CN213994178U - Intelligent prostate physiotherapy system - Google Patents

Abstract

The utility model provides an intelligence prostate physiotherapy system, it includes at least one terminal and at least one prostate physiotherapy equipment, wherein every this prostate physiotherapy equipment includes amazing unit at least, wherein this prostate physiotherapy equipment is set up and is linked together with this terminal respectively, wherein this terminal is set up and can be sent control command to this prostate physiotherapy equipment to this amazing unit of control this prostate physiotherapy equipment is predetermine physiotherapy position to user and is applyed an amazing, wherein this amazing is corresponding with this control command.

Description

Intelligent prostate physiotherapy system

Technical Field

The utility model relates to a health care field, in particular to be used for intelligent health care system, including accessible terminal monitoring and control intelligent health care equipment, like intelligent health care equipment to carry out prevention and treatment measures such as prostate rehabilitation training, urinary incontinence rehabilitation training, sexual dysfunction rehabilitation training. The utility model further relates to a prostate physiotherapy system and a control method of physiotherapy equipment thereof.

Background

In modern society, with the change of life form (style), including reduction of exercise amount (or lack of exercise), long-term sitting, and the like, and increase of average life span, health problems such as various civilization diseases, chronic diseases, or physical local function weakness are increasing. Among them, sexual health related diseases, particularly diseases involving anus, prostate, sexual organs, and other discomfort or lesions, are most likely to be averted to a medical practitioner because of a shame psychological (or facial problem). And because the diseases generally do not affect life in a short period of time, the diseases are not treated actively by patients, including no medical treatment, no back-visit according to the period, and the relief of rehabilitation training. However, even though it is not fatal, if the disease is not improved, the quality of life of the patient is low, more importantly, the self-esteem and even the close interpersonal relationship of the patient are damaged, which causes serious mental health problems of the patient, and the disease deteriorates along with time and physiology, thereby further seriously affecting the life of the patient and people around the patient, especially family members.

In order to help such patients to make (get) an effective diagnosis and rehabilitation, there are indeed many physical therapy devices or apparatuses in the prior art for the above mentioned disorders, but unfortunately, such devices or apparatuses have many problems and limitations. First, many conventional sexual health care devices are usually large medical instruments, including measurement terminals, therapeutic devices, display devices, etc., and the device body (itself) is large in volume or must be directly connected to a large instrument to operate, so that most patients can only use the instrument in a few times in hospitals, rehabilitation centers, etc., and it is difficult to continuously monitor or perform rehabilitation training for a long time. Secondly, in the related existing devices, the detecting instrument and the rehabilitation instrument are two separate devices, so that the type or operation (or running) parameters of the rehabilitation instrument cannot be changed and adjusted in real time according to the detection result, and the patient cannot be assisted to perform rehabilitation training better. Thirdly, the measurement result of the existing detection device is limited to be read only at the location of the device, in other words, if the device is located in the medical institution, the patient can only know the measurement result when going to the medical institution, and even if the patient purchases the device by himself or herself and places the device at home, the patient can face the communication transfer and immediate effectiveness even if asking for a doctor to teach the doctor, so that the patient still needs to go to the medical institution to see a doctor regularly, otherwise the patient cannot track the condition for a long time. This causes inconvenience to the patient and even more psychological stress to the patient.

In addition, even a detection or rehabilitation device used in a medical institution is bulky, it has poor computation and processing capabilities, and has a problem that software or firmware thereof cannot be upgraded once the device is shipped. Resulting in medical institutions or individuals who purchase existing test or rehabilitation equipment being forced to spend a fee to replace the equipment at intervals, or to use equipment with known deficiencies in test or physiotherapy modalities or software that are out of date.

Most importantly, existing devices do not establish direct contact between the patient and the medical care, so that the patient cannot be served at home. For patients with mobility inconvenience, traffic inconvenience, limited medical resources in adjacent areas, or lack of free time, in addition to directly causing the patients to pay more time, energy, money, and the like to obtain proper medical services, the willingness of the patients to stay in medical service on schedule is indirectly reduced, thereby affecting the medical effect.

Furthermore, many known rehabilitation exercises can greatly improve the above-mentioned diseases of the patient, for example, the motion of lifting anus can effectively improve the function of anal sphincter, prevent anal relaxation, and simultaneously drive the contraction and relaxation of perineal muscle group, thereby effectively promoting the blood circulation of perineal region, improving the symptoms of prostate diseases such as perineal pain and perianal pain, and relieving prostatitis. However, the existing prostate rehabilitation products usually stimulate the prostate only through electrode plates or vibration massage, so as to achieve the effects of treatment and rehabilitation, and not only lack the measurement and analysis of the prostate and the tracking of a long-term process, but also cannot analyze prostate diseases based on characteristic samples of people, and even cannot assist patients in performing rehabilitation training.

For example, the existing tiber training of the levator ani muscle is quite helpful for the rehabilitation of sexual dysfunction after prostate operation, but the specific position of the muscle and the effect required by training cannot be well understood due to the fact that the patient is difficult to master the action, and the training process usually needs multiple guidance of a doctor and can be gradually mastered through multiple exercises. However, because the kegel exercise is generally completed by the patient at home, the number and quality of the kegel exercise can not be guaranteed without supervision, and the kegel exercise effect cannot be well reflected. In the existing prostate rehabilitation products, although a user can actively perform kegel exercise by using an instrument, the user cannot perform rehabilitation or gradual training through a systematic course, cannot establish connection with a doctor, can perform rehabilitation under the guidance of the doctor, and cannot perform monitoring training by himself or others, so that the final rehabilitation effect is only unsatisfactory for many patients.

Finally, existing healthcare (or rehabilitation) training systems or devices lack the means to collect and analyze patient historical healthcare training data, thereby providing a targeted healthcare training pattern for each specific patient to ensure that the patient achieves the best healthcare training outcome or the best prognosis. Further, the existing health training systems or devices are not capable of providing different types of patients with a targeted health training mode so that the different types of patients can obtain the best health training effect or the best prognosis. SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence health care system, it can communicate (or communicate) one or more intelligent health care equipment, such as intelligent health care equipment through one or more terminals to make this intelligent health care equipment carry out the physiology inspection and feed back the testing result.

Another object of the present invention is to provide an intelligent health care system, which communicates (or communicates) with intelligent health care equipment, terminal and cloud end in a wireless (communication) manner, so that the communication is easier to be realized, the usage restriction is reduced, and the convenience, variation and range of use are improved.

Another object of the present invention is to provide an intelligent health-care device, such as an intelligent health-care device, having a communication unit, so as to communicate with a terminal, a cloud and/or other intelligent health-care devices in one or more wireless manners.

Another object of the present invention is to provide an intelligent health device, such as an intelligent health device, having a sensing unit, which includes one or more sensing modules, so as to perform related physiological detection according to the requirement.

Another object of the present invention is to provide an intelligent health device, such as an intelligent health device, having a stimulation unit, which includes one or more stimulation modules, so as to perform related stimulation as a physical therapy measure.

Another object of the utility model is to provide an intelligence health care equipment, like intelligent health care equipment, its is small, with low costs, the portability reaches is arranged the human body in to improve the convenience in the use, and then increase the user and use the wish and reduce its use threshold.

Another object of the utility model is to provide an intelligent health care system, but its intelligent health care equipment independent operation.

Another object of the present invention is to provide an intelligent health care system, wherein the intelligent health care device can update software or firmware through the terminal or the cloud, and/or update software through the terminal or the cloud to achieve the effect of updating the operation mode or parameters.

Another object of the present invention is to provide an intelligent health care system, which can obtain real-time detection data by means of the communication between the terminal and the intelligent health care device, thereby realizing the effect of continuously monitoring the specific physiological data of the user of the intelligent health care device.

Another object of the utility model is to provide a male intelligence health care system, it can borrow by the high in the clouds and intelligent health care equipment's communication, obtains the measured data to realize the effect of recording, tracking and/or monitoring this intelligent health care equipment user's specific physiological data.

Another object of the present invention is to provide an intelligent health system, which can make the terminal user change or set the operation mode or parameters of the intelligent health device by means of the communication between the terminal and the intelligent health device.

Another object of the present invention is to provide an intelligent health system, which can communicate with and/or guide the terminal user according to the condition of the intelligent health equipment user by means of the communication between the terminal and the intelligent health equipment.

Another object of the present invention is to provide an intelligent health system, which can be used as a communication platform for users at terminals, users of intelligent health equipment, and/or other authorized users to communicate and interact.

Another object of the present invention is to provide an intelligent health device, which can give reward stimulation to its users through the stimulation unit.

Another object of the present invention is to provide an intelligent health system, which can obtain and accumulate data via the cloud end, and analyze, count and/or provide data for research.

Another object of the utility model is to provide an intelligent health care system, it can borrow by high in the clouds and/or the communication of terminal and intelligent health care equipment to through high in the clouds and/or terminal to the real time monitoring and the adjustment of intelligent health care equipment, realize virtual reality's effect.

In order to achieve the purpose of the utility model, the utility model provides an intelligence prostate physiotherapy system, include:

at least one terminal; and

at least one prostate physiotherapy device, wherein each prostate physiotherapy device at least comprises a stimulation unit, wherein the prostate physiotherapy device is arranged to be respectively communicated with the terminal, wherein the terminal is arranged to be capable of sending a control instruction to the prostate physiotherapy device to control the stimulation unit of the prostate physiotherapy device to apply a stimulation to a preset physiotherapy portion of a user, wherein the stimulation corresponds to the control instruction.

According to the utility model discloses an embodiment, every this prostate physiotherapy equipment further includes a sensing unit and a calculating unit, wherein this calculating unit is connected to this sensing unit with the circular telegram, and this sensing unit is set up and to detect user's at least one and predetermines the at least one of detection site and predetermine the parameter, and wherein this calculating unit is set up and to select a physiotherapy mode according to this sensing unit's testing result.

According to the utility model discloses an embodiment, the stimulation unit includes vibrations module, discharge module, infrared illumination module, electric heat module, magnetotherapy module, massage module, pulls out fire module and/or cold compress module, and wherein this infrared illumination module includes infrared irradiator.

According to the utility model discloses an embodiment, the stimulation unit includes vibrations module, discharge module, infrared illumination module, electric heat module, magnetotherapy module, massage module, pulls out fire module and/or cold compress module, and wherein this infrared illumination module includes infrared irradiator.

According to the utility model discloses an embodiment, sensing unit includes pressure sensing module, temperature sensing module, photoelectric sensing module, camera module and/ultrasonic sensing module, and wherein this camera module can the multi-angle shoot user's a physiology or pathological condition of presetting the detection site.

According to the utility model discloses an embodiment, sensing unit includes pressure sensing module, temperature sensing module, photoelectric sensing module, camera module and/ultrasonic sensing module, and wherein this camera module can the multi-angle shoot user's a physiology or pathological condition of presetting the detection site.

According to the utility model discloses an embodiment, this pressure sensing module includes a set of pressure sensor, wherein this temperature sensing module includes at least three temperature sensor, this temperature sensor of this temperature sensing module is set up the anterior segment at this prostate physiotherapy equipment respectively, middle section and back end, wherein this photoelectric sensing module includes a set of photoelectric sensor, wherein this camera module includes a set of camera, this camera of this camera module is set up the anterior segment at this prostate physiotherapy equipment respectively, wherein this preset parameter of should predetermineeing the detection site is pressure, the temperature, the blood oxygen content, the wide and wide electric property, image or development, wave reflection or echo.

According to the utility model discloses an embodiment, this pressure sensing module includes a set of pressure sensor, wherein this temperature sensing module includes at least three temperature sensor, this temperature sensor of this temperature sensing module is set up the anterior segment at this prostate physiotherapy equipment respectively, middle section and back end, wherein this photoelectric sensing module includes a set of photoelectric sensor, wherein this camera module includes a set of camera, this camera of this camera module is set up the anterior segment at this prostate physiotherapy equipment respectively, wherein this preset parameter of should predetermineeing the detection site is pressure, the temperature, the blood oxygen content, the wide and wide electric property, image or development, wave reflection or echo.

The utility model further provides an intelligence prostate physiotherapy system, include:

one or more prostate physiotherapy devices adapted to be disposed in a human body for communicating wireless signals;

one or more terminals for providing a user interface for communicating wireless signals; and/or

One or more cloud ends, store the data of communicateing the acquisition and supply follow-up utilization, wherein every this prostate physiotherapy equipment includes amazing unit at least, and wherein this prostate physiotherapy equipment is set up and is linked together with this terminal respectively, and wherein this terminal is set up and can send control command to this prostate physiotherapy equipment to this amazing unit of control this prostate physiotherapy equipment applys a stimulus to user's a preset physiotherapy position, and wherein this stimulus is corresponding with this control command.

According to an embodiment of the utility model, this prostate physiotherapy equipment includes:

a computing unit;

a communication unit;

a sensing unit; and

and the communication unit, the sensing unit and the stimulation unit are respectively connected to the computing unit in an electrifying way, and the computing unit comprises an analog-digital conversion module for converting analog signals and digital signals into each other.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the appended claims.

Drawings

Fig. 1 is a block diagram schematic diagram of an intelligent healthcare device of an intelligent healthcare system according to a preferred embodiment of the present invention.

Fig. 2 is a connection diagram of the intelligent health care system according to the above preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of the application of the intelligent health care system according to the above preferred embodiment of the present invention.

Fig. 4 is a schematic flow chart of an intelligent healthcare system and an equipment control method according to a first preferred embodiment of the present invention.

Fig. 5 is a schematic flow chart of an intelligent healthcare system and an apparatus control method according to a second preferred embodiment of the present invention.

Fig. 6 is a schematic flow chart of an intelligent healthcare system and an equipment control method according to a third preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

As shown in fig. 1, the intelligent health care device according to the preferred embodiment of the present invention, such as the intelligent health care device 11, has a computing unit 111, a communication unit 112, a sensing unit 113, a stimulation unit 114, and a power supply unit 115. The computing unit 111 is a unit with a central processing unit, a matching circuit device, a memory and a flash memory, and has a computing function, and is electrically connected to the communication unit 112, the sensing unit 113, the stimulation unit 114 and the power supply unit 115, so as to compute, process, store, and control the above elements in the intelligent health care device 11 and the data received, sent, fed back, or generated by the above elements. The computing unit 111 also includes an analog-to-digital conversion module 1111 for converting analog signals and digital signals to each other, thereby being suitable for controlling other units, transmission, and/or data processing, etc. It should be understood by those skilled in the art that the above-mentioned embodiment of the computing unit 111 should not be regarded as a limitation of the present invention, and the computing unit 111 may also be implemented as other elements having the same or similar functions in practical applications, for example, replacing the flash memory thereof with a magnetic card or the like.

As will be appreciated by those skilled in the art, physical therapy generally refers to a method of preventing and treating diseases by applying physical factors such as touch, tapping, massage, hot compress, cold compress, pressing, electrical stimulation, cupping, vibration, etc. to the human body to produce a beneficial response. Therefore, physiotherapy may be limited to physical means and achieve rehabilitation, and the utility model aims to provide a wireless connection, expandability and interactivity to provide a plurality of detection and/or stimulation means, and through these detections and/or stimuli, the system can help the user of the intelligent health care device 11, the medical care personnel, the partner of the user, or other related personnel to perform various applications, that is, besides the application of physically achieving the rehabilitation purpose, the system can also include various applications of assisting diagnosis, monitoring rehabilitation training, guiding training actions, discussing illness states, collecting research data, assisting the user to interact with others, correcting or temporarily giving specific functions or states to the user, improving the mental health or states of the user, and the like, therefore, the "physical therapy" in the present invention is not limited to the narrow definition of achieving the rehabilitation purpose in a physical manner. Especially, the utility model discloses intelligent health care equipment can be according to its physiotherapy effect that detects to according to the result that detects, further provide corresponding improvement physiotherapy to the patient, thereby make the utility model discloses produce interdynamic between intelligent health care equipment and the patient.

The communication unit 112 is implemented as a wireless fidelity (Wi-Fi) signal transmission unit in this embodiment, and is used for communicating with other devices via Wi-Fi signals, so that the intelligent healthcare device 11 has the capability of communicating with other devices or networks wirelessly. It should be understood by those skilled in the art that the communication is not limited to direct communication, in other words, the communication unit 112 may also be implemented to communicate other devices indirectly through Wi-Fi signals in practical applications, for example, through a wireless signal booster, a router enhancement or a relay signal, so as to connect and communicate with a target device or communicate with other devices through internal and external networks. It is understood that the wireless transmission of the communication unit 112 may alternatively or additionally be implemented as Bluetooth (Bluetooth), Bluetooth Low Energy (BLE), Near Field Communication (NFC), infrared data association standard (IrDA), GSM, CDMA, TD-CDMA, 3G signal, 4G signal, ZigBee, Worldwide Interoperability for Microwave Access (WiMAX), and other data transmission means known to those skilled in the art, in addition to Wi-Fi.

The power unit 115 is implemented as a lithium polymer battery unit in this embodiment, which includes a battery module and a power control module, wherein the power control module has a safety device and a wireless charging device, so as to ensure long-term and safe operation of the intelligent health care apparatus 11. In this embodiment, the power supply unit 115 is connected to the computing unit 111, so that the computing unit 111 controls and controls power supply to other elements of the intelligent health care device 11, so as to achieve an effect of optimizing energy use. It should be understood by those skilled in the art that the embodiment of the power supply unit 115 in this embodiment does not limit the present invention, and in practical applications, the power supply unit 115 may also be implemented as other kinds of batteries, such as lithium ion batteries, nickel hydrogen batteries, inductive batteries, or non-batteries, for example, directly powered by external power, or implemented as a battery holder, a power interface, and the like. The power supply unit 115 is only connected to the computing unit 111, so that the way of regulating and controlling the power supply to other elements of the intelligent healthcare device 11 completely through the computing unit 111 can be changed to a way that some or all elements of the intelligent healthcare device 11 are directly connected to the power supply unit 115, or other connection ways that the power supply unit 115 can obtain power supply, such as parallel connection and the like.

The sensing unit 113 is used for detecting a specific physiological state of the user of the intelligent healthcare device 11, and is implemented as a unit having a pressure sensing module, a temperature sensing module, a photoelectric sensing module, and a camera module at the same time in this embodiment. Wherein the pressure sensing module has four sets of non-membrane pressure sensors distributed on the surface of the intelligent healthcare device 11 for detecting the sphincter contraction status and muscle strength of the user when the user places the intelligent healthcare device 11 at the anus thereof. The temperature sensing module has three sets of passing temperature sensors, which are located at the front, middle and rear sections of the intelligent healthcare device 11, and are used for detecting the temperature of different positions in the body of the user, such as the temperature near the prostate. The photoelectric sensing module comprises a photoelectric sensor for detecting blood oxygen at different positions or parts in the body of the user, such as the blood oxygen of prostate under a hyperemic state. The camera module comprises two groups of cameras positioned at the front end of the intelligent health-care equipment 11, so that three-dimensional or multi-angle images can be shot through the two cameras to detect physiological or pathological conditions of different positions in the body of a user, such as physiological or pathological conditions of prostate. It should be understood by those skilled in the art that the embodiment of the sensing unit 113 in this embodiment does not constitute a limitation to the present invention, and in practical applications, the sensing unit 113 may be implemented as sensing modules with different types, numbers or arrangements, for example, the pressure sensor may also have a film type pressure sensing module, or in addition to the above sensing modules, other sensing modules may be replaced or added, such as an acceleration sensing module, a gyroscope, a humidity sensing module, a power sensing module, an ultrasonic sensing module, etc., or other related sensing modules for detecting, for example, a detection module of a specific biological or chemical substance needing consumable material, for detecting, for example, whether bleeding occurs, whether specific infection occurs, whether specific secretion occurs, etc.

The stimulation unit 114 is used to stimulate the user of the intelligent healthcare device 11 to achieve or assist one or more effects of physical therapy, detection, notification, reward, interaction, etc. based on the effect of different stimulation methods or combinations on the user. The stimulation unit 114 is implemented as a unit having a set of vibration modules, a set of discharge modules, and a set of infrared light irradiation modules at the same time in the present embodiment. Wherein the vibration module comprises a vibration motor and a fixing bracket thereof, and is used for vibrating the intelligent health care equipment 11. The discharge module comprises three pairs of electrodes positioned on the surface of the intelligent health-care equipment 11, a storage and discharge device and a safety device, and is used for enabling the intelligent health-care equipment 11 to apply electric stimulation to different parts of a user, such as specific muscles, within a specific voltage, current, frequency range and the like. The infrared light irradiation module is provided with an infrared light irradiator which is positioned in front of the intelligent health-care equipment 11 and is used for improving the temperature of the specific part of the user in an infrared light irradiation mode so as to carry out physical therapy or auxiliary detection. It should be understood by those skilled in the art that the embodiment of the stimulation unit 114 in this embodiment does not limit the present invention, and in practical application, the stimulation unit 114 can be implemented as stimulation modules with different types, numbers or arrangement modes, such as increasing or decreasing the number or positions of the electrodes or infrared illuminators, or in addition to the above stimulation modules, instead of or in addition to other stimulation modules, such as an electric heating module for maintaining the temperature of the device, a light emitting module for providing warning, an electromagnetic moving module for moving or relatively moving the intelligent health care device 11, so as to detect or treat different parts of the user or help to take out and arrange a rotating module including a motor and related transmission devices and a bracket, so that the front section of the intelligent health care device 11 can rotate or twist relative to the rear section, thereby carrying out detection or physical therapy and the like on different parts of the user.

It should be noted that, in practical applications, the intelligent health care device 11 may be implemented as a device having different shapes, such as a gourd-shaped, a long bar-shaped, a C-shaped ring-shaped or other shapes, and may be carried with different sensing units 113 and/or different stimulating units 114 according to requirements.

For example, the intelligent healthcare device 11 can be implemented as a male prostate multifunctional physiotherapy device, the sensing unit 113 of which comprises a membrane pressure sensor, an acceleration sensor and gyroscope, a temperature sensor, a photosensor, and a camera, the computing unit 111 of which has smartphone applications, the communication unit 112 of which has bluetooth master controllers. Wherein the thin film pressure sensor is used for detecting the force of the contracting muscle of the sphincter of the user, the acceleration sensor and the gyroscope are used for testing the using posture of the intelligent health care equipment 11, the temperature sensor is used for testing the temperature of the prostate of the user, and the optical sensor is used for measuring the blood oxygen of the prostate of the user. The calculation unit 111 performs algorithm processing on the acquired signals to obtain various indexes for the prostate area, the levator ani, the sphincter and other muscle group areas of the user. The obtained values are stored in the memory of the computing unit 111 and/or the data are wirelessly transmitted to a smart phone implemented as a terminal 12 as shown in fig. 3 for further analysis and processing, so as to perform prostate physical therapy and anal rehabilitation training for the user as a whole.

As shown in fig. 2 and fig. 3, the intelligent health care system 1 according to the above preferred embodiment of the present invention, wherein the intelligent health care device 11 is wirelessly connected to one or two terminals 12 through the communication unit 112 to communicate (communicate) with each other, and the terminals 12 can also be wirelessly connected to a cloud 13 to communicate (communicate) with each other. However, it should be understood by those skilled in the art that the number of the above-mentioned intelligent healthcare devices 11, the terminals 12 and the cloud terminals 13 connected to each other does not constitute a limitation of the present invention, and in practical application, the number may be changed as required, in other words, one intelligent healthcare device 11 may also be simultaneously connected to a plurality of terminals 12, one terminal 12 may also be simultaneously connected to a plurality of cloud terminals 13, one cloud terminal 13 may also be simultaneously connected to a plurality of terminals 12, and one terminal 12 may also be simultaneously connected to a plurality of intelligent healthcare devices 11. For example, if the user of a terminal 12 is a urologist, the terminal 12 may be connected to the intelligent healthcare device 11 for monitoring and controlling multiple patients at the same time. Also for example, the intelligent healthcare device 11 of a patient may be simultaneously monitored and controlled by the terminals 11 belonging to the proctologists and urologists, respectively, monitored but not controlled by the terminal 11 of the partner, monitored and partially controlled by the terminal 11 of the patient, and the like.

The terminal 12 exists independently of the intelligent healthcare device 11, and may be implemented as various wireless application devices, such as a mobile phone, a desktop computer, a tablet computer, an intelligent wearable device, an intelligent robot, a mobile device or an input device with a wireless transmission function, or as an independent or dedicated monitoring device for communicating (connecting) with the intelligent healthcare device 11 as a user interface through wireless signals. The cloud 13 is a data node, which can be implemented as various physical devices or virtual systems with connection and storage functions, such as a server, a wireless base station, a peer-to-peer network system, a nas (network Attached storage) device, etc., wherein a device that can be implemented as the terminal 12 can also be implemented as the cloud 13 or both, in other words, for example, a desktop computer can simultaneously serve as the terminal 12 and the cloud 13. In addition, neither the terminal 12 nor the cloud 13 is limited to a specific device or a single device, for example, the smart healthcare device 11 and a wireless network router without storage can be collectively the cloud 13 for accessing data by itself or other smart healthcare devices 11, the terminal 12, or even the cloud 13. For example, the plurality of terminals 12 may form the cloud 13 in a decentralized peer-to-peer network system. The terminal 12 and the cloud 13 can be implemented by installing a specific application program on one or more devices, and the application program can be upgraded, so that even the existing intelligent healthcare device 11 can communicate (communicate) and regulate in different ways to keep the advanced physiotherapy method used by the intelligent healthcare system 1. Similarly, the intelligent healthcare device 11 can actively or passively update its software or firmware through the terminal 12 and/or the cloud 13 at any time.

It should be noted that, by means of the communication between the cloud 13 and/or the terminal 12 and the intelligent health-care device 11, and by means of the real-time monitoring and adjustment of the cloud 13 and/or the terminal 12 on the intelligent health-care device 11, the effect of virtual reality can also be achieved. For example, a patient may feel that his rectal wall is touched in real time due to the activation of the stimulation unit 114 of the matched intelligent healthcare device 11 by clicking on the rectal wall displayed on a tablet computer screen implemented as the terminal 12. The embodiment of implementing virtual reality is not limited to the above manner, and may be used in combination with other devices or systems to implement more application manners.

In addition, the intelligent health care system 1 may also implement remote guidance or interaction in one or more ways, for example, a doctor may issue a specific stimulus through its terminal 12, such as vibrating or discharging a specific location of the intelligent health care device 11 of the patient, to indicate or remind the patient of the emphasis of the rehabilitation training, or a doctor may observe whether the patient exercises the correct muscle or exercises the muscle in the correct manner through an image of the camera of the intelligent health care device 11 of the patient obtained from its terminal 12 in real time, and give a prompt or guidance in text, voice, image or other manners through the cloud 13 and the terminal 12 of the patient in real time, so as to directly teach the patient the most correct rehabilitation training manner. Conversely, it is also possible that the patient, when using the correct muscles for rehabilitation training, will continue to be detected and recorded by the specific pressure sensors of his intelligent healthcare device 11, at which point the doctor can learn it in real time through his terminal 12 and give a positive, verbal incentive or other reward in time, such as giving an outpatient discount. Similarly, the utility model discloses based on its intelligent system, measures such as similar above-mentioned instruction, online interaction, reward also can be pure by set up in the software execution of one or more equipment in intelligent health care system 1 to obtain similar effect, and save professional medical personnel's time energy. For example, the intelligent health care device 11 may execute a rehabilitation training teaching for the patient by alone or in combination with the specific terminal 12 and/or the cloud 13 according to a medical order, a setting of the patient or a family member, etc., issue a specific stimulus to the patient one by means of prerecording or presetting, or even adding a program of parameters corrected by a doctor in advance, and instruct or remind the patient of the emphasis of the rehabilitation training, or judge and observe whether the patient exercises the correct muscle or exercises the muscle in the correct manner by means of an image of a camera of the intelligent health care device 11 of the patient, and give a prompt or guidance in a text, voice, image or other manner by means of the cloud 13 and the terminal 12 of the patient in real time, thereby directly teaching the most correct rehabilitation training manner to the patient. Conversely, the patient can also answer the questions or communicate with the patient by means of questions and answers, such as inputting text or voice information at the terminal 12, and then the software in the system determines the response, such as displaying or playing the information in the patient terminal 12 by text, picture, sound or image, and/or controlling the intelligent health care device 11 of the patient to execute a specific stimulation mode, such as shocking a specific part, so as to realize real-time interaction or online interaction, answer the questions of the patient or communicate with the patient. In addition, a manner similar to the above-mentioned manner can also be implemented by the intelligent health care system 1, for example, after a doctor sets software parameters according to the patient condition, a non-medical professional can interact with the patient through software, so as to achieve the purpose of reminding the patient to correctly perform rehabilitation training or rewarding the patient, and the like. Also in another possible case, if the patient uses the correct muscles for rehabilitation training, continuously detected and recorded by the specific pressure sensors of his intelligent healthcare device 11, the software could automatically give the affirmation, encouragement or reward in real time, such as playing a text, music, image, etc. through the patient's terminal 12, sending an instant message to the patient through the network, or giving the user a massage for a certain period of time by his intelligent healthcare device 11, etc.

Likewise, the connection between the terminal 12 and the cloud 13 is not limited to one-to-one, for example, a cloud 13 implemented as a hospital intranet server may be connected to the terminals 12 of a plurality of medical staff, a plurality of patients, a plurality of patient's family members, and a plurality of research staff at the same time, so as to obtain data, perform feedback, analysis or record. Also for example, a terminal 13 implemented as a cell phone of a mynuriatric doctor may communicate (communicate) with the cloud 13 implemented as a hospital intranet server, the cloud 13 implemented as a urological intranet server, the cloud 13 implemented as an internet server, etc. simultaneously, to store or backup data synchronously or to assist in analysis, retrieval, etc. In addition, when the terminals 12 are connected to each other, one or both of the interconnected networks can be regarded as the cloud 13. When the cloud terminals 13 are connected to each other, one of the cloud terminals 13 may be regarded as one terminal 12, or two cloud terminals 13 may be regarded as one. In addition, the cloud 13 may also have an effect of extending to the function based on the storage and analysis functions thereof, such as data tracking, so that the terminal 12, such as a doctor, may select to load only real-time data without storing data of all patients at all times, but may obtain the data through the cloud 13 when looking at and analyzing historical data of a specific patient to know the change of the patient's condition, thereby performing data tracking. Further, if a specific data change needs to be noticed, it can be set as a rule or parameter to be set in the cloud 13, and if the cloud 13 finds such a need to be noticed according to the data continuously obtained and stored by the cloud, it can push related warning information to the terminal 12, such as a doctor and/or a patient. Such data processing rules may be built in the software of the intelligent healthcare system 1 or set by the user, such as a doctor, or set by the software by changing the parameters thereof after suggesting or setting the range. Parameters or rules set by a doctor or data tracked and stored by the cloud 13 can be further summarized and integrated over time, so that the set parameters and related characteristics or medical data more suitable for users of various groups, ages, regions or other characteristics can be obtained, and the data can be used for subsequent system development and upgrading or scientific research and the like. In addition, the connection between the terminal 12 and the cloud 13 is not limited to wireless connection, and may be partially or entirely wired connection in consideration of security or convenience of installation.

It should be noted that any connection among the intelligent healthcare device 11, the terminal 12, and the cloud 13 may have different permission differences, for example, only a specific terminal 12 is allowed to connect a specific cloud 13 and a specific intelligent healthcare device 11, and among the specific terminals 12 allowed to connect a specific intelligent healthcare device 11, some terminals 12 may obtain all detection data and have a complete permission to remotely control the specific intelligent healthcare device 11, and some terminals 12 may obtain only part of the detection data and/or part of the control permission. By way of further example, a doctor's terminal 12 has complete detection data and control authority of his patient's intelligent healthcare device 11; the terminal 12 of a research staff has the detection data authority of all hospitals in a certain area at the cloud end 13 and all intelligent health care equipment 11, but does not have personal information such as the name or equipment serial number of a patient and control authority; the terminal 12 of an equipment engineer only has the authority to update the software and firmware of all the cloud 13 and the intelligent healthcare equipment 11 which require upgrading in a certain area, but does not have the authority to access data and control. However, the terminal 12 and the cloud 13 may also be temporarily authorized to increase the flexibility of operation, for example, when the intelligent healthcare device 11 of a certain patient is temporarily disconnected, the attending physician may still issue an instruction to perform a certain stimulation twice through the terminal 12, for example, when certain detected data exceeds a specific value, and temporarily or permanently store the instruction in a commonly connected cloud 13 or other terminal 12 such as the family of the patient, and at this time, even if the terminal 12 of the attending physician is offline, once the intelligent healthcare device 11 of the patient is connected to the cloud 13 or the terminal 12 of the family of the patient, or the terminal 12 connected to the intelligent healthcare device 11 of the patient is connected to the cloud 13 or the terminal 12 of the family of the patient, the instruction will still be issued to the intelligent healthcare device 11 of the patient, so that the device can determine and execute the instruction according to the content of the instruction.

As shown in fig. 4, according to the intelligent health care system and the device control method 1000 of the first preferred embodiment of the present invention, the control method 1000 is based on the intelligent health care system and the device of the above embodiment, and includes the following steps:

(a) arranging intelligent health care equipment at the physical therapy part;

(b) detecting the state of the physical therapy part; and

(c) the detection data is acquired by the terminal.

Wherein the step (a) is to arrange the applicable intelligent health care equipment 11 at the physiotherapy part required by the user, such as the anus. This step can be performed by a professional, such as a medical professional, by the patient himself, or by another person, depending on the condition of the patient, the treatment area, or other requirements. The step (b) is to execute one or more detection operations on the physical therapy part by the intelligent health care device 11 according to the default or set program and the composition of the sensing unit 113 thereof. Wherein the step (b) may also include the step (b1) of setting the sensing work through the terminal and the step (b2) of sensing the state of the treatment part according to the setting. The step (c) is to enable the terminal 12 to communicate with the intelligent health care device 11 by a direct or indirect wireless connection mode established between the terminal 12 and the intelligent health care device 11, so as to obtain the detection data obtained by the intelligent health care device 11 through the step (b). As to the applications of the terminal 12 after obtaining the test data, there may be various applications, such as the user of the terminal 12 may directly interpret the data, if a doctor, or make a diagnosis, or the user of the terminal 12 may be the patient himself, and the data may be further analyzed or processed by software internal or external to the terminal 12.

As shown in fig. 5, the intelligent health care system and the device control method 2000 according to the second preferred embodiment of the present invention, the control method 2000 is based on the intelligent health care system and the device of the above embodiment, and includes the following steps:

(A) arranging intelligent health care equipment at the physical therapy part;

(B) stimulating the physical therapy part; and

(C) the stimulation mode is controlled by the terminal.

Wherein said step (A) is the same as said step (a). The step (B) is to execute one or more stimulation operations on the physical therapy region by the intelligent health care device 11 according to the default or set program and the composition of the stimulation unit 114 thereof. Wherein the step (B) may also include the step (B1) of setting the stimulation work through the terminal and the step (B2) of stimulating the physiotherapy part according to the setting. The step (C) is to communicate the intelligent health care device 11 with the terminal 12 through a direct or indirect wireless connection mode established between the terminal 12 and the intelligent health care device 11, so as to control (including changing) the stimulation of the intelligent health care device 11 to the physiotherapy part.

As shown in fig. 6, according to the intelligent health care system and the equipment control method 3000 of the first preferred embodiment of the present invention, the control method 3000 is based on the intelligent health care system and the equipment of the above embodiments, and includes the following steps:

(a) arranging intelligent health care equipment at the physical therapy part;

(b) detecting the state of the physical therapy part;

(c) acquiring detection data through a terminal;

(d) controlling a detection mode through a terminal; and/or

(e) And controlling the stimulation physiotherapy part through the terminal.

Wherein the steps (a), (b) and (c) are the same as above. And (d) the terminal user, such as a doctor, considers that there is a need for changing or repeating the detection according to the detection data in the step (c), so that the intelligent health care equipment is controlled by the terminal to change the detection mode or parameters or repeat the detection, and the step (b) can be returned to as required. For example, if the data of the abnormal pressure is transmitted from the step (c), the doctor controls the intelligent health-care equipment to start the camera which is not actuated originally through the terminal so as to inspect whether the appearance of the part is abnormal or not. And (c) controlling the intelligent health-care equipment to increase the detection frequency of the temperature sensor through the terminal so as to more accurately track and verify the temperature change of the physical therapy part and the like by the doctor according to the data of the temperature abnormity transmitted in the step (c). And (e) the terminal user, such as a doctor, thinks that a certain stimulation should be performed on the physical therapy part according to the detection data of the step (c), and controls the stimulation unit of the intelligent health-care equipment to perform a corresponding stimulation action through the terminal, so as to stimulate the physical therapy part. It should be noted that the control in the step (d) and the step (e) is not necessarily an immediate response, and a change in the type or parameter of the stimulus or the setting of the condition described above, such as the application of a certain stimulus when a certain temperature or higher is detected, may be detected.

As shown in fig. 1 to 6 of the drawings, correspondingly, according to the preferred embodiment of the present invention, the present invention provides an intelligent health care system, which comprises at least one intelligent health care device 11 and at least one terminal 12, wherein each intelligent health care device 11 at least comprises a stimulation unit 114, wherein the intelligent health care device 11 is configured to be respectively communicated with the terminal 12, wherein the terminal 12 is configured to send a control command to the intelligent health care device 11, so as to control the stimulation unit 114 of the intelligent health care device 11 to apply a stimulation to a predetermined health care part of a user, wherein the stimulation corresponds to the control command.

It is noted that the predetermined sexual wellness site herein refers to a sexual wellness site of a patient (or user), such as a prostate of a male, a sphincter muscle associated with the prostate, levator ani or levator ani, etc. The stimulation unit 114 herein refers to a device and/or component capable of providing or applying physical stimulation, such as touching, tapping, massaging, hot compressing, cold compressing, pressing, electrical stimulation, cupping and/or vibration, to the predetermined health care site for physical therapy or health care training. Accordingly, the stimulus herein may be any stimulus known to those skilled in the art that provides positive feedback to the intended health care site, including the physical stimuli described above. The terminal herein refers to any electronic device capable of sending control instructions to the intelligent healthcare device 11, wherein the terminal may be a desktop, a control host, or the like, which is not convenient to move, or a portable electronic device such as a smart phone, a tablet, a laptop, or the like. The intelligent healthcare device 11 herein being placed in communication with the terminal 12 means that the intelligent healthcare device 11 and the terminal 12 are communicably coupled together by wired or wireless means. Therefore, the intelligent health care device 11 and the terminal 12 of the intelligent health care system of the present invention can be connected in a wired manner and can be connected electrically and can also be communicated through an electronic communication network.

It is understood that the electronic communication network herein may be any electronic communication network that enables communication between the intelligent healthcare device 11 and the terminal 12. For example, the electronic communication network may be one of a Local Area Network (LAN), a Metropolitan Area Network (MAN), a Wide Area Network (WAN), and the like. The electronic communication network may also be other communication networks capable of implementing communication between the intelligent healthcare device 11 and the terminal 12, such as GSM, 3G mobile communication network (CDMA, CDMA 200, TD-CDMA, WCDMA, etc.), 4G mobile communication network (TD-LTE, FDD-LTE, etc.), 5G mobile communication network, satellite communication, etc. The terminal 12 may also communicate with the intelligent healthcare device 11 through a wireless local area network (WLAN or Wi-Fi), Near Field Communication (NFC), infrared data association standard (IrDA), ZigBee, Worldwide Interoperability for Microwave Access (WiMAX), Bluetooth (Bluetooth), or hotspot (Hot Point), and other communication networks. Preferably, the intelligent health care device 11 and the terminal 12 realize communication and signal transmission through a communication network such as a wireless local area network, Near Field Communication (NFC), ZigBee, Bluetooth (Bluetooth), or hotspot (Hot Point).

Further, the terminal 12 is configured to provide a user interface, and provide at least one sexual health training mode to the user through the user interface, wherein the terminal 12 is configured to allow the user to select at least one sexual health training mode from the sexual health training modes provided by the terminal 12 through the user interface, and generate a corresponding control command according to the sexual health training mode selected by the user, so as to control the stimulation unit 114 of the intelligent health care device 11 to apply the stimulation to the predetermined sexual health part of the user, wherein the stimulation corresponds to the sexual health training mode selected by the user.

It should be noted that the user interface of the terminal in this context refers to any physical or virtual interface that allows one-way presentation of information to, or interaction with, a user. For example, the user interface may be an operation interface provided by a programmed electronic device through a display screen, or may be a sound control device composed of a sound system, a microphone, and the like of the programmed electronic device. The sexual health training mode herein refers to the regulation or guidance according to which the user can perform sexual health training, exercise or preset physical therapy of the sexual health part, such as anal lifting exercise, abdomen contracting exercise, deep squat exercise, prostate massage, etc. For example, the sexual wellness training mode may involve anal lifting movements (prostate sexual wellness), and the sexual wellness training mode may involve time of the anal lifting movements (e.g., before sleep in the evening), frequency (e.g., 10 times per minute), duration (e.g., 10 minutes per time), and the like. The fitness training mode applicable to each patient is different with a high probability according to the personal conditions of the patient (or user) such as physical, psychological, physiological, etc. According to the practical situation of each person, a plurality of sexual health care training modes are provided, and the user selects the self-applicable sexual health care training mode, so that the sexual health care training mode is very necessary for the patient, and the use experience, the pleasure degree and the confidence of the patient can be greatly improved. Accordingly, the terminal 12 is further configured to allow a user to input user personal information through the user interface and to be able to recommend a health care training mode to the corresponding user based on the user personal information. In addition, the terminal 12 is further configured to collect historical health training data of the user and automatically recommend a health training mode to the corresponding user based on the collected historical health training data. For a user, the sexual health training mode selected by the user is not changed for a long time, and the terminal 12 is set to automatically recommend the sexual health training mode to the corresponding user, so that the situation that the user can select the sexual health training mode and perform sexual health training through complicated software operation every time the user performs sexual health training can be avoided.

As shown in fig. 1 to fig. 6 of the drawings, each of the intelligent health care devices 11 of the intelligent health care system of the present invention further includes a sensing unit 113, wherein the sensing unit 113 of the intelligent health care device 11 is configured to detect at least one preset parameter of at least one preset detection portion of the user, wherein the terminal 12 is configured to send the control instruction to the intelligent health care device 11 according to the detection result of the sensing unit 113 of the intelligent health care device 11, so as to control the stimulation unit 114 of the intelligent health care device 11 to apply the stimulation to the preset health care portion of the user.

It should be noted that the preset detection site herein refers to a detection site corresponding to the intelligent healthcare device 11, for example, when the intelligent healthcare device 11 is a prostate healthcare device, the preset detection site may be a prostate, a sphincter, a levator ani, an levator ani, etc., and the corresponding preset parameter may be temperature, ultrasound permeability, light reflection characteristics, electrical conductivity, visualization, sphincter contractility, etc. Those skilled in the art will appreciate that the predetermined health care site and the predetermined detection site may be the same or different.

As shown in fig. 1 to 6 of the drawings, the intelligent health care system of the present invention further includes a cloud end 13, wherein the cloud 13 is configured to be capable of communicating with the terminals 12 respectively via an electronic communication network, wherein the terminal 12 is configured to send at least one request message to the cloud 13, and the cloud 13 is configured to provide a sexual wellness training mode corresponding to the request message to the terminal 12 according to the request message, wherein the terminal 12 is configured to allow a user to select at least one sexual health training mode from the sexual health training modes provided by the cloud 13 through a user interface of the terminal 12, and generate a corresponding control command according to the sexual health training mode selected by the user, thereby controlling the stimulation unit 114 of the intelligent health care device 11 to apply the stimulation to the predetermined health care region of the user, wherein the stimulation corresponds to the health care training mode selected by the user.

It is noted that the request information herein includes at least one request and information related to the request, the request may be a command for the cloud end 13 to provide the health care training mode, and the request information may be a basis for determining the type or category of the health care training mode provided by the cloud end 13, or a basis for or according to the type or category of the health care training mode provided by the cloud end 13 to the terminal 12, such as personal information of a patient. Further, the cloud 13 is configured to collect historical health training data of each user through the terminal 12, and recommend a health training mode to the user through the terminal 12 according to the collected historical health training data and the collected user classification of the user, wherein the terminal 12 is configured to provide the health training mode recommended by the cloud 13 to the user through a user interface thereof, and the health training mode recommended by the cloud 13 to the user corresponds to the classification of the user. In other words, the cloud 13 is configured to collect historical health training data of each patient (or user) through the terminal 12, analyze the collected historical health training data of the user, determine a health training pattern in which different types of users have positive health training results (or good health training results), and recommend or provide the health training pattern to the corresponding type of patients. Therefore, the cloud end 13 is configured to be able to obtain the best or better health care training mode for or adapted to different types of patients by collecting and analyzing the big data of the health care training of each patient (or user), and provide it to the user, so as to guide the user to obtain the best health care effect or physical therapy prognosis. It can be understood that the sexual health training mode provided by the cloud 13 according to the historical sexual health training data of the user, the sexual health training mode provided by the cloud 13 according to the request information, the sexual health training mode provided by the cloud 13 according to the personal condition, and the sexual health training mode provided by the terminal 12 according to the detection result of the sensing unit 113 of the intelligent health device 11 may be the same or different from each other.

As shown in fig. 1 to 6 of the drawings, the stimulation unit 114 of the intelligent health care device 11 of the intelligent health care system of the present invention further includes a vibration module, a discharge module, an infrared illumination module, an electric heating module, a magnetic therapy module, a massage module, a fire pulling module and/or a cold compress module. Further, the vibration module comprises a vibration motor and a fixing bracket, and is used for enabling the intelligent health-care device 11 to vibrate and providing or applying the vibration to the preset health-care part through the intelligent health-care device 11; the discharge module comprises at least one pair of electrodes, an accumulator and a safety module located on the surface of the intelligent healthcare device 11 for providing or applying electrical stimuli having specific voltage, current, frequency, etc. to different locations of the predetermined healthcare site of the user, such as the sphincter; the infrared light irradiation module comprises an infrared light irradiation device, wherein the infrared light irradiation device is arranged at the front section of the intelligent health care equipment 11, and the infrared light irradiation device can improve the temperature of the preset health care part of a user in an infrared light irradiation mode, so that physical therapy or auxiliary physical therapy is carried out on the preset health care part. In practical applications, the stimulation unit 114 can also be embodied as stimulation modules with different types, numbers or arrangements, for example, increasing or decreasing the number of the electrodes or infrared light irradiators, changing the arrangement position thereof, or replacing one or all of the stimulation modules with other stimulation modules, or adding other stimulation modules, such as adding an electric heating module to maintain the temperature of the device, adding a light emitting module to provide warning, adding an electromagnetic moving module to move or move the intelligent healthcare device 11 relatively, so as to detect or treat different parts of the user, or helping to take out and add a motion module including a motor and related transmission devices, so that the front section of the intelligent healthcare device 11 can rotate or twist relative to the rear section, thereby detecting or treating different parts of the user. It should be noted that in practical applications, the intelligent health care device 11 can be carried with different stimulation units 114 according to requirements, and implemented as devices with different shapes, such as gourd-shaped, long bar-shaped, C-shaped or other suitable shapes.

As shown in fig. 1 to 6 of the drawings, the intelligent health care device 11 of the intelligent health care system of the present invention further includes a sensing unit 113 for detecting the physiological state of the user. As shown in fig. 1 to 6 of the drawings, the sensing unit 113 further comprises a pressure sensing module, a temperature sensing module, a photoelectric sensing module, a camera module and/or an ultrasonic sensing module, wherein the pressure sensing module comprises a set of pressure sensors, the pressure sensors of the pressure sensing module are adapted to detect the muscle contraction force of the predetermined detection portion of the user, wherein the temperature sensing module comprises at least three temperature sensors, the temperature sensors of the temperature sensing module are respectively disposed at the front section, the middle section and the rear section of the intelligent health care device 11, so as to be able to detect the temperature of different positions of the predetermined detection portion of the user when the intelligent health care device 11 is placed at the predetermined detection portion, wherein the photoelectric sensing module comprises a set of photoelectric sensors, the photoelectric sensors are adapted to detect the temperature of different positions of the predetermined detection portion of the user when the intelligent health care device 11 is placed in the body, detect the blood oxygen of the different positions of this predetermined detection site of user, wherein this camera module includes a set of camera, and this camera of this camera module is set up the anterior segment at this intelligent health care equipment 11 respectively to when this intelligent health care equipment 11 is put in vivo, can shoot the physiology or the pathological condition that this predetermined detection site of user through this camera multi-angle. Thus, the predetermined parameter of the predetermined detection site may be pressure (or contraction force), temperature, blood oxygen content, radio and television characteristics, image or visualization, wave reflection or echo, etc.

As shown in fig. 1 to fig. 6 of the drawings, the intelligent health care device 11 of the intelligent health care system of the present invention further includes a computing unit 111 and a communication unit 112, wherein the computing unit 111 is a module unit with a central processing unit, a circuit, a memory and a flash memory matched with the central processing unit, and has a computing function, wherein the computing unit 111 is electrically connected (or can be electrically connected) to the communication unit 112, the sensing unit 113 and the stimulation unit 114, so as to calculate, process, store, regulate and control the data generated, fed back or transmitted by the information of the electronic components in the intelligent health care device 11. The calculation unit 111 further comprises an analog-to-digital conversion module 1111 for converting analog signals and digital signals to each other, thereby being adapted to control other modular units, transmit and/or process data, etc. It should be understood by those skilled in the art that the above-mentioned embodiment of the computing unit 111 should not be regarded as a limitation of the present invention, and in practical applications, the computing unit 111 may also be implemented as other elements having the same or similar functions, for example, replacing the flash memory with a magnetic card or the like.

As shown in fig. 1 to fig. 6 of the drawings, the intelligent health care device 11 of the intelligent health care system of the present invention further includes a power supply unit 115, wherein the computing unit 111 is electrically connected (or can be electrically connected) to the power supply unit 115 to control the power supply of the power supply unit 115 to each electronic module of the intelligent health care device 11.

As shown in fig. 1 to 6 of the drawings, correspondingly, according to the present invention, the utility model further provides an intelligent health care system, optionally, it includes a terminal 12 and an intelligent health care device 11, wherein every this intelligent health care device 11 includes at least a sensing unit 113, wherein this intelligent health care device 11 is set up to be communicated with this terminal 12 respectively, wherein this sensing unit 113 of this intelligent health care device 11 is set up to detect at least one of user and predetermines at least one of detection position and predetermines the parameter, wherein this terminal 12 is set up to provide at least one sexual health care training mode to the user according to the detection result of this sensing unit 113 of this intelligent health care device 11.

Further, the terminal 12 is configured to provide a user interface and provide the user with the sexual wellness training mode via the user interface, wherein the terminal 12 is configured to allow the user to select at least one sexual wellness training mode from the sexual wellness training modes provided by the terminal 12 to the user via the user interface, and to provide the user with the corresponding sexual wellness training guidance via the user interface according to the sexual wellness training mode selected by the user.

It should be noted that the health training guide herein refers to a guide for assisting or prompting the patient (or user) to perform the health training by using voice, text and/or image, etc. through the user interface of the terminal 12.

According to the utility model discloses preferred embodiment, the utility model discloses further provide a control method for intelligent health care equipment, it includes following step:

(a) generating a corresponding control instruction according to the selected health care training mode; and

(b) and sending the control instruction to the intelligent health care equipment, so that a stimulation unit of the intelligent health care equipment provides at least one stimulation according to the control instruction, wherein the stimulation corresponds to the selected health care training mode.

Further, the utility model discloses a control method for intelligent health care equipment includes following step:

(a1) recommending a health care training mode to the corresponding user based on the collected historical health care training data of the user, wherein the step (a1) is prior to the step (a).

Optionally, the utility model discloses a control method for intelligent health care equipment further includes following step:

(a2) recommending a health care training mode to a corresponding user based on the user personal information, wherein the step (a2) is prior to the step (a).

Optionally, the utility model discloses a control method for intelligent health care equipment further includes following step:

(a4) sending at least one request message to the cloud; and

(a5) providing the user with a selection of the health care training mode fed back by the cloud according to the request message, wherein the steps (a4) and (a5) are prior to the step (a).

Optionally, the utility model discloses a control method for intelligent health care equipment includes following step:

(a) generating a corresponding control instruction according to the detection result of the sensing unit of the intelligent health-care equipment on the preset detection part; and

(b) and sending the control instruction to the intelligent health-care equipment, so that the stimulation unit of the intelligent health-care equipment provides at least one stimulation according to the control instruction.

As shown in fig. 1 to 6 of the drawings, more specifically, according to the preferred embodiment of the present invention, the present invention provides a prostate physiotherapy system, which includes at least one prostate physiotherapy device 11 and at least one terminal 12, wherein each prostate physiotherapy device 11 at least includes a stimulation unit 114, wherein the prostate physiotherapy device 11 is set to be respectively communicated with the terminal 12, wherein the terminal 12 is set to be able to send a control command to the prostate physiotherapy device 11 to control the stimulation unit 114 of the prostate physiotherapy device 11 to apply a stimulation to a preset physiotherapy portion of a user, wherein the stimulation corresponds to the control command.

It should be noted that the preset treatment site herein refers to a prostate treatment site of a patient (or user), such as a prostate gland of a male, a sphincter muscle associated with the prostate gland, levator ani muscle and/or levator ani muscle. The stimulation unit 114 herein refers to a device and/or component capable of providing or applying physical stimulation, such as physical therapy or health training, such as touching, tapping, massaging, hot compressing, cold compressing, pressing, electrical stimulation, cupping and/or vibration, to the predetermined therapy region. Accordingly, the stimulus herein may be any stimulus known to those skilled in the art that provides positive feedback to the predetermined treatment site, including the physical stimuli described above. The terminal herein refers to any electronic device capable of sending a control command to the prostate therapy apparatus 11, wherein the terminal may be a desktop computer, a control host, or the like, which is not convenient to move, or a portable electronic device such as a smart phone, a tablet, a laptop, or the like. The prostate therapy apparatus 11 herein being placed in communication with the terminal 12 means that the prostate therapy apparatus 11 and the terminal 12 are communicably coupled together by wired or wireless means. Therefore, the prostate therapy device 11 and the terminal 12 of the prostate therapy system of the present invention can be connected in a wired manner and can be connected electrically, and can also be connected through an electronic communication network. It is understood that the electronic communication network herein may be any electronic communication network that enables communication between the prostate therapy device 11 and the terminal 12. For example, the electronic communication network may be one of a Local Area Network (LAN), a Metropolitan Area Network (MAN), a Wide Area Network (WAN), and the like. The electronic communication network may also be other communication networks capable of implementing communication between the prostate physiotherapy device 11 and the terminal 12, such as GSM, 3G mobile communication networks (CDMA, CDMA 200, TD-CDMA, WCDMA, etc.), 4G mobile communication networks (TD-LTE, FDD-LTE, etc.), 5G mobile communication networks, satellite communication, etc. The terminal 12 may also communicate with the prostate therapy device 11 through a wireless local area network (WLAN or Wi-Fi), Near Field Communication (NFC), infrared data association standard (IrDA), ZigBee, Worldwide Interoperability for Microwave Access (WiMAX), Bluetooth (Bluetooth), or Hot spot (Hot Point), and other communication networks. Preferably, the prostate therapy device 11 and the terminal 12 implement communication and signal transmission through a communication network such as a wireless local area network, Near Field Communication (NFC), ZigBee, Bluetooth (Bluetooth), or Hot spot (Hot Point).

Further, the terminal 12 is configured to provide a user interface and provide at least one therapy mode to the user through the user interface, wherein the terminal 12 is configured to allow the user to select at least one therapy mode from the therapy modes provided by the terminal 12 through the user interface, and generate a corresponding control instruction according to the therapy mode selected by the user, so as to control the stimulation unit 114 of the prostate therapy apparatus 11 to apply the stimulation to the preset therapy region of the user, wherein the stimulation corresponds to the therapy mode selected by the user.

It should be noted that the user interface of the terminal in this context refers to any physical or virtual interface that allows one-way presentation of information to, or interaction with, a user. For example, the user interface may be an operation interface provided by a programmed electronic device through a display screen, or may be a sound control device composed of a sound system, a microphone, and the like of the programmed electronic device. The physiotherapy mode herein refers to a regulation or guidance according to which the user can perform prostate physiotherapy, exercise or preset physiotherapy for a part to be treated, such as anal lifting exercise, abdomen contracting exercise, deep squatting exercise, prostate massage, etc. For example, the treatment mode may relate to a lifting motion (prostate treatment), and the treatment mode may relate to a time of the lifting motion (e.g. before sleeping every night), a frequency (e.g. 10 times per minute), a duration (e.g. 10 minutes each time), etc. The physical therapy mode applicable to each patient is different with a high probability according to the physical, psychological, physiological, etc. individual condition of the patient (or user). According to the actual situation of each person, a plurality of physiotherapy modes are provided, and the user selects the physiotherapy mode suitable for the user, so that the physiotherapy mode is very necessary for the patient, and the use experience, the pleasure degree and the confidence of the patient can be greatly improved. Therefore, the terminal 12 is further configured to allow the user to input user personal information through the user interface and to be able to recommend a physical therapy mode to the corresponding user according to the user personal information. In addition, the terminal 12 is further configured to collect historical physiotherapy data of the user and automatically recommend a physiotherapy mode to the corresponding user according to the collected historical physiotherapy data. To the user, in a considerable period of time, the physiotherapy mode that the user selected is unchangeable, and this terminal 12 is set up and recommends the physiotherapy mode to corresponding user automatically, can avoid the user when carrying out prostate physiotherapy at every turn, through complicated software operation, could select the physiotherapy mode and carry out prostate physiotherapy.

As shown in fig. 1 to 6 of the drawings, each of the prostate physiotherapy devices 11 of the prostate physiotherapy system of the present invention further includes a sensing unit 113, wherein the sensing unit 113 of the prostate physiotherapy device 11 is configured to detect at least one preset parameter of at least one preset detection portion of the user, wherein the terminal 12 is configured to send the control instruction to the prostate physiotherapy device 11 according to the detection result of the sensing unit 113 of the prostate physiotherapy device 11, so as to control the stimulation unit 114 of the prostate physiotherapy device 11 to apply the stimulation to the preset physiotherapy portion of the user.

It is noted that the preset detection site herein refers to a detection site corresponding to the prostate therapy apparatus 11, for example, the preset detection site may be a prostate, a sphincter, a levator ani, or the like, and the corresponding preset parameter may be temperature, ultrasonic wave penetration, light reflection characteristics, conductivity, visualization, sphincter contraction force, or the like. It is understood by those skilled in the art that the predetermined physical therapy region and the predetermined detection region may be the same or different.

As shown in fig. 1 to 6 of the drawings, the prostate physiotherapy system of the present invention further includes a cloud 13, wherein the cloud 13 is configured to be capable of communicating with the terminals 12 respectively via an electronic communication network, wherein the terminal 12 is configured to send at least one request message to the cloud 13, and the cloud 13 is configured to provide a physiotherapy mode corresponding to the request message to the terminal 12 according to the request message, wherein the terminal 12 is configured to allow a user to select at least one physiotherapy mode from the physiotherapy modes provided by the cloud 13 through a user interface of the terminal 12, and generate a corresponding control command according to the physiotherapy mode selected by the user, thereby controlling the stimulation unit 114 of the prostate therapy apparatus 11 to apply the stimulation to the preset therapy region of the user, wherein the stimulation corresponds to the therapy mode selected by the user.

It should be noted that the request information herein includes at least one request and information related to the request, the request may be a command for the cloud end 13 to provide the physiotherapy mode, and the request information may be a basis for determining the type or type of the physiotherapy mode provided by the cloud end 13, or a basis for the cloud end 13 to provide the terminal 12 with the type or type of the physiotherapy mode, such as personal information of the patient. Further, the cloud 13 is configured to collect historical physiotherapy data of each user through the terminal 12, and recommend a physiotherapy mode to the user through the terminal 12 according to the collected historical physiotherapy data of the user and the user classification, wherein the terminal 12 is configured to provide the physiotherapy mode recommended to the user by the cloud 13 to the user through a user interface thereof, and the physiotherapy mode recommended to the user by the cloud 13 corresponds to the classification of the user. In other words, the cloud 13 is configured to collect historical physiotherapy data of each patient (or user) through the terminal 12, analyze the collected historical physiotherapy data of the user, determine a physiotherapy pattern in which different types of users have positive prostate physiotherapy results (or good health training results), and recommend or provide the physiotherapy pattern to the corresponding type of patient. Therefore, the cloud 13 is configured to be able to collect and analyze the prostate therapy big data of each patient (or user) so as to obtain the best or better therapy mode for or suitable for different types of patients, and provide it to the user, so as to guide the user to obtain the best prostate therapy effect or therapy prognosis. It can be understood that the physiotherapy mode provided by the cloud 13 according to the historical physiotherapy data of the user, the physiotherapy mode provided by the cloud 13 according to the request information, the physiotherapy mode provided by the cloud 13 according to the personal condition, and the physiotherapy mode provided by the terminal 12 according to the detection result of the sensing unit 113 of the prostate physiotherapy apparatus 11 may be the same or different from each other.

As shown in fig. 1 to 6 of the drawings, the stimulation unit 114 of the prostate physiotherapy apparatus 11 of the prostate physiotherapy system of the present invention further includes a vibration module, a discharge module, an infrared illumination module, an electric heating module, a magnetic therapy module, a massage module, a fire-pulling module and/or a cold compress module. Further, the vibration module includes a vibration motor and a fixing bracket for enabling the prostate therapy apparatus 11 to vibrate and providing or applying the vibration to the preset therapy region through the prostate therapy apparatus 11; the discharge module includes at least one pair of electrodes, an accumulator, and a safety module on the surface of the prostate therapy apparatus 11 for providing or applying electrical stimuli having a specific voltage, current, frequency, etc. to different locations of the preset therapy region, such as the sphincter, of the user; this infrared light irradiation module includes infrared light irradiator, and wherein this infrared light irradiator is set up at this prostate physiotherapy equipment 11's anterior segment, and wherein this infrared light irradiator can improve user's the temperature of predetermineeing the physiotherapy position through the mode of infrared light irradiation to carry out physiotherapy or supplementary physiotherapy to this predetermineeing the physiotherapy position. In practical applications, the stimulation unit 114 can also be embodied as stimulation modules with different types, numbers or arrangements, such as increasing or decreasing the number of the electrodes or infrared light irradiators, changing the arrangement position thereof, or replacing one or all of the stimulation modules with other stimulation modules, or adding other stimulation modules, such as adding an electrothermal module to maintain the temperature of the device, adding a luminous module to provide warning, adding an electromagnetic movement module to move or move the prostate therapy device 11 relatively, so as to detect or treat different parts of the user, or helping to take out and add a movement module including a motor and related transmission devices, so that the front section of the prostate therapy device 11 can rotate or twist relative to the rear section, thereby detecting or treating different parts of the user. It should be noted that, in practical applications, the prostate physical therapy device 11 may be carried with different stimulation units 114 according to requirements, and implemented as devices having different shapes, such as a gourd shape, a long strip shape, a C-shape or other suitable shapes.

As shown in fig. 1 to 6 of the drawings, the prostate therapy device 11 of the prostate therapy system of the present invention further includes a sensing unit 113 for detecting the physiological state of the user. As shown in fig. 1 to 6 of the drawings, the sensing unit 113 further includes a pressure sensing module, a temperature sensing module, a photo sensing module, a camera module and/or an ultrasonic sensing module, wherein the pressure sensing module includes a set of pressure sensors, the pressure sensors of the pressure sensing module are adapted to detect muscle contraction force of the preset detection portion of the user, wherein the temperature sensing module includes at least three temperature sensors, the temperature sensors of the temperature sensing module are respectively disposed at a front section, a middle section and a rear section of the prostate therapy apparatus 11, so as to be able to detect temperatures of different positions of the preset detection portion of the user when the prostate therapy apparatus 11 is placed at the preset detection portion, wherein the photo sensing module includes a set of photo sensors, the photo sensors are adapted to detect temperatures of different positions of the preset detection portion of the user when the prostate therapy apparatus 11 is placed in the body, detect the blood oxygen of the different positions of this preset detection position of user, wherein this camera module includes a set of camera, and this camera of this camera module is set up the anterior segment at this prostate physiotherapy equipment 11 respectively to when this prostate physiotherapy equipment 11 is put in vivo, can shoot the physiology or the pathological condition of this preset detection position of user through this camera multi-angle. Thus, the predetermined parameter of the predetermined detection site may be pressure (or contraction force), temperature, blood oxygen content, radio and television characteristics, image or visualization, wave reflection or echo, etc.

As shown in fig. 1 to fig. 6 of the drawings, the prostate therapy device 11 of the prostate therapy system of the present invention further includes a computing unit 111 and a communication unit 112, wherein the computing unit 111 is a module unit with a central processing unit, a circuit, a memory and a flash memory, which are matched with the central processing unit, and has a computing function, wherein the computing unit 111 is electrically connected (or can be electrically connected) to the communication unit 112, the sensing unit 113 and the stimulation unit 114, so as to calculate, process, store, and regulate the data generated, fed back, or received by the information of the electronic components in the prostate therapy device 11. The calculation unit 111 further comprises an analog-to-digital conversion module 1111 for converting analog signals and digital signals to each other, thereby being adapted to control other modular units, transmit and/or process data, etc. It should be understood by those skilled in the art that the above-mentioned embodiment of the computing unit 111 should not be regarded as a limitation of the present invention, and in practical applications, the computing unit 111 may also be implemented as other elements having the same or similar functions, for example, replacing the flash memory with a magnetic card or the like.

As shown in fig. 1 to 6 of the drawings, the prostate therapy device 11 of the prostate therapy system of the present invention further includes a power unit 115, wherein the computing unit 111 is electrically connected (or can be electrically connected) to the power unit 115 to control the power supply of the power unit 115 to each electronic module of the prostate therapy device 11.

As shown in fig. 1 to 6 of the drawings, correspondingly, according to the preferred embodiment of the present invention, the present invention further provides a prostate physiotherapy system, optionally, comprising a terminal 12 and a prostate physiotherapy device 11, wherein each prostate physiotherapy device 11 at least comprises a sensing unit 113, wherein the prostate physiotherapy device 11 is set to be respectively communicated with the terminal 12, wherein the sensing unit 113 of the prostate physiotherapy device 11 is set to detect at least one preset parameter of at least one preset detection portion of the user, wherein the terminal 12 is set to provide at least one physiotherapy mode to the user according to the detection result of the sensing unit 113 of the prostate physiotherapy device 11.

Further, the terminal 12 is configured to provide a user interface and provide the user with the physiotherapy modes through the user interface, wherein the terminal 12 is configured to allow the user to select at least one physiotherapy mode from the physiotherapy modes provided to the user through the user interface by the terminal 12 through the user interface, and to provide the user with the corresponding prostate physiotherapy guidance through the user interface according to the physiotherapy mode selected by the user.

It should be noted that the health training guide herein refers to a guide for assisting or prompting the patient (or user) to perform prostate therapy through the user interface of the terminal 12 by using voice, text and/or image.

According to the preferred embodiment of the present invention, the present invention further provides a control method for a prostate physiotherapy apparatus, which comprises the steps of:

(a) generating a corresponding control instruction according to the selected physical therapy mode; and

(b) sending the control instruction to the prostate therapy apparatus, so that the stimulation unit of the prostate therapy apparatus provides at least one stimulation according to the control instruction, wherein the stimulation corresponds to the selected therapy mode.

Further, the control method for the prostate physiotherapy equipment of the utility model comprises the following steps:

(a1) recommending a physiotherapy mode to the corresponding user based on the collected user history physiotherapy data, wherein the step (a1) is prior to the step (a).

Optionally, the control method for the prostate physiotherapy apparatus of the present invention further comprises the steps of:

(a2) recommending a physiotherapy mode to a corresponding user based on the user's personal information, wherein the step (a2) is located before the step (a).

Optionally, the control method for the prostate physiotherapy apparatus of the present invention further comprises the steps of:

(a4) sending at least one request message to the cloud; and

(a5) providing the cloud with a user selection of a physiotherapy mode fed back according to the request message, wherein the steps (a4) and (a5) are prior to the step (a).

Optionally, the control method for the prostate physiotherapy device of the present invention includes the following steps:

(a) generating a corresponding control instruction according to the detection result of the sensing unit of the prostate physiotherapy equipment on a preset detection part; and

(b) the control instruction is sent to the prostate therapy device, so that the stimulation unit of the prostate therapy device provides at least one stimulation according to the control instruction.

As shown in fig. 1 to 6 of the drawings, the present invention further provides a prostate therapy device 11 for an intelligent prostate therapy system, which comprises a computing unit 111, a communication unit 112 and a stimulation unit 114, wherein the computing unit 111 is electrically connected to the communication unit 112 and the stimulation unit 114, wherein the communication unit 112 is configured to receive a control command from the terminal 12 of the intelligent prostate therapy system, and transmit the control command to the computing unit 111, wherein the computing unit 111 is configured to control the stimulation unit 114 to apply a stimulation to a preset therapy portion of a user according to the control command. In other words, the calculation unit of the prostate therapy apparatus 11 is configured to process data and control the stimulation unit 114 to provide the desired therapeutic stimulation to the user's therapeutic site, such as to the prostate, sphincter, etc.

As shown in fig. 1 to 6 of the drawings, the communication unit 112 of the prostate physiotherapy device 11 of the intelligent prostate physiotherapy system of the present invention is connected to the terminal of the intelligent prostate physiotherapy system, wherein the user selects the physiotherapy mode through the user interface of the terminal 12, the terminal 12 generates the control command according to the physiotherapy mode, and transmits the control command to the computing unit 111 through the communication unit 112, so that the computing unit 111 is configured to control the stimulation unit 114 to apply stimulation to the preset physiotherapy portion of the user according to the control command. Accordingly, the stimulus corresponds to the physiotherapy mode selected by the user. Optionally, the physiotherapy mode selected by the user through the user interface of the terminal 12 is transmitted to the computing unit 111 through the communication unit 112, so that the computing unit 111 is configured to control the stimulation unit 114 to apply stimulation to the preset physiotherapy portion of the user according to the physiotherapy mode selected by the user.

As shown in fig. 1 to 6 of the drawings, the prostate therapy device 11 for the intelligent prostate therapy system of the present invention further includes a sensing unit 113, wherein the sensing unit 113 is electrically connected to the calculating unit 111, wherein the sensing unit 113 is configured to detect at least one preset parameter of at least one preset detection portion of the user, and the calculating unit 111 is configured to control the stimulating unit 114 to apply the stimulation to the preset therapy portion of the user according to the control command according to the detection result of the sensing unit 113. Alternatively, the calculation unit 111 controls the communication unit 112 to transmit the detection result of the sensing unit 113 to the terminal 12, the terminal 12 generates a control instruction according to the detection result of the sensing unit 113, and the control instruction is transmitted to the calculation unit 111 through the communication unit 112, so that the calculation unit 111 is configured to control the stimulation unit 114 to apply stimulation to the preset physical therapy region of the user according to the control instruction.

As shown in fig. 1 to 6 of the drawings, the communication unit 112 of the prostate physiotherapy apparatus 11 of the intelligent prostate physiotherapy system of the present invention is further configured to communicate with the cloud 13 of the intelligent prostate physiotherapy system through the electronic communication network, wherein the computing unit 111 is configured to send at least one request message to the cloud 13 through the communication unit 112, and control the stimulation unit 114 to apply the stimulation to the preset physiotherapy portion of the user according to the physiotherapy mode corresponding to the request message provided by the cloud 13. Optionally, the communication unit 112 of the prostate physiotherapy apparatus 11 is communicated with the cloud end 13 through the terminal 12, wherein the computing unit 111 is configured to send at least one request message to the cloud end 13 through the communication unit 112 and the terminal 12, and the terminal 12 generates the control command according to the physiotherapy mode provided by the cloud end 13 and corresponding to the request message, so that the computing unit 111 can control the stimulation unit 114 to apply stimulation to the preset physiotherapy portion of the user according to the control command.

As shown in fig. 1 to 6 of the drawings, the stimulation unit 114 of the prostate physiotherapy apparatus 11 of the present invention includes a vibration module, a discharge module, an infrared illumination module, an electric heating module, a magnetic therapy module, a massage module, a fire-drawing module and/or a cold compress module.

As shown in fig. 1 to 6 of the drawings, the sensing unit 113 of the prostate physiotherapy device 11 of the intelligent prostate physiotherapy system of the present invention includes a pressure sensing module, a temperature sensing module, a photoelectric sensing module, a camera module, and/or an ultrasonic sensing module. Preferably, the pressure sensing module comprises a set of pressure sensors, the pressure sensors of the pressure sensing module are adapted to detect muscle contraction force of the preset detection portion of the user, wherein the temperature sensing module comprises at least three temperature sensors, the temperature sensors of the temperature sensing module are respectively disposed at a front section, a middle section and a rear section of the prostate physiotherapy apparatus 11, so as to be able to detect temperatures of different positions of the preset detection portion of the user when the prostate physiotherapy apparatus 11 is placed at the preset detection portion, wherein the photoelectric sensing module comprises a set of photoelectric sensors, the photoelectric sensors are adapted to detect blood oxygen of different positions of the preset detection portion of the user when the prostate physiotherapy apparatus 11 is placed in the body, wherein the camera module comprises a set of cameras, the cameras of the camera module are respectively disposed at the front section of the prostate physiotherapy apparatus 11, so that the physiological or pathological condition of the preset detected part of the user can be photographed through the camera in a multi-angle manner when the prostate physiotherapy apparatus 11 is placed in the body.

More preferably, the prostate therapy apparatus 11 further comprises a data storage module, wherein the data storage module is configured to be electrically connected with the computing unit 111, wherein the data storage module stores at least one therapy mode, and allows the computing unit 111 to acquire at least one therapy mode from the data storage module, wherein the control instruction is generated according to the therapy mode acquired by the computing unit 111 from the data storage module.

As shown in fig. 1 to 6 of the drawings, the prostate therapy device 11 for an intelligent prostate therapy system of the present invention further includes a power supply unit 115, wherein the computing unit 111 is electrically connected to the power supply unit 115 to control the power supply unit 115 to supply power to the communication unit 112, the computing unit 111, the stimulation unit 114 and the sensing unit 113.

As shown in fig. 1 to 6 of the drawings, the computing unit 111 of the prostate therapy device 11 for the intelligent prostate therapy system of the present invention further includes an analog-to-digital conversion module for implementing the interconversion between the analog signal and the digital signal.

As shown in fig. 1 to 6 of the drawings, the present invention further provides a prostate therapy device 11 for an intelligent prostate therapy system, optionally comprising a computing unit 111 and a sensing unit 113, wherein the computing unit 111 is galvanically connected to the sensing unit 113, the sensing unit 113 is configured to detect at least one predetermined parameter of at least one predetermined detection location of a user, wherein the computing unit 111 is configured to select a therapy mode according to a detection result of the sensing unit 113.

As shown in fig. 1 to 6 of the drawings, the prostate therapy device 11 for the intelligent prostate therapy system of the present invention further includes a communication unit 112, wherein the communication unit 112 is electrically connected to the computing unit 111, wherein the computing unit 111 is configured to control the communication unit 112 to send the therapy mode selected by the computing unit 111 to the terminal 12 of the intelligent prostate therapy system, so that the terminal 12 can provide corresponding health training guidance to the user through the user interface of the terminal 12 according to the therapy mode selected by the computing unit 111. In other words, the computing unit 111 controls the communication unit 112 to send the selection information of the computing unit 111 to the terminal 12 of the intelligent prostate physiotherapy system, so that the terminal 12 can provide the corresponding health training guide to the user through the user interface of the terminal 12 according to the selection information of the computing unit 111.

As shown in fig. 1 to 6 of the drawings, the utility model discloses a this communication unit 112 of prostate physiotherapy equipment 11 for intelligence prostate physiotherapy system is further set up and can be linked together through electronic communication network and this intelligence prostate physiotherapy system's high in the clouds 13, and wherein this calculating unit 111 is set up and can be sent at least one request message to this high in the clouds 13 to make this high in the clouds 13 provide at least one kind of physiotherapy mode according to this request message, thereby make the user select at least one kind of physiotherapy mode from this physiotherapy mode that this high in the clouds 13 provided through the user interface of this terminal 12. Optionally, the computing unit 111 is configured to select at least one physiotherapy mode from the physiotherapy modes provided by the cloud 13 according to the detection result of the sensing unit 113.

As shown in fig. 1 to 6 of the drawings, the communication unit 112 of the prostate physiotherapy apparatus 11 of the intelligent prostate physiotherapy system of the present invention is further configured to communicate with the cloud 13 of the intelligent prostate physiotherapy system through the electronic communication network, so that the cloud 13 can collect the historical physiotherapy data of each user through the communication unit 112.

As shown in fig. 1 to 6 of the drawings, the prostate therapy device 11 for the intelligent prostate therapy system of the present invention further includes a data storage module, wherein the data storage module is configured to be electrically connected to the computing unit 111, wherein the data storage module stores at least one therapy mode, and allows the computing unit 111 to acquire at least one therapy mode from the data storage module, wherein the control command is generated according to the therapy mode acquired by the computing unit 111 from the data storage module. In other words, the calculating unit 111 can also select at least one physiotherapy mode from the data storage module according to the detection result of the sensing unit 113.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished.

The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. An intelligent prostate physiotherapy system, comprising:

at least one terminal; and

at least one prostate physiotherapy device, wherein each prostate physiotherapy device at least comprises a stimulation unit, wherein the prostate physiotherapy device is arranged to be respectively communicated with the terminal, wherein the terminal is arranged to be capable of sending a control instruction to the prostate physiotherapy device to control the stimulation unit of the prostate physiotherapy device to apply a stimulation to a preset physiotherapy portion of a user, wherein the stimulation corresponds to the control instruction.

2. The intelligent prostate therapy system according to claim 1, wherein each of the prostate therapy devices further comprises a sensing unit and a computing unit, wherein the computing unit is electrically connectable to the sensing unit, the sensing unit is configured to detect at least one predetermined parameter of at least one predetermined detection site of the user, and wherein the computing unit is configured to select a therapy mode based on a detection result of the sensing unit.

3. The intelligent prostate physiotherapy system according to claim 1, wherein the stimulation unit comprises a vibration module, a discharge module, an infrared illumination module, an electric heating module, a magnetotherapy module, a massage module, a fire pulling module and/or a cold compress module, wherein the infrared illumination module comprises an infrared illuminator.

4. The intelligent prostate physiotherapy system according to claim 2, wherein the stimulation unit comprises a vibration module, a discharge module, an infrared illumination module, an electric heating module, a magnetotherapy module, a massage module, a fire pulling module and/or a cold compress module, wherein the infrared illumination module comprises an infrared illuminator.

5. The intelligent prostate physical therapy system according to claim 2, wherein the sensing unit comprises a pressure sensing module, a temperature sensing module, a photoelectric sensing module, a camera module and/or an ultrasonic sensing module, wherein the camera module can photograph a physiological or pathological condition of a preset detection portion of a user at multiple angles.

6. The intelligent prostate physical therapy system according to claim 4, wherein the sensing unit comprises a pressure sensing module, a temperature sensing module, a photoelectric sensing module, a camera module and/or an ultrasonic sensing module, wherein the camera module can photograph a physiological or pathological condition of a preset detection part of a user at multiple angles.

7. The intelligent prostate physiotherapy system according to claim 5, wherein the pressure sensing module comprises a set of pressure sensors, wherein the temperature sensing module comprises at least three temperature sensors, the temperature sensors of the temperature sensing module are respectively disposed at a front section, a middle section and a rear section of the prostate physiotherapy apparatus, wherein the photoelectric sensing module comprises a set of photoelectric sensors, wherein the camera module comprises a set of cameras, the cameras of the camera module are respectively disposed at the front section of the prostate physiotherapy apparatus, wherein the preset parameter of the preset detection portion is pressure, temperature, blood oxygen content, wide electrical characteristics, image or visualization, wave reflection or echo.

8. The intelligent prostate physiotherapy system according to claim 6, wherein the pressure sensing module comprises a set of pressure sensors, wherein the temperature sensing module comprises at least three temperature sensors, the temperature sensors of the temperature sensing module are respectively disposed at a front section, a middle section and a rear section of the prostate physiotherapy apparatus, wherein the photoelectric sensing module comprises a set of photoelectric sensors, wherein the camera module comprises a set of cameras, the cameras of the camera module are respectively disposed at the front section of the prostate physiotherapy apparatus, wherein the preset parameter of the preset detection portion is pressure, temperature, blood oxygen content, wide electrical characteristics, image or visualization, wave reflection or echo.

9. An intelligent prostate physiotherapy system, comprising:

one or more prostate physiotherapy devices adapted to be disposed in a human body for communicating wireless signals;

one or more terminals for providing a user interface for communicating wireless signals; and/or

One or more cloud ends, store the data of communicateing the acquisition and supply follow-up utilization, wherein every this prostate physiotherapy equipment includes amazing unit at least, and wherein this prostate physiotherapy equipment is set up and is linked together with this terminal respectively, and wherein this terminal is set up and can send control command to this prostate physiotherapy equipment to this amazing unit of control this prostate physiotherapy equipment applys a stimulus to user's a preset physiotherapy position, and wherein this stimulus is corresponding with this control command.

10. The intelligent prostate therapy system according to claim 9, wherein the prostate therapy device comprises:

a computing unit;

a communication unit;

a sensing unit; and

and the communication unit, the sensing unit and the stimulation unit are respectively connected to the computing unit in an electrifying way, and the computing unit comprises an analog-digital conversion module for converting analog signals and digital signals into each other.

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