KR20170023604A - An Apparatus for Treating Urinary Incontinence and Dysmenorrhea with a Managing Structure based on Web Server and a Method for Controlling the Same in Managing an Exercise of Health Improvement - Google Patents

Abstract

The present invention relates to an apparatus for treating urinary incontinence or dysmenorrhea that has a web-based management structure and a method for controlling a treatment apparatus for web-based health enhancement exercise management and, more particularly, to a urinary incontinence or dysmenorrhea treatment apparatus managed in a treatment process based on web server management and an apparatus for treating urinary incontinence or dysmenorrhea that has a web-based management structure and a method for controlling a treatment apparatus for web-based health enhancement exercise management allowing health management to be performed at the same time as urinary incontinence or dysmenorrhea treatment based on web server management. The apparatus for treating urinary incontinence or dysmenorrhea that has the web-based management structure includes: a stimulus generating unit (24) generating a pulse-type microcurrent in electrode units (22a, 22b) that can be brought into contact with the human body; a detection unit (25) capable of detecting bioinformation resulting from an operation of the stimulus generating unit (24) including pressure with respect to the contact between the human body and the electrode units (22a, 22b); a control unit (35) controlling the operation of the stimulus generating unit (24) based on operation data generated based on information transmitted from the detection unit (25); and communication means capable of communicating with a smartphone (12) based on the control by the control unit (35). The operation data is stored by an operation application installed on the smartphone and the operation data is generated in advance in the web server or is generated in the operation application.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for controlling a urinary incontinence or menstrual pain treatment apparatus and a therapeutic apparatus for managing a health promotion exercise for a web based web structure, an Exercise of Health Improvement}

The present invention relates to a method for controlling a urinary incontinence or menstrual pain treatment apparatus and web-based health reinforcement exercise management system in a web-based management structure, and more particularly, to a urine incontinence or menstrual pain treatment apparatus, The present invention relates to a web-based management structure for managing urinary incontinence or menstrual pain, and a control method for a web-based health reinforcement exercise management system.

Urinary incontinence refers to the occurrence of urinary incontinence, which is a discharge of urine, regardless of its own will. It does not pose a threat to life itself, such as tumors or other consumable diseases, but it can lead to discomfort in life, The disease. The menstrual cramps can be divided into primary dysmenorrhea with periodic pain during menstruation and secondary dysmenorrhea associated with intraperitoneal pathologic changes without special symptoms in the pelvis, which are common gynecological symptoms in women of childbearing age. And menstrual pain or dysmenorrhea can be divided into primary dysmenorrhea, which occurs periodically without any symptoms, and secondary dysmenorrhea, which is associated with pathological changes in the pelvis.

Urinary incontinence may be treated by methods such as medication, bladder training, pelvic floor exercises or surgery, depending on the cause, and analgesics, hormone therapy, saliva, percutaneous electrical nerve stimulation therapy or pathological treatment are used for menstrual cramps. Alternatively, surgical tools can be used to treat urinary incontinence or menstrual cramps. And various forms of surgical tools are known in the art. Menstrual pain can be relieved by analgesics, or acupuncture or electrical nerve stimulation can be applied as a non - medical treatment method. If urinary incontinence or menstrual cure is not done surgically, it is beneficial to have health care together with treatment. Various techniques for the treatment of urinary incontinence are known and methods of health management by web servers are known in the art.

Patent Document No. 10-2004-0108435 discloses a vaginal insertion electrode assembly having an elongated cylindrical body having a pair of electrodes formed on an outer circumferential surface thereof and a remote controller for controlling the electrode assembly, A microprocessor for generating a control signal for controlling an electric stimulation signal, a stimulation signal generating means for generating an electric stimulation signal in accordance with a control signal of the microprocessor, and a controller for supplying power to the microprocessor and the stimulus signal generating means And the remote controller controls the operation of the electrode assembly by transferring the user input to the electrode assembly.

International Publication No. WO 2002/26160 discloses an incontinence device which meets the need for an effective urinary incontinence device that can be purchased without a prescription in view of the general disadvantages of a non-prescription urinary incontinence device, and is intended to be handled by a consumer, To meet the requirements for the device. To meet this need, the prior art includes an elastic member having a generally trapezoidal shape and a non-absorbent core structure having a first end and a second end, wherein the core structure has a first end and a second end that are substantially And the core structure includes two or more folds therebetween to form a general M-shaped profile, and at least two folds are formed on the first fold and the second edge adjacent to the first edge, Wherein the elastic member includes an adjacent second folded portion, the elastic member being in contact with the core structure and positioned between the first folded portion and the second folded portion.

Patent No. 10-2013-0082698 discloses an alarm and reaction rule management module for generating an alarm rule based on clinical information of a patient collected from a hospital server and health information of a patient collected from a personal health record server; And monitoring health information or clinical information of the patient collected from the personal health record server and generating an alarm when the monitored health information or clinical information corresponds to the alarm rule set in the alarm and reaction rule management module And an alarm generating module for generating an alarm.

Since the urinary incontinence or menstrual pain treatment apparatus has a structure worn on the human body, it is advantageous to be controlled by radio. Discloses urinary incontinence devices that are remotely treated in the prior art or known incontinence or menstrual cure apparatus and are treatable without separate prescriptions. However, it does not disclose a urinary incontinence or menstrual cure treatment device managed by a management server capable of providing various information for health care without causing pain and setting an appropriate operation for each individual. In addition, the present invention does not disclose a health management method in which health care is simultaneously performed during the treatment of incontinence or menstrual pain.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Publication No. 10-2004-0108435 (published by MCube Technology, Inc. on Dec. 24, 2004) Remote-controlled electric stimulator for urinary incontinence treatment Prior Art 2: WO 2002/026160 (KIMBERLY-CLARK WORLDWIDE, INC., Published Apr. 04, 2002) Urinary incontinence device and manufacturing method thereof Prior Art 3: Open Patent No. 10-2013-0082698 (published by Electronics and Telecommunications Research Institute, July 22, 2013) Healthcare server and its operation method

An object of the present invention is to provide a web-based management system for managing urinary incontinence or menstrual pain and a web-based health reinforcement exercise management system in which an operation method is set based on treatment information stored in a web server, And to provide a method for controlling the therapeutic device.

According to a preferred embodiment of the present invention, a urinary incontinence or menstrual pain treating apparatus of a web-based management structure includes: a stimulation generating unit for generating a pulse-like minute current in a human-accessible electrode unit; A detection unit capable of detecting the biometric information according to the operation of the stimulus generation unit including the pressure for contact with the human body in the electrode unit; A control unit for controlling the operation of the stimulation generating unit based on the operation data generated based on the information transmitted from the detection unit; And communication means capable of communicating with a smartphone in accordance with the control of the control unit, wherein the operation data is stored by an operation application disposed in a smart phone, and the operation data is generated in advance in a web server, do.

According to another preferred embodiment of the present invention, a health class is set in the web server based on detection information of the detection unit, and the health class is displayed on the smart phone.

According to still another aspect of the present invention, there is provided a method of controlling a medical treatment device for managing a web-based health reinforcement exercise, comprising: registering a user of the treatment device in a web server; Downloading an operating application from the web server to the smartphone; Registering a treatment device operated by the operation application with the web server; Establishing an interaction between the web server and the treatment device by the smartphone; Generating and storing operational data by the operational application or at the web server; The treatment device being actuated by an actuation application; Receiving detection information by the operational application; A risk element is analyzed in the operation application or the web server by the detection information; Updating the operational data according to the analysis result of the risk factor; Activating the treatment device according to the updated operation data, collecting new detection information, and transmitting the new detection information to the web server; Determining a health level based on the new detection information in the web server; And displaying the health information on the smartphone.

The treatment device according to the present invention operates by the operation method generated in the web server, thereby effectively operating the treatment device. In addition, the treatment is performed based on various treatment information so that an abnormal symptom that may occur during the treatment can be detected early. The treatment device according to the present invention allows the treatment process to be managed in the web server, so that the treatment can be performed simultaneously with the health care. In addition, the treatment apparatus according to the present invention enables the health state to be checked while allowing the urinary incontinence, such as urinary incontinence, to be alleviated or treated through activation of biological activity by stimulation of micro currents.

1 illustrates an embodiment of a connection structure between a web-based incontinence or peniillosis treatment device and a web server according to the present invention.
FIG. 2 shows an embodiment of a device for treating urinary incontinence or menstrual pain according to the present invention.
FIG. 3 shows an embodiment of an operating structure of a urinary incontinence or cramp apparatus according to the present invention.
4 shows an embodiment of an operating application of a urinary incontinence or cramp apparatus according to the present invention.
FIG. 5 shows an embodiment of a method for controlling a therapeutic device for managing a web-based health reinforcement exercise according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, The urinary incontinence therapy device according to the present invention can generate micro currents of less than 1000 ㎂ which are known to generate stimuli which are beneficial for physiological activity when flowed through the human body. For example, 40 ~ 60 흐 flowing for signal transmission between each organ in the human body corresponds to a kind of micro current. In the present specification, the microcurrent can be generated in a pulse form, and the microcurrent can flow through the human body in a form that can be controlled by a power supply device such as a battery capable of generating electric power. And this can have a beneficial effect on the internal physiological activity of the human body.

The incontinence or menstrual pain treatment apparatus according to the present invention may have a material and shape that can be inserted into a woman's vagina. The material or shape of the urinary incontinence or menstrual pain treatment device may be made to a level that can have any shape that is medically acceptable, and the present invention is not limited by the material or shape of the urinary incontinence or menstrual cure.

The treatment device according to the present invention includes a stimulation generating unit for generating pulse-shaped micro currents in an electrode unit capable of being in contact with a human body; A detection unit capable of detecting the biometric information according to the operation of the stimulus generation unit including the pressure for contact with the human body in the electrode unit; A control unit for controlling the operation of the stimulation generating unit based on the operation data generated based on the information transmitted from the detection unit; And communication means capable of communicating with a smartphone in accordance with the control of the control unit, wherein the operation data is stored by an operation application disposed in a smart phone, and the operation data is generated in advance in a web server, do.

Hereinafter, the operation and structure of the urinary incontinence or cramp apparatus according to the present invention having such a structure will be described in detail.

1 shows an embodiment of a connection structure between a web-based urinary incontinence or peniillatosis treatment device 11 and a web server 13 according to the present invention.

Referring to FIG. 1, a treatment device 11 capable of generating a minute current may be connected to the smartphone 12 so as to enable NFC such as Bluetooth or Wi-Fi. The therapeutic device 11 can be controlled to be operated by the smartphone 12 and the information detected in the course of operation of the therapeutic device 11 can be transmitted to the smartphone 12 via the detection unit. The therapeutic device 11 can also be operated by the remote controller 14. [ For example, the therapeutic device 11 and the remote control 14 can be connected via Bluetooth, and the operation of the therapeutic device 11 can be controlled by the remote control 14. [ The user U can control the operation of the treatment device 11 with the smartphone 12 or adjust the operation of the treatment device 11 by the remote controller 14. [ If the therapeutic device 11 is activated by the remote control unit 14, a signal indicating that the smartphone 12 is being operated by the remote control 14 when it is connected to the therapeutic device 11 may be transmitted. The smartphone 12 may have the dangerous forced termination function when the therapeutic device 11 is in the operating state by the remote control 14. [ The operation of the therapeutic device 11 can be stopped if it is judged that a danger may occur according to information transmitted from a detection unit including, for example, an excessive time period or from a detection unit including a temperature sensor, a leakage current sensor or a pressure sensor. Further, the operation control of the remote controller 14 is stopped by the smartphone 12, and the therapeutic device 11 can be operated on the smartphone 12. [ In this way, it can be set by the smartphone 12 so that simultaneous adjustment by the remote controller 14 and the smartphone 12 can not be performed. The user U can control the operation of the therapy device 11 through either the remote controller 14 or the smartphone 12. [

The treatment device 11 can have an internal battery as a power source inside and can be connected to the charging unit 15. The charging unit 15 may be, for example, a wireless charging type or a wire charging type. If the therapeutic device 11 is in a charged state, the operation by the remote controller 14 is stopped. The charging information can be transmitted to the smartphone 12 and the charging level can be transmitted to the smartphone 12 when the therapeutic device 11 is in the charging state. The smartphone 12 can set the operation lock state for the remote controller 14 when a charging signal is received from the treatment device 11. [ For example, when the therapeutic device 11 is operated by the remote controller 14 in the wireless charging process, a dangerous situation may occur, and the operation lock setting by the smartphone 12 may prevent such a danger.

The smartphone 12 can be connected to the web server 13 and download the operation application for the operation of the treatment device 11 from the web server 13. [ And the operating application may be installed in the smartphone 12 or the treatment device 11. [ The web server 13 may be a dedicated server associated with the therapy apparatus 11 and the user U may be registered as a user of the web server 13 as necessary. The user U, the treatment device 11, and the smartphone 12 may be registered in the web server 13. Accordingly, the personal health management database 131 for the user U can be created in the web server 13. Therapeutic history for the user (U) can be stored in the individual management database, and appropriate operational data can be created in the current state. And the operation data can be transmitted to the smartphone 12. [ However, when the operating application is installed in the smartphone 12, the management database itself is created in the smartphone 12, and the operating data can be generated based on the management database. The smartphone 12 can access the web server 13 and receive related data as needed.

When the operation application is installed in the smartphone 12, the treatment device 11 can be registered in the smartphone 12, and the management database can be created in the smartphone 12. [ A treatment history for the user U can be stored in the management database, and operational setting data for setting the operating state of the treatment device 11 can be stored. The operation setting data can be updated according to the treatment history. The medical care history is continuously transmitted to the web server 13 as needed and the web server 13 stores the transmitted medical history in the health management database 131. In addition, Data can be determined and transmitted to the smartphone 12. The health management database 131 can check an individual's health condition based on detection information transmitted in a treatment process of the treatment device or health related detection information installed in the smartphone 12. [ For example, an individual's health level can be determined based on current body temperature, exercise, blood pressure, pulse level, body temperature change due to microcurrent stimulation in the course of treatment, or other information. And the health level may be transmitted to the smartphone 12 and displayed on the health class display window 121. [ The health rating display window 121 may have a function of indicating a risk level of an individual's physical condition. The detection information can be analyzed and if the current individual's health is at a specific disease or risk level, it can be notified through the health rating display window 121. The health management database 131 may have a function of managing the personal health collectively based on the human body information obtained at the same time as storing the treatment history.

The user U may access the web server 13 or via the smartphone 12 to obtain information related to incontinence, menstrual cramps or other diseases and to ascertain his treatment status. The user U can also access the web server 13 or via the smartphone 12 to request professional counseling related to the treatment, or transfer his / her status to obtain professional advice related to treatment.

As described above, according to the present invention, the treatment device 11 can be operated on the basis of the operation application installed on the smartphone 12 or by being connected to the web server 13, 11) to ensure the safe use of the treatment while enhancing the effectiveness.

FIG. 2 shows an embodiment of a device for treating urinary incontinence or menstrual pain according to the present invention.

2, the urinary incontinence treatment device 11 includes an insertion housing 21 in which a stimulation generating unit 24 is accommodated; And plate-shaped electrode units 22a and 22b disposed on the surface of the insertion housing 21 for transferring micro currents to the human body. A stimulus generating unit (24) for generating a pulse-like minute current in the insertion housing (21); A detection unit (25) for detecting a stimulation state; And a battery 26 for power supply. In addition, the sensing electrodes 23a and 23b may be disposed at appropriate positions on the circumferential surface of the insertion housing 21. [ The insertion housing 21 can be made of a suitable shape and material that can be inserted into the vagina of a woman and the electrode units 22a and 22b can be made to contact the human body with the insertion housing 21 inserted . The electrode units 22a and 22b may be arranged to extend along the longitudinal direction of the insertion housing 21 with a constant width on the outer peripheral surface of the insertion housing 21. [ The electrode units 22a and 22b can be formed in a plate shape so as to face each other and can be formed so as to increase the number of possible human contact parts. The electrode units 22a and 22b may be connected to the stimulus generating unit 24. [

The stimulus generation unit 24 can generate a minute current in the form of a pulse to flow through the human body by the electrode units 22a and 22b. The magnitude of the generated fine current can be controlled, and the pulse generation period can be adjusted. And the voltage may be reversed in the electrode units 22a and 22b. Specifically, the voltage may be reversed for a predetermined period of time after the pulse of a predetermined magnitude is generated for a predetermined period of time at a predetermined period. And the direction of current flow in the electrode units 22a and 22b can be changed by voltage inversion. Thereafter, a constant-sized pulse can be generated again at a predetermined cycle.

Each of the sensing electrodes 23a and 23b may be formed to be in contact with the human body and may be arranged in a plate shape or other appropriate position on the circumferential surface of the insertion housing 21 like the electrode units 22a and 22b. The current flowing through the sensing electrodes 23a and 23b can be controlled in two ways. First, the sensing electrodes 23a and 23b are controlled so that a relatively large microcurrent flows through the electrode units 22a and 22b as compared with the microcurrent flowing through the electrode units 22a and 22b. And the current flowing through the sensing electrodes 23a and 23b may be opposite to the flow of the minute current. By the flow of current through the sensing electrodes 23a and 23b in this manner, the user senses that the urinary incontinence treatment device is in an operating state. For this purpose, the current flows through the sensing electrodes 23a and 23b intermittently or irregularly. The sensing electrodes 23a and 23b may be disposed at various positions of the insertion housing 21 and the present invention is not limited to the embodiments shown.

The state of the human body can be detected before or during the operation of the treatment device 11, and the detection unit 25 can be disposed inside the insertion housing 21 for this purpose. The temperature, humidity, leakage current, or pressure can be detected by the detection unit 25. And the detection information detected by the detection unit 25 is transmitted to the smart phone and can be used for the formation of the operational setting data. It can also be used as a tool for verifying the abnormality of the body or the therapeutic effect. Various sensors for detecting the state of the body can be disposed in the insertion housing 21 and the present invention is not limited to the embodiments shown.

As described above, the treatment device 11 may be operated by a battery 26, and the battery 26 may be a rechargeable secondary battery. A charging tap for wireless charging or wireless charging of the battery 26 may be disposed under the insertion housing 21. The arrangement, structure, or charging of the battery 26 can be done in various ways, and the present invention is not limited to the embodiments shown.

The treatment device 11 may be operated by an operation application while being started by a switch. A control unit can be installed inside the treatment device 11, and a plurality of operation data can be stored. And, when the switch is operated, the treatment device 11 can be activated based on the operation data, and connection with the smartphone can be detected. If a smartphone is detected, relevant information can be sent to the smartphone. On the other hand, if the smartphone is not detected, it is operated according to preset conditions, and the result data according to the operation can be stored. The resultant data may include, for example, information about applied operating data, operating time, human body information during operation, and whether or not result data is transmitted. When the therapeutic device 11 is connected to the smartphone, the result data may be transmitted to the smart phone and stored in the management database.

The microcurrent is of a size that helps the body's physiological activity without damaging the human body. However, due to an operation error of the urinary incontinence treatment device 11, a current of a magnitude that can damage the human body may temporarily flow. Therefore, there is a need for a means capable of preventing an excessive amount of current from flowing temporarily.

2B, the electrode units 22a and 22b may be composed of conductive layers 221a and 221b and elastic layers 222a and 221b, and the conductive layers 221a and 221b and the elastic layer 222a 222b may be provided with a plurality of connection terminals 223a, 223b. The plurality of connection terminals 223a and 223b may be connected to the stimulation generating unit 24 through one of the distribution terminals 225a and 225b. The sensing electrodes 23a and 23b may be independently connected to the stimulation generating unit 24 or may be connected to the stimulation generating unit 24 in a structure similar to the electrode units 22a and 22b. The stimulus generating unit 24 may include a control unit capable of adjusting the generation current or voltage magnitude.

The conductive layers 221a and 221b may be in a plate shape extending in a curved shape and the elastic layers 222a and 222b may be bonded to the conductive layers 221a and 221b with an elastic material having elasticity to form conductive layers 221a and 221b In the vertical direction. The conductive layers 221a and 221b may be formed so as to be vertically movable with respect to the elastic layers 222a and 222b. A plurality of pressure sensors may be installed in the elastic layers 222a and 222b and pressure of different parts of the conductive layers 221a and 221b may be measured and transmitted to the smartphone. The plurality of connection terminals 223a and 223b can be made to pass through the elastic layers 222a and 222b from the lower surfaces of the conductive layers 221a and 221b. The plurality of connection terminals 223a and 223b and the conductive layers 221a and 221b may be integrally formed and the through holes through which the plurality of connection terminals 223a and 223b are inserted into the expansion and contraction layers 222a and 222b, And the conductive layers 221a and 221b may be fixed to the elastic layers 222a and 222b. A plurality of connection terminals 223a and 223b may be formed in each of the conductive layers 221a and 221b and a plurality of connection terminals 223a and 223b may be connected to one distribution terminal 225a and 225b. And the distribution terminals 225a and 225b may be connected to the stimulus generating unit 24. [ A plurality of connection terminals 223a are formed in the first conductive layer 221a and a plurality of connection terminals 223a connected to the first conductive layer 221a are connected to the stimulation generating unit 24 through the first distribution terminal 225a. Lt; / RTI > A plurality of two connection terminals 223b connected to the second conductive layer 221b may be connected to the stimulus generating unit 24 through the second distribution terminal 225b. By connecting the conductive layers 221a and 221b by the distribution terminals 225a and 225b and the plurality of connection terminals 223a and 223b as described above, charges are temporarily transferred to specific portions of the conductive layers 221a and 221b Concentration can be prevented. Further, by measuring the pressure applied to the elastic layers 222a and 222b, the pressure applied to the human body by the conductive layers 221a and 221b can be measured and adjusted.

The sensing electrodes 23a and 23b can be independently connected to the stimulus generating unit 24 and the pulse generation period or pulse size by the sensing electrodes 23a and 23b can be predetermined or set by a smart phone or a remote control . The sensing electrodes 23a and 23b may be formed to have a similar structure to the electrode units 22a and 22b but one connection terminal 223 may be directly connected to the stimulation generating unit 24. [

The pressure at which the electrode units 22a and 22b are brought into contact with the human body in the treatment device 11 according to the present invention can be adjusted. By controlling the pressure in contact with the human body, the inner muscle is strengthened, and the flow of the microcurrent pulse is smooth during the treatment. The electrode unit 22a, 22b or the sensing electrodes 23a, 23b can be made into a plate structure having a large contact area with the human body, while the insertion housing 21 is formed in a shape favorable to the human body surface of the insertion site. The contact pressure of the electrode units 22a and 22b or the sensing electrodes 23a and 23b is measured by the contact pressure adjusting unit 27 while the contact pressure of the electrode units 22a and 22b or the sensing electrodes 23a and 23b is Lt; / RTI > Specifically, the conductive layers 221a and 221b may be made to move relative to the elastic layers 222a and 222b. The expansion and contraction layers 222a and 222b are fixed to the inner frame and the movement of the conductive layers 221a and 221b can be induced by increasing the volume of the elastic layers 222a and 222b. Alternatively, the volume change layer 281 may be disposed between the conductive layers 221a and 221b and the elastic layers 222a and 222b. The volume-varying layer 281 can be made in a closed structure and can have a gas-filled structure inside. The internal gas may have a large change in volume with respect to temperature and the movement of the conductive layer 221a may be induced by adjusting the internal temperature by the contact pressure regulating unit 27. [ The volume of the volume-varying layer 281 may be changed by inducing gas movement between the contact pressure regulating unit 27 and the volume-varying layer 281, so that the movement of the conductive layer 221a may be induced. Alternatively, the movement of the conductive layer 221a may be induced by making the volume-varying layer 281 or the conductive layer 221a temporarily have the same or different magnetic properties, for example, the structure of the solenoid valve . The movement of the conductive layer 221a may be restricted by the stopper 282 formed at the end of the connection terminal 223a. The contact pressure regulating unit 27 can transmit the pressure measured during the operation of the therapeutic device 11 to the smartphone. The human body contact pressure of the conductive layers 221a and 221b can be adjusted according to the operation of the operation application installed in the smartphone.

Contact pressure control can be made in a variety of ways and the invention is not limited to the embodiments shown. Also, the electrode units 22a and 22b or the sensing electrodes 23a and 23b can be formed in various structures as well.

FIG. 3 shows an embodiment of the operating structure of the urinary incontinence or pornography apparatus 11 according to the present invention.

Referring to FIG. 3, various detection units, including the electrode unit 22, may be disposed in the treatment device 11. FIG. For example, the detection unit may include a temperature sensor 311 for detecting the operating temperature, a pressure sensor 312 for measuring the pressure applied to the human body by the electrode unit 22, and a humidity sensor 313 for measuring humidity . In addition, the detection unit may include a leakage current detection unit. The pressure sensor 312 can measure the pressure inside the treatment apparatus 11 or the pressure applied to the human body by the electrode unit 22 and can measure the pressure of the conductive layer described above, for example.

Detection information detected by the temperature sensor 311, the pressure sensor 312, and the humidity sensor 313 may be periodically transmitted to the state detection unit 33. [ The status detection unit 33 can process and classify the detection information and send it to the control unit 35 and the control unit 35 can transmit the detection information to the management database 38 of the web server via the communication means. The management database 38 can check the safety of the operation data for the treatment device 11 based on the transmitted detection information and transmit new operation data to the control unit 35 as necessary. The control unit 35 transmits the received new operation data to the operation database 34. [ The operation database 34 can verify the validity of the new operation data and transmit it to the operation unit 32 and the operation unit 32 can operate the treatment apparatus 11 according to the new operation data.

The web server 13 includes a management database 38 for managing data associated with the operational application of the smartphone 12; A health management database 131 and an information storage unit 39 for managing the operation process of the treatment device 11 or information related to personal health transmitted from the smartphone 12. [ Operational data for controlling the operation of the device in the management database 38 may be generated and the operational data may be transmitted to the smartphone 12 and stored in the operational database 34. [ The health management database 131 may generate appropriate personal status information based on the human body information and activity information of the individual and may transmit the personal status information to the management database 38. [ The management database 38 may generate operational data based on the information transmitted from the health management database 131. [ The operation data, the treatment history, the personal body information, or the personal activity information generated in the management database 38 may be stored in the information storage unit 39. [ The health check unit 36 can determine whether or not the personal health is abnormal based on the information stored in the information storage unit 39. [ And the judgment result may be transmitted to the health management database 131. [ The health management database 131 may determine the personal health level based on the result of the determination by the health check unit 36 and transmit the personal health rating to the smartphone 12. The health rating can be displayed in the health rating display window 121 of the smartphone. The health class display window 121 can display the health class in various ways according to the health class, and can warn the danger level as needed.

It can be transmitted to the control unit 35 in the state of the battery 26 built in the treatment device 11 and can inform the user whether or not the battery 26 is charged according to the state of the battery 26. [ The pressure information detected by the contact pressure regulating unit 27 can also be transmitted to the state detecting unit 33. [ And the operating data can be appropriately modified in accordance with the information detected by the contact pressure regulating unit 27. [

The treatment device 11 can detect various human body detection information and transmit it to the web server 13 via the smartphone 12 and the web server 13 checks the health state of the individual based on the transmitted detection information You can tell the user. This can improve the reliability of the treatment.

Fig. 4 shows an embodiment of an operating application of an incontinence or peniillus treatment device 11 according to the present invention.

Referring to FIG. 4, the treatment device 11 may be a bar shape having a curved peripheral surface as a whole, and a handle 211 having a stopper function may be provided at a lower portion thereof. A contact pressure adjusting unit 27 may be provided as required. As described above, the contact pressure regulating unit 27 can detect the pressure inside the treatment apparatus 11 and at the same time, it can have a function of regulating the pressure which is in contact with the body of the electrode unit 22a. The contact pressure regulating unit 27 can adjust the contact pressure in such a manner as to induce the up and down movement of the electrode unit. The up and down movement of the electrode unit 22a may be performed by, for example, an air injection method or a stimulation generation method.

The control screen 41 can be created on the smartphone by the operation application, and the control screen 41 can be operated on the touch manner. The control screen 41 may be created, for example, in the form of a browser, and may be set to operate as hidden or back-ground. The control screen 41 may include operation switches (ON and OFF) 412, a stimulus setting slider 42, a stimulus size display button 414, and an operation status window 43. [ In addition, an operation level indicating bar 44 may be disposed below the control screen 41. [

An operation remaining display 431, a pressure change period 432 and a pressure display label 433 may be disposed in the operation display window 43. [ The remaining operation time for the time set in the operation remaining indication 431 can be displayed. The pressure change period 432 refers to changing the contact pressure according to the operation of the electrode unit. For example, the electrode unit can be moved up and down at a cycle of 10 seconds or 20 seconds to change the contact pressure. Such pressure changes can induce muscle movement. And the maximum pressure and minimum pressure operated by the electrode unit may be displayed on the pressure indicating label 433. [ In addition, the operation level indicator bar 44 can display the operation time up to the present time for the time when the treatment instrument 11 should be operated in one day. And a health rating display window 121 may be disposed at an appropriate position on the control screen 41. [

The operation result by the operation application can be transmitted to the management database 38 of the web server 13. [ The data stored in the management database 38 can be used as data for managing personal health and can be compared with specialized data. And may be transmitted to the smartphone 12 if an abnormal condition is found. In addition, the health information unit 47 may be installed in the web server 13. The health information unit 47 may have a function of collecting and extracting various health information or health information related to the treatment apparatus 11. [ The information collected and extracted by the health information unit 47 may be transmitted to the health check unit 36 and may be a reference for determining the level of personal health. As described above, the health level determined based on the various health information can be transmitted to the smartphone 12 and displayed on the health level display window 121. [

The control screen 41 can be made in various forms depending on the setting of the operating application and the present invention is not limited to the embodiments shown.

FIG. 5 illustrates an embodiment of a method for controlling a therapeutic device for managing a web-based health reinforcement exercise according to the present invention.

A method for controlling a therapeutic device for managing a web-based health reinforcement exercise according to the present invention includes: registering a user of the therapeutic device in a web server (P51); (P511) the operation application is downloaded from the web server and installed on the smartphone; A step (P52) of registering a treatment device operated by the operation application on the web server; (P53) of establishing an interworking between the web server and the treatment device by the smartphone; (P531) the operation data is generated and stored by the operation application or at the web server; A step (P541) in which the treatment device is actuated by an actuation application; The detection information being received by the operational application (P55); (P56) the risk element is analyzed in the operational application or the web server according to the detection information; Updating the operational data according to the analysis result of the risk factor (P58); A step (P581) of activating the therapeutic device according to the updated operation data, collecting new detection information, and transmitting the new detection information to the web server; Determining a health level based on the new detection information in the web server (P582); And displaying the health information on the smartphone (P59).

The control method according to the present invention controls the operation of the urinary incontinence or peniillosis treatment apparatus by the operation application installed in the smart phone and receives the human body information generated during the operation state and the treatment process of the treatment apparatus to determine an appropriate treatment method . Therapeutic devices can generate pulsed microcurrents and generate sensing currents as needed. The microcurrent refers to a current in the form of a pulse to stimulate human activity of a size smaller than 1000 ㎂, and the sensing current refers to a current that flows intermittently or counterclockwise to the microcurrent. In addition, the treatment device may change the human contact pressure by the electrode unit during operation. The human contact pressure means, for example, changing the pressure against the inside of the vagina of a woman, and can be changed by the up-down movement of the electrode unit having the plate structure. The operation of the therapeutic device includes the generation of micro-currents in the form of pulses, the generation of a stimulating current, or a change in the contact pressure.

A user who desires to use the therapeutic apparatus can access the web server and register it (P51). Then, the user can receive and install the operation application on the user's smartphone (P511). When a smart phone searches for a Bluetooth device, for example, and the therapeutic device is activated, pairing is performed to enable data communication. And data communication relating to the operation of the treatment device is enabled by the operating application. The therapy device can be automatically recognized by the operation application and registered with the smartphone and the web server. Such as a management database, a personal healthcare database or a health check unit, may be created on the web server, and such personal association units may be associated with the user's smartphone and therapy device (P53). Operational data may be generated by the operational application or from the web server and stored in the user's smartphone and treatment device (P531). After that, when the therapeutic device is operated, the operation signal is detected by the smartphone (P54) and it is determined whether the operation application is in the operation start state or the operation state by the operation application (P541). If it is not the operation start state or the operation state (NO), the operation signal search process is continued (P54). On the other hand, if it is in the operating state (YES), human body detection information can be received from the therapeutic device (P55). In addition, the detection information can be sent through Web surveillance and risk factors can be analyzed (P56). It may be determined whether the operational data should be updated according to the analysis result of the risk factor (P561). If it is in a normal state (NO), detection information may be periodically received (P55). If the operational data is to be modified (YES), new operational data may be generated at the web server and received at the smartphone (P57). The operation of the treatment device can be modified by the operation application according to the new operation data, and the related data can be stored (P58). And related information may be transmitted to the web server and stored (P581). The web server may determine a personal health rating based on operational data, detection information, and other health related information (P582). And the determined personal health grade may be transmitted and displayed on a smartphone (P59). An indication of a personal health class includes a hazard sign or an alarm.

As described above, according to the present invention, the operation of the therapeutic device is controlled, and at the same time, the collected information of the human body is appropriately determined so that the health of the individual is managed while the urinary incontinence or the menstrual pain is effectively treated.

The control method according to the present invention can be performed by various methods, and the present invention is not limited to the embodiments shown.

The treatment device according to the present invention operates by the operation method generated in the web server, thereby effectively operating the treatment device. In addition, the treatment is performed based on various treatment information so that an abnormal symptom that may occur during the treatment can be detected early. The treatment device according to the present invention allows the treatment process to be managed in the web server, so that the treatment can be performed simultaneously with the health care. In addition, the treatment apparatus according to the present invention enables the health state to be checked while allowing the urinary incontinence, such as urinary incontinence, to be alleviated or treated through activation of biological activity by stimulation of micro currents.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

11: Therapeutic device 12: Smartphone
13: Web server 14: Remote control
15: charging unit 21: insertion housing
22a, 22b: electrode unit 23a, 23b:
24: stimulus generation unit 25: detection unit
26: Battery 27: Contact pressure regulating unit
32: Operation unit 33: Status detection unit
34: Operation database 35: Control unit
36: health check unit 38: management database
39: information storage unit 41: control screen
42: Stimulus setting slider 43: Operation status window
44: Operation level indicator bar 47: Health information unit
121: health class display window 131: health management database
211: handle 221a: 1 conductive layer
221b: two conductive layers 222a and 222b:
223a: 1 connection terminal 223b: 2 connection terminal
225a: 1 distribution terminal 225b: 2 distribution terminal
281: Volume change layer 282: Stopper
311: Temperature sensor 312: Pressure sensor
313: Humidity sensor 412: Operation switch
414: Stimulus size display button 431: Operation residual indicator
432: pressure change cycle 433: pressure indication label
U: User

Claims (3)

A stimulation generating unit (24) for generating a micro current in the form of a pulse in the electrode units (22a, 22b) capable of human contact;
A detection unit (25) capable of detecting the biometric information according to the operation of the stimulus generation unit (24) including the pressure of the electrode unit (22a, 22b) for human contact;
A control unit (35) for adjusting the operation of the stimulation generating unit (24) based on the operation data generated based on the information transmitted from the detection unit (25); And
And communication means capable of communicating with the smartphone (12) under the control of the control unit (35)
Wherein the actuation data is stored by an actuation application disposed on a smartphone and the actuation data is generated in a web server in advance or in an actuation application. The web-based management system according to claim 1, wherein the web server (13) sets a health level based on detection information of the detection unit (25) and the health level is displayed on the smartphone Structural urinary incontinence or menstrual cure. A method of controlling a therapeutic device for managing a web-based health reinforcement exercise,
Registering a user for the treatment device in a web server;
Downloading an operating application from the web server to the smartphone;
Registering a treatment device operated by the operation application with the web server;
Establishing an interaction between the web server and the treatment device by the smartphone;
Generating and storing operational data by the operational application or at the web server;
The treatment device being actuated by an actuation application;
Receiving detection information by the operational application;
A risk element is analyzed in the operation application or the web server by the detection information;
Updating the operational data according to the analysis result of the risk factor;
Activating the treatment device according to the updated operation data, collecting new detection information, and transmitting the new detection information to the web server;
Determining a health level based on the new detection information in the web server; And
Wherein the health information is displayed on the smartphone.

Images