WO2016129928A1 - Method for controlling mobile personal communication terminal connected to low-powered beam radiation apparatus - Google Patents

Abstract

The present invention relates to a method for controlling a mobile personal communication terminal connected to a low-powered beam radiation apparatus, wherein a low-powered beam radiation apparatus is used that is connected to an earphone terminal, an external communication terminal or a charge terminal of a mobile personal communication terminal, and the mobile personal communication terminal operates the low-powered beam radiation apparatus according to a pre-set disease or a pre-set parameter for beam radiation control, evaluates a disease state before and after treatment, processes statistics and displays the same. The present invention, in a method for operating a mobile personal communication terminal-based beam radiation apparatus comprises: a beam radiation apparatus in which a beam radiation electrode having a light source in an internal centre part is mounted in an end thereof; and a mobile personal communication terminal in which anyone of an earphone terminal, a USB terminal or a charge terminal is connected to the other end of the beam radiation apparatus, and controls a wavelength, an intensity, a radiation time and a radiation pattern of a beam of the beam radiation apparatus. The present invention is characterised by comprising: a beam radiation start step for starting operation of the beam radiation apparatus by means of a beam radiation control signal received from the mobile personal communication terminal; a treatment result self-evaluation step for terminating operation of the beam radiation apparatus if a "beam radiation stop" button is selected or a beam radiation time has finished after the beam radiation start step, and the mobile communication terminal displays the treatment result self-evaluation items on a screen, reads scores with respect to answers for the respective treatment result self-evaluation items that are selected by a user, and stores the scores with respect to the answers for the respective treatment result self-evaluation items in a database via a main server; and a treatment result review step wherein the mobile personal communication terminal processes statistics of the scores with respect to the answers for the respective treatment result self-evaluation items on a daily, weekly or monthly basis, and displays the same in graphs, text and images.

Description

Control method of portable personal communication terminal connected to low power light irradiator

The present invention relates to a method for controlling a portable personal communication terminal connected to a low output light irradiator, and more particularly, a user may include a low output light irradiator on an earphone terminal or an external communication terminal (for example, a USB terminal) or a charging terminal of the portable personal communication terminal. The portable personal communication terminal may be connected and used, and the low personalized light irradiator may be driven and treated according to a predetermined disease or a predetermined light irradiation control parameter, and the disease state may be evaluated and stored before and after treatment. The present invention relates to a method for controlling a portable personal communication terminal connected to a low power light irradiator for performing statistical processing on a monthly basis and storing and displaying the same.

In recent years, the use of mobile healthcare applications has been increasing, and mobile healthcare applications can track behavior, monitor physical information, manage diets and weight loss, provide exercise, provide medical / health information and campaigns, access medical information and schedule management, It is divided into medical management program and health integration service web.

Most healthcare-related applications currently listed in the application market are focused on fitness with behavior tracking. And, most of the treatment-related applications now known do not manage quality, contrary to the expectation that active treatment will be possible.

In particular, low-power phototherapy is widely known as a method of treating or preventing diseases by stimulating the human body with low-power light energy of various wavelength bands, and for the purpose of fatigue recovery, skin beauty, or alternative medicine and pain treatment. It is used a lot in. Indeed, recently, in the field of oriental medicine or alternative medicine, the light energy of low-power phototherapy is used to stimulate the acupuncture points through which the meridian blood collects and collects on the body surface, thereby connecting a specific body part or internal organ connected to the periphery and the peripheral nervous system. It is practiced for the treatment of diseases, treatment of pain and inflammation (for example, treatment of menstrual pain, burn treatment, etc.), prevention and treatment of stroke and dementia, or health care.

Therefore, there is a need for devices that combine low power phototherapy with mobile healthcare applications.

In the prior art, the applicant has a patent registration No. 10-1385707 'color light treatment system using visible light'.

In Korean Patent No. 10-1385707, a portable personal communication terminal connected to a color light therapy device has a function of displaying a color light therapy icon selected by a user to drive a color light therapy program, and the user selects a disease for treatment or prevention purposes. The function of displaying the disease name icons for each disease to be displayed on the screen, the information on the characteristics and treatment methods of the disease selected by the user on the screen, the method of irradiation of the rays during the color light treatment of the disease selected by the user, and precautions. Function to display the guide information on the screen, to display on the screen guide information about the irradiation position of the light when the color light treatment of the disease selected by the user, setting the light irradiation time that the user can select and use for color light treatment Button, light intensity control button, light irradiation pattern setting button, light irradiation start button, and light irradiation species And it equipped with a colored light therapy program has a function to display a button on the screen.

However, Korean Patent No. 10-1385707, although it is said that it is possible to provide a function, treatment method, light irradiation method and precautions to inform the user of the treatment method using the color light therapy device, specifically, the intensity of the light in some way There is no information on whether to control the status, and also the function of inputting the user's pre-treatment status, the user's post-treatment status, and before and after the user's treatment. There is no function to check.

That is, in the case of Korean Patent Registration No. 10-1385707, it is not possible to know just how much the disease is improved by simply treating it. Moreover, the degree of pain is known only to the patient himself, which is difficult to know forever unless he or she does self-assessment immediately after treatment.

Therefore, it is desirable to present a specific method of controlling the intensity of light according to a disease, and to self-evaluate the state before and after treatment, and to perform statistical processing on the self-evaluation and data obtained in units of days, weeks, and months. Portable personal communication terminal control connected to a low-powered light irradiator, which is stored and stored in the user's body, which allows the user to confirm, bringing the activation of the therapeutic effect moreover, and which the doctor in the hospital can apply to the treatment of the patient. A method is desired.

The problem to be solved by the present invention, the user is connected to the earphone terminal or external communication terminal (for example, USB terminal, iPhone terminal, etc.) or charging terminal of the portable personal communication terminal, but the portable personal communication terminal The low-powered light irradiator is driven and treated according to a predetermined disease or a predetermined light irradiation control parameter, the disease state is evaluated and stored before and after treatment, and statistical processing is performed on a daily basis, a weekly basis, and a monthly basis. And a portable personal communication terminal control method connected to the low output light emitter for displaying.

Another problem to be solved by the present invention is to update the driving method of the low-powered light irradiator according to the disease in the portable personal communication terminal in the main server, the main server for the light irradiation control of the patient received from the portable personal communication terminal Receives and stores the parameters and self-assessment data, and when the request (that is, after confirming that the patient is registered through the authentication) from the portable personal communication terminal, the data is transmitted to the portable personal communication terminal In addition, the present invention provides a method for controlling a portable personal communication terminal connected to a low power light emitter.

Another problem to be solved by the present invention, the device number (eg, serial number) of the low power light therapy device is registered and stored in the main server, the main server in the database, according to the device number of the low power light therapy device, for each patient The present invention provides a method for controlling a portable personal communication terminal connected to a low power light emitter configured to store a light irradiation control parameter and self-evaluation data.

Another problem to be solved by the present invention, the portable personal communication terminal, the method of using the low-powered light irradiator for the disease set by the user and the attachment position of the probe on the picture, 2D or 3D human body model using a graphical user interface (GUI) The present invention provides a method for controlling a portable personal communication terminal connected to a low output light emitter, which is output on a screen in the form of a displayed picture or video, and provides information such as treatment precautions in an image and sound.

In order to solve the said subject, this invention is equipped with the light irradiation electrode which mounts the light irradiation electrode which has a light source in an inner center part at one end; Including a earphone terminal, a USB terminal, or a charging terminal, which is connected to the other end of the light irradiator to control the wavelength of the light irradiator, the light intensity and the light irradiation time, and the light irradiation pattern; and a portable personal communication terminal. In the driving system of the portable personal communication terminal based light irradiator, after the treatment of the user using the light irradiator is finished, each treatment result self-evaluation item stored in the database is transmitted to the portable personal communication terminal, and each treatment result self evaluation Characterized in that the main server further receives a score for the answer of the item from the portable personal communication terminal.

The portable personal communication terminal adds up the scores for the responses of each treatment result self-assessment item and transmits the scores to the main server as the scores of the self-evaluation result.

The portable personal communication terminal registers the light irradiator with the main server by using the number of the light irradiator.

The main server receives, from the portable personal communication terminal, the disease name set by the user, and the light irradiation control parameters including the light intensity signal, the light irradiation time signal, and the light irradiation pattern signal set by the user, and stores them in a database. .

Each initial self-assessment item previously stored in the database is transmitted to the portable personal communication terminal, and the score for the response of each initial self-assessment item is stored in the database through the main server from the portable personal communication terminal.

The portable personal communication terminal statistically processes the score for the answer of each treatment result self-assessment item or the score of the self-evaluation result on a daily basis, weekly basis or monthly basis, and displays the result in graphs, texts, and images.

The portable personal communication terminal controls the light pattern of the light irradiator.

The light irradiator may include either a pulse width modulation (PWM) module or a DA converter.

The portable personal communication terminal may include either a pulse width modulation (PWM) module or a DA converter.

In addition, the present invention, the light irradiation machine for mounting a light irradiation electrode having a light source in the inner central portion at one end; Any one of the earphone terminal, the USB terminal, or the charging terminal is connected to the other end of the light irradiator, the portable personal communication terminal for controlling the wavelength of the light irradiator, the intensity of the light and the irradiation time and the pattern of light irradiation; includes; A method of driving a portable personal communication terminal based light irradiator, comprising: a light irradiation start step of driving a light irradiator by a light irradiation control signal received from a portable personal communication terminal; After the light irradiation start step, if the 'light irradiation stop' button is selected or the light irradiation time is finished, the operation of the light irradiator is terminated, the portable personal communication terminal displays the treatment result self-assessment item on the screen, A treatment result self-assessing step of reading a score for an answer of each selected treatment result self-assessment item, and storing a score for an answer of each treatment result self-assessment item in a database through a main server; The portable personal communication terminal includes a treatment result checking step of displaying a graph, a text, and a video by statistically processing the scores of the answers of each treatment result self-assessment on a daily, weekly or monthly basis. .

In the method of driving the portable personal communication terminal based light irradiator, before the light irradiation step, the portable personal communication terminal transmits the light irradiation control parameters including the light irradiation intensity, the light irradiation time, and the light irradiation pattern set by the user to the main server. The control parameter storage step of transmitting and storing in the database.

The method of driving the portable personal communication terminal based light irradiator may include: a light irradiator registration step of registering a light irradiator with a main server by using a number of the light irradiator before the control parameter setting step; The main server receives a disease name set by the user from the portable personal communication terminal, and stores the disease name in a database; It may be made to include more.

The portable personal communication terminal control method connected to the low power light emitter of the present invention is used by the user by connecting the low power light emitter to an earphone terminal or an external communication terminal (for example, a USB terminal, an iPhone terminal, etc.) or a charging terminal of the portable personal communication terminal. The portable personal communication terminal is configured to drive and treat a low power light irradiator according to a predetermined disease or a predetermined light irradiation control parameter, and to evaluate and store a disease state before and after treatment, Statistical processing is performed on a weekly and monthly basis, and stored and displayed. Therefore, the degree of pain is only known to the patient himself, and after treatment, it is made to self-evaluate immediately, and not only to treat the disease, but also to know how much the disease has improved. It is made to confirm this, bringing about the activation of the therapeutic effect, and also made it possible for the doctor of the hospital to apply to the treatment of patients with reference to this.

The present invention, in the main server, updates the driving method of the low-powered light irradiator according to the disease in the portable personal communication terminal, the main server, the parameters for self-irradiation control and self-evaluation data received from the portable personal communication terminal It is configured to receive and store, and when there is a request from the portable personal communication terminal (i.e. after being confirmed to be a registered patient through authentication), the data is transmitted to the portable personal communication terminal, so that the administrator can systematically Management is possible and it can be used effectively by patients and doctors.

In other words, depending on the disease often do not want to tell others. Therefore, in the present invention, even if a portable personal communication terminal or a low power light emitter is used, the patient data is registered for each user, and the personal data is guaranteed only when the registered patient is authenticated, thereby ensuring personal information. I'm trying to.

The present invention registers and stores a device number (eg, a serial number) of a low power phototherapy device in a main server, and the main server has a database for controlling light irradiation for each patient according to the device number of the low power phototherapy device and self. To store the evaluation data. In addition, the present invention can be made to register the user according to the device number of the low power phototherapy device.

In the present invention, the portable personal communication terminal is a photograph or video form displaying a method of using a low power light emitter for a disease set by a user and a probe attachment position on a photo, a 2D or 3D human body figure using a graphical user interface (GUI). It outputs on the screen and provides information such as treatment precautions in video and audio, making it simple and easy to use even for beginners.

According to the present invention, any user having a portable personal communication terminal and a low output light irradiation probe can safely and simply treat his disease anytime, anywhere. The present invention can newly create a smartphone-based personal treatment device market that can simply and conveniently treat their own diseases.

1 shows a driving system of a portable personal communication terminal based low power light emitter of the present invention.

FIG. 2 is an explanatory diagram for schematically illustrating the light irradiator of FIG. 1.

3 is a case where the light irradiator is connected to a USB connector (charging terminal) of the portable personal communication terminal in the driving system of the portable personal communication terminal based low output light irradiator of the present invention, and is provided with a light irradiator controller separately.

4 is a block diagram illustrating an example of a configuration of a light emitter and a portable personal communication terminal when the light emitter is connected to a USB connector of the portable personal communication terminal of FIG. 3.

FIG. 5 is a block diagram illustrating a personal communication terminal calculation processing unit of FIG. 4.

6 is a flowchart schematically illustrating a method for controlling a portable personal communication terminal connected to a light emitter of the present invention.

FIG. 7 illustrates another embodiment of the present invention in which a USB connection jack of a light irradiator is connected to a USB connector of a portable personal communication terminal, but is not provided with a light irradiator control unit.

8 is another embodiment of the present invention, in which the earphone jack of the light irradiator is connected to the earphone connector of the portable personal communication terminal.

9 is a flowchart illustrating an example of a control method of a portable personal communication terminal connected to the light irradiator of the present invention.

10 is an example of an initial execution screen, a light irradiator registration screen, and a disease setting screen in a portable personal communication terminal connected to a light irradiator of the present invention.

11 is an example of an information providing screen in a portable personal communication terminal connected to the light irradiator of the present invention.

12 is an example of an initial self-diagnosis screen in a portable personal communication terminal connected to the light irradiator of the present invention.

13 is an example of a screen during treatment in a portable personal communication terminal connected to the light irradiator of the present invention.

14 is an example of a treatment result self-assessment screen in a portable personal communication terminal connected to a light irradiator of the present invention.

15 is an example showing user information stored in a database in a driving system of a portable personal communication terminal based low power light emitter of the present invention.

Hereinafter, a portable personal communication terminal control method connected to a low power light emitter according to the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the portable personal communication terminal may be a smart phone, a tablet, a PDA, a notebook, a notepad, a smart watch, an Apple iPhone, an Apple iPad, an Apple Eye Watch, and other mobile devices.

1 is a view illustrating a driving system of a portable personal communication terminal based low power light emitter of the present invention, and FIG. 2 is an explanatory diagram for schematically describing the light emitter of FIG. 1.

The driving system of the portable personal communication terminal-based low power light emitter includes a light irradiator 100, a portable personal communication terminal 300, a main server 400, and a database 500.

The light irradiator 100 is a low output light irradiator which is connected to an earphone terminal or an external communication terminal (for example, a USB terminal) or a charging terminal of a portable personal communication terminal and is driven by the power of the portable personal communication terminal, and received by the portable personal communication terminal. The light beam is output by the light irradiation control signal.

As shown in FIG. 2, the light irradiator 100 has electric power to the light irradiation electrode unit 110 and the light irradiation electrode unit 110 including the light irradiation electrode 120 that outputs light by being in contact with the user's skin. And a light irradiator connecting jack 150 for transmitting the light irradiation control signal. The light irradiator connecting jack 150 and the light irradiation electrode unit 110 are connected by the wire 130.

In some cases, the light irradiator 100 may further include a light irradiator controller 200, and the light irradiator controller 200 may detect a power driving signal among the signals input from the light irradiator connecting jack 150 and apply the power driving signal to the power driving signal. Drive the light irradiator 100 by the light source, and the wavelength and intensity of light emitted from the light irradiation electrode unit 110 of the light irradiator 100 from the light irradiation control signal among the signals input from the light irradiator connecting jack 150. , The pattern of light irradiation, the time of light irradiation, and the like are controlled.

The light irradiation electrode 120 is a skin-adhesive electrode, and includes a light source at an inner center portion of the electrode. The light source may include a light emitting diode (LED), an organic light emitting diode (OLED), and a laser diode (LD).

The portable personal communication terminal 300 is a terminal on which a predetermined application program is installed, and the user registers the light irradiator 100 to the main server 400 through the portable personal communication terminal 300, and according to a preset disease, Alternatively, a light irradiation control signal for driving the light irradiator 100 is generated according to a preset light irradiation control parameter and transmitted to an earphone terminal or an external communication terminal (for example, a USB terminal) or a charging terminal of a portable personal communication terminal. In addition, the portable personal communication terminal 300 allows the user to self-evaluate the disease state (degree of improvement of the disease) after the treatment, and perform the statistical processing on a daily, weekly and monthly basis. In addition, the portable personal communication terminal 300 transmits a disease name, a light irradiation control parameter, a self-evaluation result, etc. to the main server 400.

In some cases, the user may further register a user name, personal information, etc. of the light irradiator 100 through the portable personal communication terminal 300.

The main server 400 registers the light irradiator 100 through the portable personal communication terminal 300, and receives the disease name and light irradiation control parameters received from the registered light irradiator 100 through the portable personal communication terminal 300. , The self-evaluation result, a user name, personal information, a light irradiator number, and the like are stored in the database 500.

The main server 400 transmits the data requested by the portable personal communication terminal 300 to the portable personal communication terminal 300 through authentication of the registered light irradiator 100 or the registered user. In addition, the main server 400 may update the driving method (predetermined application program) of the portable personal communication terminal 300 and transmit it to the portable personal communication terminal 300.

The database 500 stores a disease name, a radiation irradiation control parameter, a self evaluation result, a user name, personal information, a light irradiator number, and the like, for each light irradiator 100 or for each user.

FIG. 1 has a system path in which user information, self-diagnosis, and treatment results input and stored by a user on a portable personal communication terminal 300 are stored in the database 500 through the main server 400. That is, the user information, the self-diagnosis and the treatment result are transmitted to the main server 400 using the wired / wireless communication network and stored in the database 500. The data is transmitted using the get method or the post method. Here, the main server 400 may be one of servers installed in a hospital or a research institute for developing a medical device.

3 is a case where a light irradiator is connected to a USB connector (charging terminal) of a portable personal communication terminal in the driving system of the portable personal communication terminal based low output light irradiator of the present invention, and is provided with a light irradiator controller 200 separately.

In other words, Figure 3 is connected to the light irradiator connecting jack 150, that is, the light irradiator USB connection jack 154 to the USB connector (charge terminal) 340 of the portable personal communication terminal, a specific interface, that is, the light irradiator control It is the case with 200.

In this case, the light irradiator controller 200 includes a pulse width modulation (PWM) module for driving the light irradiation electrode 120, or a light irradiation control signal received from the USB connector (charge terminal) 340. DA (Digital Analog Converter) converter for converting the signal into an analog signal.

4 is a block diagram illustrating an example of a configuration of a light emitter and a portable personal communication terminal when the light emitter is connected to a USB connector of the portable personal communication terminal of FIG. 3.

The light irradiator 100 may operate the USB OTG module 210, the voltage regulator 220, the light irradiator operation processor 250, the light irradiation driver 270, the LED operation indicator 280, and the photoirradiation electrode unit 110. Among them, the USB serial serial bus on-the-go (OTG) module 210, the voltage regulator 220, the irradiation machine operation processing unit 250, the irradiation driver 270, LED operation display The lamp 280 may be referred to as a light irradiator controller 200.

In some cases, the USB connection jack 154 of the light irradiator may include a USB OTG module 210.

The USB OTG module 210 uses a portable personal communication terminal 300 as a host, and means for enabling communication between the portable personal communication terminal 300 and the light irradiator calculation processing unit 250 installed in the light irradiator control unit 200. to be.

In general, the USB OTG module 210 enables each device to perform host functions within a limited range to enable point-to-point communication between portable devices such as smartphones and personal digital assistants (HNP). In order to reduce the battery power consumption of the devices, the SRP (Session Request Protocol) is provided to maintain a connection only at the request of a counterpart device.

That is, the USB OTG module 210 connected to the ray irradiator operation processor 250 is connected to the smart phone connection connector 110 and the portable personal communication terminal 300 is used as a host. Communication between the light irradiator calculation processing unit 250 installed in the irradiator control unit 200 is enabled.

The voltage regulator 220 is a means for converting the voltage output from the portable personal communication terminal 300 to match the operating voltage of the light irradiation operation unit 250, the operating voltage output from the voltage regulator 220 as a power source The light irradiator 100 is driven.

The light irradiator calculation processing unit 250 is a means for controlling the light irradiator control unit 200 as a whole, and analyzes the control command of the portable personal communication terminal 300 received through the USB OTG module 210. Control the irradiation intensity, irradiation time, irradiation pattern, start and end of irradiation. That is, the ray irradiator calculation processing unit 250 interprets the control command of the portable personal communication terminal 300 to generate a light source control signal and transmits it to the ray irradiation driver 270.

The light irradiation driving unit 270 is formed of a PWM module, and drives the light source according to the light source control signal received from the light irradiation operating unit 250. The light irradiation driver 270 includes a voltage or current amplifying circuit necessary to drive the light source.

The LED operation indicator 280 displays the light irradiation operation state, that is, an LED light indicating that the light irradiation electrode is being driven.

A light irradiation electrode connection connector (not shown) is provided at an end of the wire 130 connected to the light irradiation driving unit 270, and the light irradiation electrode connection connector is connected to the light irradiation electrode 120.

The portable personal communication terminal 300 includes a transceiver 310, a key input unit 320, a USB connector 340, a personal communication terminal operation processing unit 350, a display unit 360, and a memory unit 380.

The transceiver 310 transmits a disease name, a light irradiation control parameter, a self-evaluation result, a user name, personal information, a light irradiator number, and the like received from the personal communication terminal operation processor 350 to the main server 400.

The key input unit 320 includes a key switch for inputting user's personal information, a self evaluation, and a start / end switch.

The USB connector 340 is a USB connection terminal of the portable personal communication terminal 300 and is connected to the USB connection jack 154 of the light irradiator.

The personal communication terminal operation processor 350 generates a light irradiation control signal for driving the light irradiator 100 according to a predetermined disease or a preset light irradiation control parameter, and transmits the light irradiation control signal to the USB connector 340. In addition, when it is determined that the treatment is completed, the personal communication terminal operation processor 350 presents a question for the user to self-evaluate the disease state (degree of improvement of the disease), and transmits and receives the result received from the key input unit 320. Through the unit 310, the main server 400 is transmitted, and stored in the memory unit 380. The self-evaluation results are statistically processed on a daily, weekly or monthly basis. When the portable personal communication terminal 300 transmits the self-evaluation result to the main server 400, the portable personal communication terminal 300 transmits a light irradiator number, a disease name, a light irradiation control parameter, and the like.

The display unit 360 displays the light irradiation control parameters, the self-evaluation result, and the like received from the personal communication terminal operation processor 350.

The memory unit 380 stores the light irradiation control parameters, the self-evaluation result, the light irradiator number, the disease name, the personal information, the user name, and the like received from the personal communication terminal operation processing unit 350.

FIG. 5 is a block diagram illustrating a personal communication terminal calculation processing unit of FIG. 4.

The personal communication terminal operation processing unit 350 includes a registration module unit 351, a light irradiator control module unit 353, a control parameter setting module unit 355, an initial self evaluation module unit 357, and a treatment result self evaluation and storage. The module unit 359 includes an information providing module unit 361.

The registration module unit 351 registers each of the light irradiators 100, that is, the light irradiator number, to the main server 400 through the personal communication terminal calculation processing unit 350, or by the light irradiator 100 (light ray). (In accordance with the irradiator number), and by user (user name) of the registered light irradiator 100 can be registered. During registration, personal information (name, age, disease name, etc.) may be stored in the main server 400 through the personal communication terminal operation processing unit 350.

The light irradiator control module unit 353 generates a light irradiation control signal according to the control parameter set by the control parameter setting module unit 355 and transmits the generated light irradiation control signal to the USB connector 340.

The control parameter setting module 355 receives and stores a light irradiation control parameter set by a user through the key input unit 320 on the portable personal communication terminal 300, and stores the light irradiation control parameter 353. To send.

If the user does not set a separate light irradiation control parameter, the memory unit 380 reads a previously set light irradiation control parameter or a preset light irradiation control parameter according to a disease, and then the light irradiation control module unit ( 353).

The initial self-assessment module unit 357 reads the initial self-assessment items from the database 500 through the main server 400 to the display unit 360 on the portable personal communication terminal 300. Display the items and receive an answer to the items.

For example, if each item selects an answer, a score is assigned according to the selected answer (ranked and scored according to that rank), and these scores can be summed to obtain an initial self-evaluation result. Initial self-assessment items may consist of different items depending on the disease.

The treatment result self-assessment and storage module unit 359 reads the treatment result self-assessment items from the database 500 through the main server 400, and displays the treatment result on the display unit 360 on the portable personal communication terminal 300. Results Display the items for self-assessment, receive the answers to the items, score the points according to each response received, add these scores to obtain the treatment result self-evaluation result, and obtain the treatment result self-assessment result. The data is stored in the data server 500 through the main server 400. In addition, statistical processing is performed using the obtained evaluation results. Here, the treatment result self-evaluation result, the beam irradiator number may be transmitted to the main server 400, and the treatment result self evaluation result may be stored for each light irradiator 100.

The information providing module 361 receives guide information about the irradiation time, the attachment position of the irradiation electrode, and the entire treatment period, etc. from the database 500 through the main server 400 according to the disease selected by the user. The display 360 displays an image, a character, and the like.

6 is a flowchart schematically illustrating a method for controlling a portable personal communication terminal connected to a light emitter of the present invention.

In the registration step, it is connected to the main server 400 on the application program of the portable personal communication terminal 300, and registers by inputting the number and personal information of the light irradiator 100 (S10). In some cases, the light irradiation apparatus 100 can be registered and user can be registered (user name, personal information input).

In the disease selection step, when the user selects a disease name to be treated from the disease name displayed on the display unit 360 of the portable personal communication terminal 300 through the key input unit 320, a key signal corresponding to the selected disease name, that is, the disease name The signal is transmitted to the personal communication terminal calculation processing unit 350 (S20).

In the control parameter setting step, the user irradiates the light irradiation control parameter, that is, the light irradiation electrode unit 110 through the key input unit 320 of the portable personal communication terminal 300, the light intensity, When the light irradiation pattern, the light irradiation time, etc. are set, the light intensity signal, the light irradiation pattern signal, and the light irradiation time signal, which are the set light irradiation control parameter signals, are transmitted to the personal communication terminal calculation processing unit 350 (S30).

In the disease name and light irradiation control parameter storage step, the portable personal communication terminal 300 transmits the disease name signal and the light irradiation control parameter signal to the main server 400 (S40), and the main server 400 receives the received disease name signal and The irradiation control parameter signal is stored in the database 500 by beam irradiator (or patient) and by date (S50).

In the light irradiation step, the portable personal communication terminal 300 generates a light irradiation control signal according to the light irradiation control parameter signal, and is transmitted to the light irradiator 100 through the USB connector 340 (S60). The control unit 200 is driven to irradiate the light beam with the light irradiation electrode unit 110 in accordance with the light irradiation control signal (S70).

In the self-evaluation step of treatment result, when light irradiation of the light irradiator 100 is finished, the portable personal communication terminal 300 is received from the memory unit 380 or from the database 500 through the main server 400. Display the self-evaluation items, and for each self-assessment item, when the user selects an answer through the key input unit 320, the personal communication terminal operation processing unit 350 receives a key input unit 320 for each self-assessment item. The answer key value is received, and the personal communication terminal operation processing unit 350 is given a score according to the answer key value for each received self-assessment item, and adds the scores for each self-assessment item to the self-evaluation result. The score for the (S80).

In the step of storing the self-evaluation result, the score for the self-evaluation result is transmitted to the main server 400 (S90), and stored in the database 500 (S100).

In the statistical processing step, by using the score for the self-evaluation results, the statistical processing is performed in units of days, weeks, and months (S110), and transmits the statistical processing results to the main server 400 (S120), and the database ( 500) (S130).

In the screen output step, statistical processing data of a disease name, a light irradiation control parameter, a self evaluation result, and a self evaluation result are output to the display unit 360.

FIG. 7 illustrates another embodiment of the present invention in which a USB connection jack of a light irradiator is connected to a USB connector of a portable personal communication terminal, but is not provided with a light irradiator control unit.

In the case of FIG. 7, the portable personal communication terminal 300 is a case where the PWM module or the DA converter is built in, and the light irradiator 100 does not need to include a separate light irradiator control unit 200. That is, the light irradiator 100 is connected to a USB connector (charging terminal) 340 installed in the portable personal communication terminal 600 in which the PWM module or the DA converter is built.

In this case, the portable personal communication terminal 300 is a smartphone using one of Android, Android Wear, Android Open Source Project, Apple iOS, Tizen, MS window, BlackBerry, FireFox, MiUi, Color as an OS (operating system) Or smartwatch.

8 is another embodiment of the present invention, in which the earphone jack 151 of the light irradiator is connected to the earphone connector 330 of the portable personal communication terminal.

In general, the earphone connector 330 of the portable personal communication terminal includes sound signal terminals (right sound signal terminal, left sound signal terminal), a ground signal terminal, and the like.

The earphone connector 330 of the portable personal communication terminal 300 may output a light irradiation control signal to one of the sound signal terminals, and may cause the light irradiation electrode 120 to be driven by the light irradiation control signal.

9 is a flowchart illustrating an example of a control method of a portable personal communication terminal connected to the light irradiator of the present invention.

In the step of determining whether the ray irradiator is registered, when the portable personal communication terminal 300 executes a predetermined application program (that is, the low output light therapy app of the present invention), the operation processing unit 350 of the portable personal communication terminal 300 It is determined whether the ray irradiator 100 is registered (S11). If the ray irradiator 100 is registered, the control parameter setting step S30 is reached.

In the ray irradiator registration step, if the ray irradiator 100 is not registered in the ray irradiator registration determination step (S11), the ray irradiator 100 is connected to the main server 400 on the portable personal communication terminal 300, so that the new user receives the ray irradiator ( 100) is registered (S13). At this time, the registration of the light irradiator 100 is automatically stored in the portable personal communication terminal when the registration by inputting the number (for example, serial number) and password of the light irradiator 100, and at the same time is transmitted to the main server 400 to the database Stored at 500.

In the disease name selection step, after the ray irradiator registration step (S13), a plurality of disease names are displayed on the display unit 360 of the portable personal communication terminal 300, and one of the disease names is entered using the key input unit 320. When selected, the key signal according to the selected disease name, that is, the light beam wavelength signal suitable for the treatment of each disease set in accordance with the disease name selection at the same time as the disease name signal, is transmitted from the key input unit 320 to the personal communication terminal operation processing unit 350 ( S20).

That is, a plurality of disease names registered in the international disease code that can be treated by the light irradiator 100 registered by the user are automatically presented to the user who has completed device registration in the light irradiator registration step (S13), and the user wants to treat them. You will choose one disease.

In the disease treatment method guide step, according to the disease selected in the disease name selection step (S20), the portable personal communication terminal 300, the database (500) guide information about the irradiation time, the attachment position of the irradiation electrode and the entire treatment period, etc. Received through the main server 400, and outputs the image, text, etc. to the display unit 360 (S23).

That is, when the user selects a disease name in the disease name selection step (S20), information about the selected disease and treatment information necessary for low output light treatment, for example, an attachment position of the light irradiation electrode, light irradiation time, light intensity, light irradiation pattern Provides treatment information to the user, including one or more of letters, numbers, 2D or 3D pictures or videos, information on precautions, total treatment duration, daily treatment time and frequency, and how to use the device.

In the initial self-assessment step, after the disease treatment method guide step, the initial self-assessment module unit 357 of the personal communication terminal operation processing unit 350 provides the self-diagnostic question to the UI screen, that is, the display unit 360 in the form of a questionnaire. When the user enters his or her pre-treatment state, it is automatically stored in the portable personal communication terminal 300 and simultaneously transmitted to the main server 400 to the database 500, the ray irradiator 100 registered by the user. It is transmitted with the number of and stored (S25).

In the control parameter setting step, the control parameter setting module 355 of the arithmetic processing unit 350 is driven to present the light irradiation control parameter-related items on the UI screen, that is, the display unit 360, thereby allowing the user to irradiate the light. Light irradiation control parameters such as intensity (Low, Mid, High), light irradiation time (10 minutes, 20 minutes, 30 minutes) and light irradiation patterns (continuous, discontinuous) are set (S30). Here, the irradiation control parameter related items are received from the database 500 through the main server 400 and presented to the display unit 360, and the set irradiation control parameters are transmitted to the main server 400 to be transferred to the database 500. )

If the light irradiator 100 is registered in the light irradiator registration determining step S11, the control unit setting step S30 is made to set the light irradiating control parameter.

In the control parameter setting step (S30), when the light irradiation intensity is connected to the earphone connector 330 of the portable personal communication terminal 300, the light irradiation intensity of the portable personal communication terminal 300 according to the intensity of light irradiation The intensity of light irradiation is controlled by executing a special sound source in the form of a continuous time signal stored in advance in the memory unit 380. If the light irradiation controller 200 is connected to the earphone connector 330 of the portable personal communication terminal 300, the light irradiation control unit 200 is PWM (Pulse width modulation) method of the light irradiation controller 200 or DA converter system controls the wavelength of light irradiation and the intensity of light irradiation.

In the control parameter setting step (S30), when the light emitter 100 is connected to the USB connector (charge terminal) 340 of the portable personal communication terminal 300, the light emitter controller 200 is separately provided. The wavelength of light irradiation and the intensity of light irradiation are controlled by a pulse width modulation (PWM) method or a DA converter method of the irradiator controller 200.

In the control parameter setting step (S30), PWM (or charging) terminal 340 of the portable personal communication terminal 600 with the built-in DA converter module is connected to the radiation irradiator 100 (PWM) Pulse width modulation) or DA converter system controls the wavelength of light irradiation and the intensity of light irradiation.

When the light irradiation pattern is connected to the earphone connector 330 of the portable personal communication terminal 300, the light irradiation pattern samples a special sound source having a continuous time signal type stored in the portable personal communication terminal 300 at a specific time interval. When the light emitter 100 is connected to the USB connector (charging terminal) 340 of the portable personal communication terminal 300, the light irradiation pattern is controlled by a pulse width modulation (PWM) method or a DA converter method. .

The irradiation time may be controlled by calling the selected time using a time control function. That is, the light irradiation time controls the light irradiation time by calling the selected time using a time control function provided by each OS according to the app development method.

In the light irradiation step, after the control parameter setting step (S30), if the 'light treatment start' button is selected, the light irradiation intensity, light irradiation time, light irradiation pattern and disease name selection step (S20) set in the control parameter setting step (S30) According to the light irradiation wavelength set automatically at), a light irradiation control signal is generated and transmitted to the light irradiator 100, and accordingly, the light irradiator 100 is driven to irradiate light from the light irradiation electrode unit 110 ( S71).

That is, in addition to the light irradiation wavelength automatically set by selecting a disease name, when the user finishes setting the light irradiation intensity, the light irradiation time, and the light irradiation pattern, and the 'Start light treatment' button is selected, the user inputs the light irradiation control parameter. The values are executed in batches to start phototherapy.

In the light irradiation stop determination step, it is determined whether the 'light irradiation stop' button is selected (S72), if the 'light irradiation stop' button is selected, go to the light irradiation end step (S75).

In the step of determining whether the light irradiation time is terminated, if the 'light irradiation stop' button is not selected in the light irradiation stop determination step (S72), by using a timer or a counter, it is determined whether the light irradiation time has ended, If not, the process returns to the step of determining whether to stop the irradiation of light (S72).

At the end of the irradiation, the irradiation, that is, the phototherapy is terminated, and the values input to the control parameters, that is, the irradiation wavelength, the irradiation intensity, the irradiation time, and the irradiation pattern are initialized (S75).

That is, when the 'stop irradiation' button is forcibly selected by the user during the phototherapy, go to the end of the phototherapy (S75), the phototherapy is terminated, the irradiation wavelength, irradiation intensity, irradiation time and irradiation pattern The value entered in is initialized. In another case of termination, the light treatment is automatically terminated when the selected irradiation time is reached, and the values input to the irradiation wavelength, irradiation intensity, irradiation time and irradiation pattern are initialized.

As a light irradiation end notification step, after the light irradiation end step (S75), the fact that the light irradiation is finished is presented to the user as an alarm (S77). That is, an alarm provided to the user at the end of light irradiation is presented to the user through any one of sound, vibration, or popup.

In the treatment result self-evaluation step, after the irradiation end notification step (S77), the treatment result self-evaluation and storage module unit 359 is driven, the treatment result self-evaluation (question) item is displayed on the screen, the user, By selecting an answer for each treatment result self-assessment item, scores are given for each item, and these scores are summed to be a treatment result self-assessment score, the answer for each item, and score for each treatment result self-assessment item. In addition, the treatment result, the self-evaluation sum score, and the like are transmitted to the main server 400 together with the number of the light irradiator 100 and stored in the database 500 for each light irradiator 100 (S81). In addition, each treatment result self-assessment item scores, treatment result self-assessment sum total scores, etc., the daily unit, weekly unit, monthly unit statistical processing. The treatment outcome self-evaluation (question) section is based on internationally standardized disease surveys.

That is, the treatment result self-evaluation and storage module unit 359 may store the treatment result in the input and portable personal communication terminal through the internationally standardized disease questionnaire after the treatment is finished, and at the same time, the ray irradiator registered by the user in a specific server database It is transmitted with the number of 100 and stored.

In the step of determining whether the treatment result is checked, the user determines whether the treatment result view request signal is received by selecting the 'view treatment result' button (S141), and if the treatment result view request signal is not received, ends. .

When the treatment result check request signal is received in the treatment result check determination step (S141), the result obtained in the treatment result self-evaluation step, that is, the answer for each item, the score for each treatment result self-assessment item, The results of treatment self-assessed sums are displayed on the display of the portable personal communication terminal, and can be displayed using one or more of graphs, numbers, and letters. In some cases, statistical data in daily, weekly and monthly units may be displayed. Display (S142). That is, the user may check the state before and after the treatment on the display unit (UI screen) of the portable personal communication terminal by using one or more of graphs, numbers, and letters on a daily, weekly or monthly basis.

FIG. 10 is an example of an initial execution screen, a light irradiator registration screen, and a disease setting screen in a portable personal communication terminal connected to a light irradiator of the present invention, and FIG. 11 provides information on a portable personal communication terminal connected to a light irradiator of the present invention. An example of the screen, Figure 12 is an example of the initial self-diagnosis screen in the portable personal communication terminal connected to the light irradiator of the present invention.

10A is a login screen when the application program for driving the light irradiator of the present invention is executed. If the light irradiator 100 is registered, the user may input the number and password of the light irradiator 100. Enter and log in, and select the 'Cure' button to proceed with the treatment. If the light irradiator 100 is not registered, select the device registration button to register the light irradiator 100.

10 (b) is a UI screen for registering the light irradiator when the application program is executed, the new user selects the device registration button, set the number registration and password of the light irradiator 100, and press the 'Done' button By selecting, the light irradiator 100 is registered.

10 (c) is a UI screen for setting a disease to be treated when the application is executed, a plurality of disease names in the international disease classification code are displayed on the screen, and the user selects a disease to be treated. .

FIG. 11A is a screen displaying information on a low output light irradiation probe attachment position and a method of using the light emitter 100 when the application program is executed.

(B) of FIG. 11 shows information on the intensity of light irradiation, the time of one irradiation, the number of daily radiations, the pattern of light irradiation, and the average treatment period for treating a selected disease, when the application is executed. Is the screen displayed.

FIG. 11C is a screen displaying information on precautions for operating and storing the light irradiator 100 and precautions for treatment when the application program is executed.

12 is an initial self-diagnosis UI screen when the application program is executed, presents a standardized questionnaire about a disease selected by a user according to an international disease classification code, and the user inputs his or her disease state. The '1' button provided at the top of the '10' button is a button for viewing the survey items of each order, Figure 12 of the ten survey items, the sixth questionnaire, the sixth questionnaire content What is the average number of painkillers taken each month during menstruation? And the answer is that the user has chosen 7 to 9 answers. If there is no selection, you can insert a text or number about your condition in the other field. Among the initial self-assessment items may include items according to the dosage of the drug.

FIG. 13 is an example of a screen during treatment in a portable personal communication terminal connected to the light irradiator of the present invention, and FIG. 14 is an example of a treatment result self evaluation screen in a portable personal communication terminal connected to the light irradiator of the present invention.

FIG. 13A illustrates a case where a 'treatment' button is selected on a start screen of treatment, that is, a screen of FIG. 10A, and includes irradiation intensity 710, irradiation time 720, and irradiation The pattern 730 is set, and in the case of FIG. 13A, the irradiation intensity 710 is selected as 'LOW', the irradiation time 720 is 20 minutes, and the irradiation pattern 730 is Set to continuous. The phototherapy start button 740 may be selected to start phototherapy, and the remaining treatment time 700 may be checked during the treatment. In FIG. 13A, since phototherapy is not started, currently 20 minutes remaining.

Figure 13 (b) is the end screen of the treatment, that is, when the phototherapy end button 770 is selected in Figure 13 (a), or when the treatment time has elapsed, the irradiation intensity 710, the irradiation time ( 720, the light irradiation pattern 730 is initialized. After the treatment is finished, select the 'Enter Treatment Results' button 750 to input self-assessment of the treatment results and select the 'View Treatment Results' button 760 to check the treatment results.

Figure 14 (a) is a screen when the treatment results self-evaluation, after the treatment is finished, that is, in Figure 13 (b), if you select the 'input treatment results' button in the treatment results of the graph, letters, numbers The user inputs using the treatment result input screen represented by one or more, and when the save button is pressed, the user is stored in the portable personal communication terminal 300 and stored in the database 500 through the main server 400. The self-assessment item of FIG. 14A includes headache, insomnia, tension (anxiety, anxiety), diarrhea, and the like.

FIG. 14B is an example of a graph in which treatment results are self-evaluated in FIG. 14A and the results are statistically processed. In FIG. 14A, when the input of the treatment result is completed or the view button of the treatment result is selected, the treatment result may be checked according to the treatment result on a daily, weekly or monthly basis as in FIG. 14B. Treatment results are expressed using one or more of graphs, letters, and numbers.

15 is an example showing user information stored in a database in a driving system of a portable personal communication terminal based low power light emitter of the present invention.

The user database shows the state before and after the treatment by device number, such as the device number and age input when the user newly registers the device.

Although the portable personal communication terminal control method connected to the low power light irradiator according to the present invention has not been described in detail herein with reference to the drawings, the light irradiator 100 is connected to the portable personal communication terminal 300 to perform low output light therapy. By doing so, there are a lot of diseases capable of treating such low power light. For example, the driving system of the portable personal communication terminal based low power light irradiator of the present invention, arthritis treatment device, Alzheimer's treatment device, stroke treatment device, migraine treatment device, depression treatment device, angina treatment device, asthma treatment device, COPD, pain treatment device, gastritis and gastric ulcer treatment device It can be applied to prostate treatment, urinary incontinence treatment, prostate treatment, infertility treatment, carpal carpal syndrome treatment, premenstrual syndrome treatment, edema treatment.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains can make various changes without departing from the spirit of the technical idea of the present invention described in the claims below. It could be done.

The present invention relates to a method for controlling a portable personal communication terminal connected to a low power light irradiator, the treatment of specific body parts or internal organs connected to acupuncture points and the peripheral nervous system in the field of oriental medicine or alternative medicine, treatment of pain or inflammation, Applied to the prevention and treatment of stroke and dementia.

Claims (12)

1. A light irradiator for mounting at one end a light irradiation electrode having a light source at an inner central portion thereof; A portable personal communication terminal comprising any one of an earphone terminal, a USB terminal, or a charging terminal, which is connected to the other end of the light irradiator to control the wavelength, light intensity, and light irradiation time of the light irradiator. In a drive system of a communication terminal based light emitter,

   After the user's treatment using the light irradiator is finished, each treatment result self-evaluation item previously stored in the database is transmitted to the portable personal communication terminal, and a score for the response of each treatment result self evaluation item is received from the portable personal communication terminal. A drive system for a portable personal communication terminal based light emitter, further comprising a main server.
2. The method of claim 1,

   The portable personal communication terminal is a driving system of the portable personal communication terminal based light emitter, characterized in that the sum of the points for the response of each treatment result self-assessment, and transmits to the main server as the score of the self-evaluation result.
3. The method of claim 1,

   The portable personal communication terminal uses the number of the light irradiator to register the light irradiator to the main server, wherein the portable personal communication terminal based light irradiator is driven.
4. The method of claim 3,

   The main server receives, from the portable personal communication terminal, the disease name selected by the user, and light irradiation control parameters including the light intensity signal and the light irradiation time signal set by the user, and stores them in a database. Personal communication terminal based light irradiator drive system.
5. The method of claim 4, wherein

   Portable personal communication, characterized in that for transmitting each of the initial self-assessment items previously stored in the database to the portable personal communication terminal, and stores a score for the response of each initial self-assessment item from the portable personal communication terminal to the database through the main server. Driving system of terminal based light irradiator.
6. The method of claim 2,

   The portable personal communication terminal statistically processes the score for the response of each treatment result self-assessment item or the score of the self-assessment on a daily, weekly or monthly basis, and displays the result in graphs, texts, and images. The driving system of the portable personal communication terminal based light emitter.
7. The method according to any one of claims 1 to 6,

   The portable personal communication terminal is a drive system for a portable personal communication terminal based light emitter, characterized in that for controlling the light pattern of the light irradiator.
8. The method of claim 7, wherein

   The light irradiator includes any one of a pulse width modulation (PWM) module or a DA converter.
9. The method of claim 7, wherein

   The portable personal communication terminal includes a pulse width modulation (PWM) module or a DA converter.
10. A light irradiator for mounting at one end a light irradiation electrode having a light source at an inner central portion thereof; Any one of the earphone terminal, the USB terminal, or the charging terminal is connected to the other end of the light irradiator, the portable personal communication terminal for controlling the wavelength, light intensity, light irradiation time and light irradiation pattern of the light irradiator; In the method of driving a portable personal communication terminal based light emitter comprising:

    A light irradiation start step of driving the light irradiator by the light irradiation control signal received from the portable personal communication terminal;

    After the light irradiation start step, if the 'light irradiation stop' button is selected or the light irradiation time is finished, the operation of the light irradiator is terminated, the portable personal communication terminal displays the treatment result self-assessment item on the screen, A treatment result self-assessing step of reading a score for an answer of each selected treatment result self-assessment item, and storing a score for an answer of each treatment result self-assessment item in a database through a main server;

    The portable personal communication terminal may be configured to statistically process the score for the answer of each treatment result self-assessment on a daily basis, weekly basis or monthly basis, and display the result in a graph, text, or image;

    Method of driving a portable personal communication terminal based light emitter, characterized in that consisting of.
11. The method of claim 10,

    Before the light irradiation step, the portable personal communication terminal stores the control parameters including the light irradiation intensity, the light irradiation time and the light irradiation pattern set by the user to the main server for storing in the database;

    The method of driving a portable personal communication terminal based light emitter, characterized in that further comprising.
12. The method of claim 11,

    Before the control parameter setting step, the portable personal communication terminal includes: a light irradiator registration step of registering the light irradiator with the main server by using the number of the light irradiator;

    The main server receives a disease name selected by the user from the portable personal communication terminal, and stores the disease name in a database;

    The method of driving a portable personal communication terminal based light emitter, characterized in that further comprising.

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