CN117462817A - Brain neuron auxiliary rehabilitation instrument based on VR technology - Google Patents
Brain neuron auxiliary rehabilitation instrument based on VR technology Download PDFInfo
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Abstract
The invention provides a brain neuron auxiliary rehabilitation instrument based on VR technology, and relates to the field of medical instruments. The auxiliary rehabilitation instrument comprises an instrument body, wherein a switch key is embedded in the front end of one side of the upper end face of the instrument body, an indicator lamp is embedded in the front end of one side of the upper end face of the instrument body, and a charging interface is embedded in the rear end of one side of the upper end face of the instrument body. The frequency and the electric wave signals close to the brain are generated through instrument equipment to form resonance with the brain, and the brain frequency and the nerve current are guided to gradually approach to normal through resonance. Meanwhile, the rehabilitation instrument reduces brain cell excitation sources and nerve sources so as to achieve the effects of waking up brain nerves and inhibiting emotion. By using the auxiliary rehabilitation instrument, the brain gradually recovers the symptoms of self-function, insomnia, neurosis, stress, anxiety, headache and the like caused by various stresses, and the symptoms of climacteric syndrome, autonomic nervous disorder and other heart and body diseases can be improved.
Description
Technical Field
The invention relates to the field of medical instruments, in particular to a brain neuron auxiliary rehabilitation instrument based on VR technology.
Background
Human brain wave activity will respond dependently to low frequency, rhythmic acoustic, optical and electrical pulse stimuli. The brain wave therapeutic apparatus is to make rhythmic acoustic, optical and electric stimulation to ear, eye and specific skin by using instrument, and these stimulation are pulse stimulation. According to different schemes, the human brain wave-form simulation device can simulate the rhythm of human brain waves during relaxation or sleep, and the wave-form simulation device simulates various sleep wave-forms of human brain waves, so that a patient is induced to enter a relaxation or sleep state.
The cerebral neuron rehabilitation instrument is an instrument for measuring the brain electrical activity of human beings, and can assist the crowd with nervous system diseases to play a role in assisting rehabilitation by collecting the external brain activity and generating a proper wave band after processing and analysis. However, the traditional treatment mode needs manual adjustment of brain wave frequency, lacks auxiliary rehabilitation equipment, needs manual adjustment of frequency, and the existing therapeutic apparatus is high in cost, long in rehabilitation time, needs long-time use, and lacks specific personalized service use according to different people.
Disclosure of Invention
(one) solving the technical problems
Aiming at the defects of the prior art, the invention provides a brain neuron auxiliary rehabilitation instrument based on VR technology, which solves the problems that the traditional treatment mode needs to manually adjust brain wave frequency, the traditional treatment instrument has higher cost, long rehabilitation time, needs long-time use, and lacks specific personalized service use according to different people.
(II) technical scheme
In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a brain neuron assists recovered appearance based on VR technique, includes the instrument body, instrument body up end one side is provided with the switch key by front end department embedding, instrument body up end one side is provided with the pilot lamp by front end department is located the one side embedding of switch key, instrument body up end one side is provided with the interface that charges by rear end department embedding, instrument body front end is provided with the display screen by upper end midpoint department fixedly, instrument body one side is provided with the link by upper end midpoint department fixedly, instrument body lower extreme one side has offered the vent by midpoint department, instrument body inside embedding is provided with the mainboard.
Preferably, the main board comprises a signal collector, a signal amplifier, a chip processor, a signal distributor, a wave band generator and a transmitting processor, wherein the signal collector is connected with a metal electrode sensor, the sensor is connected with the signal amplifier, the signal amplifier is connected with the chip processor, and the chip processor is connected with the signal distributor, the wave band generator and the transmitting processor.
Preferably, the charging interface is a tapy-c interface, and one end of the connecting end is connected with a signal acquisition end.
Preferably, a battery and a heat radiation module are embedded in the instrument body, and the battery is connected with the charging interface.
Preferably, the screen display content of the display screen comprises heart rate, blood pressure, blood oxygen and electrocardiogram data information.
Preferably, a using method of the brain neuron auxiliary rehabilitation instrument based on VR technology specifically comprises the following steps:
s1, acquiring electric wave information
Collecting name, gender, age, facial image, heart rate, respiration rate, brain frequency and skin reactance value of insomnia disorder, and analyzing brain waves and brain frequency suitable for rehabilitation according to brain wave data of insomnia patients;
s2, determining the frequency of the electric wave
Determining specific brain wave frequency according to heart rate, respiratory rate, brain frequency and skin reactance value of insomnia patients and facial image types;
s3, wave band generation of electric waves
The brain condition is analyzed by the data of the signal amplifier through the chip processor, the data after the processing is analyzed by the chip processor to be most suitable data and is transmitted to the wave band generator, and the wave band data generated by the wave band generator is finally confirmed by the chip processor for the second time and is transmitted to the signal distributor for distribution by the data most suitable for being input into the brain;
s4 resonance treatment
The instrument and the equipment generate frequency and electric wave signals close to the brain to form resonance with the brain, the brain frequency and nerve current are led to gradually approach to normal through resonance, the emitted brain wave frequency is transmitted to the emission processor through the signal distributor and electric signals are output in a four-wave one-electric three-frequency sequence, and the brain nerve is influenced in a mode of generating resonance with the brain to return to normal values;
the electric wave frequency comprises four wave bands, namely delta (0.9-2.8 Hz), theta (3.8-6.5 Hz), alpha (7.5-11.5 Hz) and beta (13.6-28.7 Hz), and the instrument outputs electric signals according to the sequence of four waves, one electricity and three frequencies, and affects brain nerves in a mode of generating resonance with the brain;
s5, evaluation analysis
After the insomnia auxiliary treatment is finished, heart rate, respiratory rate and skin reactance values of the mental disorder patients are collected again to evaluate the treatment effect.
(III) beneficial effects
The invention provides a brain neuron auxiliary rehabilitation instrument based on VR technology. The beneficial effects are as follows:
1. the invention provides a brain neuron auxiliary rehabilitation instrument based on VR technology, which is used for detecting and processing feedback electric signals, frequency and wave bands based on brain nerves. The instrument can obtain the current state of the brain nerve through the feedback signal of the brain nerve. Through strict calculation of a chip processor, the device can be divided into four wave bands, namely delta (0.9-2.8 Hz), theta (3.8-6.5 Hz), alpha (7.5-11.5 Hz) and beta (13.6-28.7 Hz), and the device outputs electric signals according to the sequence of four waves, one electricity and three frequencies, and influences brain nerves in a mode of generating resonance with the brain so as to enable the brain nerves to return to normal values, thereby promoting recovery and health of the brain; meanwhile, the rehabilitation instrument can reduce brain cell excitation sources and nerve sources so as to achieve the effects of waking up brain nerves and inhibiting emotion. Through the use of the rehabilitation instrument, the brain gradually recovers the self-function, the whole method has no side effect, can automatically judge specific insomnia disorder types, can carry out personalized treatment on insomnia disorder patients, can repair damaged brain neurons, and has the numerical values controlled in a safe range without any damage to human bodies.
2. The invention provides a brain neuron auxiliary rehabilitation instrument based on VR technology, which reversely outputs data through a rehabilitation instrument receiver, wherein a chip processor is arranged in the receiver and is used for operating the received data, the operated data is transmitted to instrument equipment to enable the instrument equipment to work, the instrument equipment generates frequency and electric wave signals close to the brain and forms resonance with the brain, and the brain frequency and nerve current are led to gradually approach to normal through the resonance effect. Meanwhile, the rehabilitation instrument reduces brain cell excitation sources and nerve sources so as to achieve the effects of waking up brain nerves and inhibiting emotion. By using the rehabilitation instrument, the brain gradually recovers the self-functions, and symptoms such as stress, anxiety, headache and the like caused by insomnia, neurosis and various stresses, and can improve the heart and body diseases such as climacteric syndrome, autonomic nervous dysfunction and the like.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic front view of the present invention;
FIG. 3 is a schematic top view of the present invention;
FIG. 4 is a schematic top view of the present invention;
FIG. 5 is a schematic flow chart of the system of the present invention.
1, a display screen; 2. a switching key; 3. a charging interface; 4. an indicator light; 5. an instrument body; 6. a connection end; 7. and (5) a ventilation opening.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Examples:
as shown in fig. 1-5, an embodiment of the invention provides a brain neuron auxiliary rehabilitation device based on VR technology, which comprises a device body 5, wherein a switch key 2 is embedded in the front end of one side of the upper end face of the device body 5, an indicator lamp 4 is embedded in one side of the upper end face of the device body 5, which is positioned on the switch key 2, the rear end of one side of the upper end face of the device body 5 is embedded with a charging interface 3, a display screen 1 is fixedly arranged in the middle point of the upper end face of the front end face of the device body 5, a connecting end 6 is fixedly arranged in the middle point of the upper end of one side of the device body 5, a vent 7 is arranged in the middle point of one side of the lower end face of the device body 5, a main board is embedded in the device body 5, and the main board is used for processing analysis data.
The main board comprises a signal collector, a signal amplifier, a chip processor, a signal distributor, a wave band generator and a transmitting processor, wherein the signal collector is connected with a metal electrode sensor, the sensor is connected with the signal amplifier, the signal amplifier is connected with the chip processor, and the chip processor is connected with the signal distributor, the wave band generator and the transmitting processor; the main function of the amplifier is to enhance the amplitude of the brain electrical signal so that it can be more easily detected and analysed, the gain of which can be adjusted as required. The amplifier may also eliminate noise from the sensor and the environment so that only accurate brain electrical activity is captured; the sensors are typically metal electrodes that are brought into close contact with the scalp by electrode pads on the helmet to ensure signal transmission. Since brain electrical activity is very weak, the sensor must have high sensitivity and low noise to ensure accurate signal capture.
The charging interface 3 is a copy-c interface, one end of the connecting end 6 is connected with a signal acquisition end, and the signal acquisition end can select a helmet with a metal electrode sensor for acquiring brain wave signals; the battery and the heat dissipation module are embedded in the instrument body 5, the battery is connected with the charging interface 3, the battery provides power and is charged and stored by the charging interface 3, the heat dissipation module provides the heat dissipation function of the instrument body 5, equipment damage caused by overhigh equipment working temperature is prevented, and the service life is prolonged; the screen display content of the display screen 1 comprises heart rate, blood pressure, blood oxygen and electrocardiogram data information, so that the physical sign data of a patient can be intuitively and rapidly obtained, and the timely observation is convenient;
in this embodiment, as shown in fig. 5, the operation of the cerebral neuron auxiliary rehabilitation apparatus is completed based on the assistance of the signal collector, the amplifier, the chip processor, the signal distributor, the band generator and the emission processor, and firstly, a group of sensors, typically metal electrodes, are closely contacted with the scalp through electrode sheets to ensure the transmission of signals. Since brain electrical activity is very weak, the sensor must have high sensitivity and low noise to ensure accurate signal capture. Next, by connecting the sensor to an amplifier, the brain electrical signal will be amplified. The main function of the amplifier is to enhance the amplitude of the brain electrical signal so that it can be more easily detected and analysed, the gain of which can be adjusted as required. The amplifier may also cancel noise from the sensor and the environment so that only accurate brain electrical activity is captured. The data from the signal amplifier is then passed through a chip processor to analyze the brain condition and the output is used to further process the signal. The processed data are analyzed by the chip processor to be the most suitable data and are transmitted to the wave band generator, and the wave band data generated by the wave band generator are finally confirmed by the chip processor for the second time and are transmitted to the signal distributor for distribution by the data most suitable for being input into the brain. Finally, the emitted brain wave frequency is transmitted to an emission processor through a signal distributor, and electric signals are output in a four-wave one-electric three-frequency sequence, and the brain nerve is influenced in a mode of generating resonance with the brain, so that the brain nerve is returned to a normal value.
In the implementation, the brain neuron auxiliary rehabilitation instrument is used by a using method of the brain neuron auxiliary rehabilitation instrument based on VR technology, and specifically comprises the following steps:
s1, acquiring electric wave information
Collecting name, gender, age, facial image, heart rate, respiration rate, brain frequency and skin reactance value of insomnia disorder, and analyzing brain waves and brain frequency suitable for rehabilitation according to brain wave data of insomnia patients;
s2, determining the frequency of the electric wave
Determining specific brain wave frequency according to heart rate, respiratory rate, brain frequency and skin reactance value of insomnia patients and facial image types;
s3, wave band generation of electric waves
The brain condition is analyzed by the data of the signal amplifier through the chip processor, the data after the processing is analyzed by the chip processor to be most suitable data and is transmitted to the wave band generator, and the wave band data generated by the wave band generator is finally confirmed by the chip processor for the second time and is transmitted to the signal distributor for distribution by the data most suitable for being input into the brain;
s4 resonance treatment
The instrument and the equipment generate frequency and electric wave signals close to the brain to form resonance with the brain, the brain frequency and nerve current are led to gradually approach to normal through resonance, the emitted brain wave frequency is transmitted to the emission processor through the signal distributor and electric signals are output in a four-wave one-electric three-frequency sequence, and the brain nerve is influenced in a mode of generating resonance with the brain to return to normal values;
the electric wave frequency comprises four wave bands, namely delta (0.9-2.8 Hz), theta (3.8-6.5 Hz), alpha (7.5-11.5 Hz) and beta (13.6-28.7 Hz), and the instrument outputs electric signals according to the sequence of four waves, one electricity and three frequencies, and affects brain nerves in a mode of generating resonance with the brain; wherein the delta wave has a frequency of 1-3 times per second, which can occur when a person is in infancy or mental retardation, and an adult is in extreme fatigue and comatose conditions;
the wave θ, which is very significant for adults when they want to be frustrated and depressed and for psychotic patients, is 4-7 times per second. But this wave is the main component in 10-17 years old electroencephalogram of teenagers;
the alpha wave, which has a frequency of 8-13 times per second and an average of about 10 times, is the basic rhythm of normal human brain waves, and the frequency is quite constant if no stimulus is applied. The rhythm is most obvious when the person wakes up, calms and closes the eyes, and the alpha wave disappears immediately when the eyes are opened or other stimulus is received;
beta waves, with a frequency of 14-30 times per second, appear when the mind is stressed and the emotion is excited or stimulated, and when the person wakes up from the night dream, the original slow wave rhythm can be replaced by the rhythm immediately;
s5, evaluation analysis
After the insomnia auxiliary treatment is finished, heart rate, respiratory rate and skin reactance value of the mental disorder patient are collected again to evaluate the treatment effect, and the feedback brain nerve electric waves, signals, brain frequency, short wave, ultrashort wave data and brain bone electric stimulation current data are all calculated through strict tests, so that the brain is not damaged or injured; all data are set to be written into the chip and cannot be changed, so that damage caused by data change in use is avoided; the design of shutdown protection of the upper rehabilitation instrument in the data change is considered in the manufacturing of the rehabilitation instrument, so that the safety of the rehabilitation instrument is ensured.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides a brain neuron assists recovered appearance based on VR technique, includes instrument body (5), its characterized in that: the intelligent charging device is characterized in that a switch key (2) is embedded and arranged at one side of the upper end face of the instrument body (5) near the front end, an indicator lamp (4) is embedded and arranged at one side of the upper end face of the instrument body (5) near the front end of the instrument body, a charging interface (3) is embedded and arranged at one side of the upper end face of the instrument body (5) near the rear end of the instrument body, a display screen (1) is fixedly arranged at one side of the instrument body (5) near the midpoint of the upper end of the instrument body, a connecting end (6) is fixedly arranged at one side of the instrument body (5) near the midpoint of the upper end of the instrument body, a vent (7) is formed in one side of the lower end face of the instrument body (5) near the midpoint of the instrument body, and a main board is embedded and arranged in the instrument body (5).
2. The VR technology-based brain neuron assisting rehabilitation instrument as set forth in claim 1, wherein: the main board comprises a signal collector, a signal amplifier, a chip processor, a signal distributor, a wave band generator and a transmitting processor, wherein the signal collector is connected with a metal electrode sensor, the sensor is connected with the signal amplifier, the signal amplifier is connected with the chip processor, and the chip processor is connected with the signal distributor, the wave band generator and the transmitting processor.
3. The VR technology-based brain neuron assisting rehabilitation instrument as set forth in claim 1, wherein: the charging interface (3) is a tapy-c interface, and one end of the connecting end (6) is connected with a signal acquisition end.
4. The VR technology-based brain neuron assisting rehabilitation instrument as set forth in claim 1, wherein: the instrument body (5) is internally embedded with a battery and a heat radiation module, and the battery is connected with the charging interface (3).
5. The VR technology-based brain neuron assisting rehabilitation instrument as set forth in claim 1, wherein: the screen display content of the display screen (1) comprises heart rate, blood pressure, blood oxygen and electrocardiogram data information.
6. The application method of the brain neuron auxiliary rehabilitation instrument based on the VR technology is characterized by comprising the following steps of:
s1, acquiring electric wave information
Collecting name, gender, age, facial image, heart rate, respiration rate, brain frequency and skin reactance value of insomnia disorder, and analyzing brain waves and brain frequency suitable for rehabilitation according to brain wave data of insomnia patients;
s2, determining the frequency of the electric wave
Determining specific brain wave frequency according to heart rate, respiratory rate, brain frequency and skin reactance value of insomnia patients and facial image types;
s3, wave band generation of electric waves
The brain condition is analyzed by the data of the signal amplifier through the chip processor, the data after the processing is analyzed by the chip processor to be most suitable data and is transmitted to the wave band generator, and the wave band data generated by the wave band generator is finally confirmed by the chip processor for the second time and is transmitted to the signal distributor for distribution by the data most suitable for being input into the brain;
s4 resonance treatment
The instrument and the equipment generate frequency and electric wave signals close to the brain to form resonance with the brain, the brain frequency and nerve current are led to gradually approach to normal through resonance, the emitted brain wave frequency is transmitted to the emission processor through the signal distributor and electric signals are output in a four-wave one-electric three-frequency sequence, and the brain nerve is influenced in a mode of generating resonance with the brain to return to normal values;
the electric wave frequency comprises four wave bands, namely delta (0.9-2.8 Hz), theta (3.8-6.5 Hz), alpha (7.5-11.5 Hz) and beta (13.6-28.7 Hz), and the instrument outputs electric signals according to the sequence of four waves, one electricity and three frequencies, and affects brain nerves in a mode of generating resonance with the brain;
s5, evaluation analysis
After the insomnia auxiliary treatment is finished, heart rate, respiratory rate and skin reactance values of the mental disorder patients are collected again to evaluate the treatment effect.
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