CN209915983U - System for monitoring and treating insomnia - Google Patents

Abstract

The utility model relates to a system for monitoring and treating insomnia, which comprises a stimulation output unit and a monitoring unit in communication connection with the stimulation output unit, wherein the monitoring unit monitors biological information of a user during sleeping and transmits signals to the stimulation output unit; the stimulation output unit comprises a first communication module, a data processing module, a power amplification module and a stimulation coil module which are sequentially connected, the first communication module receives information transmitted by the monitoring unit and outputs the information to the data processing module, the data processing module analyzes and processes the acquired information and outputs a control signal to the power amplification module, and the power amplification module is used for amplifying the received control signal and driving the stimulation coil module to generate corresponding stimulation. The utility model discloses an in through monitoring unit real-time supervision user sleep situation and communication connection transmission information, amazing output unit then according to the different amazing output of different sleep situation information adjustment, the amazing ability real-time change in the treatment process has strengthened the treatment of insomnia.

Description

System for monitoring and treating insomnia

Technical Field

The utility model relates to a device system for treating insomnia, in particular to an insomnia system for monitoring treatment, which can monitor in real time and adjust stimulation output along with sleep condition.

Background

The sleep quality can influence the working and living states of people in the next day, along with the high-speed development of the society, the living rhythm of people is increasingly accelerated, and insomnia can often occur, but the conventional insomnia treatment instrument in the market only stimulates a user in a single way regardless of the stimulation mode, does not have real-time information feedback of the user, cannot adjust stimulation output in time according to the state of the user, and the whole treatment process is in a single mode, so that the unsatisfactory treatment effect is caused, or the effective result is only obtained for a small part of users.

SUMMERY OF THE UTILITY MODEL

To the current not enough, the utility model provides an insomnia system of monitoring treatment that can real-time supervision and adjust amazing output along with the sleep condition.

The utility model provides a technical scheme that its technical problem adopted is:

a system for monitoring and treating insomnia comprises a stimulation output unit and a monitoring unit in communication connection with the stimulation output unit, wherein the monitoring unit monitors biological information of a user during sleeping and transmits signals to the stimulation output unit through communication connection; the stimulation output unit comprises a first communication module, a data processing module, a power amplification module and a stimulation coil module which are sequentially connected, the first communication module receives information transmitted by the monitoring unit and outputs the information to the data processing module, the data processing module analyzes and processes the acquired information and outputs a control signal to the power amplification module, and the power amplification module is used for amplifying the received control signal and driving the stimulation coil module to generate corresponding stimulation.

Preferably, the monitoring unit is one or more of a brain wave monitoring unit, an electrocardiogram monitoring unit, a bracelet monitoring unit and a waistband monitoring unit which are independently arranged, each unit comprises a monitoring module and a second communication module, the monitoring module is used for monitoring biological information of a user during sleep, and the second communication module is in communication connection with the first communication module.

Preferably, the stimulation output unit is a stimulation unit capable of generating any one or more of magnetic, optical, acoustic, electric and temperature stimulation.

Preferably, the monitoring unit and the stimulation output unit are connected by wireless or wired communication.

Preferably, the data processing module is an MCU processor module and is connected with a client capable of generating and displaying the monitoring report through wired or wireless communication.

Preferably, the power amplification module is a digital power amplifier module.

Preferably, the data processing module is further electrically connected with a temperature control module, the temperature control module comprises a cooling fan and a temperature monitoring control circuit respectively connected with the data processing module and the cooling fan, the temperature monitoring control circuit monitors the temperature of the stimulation output unit and transmits temperature data to the data processing module, and the rotation of the cooling fan is controlled through the processing and analyzing of the temperature data by the data processing module.

The beneficial effects of the utility model reside in that: the utility model discloses an in through monitoring unit real-time supervision user sleep state and communication connection transmission information, amazing output unit then adjusts different amazing output according to different sleep state information, after user's state is synchronous with amazing output unit's output state, amazing output unit just changes the slow wave state that the amazing guide user brain wave got into the sleep of output gradually, user's the amazing output unit further strengthens its sleep state after falling asleep, the amazing output that finally stops, amazing ability changes according to the condition in real time in the treatment process, thereby reach guide user's relaxation or fall asleep, the treatment of insomnia has been strengthened.

Drawings

Fig. 1 is a block diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of an embodiment of the present invention in use;

part names and serial numbers in the figure: 1-stimulation output unit 10-first communication module 11-data processing module 12-power amplification module 13-stimulation coil module 14-temperature control module 140-cooling fan 2-monitoring unit 20-brain wave monitoring unit 21-electrocardio monitoring unit 22-bracelet monitoring unit 23-waistband monitoring unit 200-monitoring module 201-second communication module 3-client.

Detailed Description

To illustrate the objects, technical solutions and advantages of the present invention more clearly, the present invention will be further described with reference to the accompanying drawings and examples, and it is obvious that the described examples are some, but not all, of the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention. Furthermore, directional terms as referred to in the present disclosure, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc., refer only to the direction of the attached drawings, and directional terms used are intended to better and more clearly illustrate and understand the present invention rather than to indicate or imply the orientation the present invention must have, and therefore should not be construed as limiting the present invention.

The embodiment of the utility model is shown in figure 1, a system for monitoring and treating insomnia, including stimulation output unit 1, with stimulation output unit 1 communication connection's monitoring unit 2, through with monitoring unit 2's communication connection, the situation that monitoring unit 2 monitored just can feed back stimulation output unit 1 in real time, just can real-time supervision and change amazing output mode to guide the user to fall asleep or deepen its sleep degree according to different circumstances, strengthened the sleep effect; the monitoring unit 2 monitors the biological information of the user during sleeping and transmits signals to the stimulation output unit 1 through communication connection, the biological information can be represented by brain waves, heart rate, body temperature, body movement, respiration, blood flow and the like, the stimulation output unit 1 can process and analyze the sleep condition of the user after receiving the information, then sends different stimulation instructions according to different conditions to monitor and treat in real time, the communication connection mode of the monitoring unit 2 and the stimulation output unit 1 can be wireless or wired, the transmission signal of wired connection is stable and cannot be influenced by distance and other electromagnetic waves, the wireless connection can be conveniently used, and when people sleep, the units are only worn on corresponding parts of the body, so that the influence on sleep caused by discomfort caused by the fact that a cable is in contact with the body is avoided; the stimulation output unit 1 comprises a first communication module 10, a data processing module 11, a power amplification module 12 and a stimulation coil module 13 which are connected in sequence, the modules are arranged in the stimulation output unit 1, so that the communication connection between the stimulation output unit and the monitoring unit 2 can be realized, the real-time information transmission, the information processing analysis and the stimulation output change can be realized, the real-time monitoring and the treatment on the insomnia can be realized, the first communication module 10 receives the real-time information transmitted by the monitoring unit 2 and outputs the real-time information to the data processing module 11, the data processing module 11 analyzes and processes the acquired information and outputs a control signal to the power amplifying module 12, the power amplification module 12 is used for amplifying the received control signal and driving the stimulation coil module 13 to generate corresponding stimulation, so that the purpose of guiding the user to relax or fall asleep is achieved, and the treatment effect of insomnia is enhanced. The sleep condition of a person is controlled by the brain, the brain can send out different brain waves under different conditions, the sleep condition of the user can be reflected by different expression forms of the body, such as slow blood flow, slow respiration, slow heartbeat, low brain wave frequency and the like, the monitoring of the different expression forms can reflect the sleep condition of the user, the characteristic expressions are all expressed at different parts of the body, the monitoring is as shown in figure 2, the monitoring unit 2 is one or more of a brain wave monitoring unit 20, an electrocardio monitoring unit 21, a bracelet monitoring unit 22 and a waistband monitoring unit 23 which are independently arranged, of course, under the same principle, the monitoring unit 20 can be connected with the stimulation output unit 1 into a whole through cable connection, the brain wave monitoring unit 20 can collect the brain waves of the patient, the sleep condition of the user can be judged according to the collected brain waves, or the collected electroencephalogram frequency is directly used, so that the stimulation output frequency of the stimulation output unit 1 is synchronous with the collected electroencephalogram, the electroencephalogram is guided or stimulated to a deep sleep state, the electrocardio monitoring unit 21 calculates the brain excitation state of the patient according to the electrocardio state, the stimulation output unit 1 synchronously outputs stimulation output with corresponding frequency according to the brain excitation state at first, then the brain waves are guided to gradually reduce the frequency, the sleep state is entered and the sleep is enhanced, the bracelet monitoring unit 22 and the waistband monitoring unit 23 monitor biological information expression of the user during sleep such as heart rate, body temperature, body movement and breathing through different body parts, the data processing module 11 analyzes and establishes a sleep database of the user, and the output of the stimulation output unit 1 is adjusted through analysis; each unit is independently arranged, and in order to facilitate the respective communication connection with the stimulation output unit 1, each unit includes a monitoring module 200 and a second communication module 201, the monitoring module 200 is used for monitoring the biological information of the user during sleep, and the second communication module 201 is in communication connection with the first communication module 10 to transmit the respective monitored information. Because people can have different responses to different stimulation modes, some are used to magnetic stimulation, and some are used to optical stimulation or electrical stimulation, the stimulation output unit 1 can be a stimulation unit which can generate any one or more of magnetic stimulation, optical stimulation, acoustic stimulation, electrical stimulation and temperature stimulation to adapt to the requirements of different users. The magnetic stimulation is to generate a stimulation magnetic field to guide the change of brain waves so as to enhance the sleep effect; the light generates micro massage through light fluctuation energy to change the direction of an electric field so as to change the state of brain waves; the sound is to stimulate and change brain waves through the change of sound waves; electricity changes the bioelectric current stimulating nerve cells by changing the current frequency and the current intensity to change brain waves; the temperature is adjusted to stimulate the user with cold or heat, so that the human body generates different stress responses to change brain waves. When the stimulation output module is used, the data processing module 11 processes the acquired data, the stimulation frequency and the stimulation intensity are calculated according to the acquired data, the stimulation output of the stimulation output unit 1 is synchronous with the state frequency of the user monitored by the monitoring unit 2, then the data processing module 11 generates a stimulation waveform and outputs the stimulation waveform to the power amplification module 12, the power amplification module 12 amplifies the power of the stimulation waveform output by the data processing module 11 and drives the stimulation coil module 13 to generate stimulation such as a magnetic field, and when the user reaches a quiet state or falls asleep, the data processing module 11 guides the stimulation output unit 1 to close the output; meanwhile, the biological information monitoring of the sleep mode is started, the corresponding sleep information of the user is formed, then the output stimulation output frequency is gradually reduced to guide the brain waves of the user to enter a slow wave state, the stimulation output unit 1 continues to adjust the stimulation output according to the information transmitted by the monitoring unit 2 after the user falls asleep, and finally the stimulation output is stopped, so that the purposes of guiding relaxation to fall asleep and then deepening sleep are achieved, and the treatment effect of insomnia is improved.

Further improvement, in order to enable people to know their own sleep conditions, as shown in fig. 1, the data processing module 11 is an MCU processor module, which is a common MCU processor in the current market, and the MCU processor is used to facilitate the production and connection of products, the data processing module 11 is connected to a client 3 capable of generating and displaying monitoring reports through wired or wireless communication, such client 3 can be ipad, mobile phone or computer used in daily life, so that the data processing module 11 can transmit related sleep data to the client 3 through wired or wireless communication, and people can visually see and know their own sleep conditions at the client 3, and can make measures to change their sleep conditions according to the monitoring reports of the client 3 to improve sleep quality.

In a further improvement, the power amplification module 12 is a digital power amplifier module, and the digital power amplifier has high efficiency, small volume, low distortion, good frequency response curve, space saving and convenient use.

In a further improvement, as shown in fig. 1, the stimulation output unit 1 generates heat during the operation process, the accumulation of the heat affects the use of people, and the insomnia cannot be treated, but people are more difficult to fall asleep due to the accumulation of the heat, in order to solve the problem of the heat, the data processing module 11 is further electrically connected to a temperature control module 14, the temperature control module 14 includes a cooling fan 140 and a temperature monitoring control circuit respectively connected to the data processing module 11 and the cooling fan 140, the temperature monitoring control circuit monitors the temperature of the stimulation output unit 1 and transmits the temperature data to the data processing module 11, and the data processing module 11 processes and analyzes the received temperature data and controls the rotation of the cooling fan 140 through the temperature monitoring control circuit.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (7)

1. A system for monitoring treatment of insomnia, comprising: the monitoring unit monitors biological information of a user during sleeping and transmits signals to the stimulation output unit through communication connection; the stimulation output unit comprises a first communication module, a data processing module, a power amplification module and a stimulation coil module which are sequentially connected, the first communication module receives information transmitted by the monitoring unit and outputs the information to the data processing module, the data processing module analyzes and processes the acquired information and outputs a control signal to the power amplification module, and the power amplification module is used for amplifying the received control signal and driving the stimulation coil module to generate corresponding stimulation.

2. The system for monitoring treatment of insomnia according to claim 1, wherein: the monitoring unit is one or more of brain wave monitoring unit, electrocardio monitoring unit, bracelet monitoring unit, the waistband monitoring unit that independent setting each other, and every unit all includes monitoring module and second communication module, biological information when monitoring module is used for monitoring the user sleep, second communication module and first communication module communication connection.

3. The system for monitoring treatment of insomnia according to claim 1, wherein: the stimulation output unit is a stimulation unit capable of generating any one or more of magnetic stimulation, optical stimulation, acoustic stimulation, electric stimulation and temperature stimulation.

4. The system for monitoring treatment of insomnia according to claim 1, wherein: the monitoring unit and the stimulation output unit are connected in wireless or wired communication.

5. The system for monitoring treatment of insomnia according to claim 1, wherein: the data processing module is an MCU processor module and is connected with a client capable of generating and displaying a monitoring report through wired or wireless communication.

6. The system for monitoring treatment of insomnia according to claim 1, wherein: the power amplification module is a digital power amplifier module.

7. The system for monitoring treatment of insomnia according to claim 1, wherein: the data processing module is also electrically connected with a temperature control module, the temperature control module comprises a cooling fan and a temperature monitoring control circuit respectively connected with the data processing module and the cooling fan, the temperature monitoring control circuit monitors the temperature of the stimulation output unit and transmits temperature data to the data processing module, and the rotation of the cooling fan is controlled through the processing and analyzing of the data processing module on the temperature data.

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