insert beats in the sound signal.

The entire spectrum of possible sound and light signals is stored, for example, in a hard disk memory of the microcomputer 1 , while a diskette that can be inserted into the diskette station 11 contains a certain program sequence. Through additional manipulations on the part of the attending doctor or psychotherapist on the keyboard 12 of the microcomputer 1 , the program sequences or the intensity and duration of a specific program can be varied as required.

On the screen 13 of the microcomputer 1 , the various possible programs as well as the program running in each case and additional data such as frequency, amplitude, phase position or the like can be displayed.

With the learning relaxation device according to FIG. 1, there is also the possibility of externally feeding sound signals in the form of music or the therapist's voice or vocabulary for learning a foreign language, which can be predetermined via the microcomputer 1 on the headphones 2 or the glasses 3 are transmitted as a sound signal.

In addition, there is a possibility that the therapist the transition states from a state of consciousness to next slowly sliding or continuously or abruptly designed to specific, important for the success of therapy To induce states of consciousness.

Another possibility is to enter a specific program sequence via a disk to be inserted into the diskette station 11 or via the keyboard 12 of the microcomputer 1 or to call it up as a fixed program run from the read-only memory of the microcomputer 1 . This gives the therapist the opportunity to follow the course of treatment on an electroencephalogram or to carry out measures accompanying therapy.

The microcomputer 1 shown in Fig. 1 may of course by, for example, be a one-chip microcomputer it sets, the particular in a read only memory per gram sequences together with the variable parameters containing and for self-treatment over a limited number of program keys specific default program unwinds. By varying the fixed memory or a memory with random access, any program sequences can be programmed and handed over to a patient for self-treatment.

In both variants it is ensured that visual le and auditory stimulation stimulates the user's brain is stimulated, the sound and light frequency signals correspond low frequency in his brain and thereby enjoying a deep, creativity-promoting,  healing relaxation to come. Another effect of predetermined program sequence consists of an increased Brain-half synchronization across the different Variations in light and sound signals is achieved.

In Fig. 2 shows a variant of the solution according to the invention are stored in the specific program sequences on a magnetic tape 6 via a filter 7 such as the individual channels upstream amplifier 51 to 54 on the left and right channels of the headphone 2 and the left and right half of the face of the glasses 3 are given. Here, too, there is the possibility, for example, of storing different predetermined program sequences by offering different cassettes and calling them up as required. This enables self-treatment of a user without damaging effects or supportive treatment by a psychologist or psychotherapist.

This inexpensive solution compared to the learning relaxation device according to FIG. 1 not only specifies any program sequences, but can also be used, for example, as a portable device which allows the user to use it at any location.

Instead of the magnetic memory 6 shown in FIG. 2, an optical memory, for example a laser disk memory, can of course also be used.

The invention is not restricted in its implementation to the preferred embodiment given above game. Rather, a number of variants are conceivable  which of the solution shown also in principle make use of different types.

Claims (11)

1. Learning relaxation device for stimulating the central nervous system and the brain waves of a human being by the transmission of pulsating light signals to the left and right eyes and pulsating sound signals to the left and right ears of the human being with the greatest possible elimination of optical and acoustic perceptions from the surroundings of the human being , with a control device for individually changing the pulsating light or sound signals of the right and left channel, characterized by a program-controlled control device ( 1 , 6 ) with a single function or a selection of functions of varying frequencies and / or amplitudes and / or clock Conditions and / or phase positions of the light or sound signals. 2. Learning relaxation device according to claim 1, there characterized in that the individual Function or function selection Beats of the sound signals contains. 3. Learning relaxation device according to claim 1, characterized in that the amplitude de the light or sound signals by changing the degree of amplification of the from the control device ( 1 , 6 ) abge given light or sound signals of each channel is changeable. 4. learning relaxation device according to one of the preceding claims, characterized in that via the control device ( 1 , 6 ) external audio signals can be fed. 5. Learning relaxation device according to one of the previous existing claims, thereby shows that the transition from a function to following or a function selection for the following accounts done nuely. 6. Learning relaxation device according to one of the previous existing claims 1 to 4, characterized ge indicates that the transition of a function to the next or a function selection to the following is abrupt. 7. learning relaxation device according to any one of the preceding claims, characterized in that the control device ( 1 , 6 ) consists of a microcomputer ( 1 ) which has a control console le ( 12 ) and a read-only memory and / or a memory with random access ( 11 ). 8. Learning relaxation device according to claim 7, characterized in that the memory ( 11 ) is connected to a floppy disk drive and that the individual functions or the selection of functions are stored on different floppy disks. 9. learning relaxation device according to one of the preceding claims 1 to 6, characterized in that the control device consists of a magnetic and / or optical memory ( 6 ) be, which via a filter ( 7 ) and amplifier ( 51-54 ) is directly connected to the signal transmitters ( 2 , 3 ). 10. Learning relaxation device according to one of the previous existing claims, thereby records that the light signals by means of LED transmitted to those in the middle on opaque Eyeglass lenses are arranged. 11. Learning relaxation device according to claim 10, there characterized in that two each LEDs horizontally side by side on the opaque term glasses are provided.