KR101972209B1 - walking balance analysis system using masticatory muscle exerciser - Google Patents

Abstract

The present invention relates to a diagnosis system for improving cognitive function using a masticatory motor apparatus.
In the diagnosis system for improving cognitive function using the masticatory muscle exercise device of the present invention, the upper piece 11 into which the upper teeth are fitted, the lower piece 12 into which the lower teeth are fitted, and the upper piece 11 and the lower piece 12 are provided. A masticatory muscle mechanism 10 composed of an elastic member 13 for applying elasticity to the upper piece 11 and the lower piece 12 while being interconnected; A counting module 20 for measuring the number of masticatory muscle exercises through the masticatory muscle mechanism 10; An EEG measuring module 30 mounted on the user's body and measuring the EEG of the user; A Bluetooth transmission module 40 wirelessly transmitting the counting count data and the measured EEG data which are connected to the counting module 20 and the EEG measurement module 30 by wire or wireless; The Bluetooth receiving module 51 is provided to receive counting data and measured EEG data from the Bluetooth transmitting module 40, and to display the change in the EEG according to the counting number on the screen, the counting data and the measured EEG data And the user terminal 50 is provided with a communication unit 52 for transmitting to the outside; A server 60 communicating with the user terminal 50 through a mobile communication network or an internet network to receive and analyze counting data and measured brain wave data from the user terminal 50; The server 60 is connected via the Internet network to provide the analyzed data to the analyst, and the advisor's opinion is input to the advisor to the user terminal 50 through the server 60. It is configured to include an advisory terminal (70).
According to the present invention, the masticatory muscle exercise device is provided with a module capable of measuring the occlusal force and a counting module capable of measuring the number of masticatory exercise movements, and a module capable of measuring the brain waves of the user. Analyze changes in EEG using data such as occlusal force, exercise count, etc. according to the training, and whether or not there is an improvement in cognitive ability through masticatory muscle exercise, and whether there is an improvement effect according to the method of training or the amount of training. It can be analyzed to help in treatment and disease prevention.

Description

Walking balance analysis system using masticatory muscle exerciser

The present invention relates to a system for diagnosing the degree of improvement of cognitive function. In particular, the present invention relates to the improvement of cognitive function by using data such as the number of masticatory muscle movements, the degree of occlusal force according to masticatory muscle movement, and the deviation of left and right occlusal force using a masticatory muscle exercise device. The present invention relates to a system for diagnosing cognitive function using masticatory exercise apparatus, which diagnoses the degree and provides expert opinions to contribute to improvement of cognitive function by presenting a training method and training intensity.

The Temporo-Mandibular Joint (TMJ) is a synovial joint between the mandible of the mandible and the temporal bone of the skull. It is a complex joint in which movement of one joint affects the other joint.

Due to this complex joint structure and anatomical structure, TMJ interacts with the laryngeal muscles and cervical spine, and they interact with the lumbar muscles that support the spine.

Therefore, if an imbalance of body balance or abnormal walking pattern appears, artificial deformation of the joint state of the TMJ is performed following the pelvis, lumbar region and cervical spine.

Conversely, correction of TMJ can lead to body balance and gait patterns.

One of the ways to induce deformation in the TMJ is to use the TMJ correction device, the application of the TMJ correction device to be able to align the occlusal plane, thereby inducing the balance of the laryngeal muscle group connecting the occipital bone and the upper cervical spine.

In the case of suboccipitals, about 36 spindles (muscle spindles) that detect stretch reflexes are distributed to balance the skull so that the whole body can be balanced through the corrective device.

As a technique related to such an orthodontic device, the "low muscle movement mechanism" (Korean Patent Publication No. 10-1566146, Patent Document 1) has a masticatory muscle movement consisting of an upper piece and a lower piece, an elastic member installed between the upper piece and the lower piece The organization is open to the public.

In addition, a "tooth occlusal force measuring apparatus and its measuring method" (Korea Patent Publication No. 10-1384392, Patent Document 2), which is a technique for measuring dental occlusal force for dental implant procedures, is also disclosed.

On the other hand, recently, the act of chewing acts to increase the blood flow in the brain to activate the nerves, which is effective in preventing dementia.

In a related study, the relationship between frontal lobe deterioration and oral condition was studied. In this study, the improvement of occlusion increased the motivation and concentration for objects, and further, the restoration of masticatory function was related to the improvement of the frontal lobe. It has appeared.

It has also been found that information through chewing gives moderate stimulation to the cerebral cortex and is responsible for warming up during memory formation.

However, up to now, there is no accurate analysis system that can confirm how much effect of masticatory exercise actually affects the improvement of cognitive ability, and it is difficult for general users to easily grasp it. It is difficult to receive.

Therefore, it is necessary to develop a system capable of confirming and diagnosing improvement of cognitive ability through mastication training.

KR 10-1566146 (2015.10.29) KR 10-1384392 (2014.04.04)

The system for diagnosing cognitive function using the masticatory muscle exercise apparatus of the present invention is to solve the problems occurring in the prior art as described above, and a module capable of measuring the bite force in the masticatory muscle instrument and the number of masticatory muscle exercises can be measured. Cognitive ability through masticatory muscle movement by analyzing the change of EEG by using data such as occlusal force, exercise number, etc. It is intended to help the treatment and disease prevention by scientifically analyzing whether there is an improvement effect, whether there is an improvement effect according to the method of training or the amount of training.

More specifically, it analyzes the changes in EEG according to the number of training using the masticatory exercise device, provides an effective number of training and training methods, and provides EEG changes according to the difference in occlusal force and the degree of occlusal force, thereby providing training intensity, etc. To prevent and improve cognitive decline.

Furthermore, by varying the resistance of the elastic member of the masticatory muscle exercise device and making it data, it is possible to adjust the masticatory muscle strength by using the above-described analytical data, thereby providing the user with an appropriate resistance value, We want to be able to set the training intensity.

In order to solve the above problems, the system for diagnosing cognitive function using the masticatory muscle exercise apparatus of the present invention includes an upper piece 11 into which a user's upper teeth are fitted, a lower piece 12 into which a lower teeth are fitted, and an upper piece 11. ) And the masticatory muscle mechanism (10) consisting of an elastic member (13) for applying elasticity to the upper piece (11) and the lower piece (12) while interconnecting the lower piece (12); A counting module 20 for measuring the number of masticatory muscle exercises through the masticatory muscle mechanism 10; An EEG measuring module 30 mounted on the user's body and measuring the EEG of the user; A Bluetooth transmission module 40 wirelessly transmitting the counting count data and the measured EEG data which are connected to the counting module 20 and the EEG measurement module 30 by wire or wireless; The Bluetooth receiving module 51 is provided to receive counting data and measured EEG data from the Bluetooth transmitting module 40, and to display the change in the EEG according to the counting number on the screen, the counting data and the measured EEG data And the user terminal 50 is provided with a communication unit 52 for transmitting to the outside; A server 60 communicating with the user terminal 50 through a mobile communication network or an internet network to receive and analyze counting data and measured brain wave data from the user terminal 50; The server 60 is connected via the Internet network to provide the analyzed data to the analyst, and the advisor's opinion is input to the advisor to the user terminal 50 through the server 60. It is configured to include an advisory terminal (70).

In the above-described configuration, the pressure sensor is installed on both sides between the upper piece 11 and the lower piece 12 to measure the pressure between the upper piece 11 and the lower piece 12 according to the user's masticatory movement ( 20a) or any one of the blood flow detection sensors 20b mounted on the user's body to measure blood flow and change in blood flow, and measure the occlusal force between the upper and lower teeth on the left and right sides according to masticatory muscle movement, and the Bluetooth transmission module Occlusal force measurement module 80 is further provided to the left and right occlusal force measurement data to the user terminal 50 through the Bluetooth transmission module 40 is electrically connected to the 40, the user terminal 50 is received The left and right occlusal force measurement data is provided to the server 60 through the communication unit 52, the server 60 is characterized in that it is made to receive and analyze the left and right occlusal force measurement data .

In addition, the EEG measurement module 30, EEG signal detection unit 31 is installed on both feet of the user for detecting the foot pressure signal generated when the ground and the sole contact; A counting signal preprocessing unit 42 electrically connected to the EEG signal detecting unit 31 to preprocess the foot pressure signal; And a data collector 33 electrically connected to the EEG signal preprocessing unit 32 to collect data processed by the EEG signal preprocessing unit 32.

In addition, the occlusal force measuring module 80, the occlusal signal detection unit 81 for detecting the occlusal force signal between the upper and lower molar teeth on the left and right sides; An occlusal signal preprocessor 82 which is electrically connected to the signal detector 21 to preprocess the occlusal signal; And a data collector 83 electrically connected to the occlusal signal preprocessor 82 to collect data processed by the occlusal signal preprocessor 82.

In addition, the server, a communication unit 61 for communicating with the communication unit 52 and the advisory terminal 70 of the user terminal 50 through a mobile communication network or the Internet network; A central controller 62 electrically connected to the communication unit 61; An input unit 63 electrically connected to the central control unit 62 to provide a user input signal to the central control unit 62, and a display electrically connected to the central control unit 62 to display data processed by the central control unit 62. Part 64; A memory unit 65 electrically connected to the central controller 62 to store data processed by the central controller 52; An EEG data analysis unit 66 electrically connected to the central control unit 62 to receive the EEG data and the counting data from the central control unit 62 to analyze the change in the EEG according to the counting number; An occlusal data analysis unit 67 electrically connected to the central control unit 62 to receive occlusal force data from both the left and right sides from the central control unit 62 to analyze changes in the brain waves according to deviations in the left and right sides and the strength of the occlusal force; Characterized in that configured to include.

Furthermore, the masticatory muscle mechanism 10 is the elastic member 13 is composed of a hydraulic or pneumatic actuator (13a), it is provided with a supply tank (13b) for supplying hydraulic or pneumatic to the actuator (13a), On the pipe connecting the supply tank 13b and the actuator 13a, an electronic pressure regulating valve 13c is provided to adjust the provided fluid pressure, and the pressure is controlled to control the operation of the pressure regulating valve 13c. A valve operation control unit 91 electrically connected to the control valve 13c, and a receiver unit electrically connected to the valve operation control unit 91 and receiving a valve operation signal from the outside and providing the valve operation control unit 91 to the valve operation control unit 91 ( A pressure regulation module 90 including 92 is further provided, and the server 60 analyzes the data analyzed by the EEG data analysis unit 66 and the occlusal data analysis unit 67 to control the valve operation control unit. Pressure to send to 91 It is characterized in that the pressure analyzer 68 for analyzing the force magnitude is further provided.

According to the present invention, the masticatory muscle exercise device is provided with a module capable of measuring the occlusal force and a counting module capable of measuring the number of masticatory exercise movements, and a module capable of measuring the brain waves of the user. Analyze changes in EEG using data such as occlusal force, exercise count, etc. according to the training, and whether or not there is an improvement in cognitive ability through masticatory muscle exercise, and whether there is an improvement effect according to the method of training or the amount of training. It can be analyzed to help in treatment and disease prevention.

More specifically, it analyzes the changes in EEG according to the number of training using the masticatory exercise device, provides an effective number of training and training methods, and provides EEG changes according to the difference in occlusal force and the degree of occlusal force, thereby providing training intensity, etc. Prevent and improve cognitive decline.

Furthermore, by varying the resistance of the elastic member of the masticatory muscle exercise device and making it data, it is possible to adjust the masticatory muscle strength by using the above-described analytical data, thereby providing the user with an appropriate resistance value, Training intensity can be set.

1 is a schematic diagram showing a cognitive function improvement diagnostic system using the masticatory muscle mechanism of the present invention.
Figure 2 is a block diagram showing a cognitive function improvement diagnostic system using the masticatory muscle mechanism of the present invention.
Figure 3 is a schematic view showing an embodiment when the pressure control of the elastic member in the present invention enabled.
Figure 4 is a schematic diagram showing a cognitive function improvement diagnostic system using a masticatory muscle mechanism of the present invention.

Hereinafter, the cognitive function improvement diagnostic system using the masticatory muscle apparatus of the present invention will be described in detail with reference to the accompanying drawings.

The cognitive function improvement diagnosis system using the masticatory muscle exercise apparatus of the present invention is the masticatory muscle mechanism 10, the counting module 20, the EEG measurement module 30 and the Bluetooth transmission module 40, the user terminal 50, the server 60 ) And the advisory terminal 70, and may further include an occlusal force measuring module 80 and a pressure adjusting module 90.

The masticatory muscle exercise device 10, which is a component of the present invention, may be applied to various known masticatory exercise devices.

More preferably, the structure shown in FIG. 1 may be applied.

Specifically, the masticatory muscle exercise device 10 illustrated includes an upper piece 11 into which the upper teeth of the user 1 oral cavity 2 are fitted, a lower piece 12 into which the lower teeth are fitted, and an upper piece 11 and a lower piece. It is composed of an elastic member 13 for applying elasticity to the upper piece 11 and the lower piece 12 while interconnecting (12).

In the drawings, the elastic member 13 is illustrated as a coil spring for convenience of understanding and is not limited thereto.

The counting module 20, which is a component of the present invention, measures the number of masticatory muscle movements of the user by analyzing the EMG pattern detected by the EMG sensor by installing an EMG sensor on the masticatory muscle mechanism 10, the user's skin, or the earset 100. It is made to

More specifically, as shown by reference numeral 20a of FIG. 1, a counting signal as shown in FIG. 2 includes a proximity sensor that detects a signal when the upper piece 11 and the lower piece 12 contact or approach each other by the user's masticatory movement. And a counting signal detecting unit 21 which is electrically connected to the counting signal detecting unit 21 to amplify a counting signal and removes an incorrect signal and preprocesses the counting signal detecting unit 21.

In addition, the data collection unit 23 is electrically connected to the counting signal preprocessor 22 to convert and collect the data processed by the counting signal preprocessor 22 into a digital signal.

In this case, when the counting module 20 is installed in the masticatory muscle exercise apparatus 10 as shown by the reference numeral 20a, the counting module 20 is electrically connected to the data collecting unit 23 for the convenience of communication and stores the data stored in the data collecting unit 23. It may be configured to include a not shown transmitter 24 for transmitting to the user terminal 50 in a wired or wireless manner.

More preferably, the EMG sensor is mounted on the Bluetooth-type bone conduction earphone as shown in FIG. 1, and is preferably connected to the Bluetooth transmission module 40 by wire through the earphone or the EMG sensor.

In the case of the EMG sensor, the measured frequency change is the number of masticatory muscle movements.

The EEG module 30, which is a component of the present invention, may be made of various known EEG devices, and preferably, a band type "EEG band" type surrounding the head of the user, as shown in FIG. .

The EEG measurement module 30 is composed of an EEG band includes an EEG signal detection unit 31 for detecting an EEG signal of the user, and is electrically connected to the EEG signal detection unit 31 to amplify the EEG signal and remove noise It includes an EEG signal preprocessing unit 32 for preprocessing.

In addition, the EEG signal pre-processing unit 32 is electrically connected to the data collection unit 33 for converting and collecting the data processed by the EEG signal pre-processing unit 32 is included.

Like the counting module 20, the EEG measurement module 20 also transmits data to the user terminal 50 in a batch through the Bluetooth transmission module 40 while being connected to the Bluetooth transmission module 40 by wire. Preferably, a separate, non-illustrated transmitter may be provided to be electrically connected to the data collector 33 to transmit data stored in the data collector 33 to the user terminal 50.

The occlusal force measuring module 80, which is a component of the present invention, may be made of any one of a pressure sensor and a blood flow reducing sensor, and is configured to measure the occlusal force between the upper teeth and the lower teeth according to the masticatory muscle movement on both left and right sides.

If the blood flow sensor is made of the masticatory muscle mechanism (10) is not installed on the user's chin or neck patch of the known blood flow sensor attached and detached and connected to the Bluetooth transmission module 40 by wire to the user terminal (50) ) May provide data wirelessly or directly to the user terminal 50 through a separate transmitter.

The blood flow detection sensor is configured to determine the degree of occlusal force through the difference in blood flow data obtained from the sensors attached to the left and right, and in this case, the blood flow value is converted into the occlusal force value.

When the pressure sensor is formed as shown in the left and right both sides between the upper piece 11 and the lower piece 12 is installed to measure the pressure between the upper piece 11 and the lower piece 12 in accordance with the user's masticatory movement do.

The occlusal force measuring module 80 includes an occlusal signal detection unit 81 mounted on the masticatory muscle exercise device 10 or the user's skin to detect an occlusal force signal during mastication.

In addition, an occlusal signal preprocessor 82 is electrically connected to the occlusal signal detector 81 to amplify the occlusal force signal received from the occlusal signal detector 81 and to remove an incorrect signal to preprocess the occlusal signal.

In addition, the data collection unit 83 is electrically connected to the occlusal signal preprocessor 82 and converts and collects the data processed by the occlusal signal preprocessor 82 into a digital signal. The wired connection may provide the converted data to the Bluetooth transmission module 40 or directly transmit the data to the user terminal 50 through a transmission unit (not shown).

In the above example, the transmitters may be wired, but may be configured in a wireless communication scheme such as Bluetooth, Wi-Fi, or a mobile communication network.

The user terminal 50, which is a component of the present invention, is provided with a Bluetooth receiving module 51 to receive data from the Bluetooth transmitting module 40, as shown in FIGS. Counting data, measured brain wave data, and left and right bite force data are received.

In addition, the EEG change according to the counting count, the left and right occlusal force deviation, the occlusion force change according to the magnitude of the occlusal force is displayed on the screen.

In addition, a communication unit 52 for transmitting counting data, occlusal force data, and measured brain wave data to the outside is provided.

The user terminal 50 may be a personal computer, but most preferably, a product that is easy to carry and communicate, such as a smartphone, a tablet, a laptop, is preferable.

In the case of a smart phone, the basic analysis application can be downloaded and utilized through a Wi-Fi network or a mobile communication network, and a self-contained central processing unit allows the downloaded application to be driven.

The user terminal 50 includes a central processing unit (CPU), a data storage device (memory), a display unit (screen), etc., in addition to the above-described Bluetooth receiving module 51 and the communication unit 52. In addition to controlling the operation of, the EEG changes due to the change in the counting count, occlusal force, left and right occlusal force, etc. are converted into a graph-like format for easy viewing by the user. This may be provided to the server 60 through the communication unit 52.

In addition, when the user terminal 50 is made of a smart phone or the like, a general smart phone has a Bluetooth transmission function, and is stored in the smart phone in the above-described Bluetooth-type bone conduction earphone or by providing online streaming music to the earphone. Allows the user to concentrate on masticatory exercise and to feel comfortable.

The server 60 is a component of the present invention through the communication unit 52 of the fraudulent user terminal 50, the occlusal force measuring module 80, counting module 20, EEG measurement module 30, occlusal force measuring module 80 After receiving the measured data from each of the) to analyze and provide the analyzed data to the user terminal 50 or the advisory terminal (70).

The server 60 includes a communication unit 61, a central control unit 62, a memory unit 65, an EEG data analysis unit 66, an occlusal data analysis unit 67, as shown in FIG. It is.

The communication unit 61 transmits and receives the advisory terminal 70 and the user terminal 50 in a wired or wireless manner through an internet network, a mobile communication network, and the like.

The central control unit 62 is electrically connected to the receiver 61, and is electrically connected to each component including the communication unit 61 to control the operation of each device.

The input unit 63 is electrically connected to the central control unit 62 to provide an input signal input by the user to the central control unit 62, and the display unit 64 is electrically connected to the central control unit 62 to control the central control unit. The data processed at 62 and a user input screen are displayed.

On the other hand, the memory unit 65 is electrically connected to the central control unit 62 to store data processed by the central control unit 62 or data received from the communication unit 61 therein under the control of the central control unit 62. Done.

The EEG data analysis unit 66 is electrically connected to the central control unit 62 and receives the EEG data and the counting data from the central control unit 62 to analyze the change in the EEG according to the counting number.

On the other hand, the occlusal data analysis unit 67 is electrically connected to the central control unit 62 receives the occlusal force data of the left and right sides from the central control unit 62 to change the EEG change according to the deviation of the left and right sides of the occlusal force, the strength of the occlusal force. Analyze

In addition, the EEG data analysis unit 66 and the occlusal data analysis unit 67 provides the data change and the analyzed data to the central control unit 62, the central control unit 62 according to the change in the counting data and occlusal data EEG changes are provided to the memory unit 65 or the display unit 64.

Furthermore, the occlusal data analysis unit 67 analyzes the change in the EEG data after the conversion from the left and right sides of the malocclusion state to the occlusion state.

That is, by analyzing the brain wave changes according to the difference in the occlusal force of the left and right sides to provide to the central control unit 62, the central control unit 62 stores the analyzed data in the memory unit 65 or to display through the display unit 64 Will be.

When both the EEG data analysis unit 66 and the occlusal data analysis unit 67 are utilized, the changes in the EEG according to the number of masticatory muscle training, and the changes in the EEG according to the change in left and right occlusion and the degree of occlusal force can be examined. Therefore, it is possible to check whether there is a direct relationship between masticatory training and EEG change, and it is possible to confirm whether the cognitive function is improved after changing the training method and intensity according to the advisor's advice.

The advisory terminal 70, which is a component of the present invention, may be a PC, a smartphone, a tablet, or the like provided by a medical professional, an athletic expert, or the like who can be an advisor of training.

Like the user terminal 50, the advisory terminal 70 is also equipped with a central processing unit, a memory, an input unit, a display unit, and a communication unit, which are not shown. The server 60 is connected to the analyst through an internet network. The analyzed data is provided, and an advisory opinion of an analyst is input, and an advisory opinion of an analyst is provided to the user terminal 50 through the server 60.

In the above-described configuration, the occlusal force measuring module 80, the counting module 20, and the EEG measuring module 30 are all connected to the power supply unit and each of the detailed components to which power is supplied, and receive power from the power supply unit. It will be apparent that the controller may be included.

In addition, it will be apparent that the server 60 is also electrically connected to the central control unit and is operated by receiving external power.

The cognitive function improvement diagnosis system using the masticatory muscle exercise apparatus of the present invention can confirm the correlation between the masticatory muscle movement and the cognitive function according to the above-described configuration.

In addition, when such a correlation is confirmed, the data is provided to the person providing the treatment or training using the acquired data, thereby providing the required number of mastication trainings, thereby informing the appropriate exercise amount.

In addition, the above-described transmission of the bite force measuring module 80, counting module 20, EEG measurement module 30 is provided to the user terminal 50 in a Bluetooth manner, the user reconstructs the cognitive function through a direct chewing exercise You will be able to check.

On the other hand, in the above-described analysis system of the present invention, the elastic member 13 of the masticatory muscle exercise device 10 is configured to be able to change the resistance value, and to be associated with the system of the present invention to provide a more improved training method Can be.

More specifically, as shown in FIG. 3, the masticatory muscle mechanism 10 includes an elastic member 13 including a hydraulic or pneumatic actuator 13a and a supply tank for supplying hydraulic or pneumatic pressure to the actuator 13a. 13b is provided, the electronic pressure control valve 13c for adjusting the fluid pressure provided on the pipe connecting the supply tank 13b and the actuator 13a can be installed.

In this case, as shown, the valve operation control unit 91 is electrically connected to the pressure control valve 13c to control the operation of the pressure control valve 13c, and the valve operation control unit 91 is electrically connected to the outside. A pressure regulating module 90 including a receiving unit 92 provided with a valve operation signal from the valve operation control unit 91 may be further provided.

At this time, the server 60 analyzes the data analyzed by the occlusal data analysis unit 67 and the EEG data analysis unit 66 and analyzes the pressure magnitude to be transmitted to the valve operation control unit 91. May be further provided.

This method allows the user to provide a function to check the change in EEG according to the exercise intensity instead of the number of times of exercise during masticatory exercise. When pressed, the central controller 62 starts the operation of the pressure analyzer 68.

At this time, the pressure analysis unit 68 analyzes the difference value of the left and right bite force and analyzes the pressure as much as the difference and provides it to the central control unit 62, and the central control unit 62 by the pressure control module 90 as much as the difference. When the operating pressure signal of the pressure regulation module 90 is to control the valve operation so that more resistance is generated during the masticatory movement.

This will increase your training intensity.

At this time, the pressure data calculated by the pressure analyzer 68 is stored in the memory unit 65 under the control of the central controller 62, and when there is no degree of improvement in training to the adjusted pressure, the user input unit ( The additional inputs through 63) will be compared and used as the basis for the adjustment of the pressure values during training.

1: User 2: Oral
10: masticatory muscle mechanism 11: the upper piece
12: lower piece 13: elastic member
13a: Actuator 13b: supply tank
13c: Pressure regulating valve 20: Counting module
20a: pressure sensor 21: counting signal detector
22: counting signal preprocessor 23: data collector
30: EEG measurement module 31: EEG signal detection unit
32: brain blood signal preprocessing unit 33: data collection unit
40: Bluetooth transmission module 50: User terminal
51: Bluetooth receiving module 52: communication unit
60 server 61 communication unit
62: central control unit 63: input unit
64: display section 65: memory section
66: brain wave data analysis unit 67: occlusion data analysis unit
68: pressure analysis unit 70: advisory terminal
80: occlusal force measuring module 81: occlusal signal detection unit
82: occlusal signal preprocessor 83: data collector
90: pressure regulation module 91: valve operation control unit
92: receiver 100: earset

Claims (6)

The upper piece 11 to which the user's upper teeth are fitted, the lower piece 12 to which the lower teeth are fitted, and the upper piece 11 and the lower piece 12 are connected to each other, to the upper piece 11 and the lower piece 12. A masticatory muscle mechanism 10 composed of an elastic member 13 for applying elasticity;
A counting module 20 for measuring the number of masticatory muscle exercises through the masticatory muscle mechanism 10;
An EEG measuring module 30 mounted on the user's body and measuring the EEG of the user;
A Bluetooth transmission module 40 wirelessly transmitting the counting count data and the measured EEG data which are connected to the counting module 20 and the EEG measurement module 30 by wire or wireless;
The Bluetooth receiving module 51 is provided to receive counting data and measured EEG data from the Bluetooth transmitting module 40, and to display the change in the EEG according to the counting number on the screen, the counting data and the measured EEG data And the user terminal 50 is provided with a communication unit 52 for transmitting to the outside;
A server 60 communicating with the user terminal 50 through a mobile communication network or an internet network to receive and analyze counting data and measured brain wave data from the user terminal 50;
The server 60 is connected via the Internet network to provide the analyzed data to the analyst, and the advisor's opinion is input to the advisor to the user terminal 50 through the server 60. Including advisory terminal 70;
A pressure sensor 20a installed between the upper piece 11 and the lower piece 12 to measure pressure between the upper piece 11 and the lower piece 12 according to the user's masticatory movement, It is mounted on the body to measure the blood flow and blood flow sensor (b) to measure any one of the blood flow changes to measure the occlusal force between the upper and lower teeth on both sides according to the masticatory muscle movement, and electrically connected to the Bluetooth transmission module 40 Occlusion force measurement module 80 is further provided to provide the left and right bite force measurement data to the user terminal 50 through the Bluetooth transmission module 40,
The user terminal 50 provides the left and right bite force measurement data to the server 60 through the communication unit 52,
The server 60 is made to receive and analyze the left and right bite force measurement data,
The server,
A communication unit 61 communicating with the communication unit 52 and the advisory terminal 70 of the user terminal 50 through a mobile communication network or an internet network;
A central controller 62 electrically connected to the communication unit 61;
An input unit 63 electrically connected to the central control unit 62 to provide a user input signal to the central control unit 62, and a display electrically connected to the central control unit 62 to display data processed by the central control unit 62. Part 64;
A memory unit 65 electrically connected to the central controller 62 to store data processed by the central controller 52;
An EEG data analysis unit 66 electrically connected to the central control unit 62 to receive the EEG data and the counting data from the central control unit 62 to analyze the change in the EEG according to the counting number; And
An occlusal data analysis unit 67 electrically connected to the central control unit 62 to receive occlusal force data from both the left and right sides from the central control unit 62 to analyze changes in the brain waves according to deviations in the left and right sides and the strength of the occlusal force; Including;
The elastic member 13 of the masticatory muscle mechanism 10 is composed of a hydraulic or pneumatic actuator (13a),
A supply tank 13b for supplying hydraulic pressure or pneumatic pressure to the actuator 13a is provided, and on the pipe connecting the supply tank 13b and the actuator 13a, an electronic pressure control for adjusting a provided fluid pressure is provided. The valve 13c is installed,
A valve actuation control unit 91 electrically connected to the pressure regulating valve 13c to control the operation of the pressure regulating valve 13c, and an electrical actuation of the valve actuation control unit 91 and externally actuating a valve actuation signal. Further provided is a pressure regulation module 90 including a receiving unit 92 provided to the valve operation control unit 91,
The server 60,
A pressure analyzer 68 is further provided to analyze the data analyzed by the EEG data analysis unit 66 and the occlusal data analysis unit 67 to analyze the pressure magnitude to be transmitted to the valve operation control unit 91. Made,
Cognitive Improving Diagnosis System Using Masticatory Muscle Exercise.
delete delete The method of claim 1,
The occlusal force measuring module 80,
An occlusal signal detection unit (81) for detecting an occlusal force signal between the upper and lower molar teeth on the left and right sides;
An occlusal signal preprocessing unit 82 electrically connected to the occlusal signal detection unit 81 to preprocess an occlusal signal;
And a data collector 83 electrically connected to the occlusal signal preprocessor 82 to collect data processed by the occlusal signal preprocessor 82.
Cognitive Improving Diagnosis System Using Masticatory Muscle Exercise. delete delete

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