CN211410115U

CN211410115U - Wearable device

Info

Publication number: CN211410115U
Application number: CN201820105401.7U
Authority: CN
Inventors: 胡敏
Original assignee: Ningbo Happy Mother Medical Technology Co ltd
Current assignee: Ningbo Happy Mother Medical Technology Co ltd
Priority date: 2017-01-22
Filing date: 2018-01-22
Publication date: 2020-09-04
Anticipated expiration: 2028-01-22
Also published as: CN108433974A

Abstract

The utility model discloses a wearable device, it includes a wearable main part and a stimulation device, wherein the wearable main part can be dressed by the user, wherein the stimulation device includes a stimulation subassembly, stimulation subassembly set up in the wearable main part, wherein work as when the wearable main part is dressed, a stimulation region that stimulation subassembly formed can correspond an at least acupuncture point of human body automatically.

Description

Wearable device

Technical Field

The utility model relates to a wearable equipment especially relates to a wearable equipment that can amazing human four limbs acupuncture point. In addition, when the user uses the wearable device, the stimulation area formed by the stimulation component in the wearable device can automatically correspond to at least one acupuncture point on the body of the user.

Technical Field

With the progress of science and technology, various wearing products are full of the eyes of Lin, users are dazzling when purchasing wearing products, and smart bracelets as electronic products are loved by more and more users. Not only because they have a very cool appearance, but also because the smart band can accompany the user as a health monitoring device. For example, the existing smart bracelet can monitor the sleep time of a user, monitor the motion state of the user and the like to further form corresponding health analysis data, the data is further transmitted to a terminal (for example, an intelligent robot, electronic equipment, a virtual cloud and the like) of the user by wireless transmission equipment in the smart bracelet, and the user can know the physical condition of the user to further adjust the data after knowing the data. For example, after the smart band of the user monitors the sleep time of the user and forms data, the smart band can directly transmit the data to the cloud, the remote server further compares the data with the standard sleep time of a normal person every day, and then forms a feedback signal (for example, the sleep time is insufficient, please keep sufficient sleep time), the feedback signal can be pushed to the electronic device of the user, and the user can adjust in sleep to keep a relatively healthy state after knowing the feedback signal.

With the improvement of living standard, the functional requirements of people on electronic products are more and more demanding. Many utility model people also spend much energy on developing a smart bracelet with physiotherapy health care function, but do not get any result all the time.

Some of the utility model people propose to make a bracelet capable of stimulating the acupuncture points of the human body to achieve the purposes of physical therapy and health care, but the bracelet has to be made due to various difficulties.

One of the difficulties is: the existing bracelet generally comprises an annular belt and a bracelet device fixed on the annular belt, wherein when the bracelet is worn on the wrist of a user, the annular belt can be manually fixed on the wrist of the user by a magnetic fastener on the annular belt, the mode of fixing the bracelet on the wrist of the user can not ensure that the position of the bracelet deviates when the user moves, particularly strenuous movement, human acupuncture points are fixed on specific parts of a human body, and when the distance of the acupuncture points stimulated by the deviation of the position of the intelligent bracelet is too large, the physiotherapy and health care function of the intelligent bracelet can not be normally exerted.

In addition, there is almost no improvement in other types of accessories worn on the user's wrist, and there is almost no accessory worn on the user's wrist that can perform a physical therapy health function.

In addition, when a user uses the health-care device, after the user uses the health-care device for a period of time, the physical therapy effect of the purchased health-care device on the user cannot be known, and after the user purchases the health-care device, the user can only use the health-care device through the instruction of the specification, but cannot obtain professional instruction according to the physical condition of the user.

Disclosure of Invention

An object of the utility model is to provide a wearable device, wherein wearable device is dressed the back by the user, can amazing acupuncture point on the user's health (especially the acupuncture point on the four limbs, like Neiguan acupuncture point, Taichong acupuncture point and Zusanli acupuncture point etc.) to reach physiotherapy health care's purpose.

An object of the utility model is to provide a wearable device, wherein wearable device can help the user to find the acupuncture point that needs to be amazing accurately.

An object of the utility model is to provide a wearable device, wherein even if inexperienced user, also can utilize wearable device finds needs by amazing acupuncture point fast and accurately to be favorable to expanding wearable device's application scope.

An object of the utility model is to provide a wearable device, wherein wearable device can be irritated the interior guan cave on the user's wrist according to a preset frequency after being dressed by the user to reach the purpose of physiotherapy health care.

An object of the utility model is to provide a wearable device, wherein wearable device is dressed the back by the user, the frequency of wearing the amazing user of wearable device interior guan cave can be adjusted by user's selectivity, and then makes this wearable device can adapt to different users of different ages, health situation difference.

An object of the utility model is to provide a wearable device, wherein wearable device includes a stimulation device, stimulation device includes a stimulation subassembly, wherein stimulation subassembly can be driven in order to dress at the user during wearable device, the acupuncture point on user's four limbs can be amazing to reach final physiotherapy health care's purpose.

An object of the utility model is to provide a wearable device, wherein the acupuncture point on user's four limbs can be amazing according to predetermined frequency to amazing subassembly.

An object of the utility model is to provide a wearable device, wherein the frequency of stimulating the acupuncture point on the user's health of subassembly is set up to be adjustable.

An object of the utility model is to provide a wearable device, wherein the user is dressing wearable device need not to consider the relative position of wearable device and wrist, wherein wearable device can instruct the correct wearing of user to realize its physiotherapy health care's function.

An object of the utility model is to provide a wearable device, wherein even the user dresses the severe motion of wearable device, wearable device also can adjust its relative position with the user's wrist automatically, and then makes the physiotherapy health function of wearable device can fully exhibit.

Another object of the present invention is to provide a wearable device, wherein the health guidance system based on the wearable device can be used according to the user the health status around the wearable device is fed back to the user, so that the user can know the effect of the wearable device on the physical therapy.

Another object of the utility model is to provide a wearable device, wherein the health guide system based on wearable device can use according to the user the change of health state around the wearable device, and then form corresponding health guide strategy, according to form health guide strategy, and then can make the user through combining health guide strategy uses the mode of wearable device reaches physiotherapy effect more.

Another object of the present invention is to provide a wearable device, wherein the health guidance system based on the wearable device can match a health guidance for a new user, so as to make the new user use the wearable device can be guided reasonably.

Another object of the present invention is to provide a wearable device, wherein the health guidance system based on the wearable device is matched with the new user, the monitoring guidance is used to the user of the wearable device is followed based on the health guidance obtained in the health guidance system of the wearable device, so as to make the new user adjust the wearable device mode in real time with pertinence, and then make the new user use the wearable device can be reasonably guided before.

According to an aspect of the utility model, the utility model provides a wearable device, it includes:

a wearable main body; and

a stimulation device, wherein the stimulation device comprises a stimulation component, the stimulation component is disposed on the wearable body, wherein the stimulation component is capable of forming a stimulation area when the wearable body is worn.

According to an embodiment of the present invention, the wearable main body forms a wearing space, and the stimulation component forms the stimulation area is located in the wearing space.

According to an embodiment of the present invention, the stimulation area is a dynamic stimulation area.

According to an embodiment of the present invention, the stimulation device further comprises an adjustment assembly, wherein the stimulation assembly is adjustably connected to the adjustment assembly.

According to an embodiment of the present invention, the stimulation device further comprises a drive assembly, wherein the stimulation assembly is drivably connected to the drive assembly.

According to an embodiment of the present invention, the stimulation component is a pulse generator.

According to an embodiment of the present invention, the wearable device further comprises an adjustment device, wherein the adjustment device is disposed in the wearable main body.

According to an embodiment of the present invention, the adjusting device further includes:

an identification component, wherein the identification component is arranged on the wearable main body to form a characteristic signal;

the communication component is in communication connection with the identification component so as to be capable of receiving the characteristic signal and performing wireless transmission on the characteristic signal, and the communication component can be connected with an external wireless receiving server; and

a drive assembly, wherein the drive assembly is communicatively coupled to the communication assembly and the identification assembly.

an analysis component, wherein the analysis component is connected to the identification component, wherein the analysis component comprises an analysis element, wherein the analysis element is connected to the identification component, acquires the characteristic signal formed by the identification component and compares the characteristic signal with a pre-acquired reference signal to form a feedback signal; and

an execution component, wherein the execution component is disposed on the wearable main body and connected to the analysis element of the analysis component, wherein the execution component obtains the feedback signal and executes at least one feedback action based on the feedback signal.

According to an embodiment of the present invention, the adjustment device further comprises a monitoring device, wherein the stimulation component is connected to the monitoring device.

According to an embodiment of the present invention, the monitoring device comprises a wearable device monitoring component, wherein the wearable device monitoring component is electrically connected to the stimulating assembly and the analyzing assembly.

According to an embodiment of the present invention, the monitoring device further comprises a user status monitoring component, wherein the user status monitoring component is communicatively connected to the communication assembly.

Drawings

Fig. 1A is a schematic plan view of the wearable device of the present invention worn on the wrist of a human body.

Fig. 1B is a schematic plan view of the wearable device of the present invention worn on the ankle of a human body.

Fig. 1C is a schematic plan view of the wearable device of the present invention worn on the foot of a human body.

Fig. 2A is a schematic plan view of a stimulation component of a stimulation device according to an embodiment of the present invention.

Fig. 2B is a schematic plan view of a stimulation component of a stimulation device in another embodiment of the present invention.

Fig. 3 is a schematic plan view of a stimulation device aligned with the Neiguan acupoint of a user's wrist according to an embodiment of the present invention.

Fig. 4 is a schematic plan view of a stimulation device aligned with the Neiguan acupoint of a user's wrist according to another embodiment of the present invention.

Fig. 5A is a schematic diagram illustrating the operation of a stimulation device according to an embodiment of the present invention.

Fig. 5B is a schematic diagram illustrating the operation of a stimulation device according to another embodiment of the present invention.

Fig. 6 is a flowchart illustrating the operation of a wearable device management system according to the present invention.

Fig. 7 is a schematic structural view of a wearable device of the present invention.

Fig. 8 is a schematic structural diagram of a health guidance system based on wearable devices.

Fig. 9 is a flowchart of a health guidance method based on the wearable device 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.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is to be understood that the terms "a" and "an" are to be interpreted as meaning that a number of one element may be one in one embodiment or plural in another embodiment, and the terms "a" and "an" are not to be interpreted as limiting the number, and that "front" and "back" in the present invention mean time and logic in some places, but not limited in this respect.

According to the theory of traditional Chinese medicine, the acupuncture points of the human body play a very key role in regulating the functions of the human body, sometimes the aim of curing diseases can be achieved for people suffering from diseases through stimulating the acupuncture points, and not only can the aim of medical care be achieved for normal people through properly stimulating the acupuncture points at ordinary times, and then the life can be prolonged.

Referring to fig. 1A to fig. 1C, the present invention provides a wearable device 100, wherein when the wearable device 100 is worn by a user, the wearable device 100 can stimulate acupuncture points on the body of the user, and then can achieve the effect of physical therapy and health care. For making the utility model discloses field technical personnel can understand and implement the utility model discloses, following the utility model discloses use the interior acupuncture point of closing on the human wrist as the example, it is right the technical scheme of the utility model carry out detailed explanation, but technical personnel in the field can understand, wearable device 100 is applicable to equally and stimulates the acupuncture point at other positions of human body, the utility model discloses do not receive this restriction.

It is known that Neiguan point (Neiguan point is denoted by P) is one of the commonly used acupoints of pericardium meridian of hand jueyin, which comes from Ling Shu & Jing Mai, located on the palmar side of the forearm, 2 cun above the transverse crease of the wrist, between the long palmar tendon and the flexor tendon of the wrist on the radial side. Modern times, it is indicated for angina pectoris, myocarditis, arrhythmia, gastritis, hysteria, etc., with 0.5-1 cun perpendicular insertion.

The commonly-known method for determining the location of Neiguan point is to put the index finger, middle finger and ring finger of one hand of the human body close together and horizontally on the wrist of the other hand, wherein the horizontally-placed ring finger is flush with the wrist striation of the other hand, and the location (P) between two points which are distant from the three transverse fingers L3 of the wrist striation and intersect with the middle of the tendon of Changtongis and the flexor carpi radialis tendon is the location of Neiguan point which we often say.

Specifically, the wearable device 100 includes a wearable main body 10 and a stimulation device 20, wherein the stimulation device 20 is disposed on the wearable main body 10, and when the user wears the wearable device 100, the stimulation device 20 located on the wearable main body 10 can stimulate the Neiguan acupoint on the body of the user, thereby achieving the effect of physical therapy and health care.

According to the present invention, the stimulation device 20 can be a push type stimulation, a pulse stimulation transmitted by a pulse generator, a heat source stimulation given by a heating component, or a combination of the pulse stimulation transmitted by the pulse generator and the stimulation given by the heating component. Preferably, the stimulation device 20 stimulates the Neiguan acupoint in a manner of pulse stimulation emitted from a pulse generator, and the details will be described in detail in the following embodiments of the present invention, and other obvious stimulation manners can be conceived by those skilled in the art, and the present invention is not limited thereto.

It is worth mentioning that, in an embodiment of the present invention, the wearable main body 10 can be implemented as a smart bracelet having various structures and various functions on the market, such as: the wearable main body 10 may include a wearable part to enable the wearable main body 10 to be worn on the wrist by the user, the wearable main body 10 may also be a common garment, or a shoe clip, wherein the wearable main body 10 includes a rechargeable power source to provide energy to other parts of the wearable device 100, wherein the bracelet may also include a timing device to record the time when the user performs a certain specific activity, wherein the wearable main body 10 further includes a wireless transmitting device, wherein the wireless transmitting device may be connected to the timing device to wirelessly transmit the data recorded by the timing device to a cloud server or directly to the electronic device of the user, so that the user can obtain the data. It should be noted that the wearable main body 10 may be configured as a ring, a quarter-circle, etc., and the present invention is not limited thereto. In addition, the wearable main body 10 of the present invention can be implemented as any other various accessories suitable for being worn on the wrist, and the present invention is not limited thereto. In order to make the technical personnel in this field understand the utility model discloses, in the embodiment of the utility model, wearable main body 10 is implemented as a smart bracelet. The wearable main body 10 may be implemented as various other wearing articles, and the present invention is not limited thereto.

In another embodiment of the present invention, the wearable body 10 may be implemented to be composed of other components, wherein those skilled in the art should understand in conjunction with the following description.

In the following embodiments of the present invention, the wearable main body 10 is configured as a three-quarter ellipse, and those skilled in the art can understand that the shape of the wearable main body 10 can be implemented as other various shapes, and the present invention is not limited thereto.

Referring to fig. 2A, the stimulation device 20 includes a stimulation component 21, wherein the stimulation component 21 is disposed on the wearable main body 10, and when the wearable main body 10 is worn by the user, the stimulation component 21 stimulates the Neiguan point located on the wrist of the user for physiotherapy and health care.

According to an embodiment of the present invention, the stimulation device 20 further comprises a driving component 22, wherein the driving component 22 is installed in the wearable main body 10, and the stimulation component 21 is drivably connected to the driving component 22, wherein after the wearable main body 10 is worn by the user, the driving component 22 can drive the stimulation component 21 to work, so that the stimulation component 21 can press the inner acupuncture points of the user, and further the physical therapy health effect can be achieved.

Specifically, according to the present embodiment, the driving assembly 22 can be implemented as a motor; wherein the stimulation unit 21 is implemented as a pressing member, preferably, the stimulation unit 21 may be implemented as being supported by various health care materials, such as rosewood material, and the like, and it is worth mentioning that the stimulation unit 21 can be driven by the driving unit 22 to automatically press the Neiguan acupoints (especially Neiguan acupoints and Waiguan acupoints) on the wrist of the user.

More specifically, when the wearable device 100 is worn by a user, the stimulation component 21 can be intermittently driven by the driving component 22 so that the stimulation component 21 can press the Neiguan point on the wrist of the user along a direction substantially perpendicular to the natural extension direction of the wrist of the user, that is, the stimulation component 21 can intermittently apply pressure to the Neiguan point on the wrist of the user so as to stimulate the Neiguan point on the wrist of the user, thereby achieving a physiotherapeutic effect.

It is worth mentioning that the maximum pressure with which the stimulation assembly 21 presses against the Neiguan acupoint on the user's wrist is set to not exceed a predetermined value so that the user does not feel noticeable pain.

It should be noted that the stimulation device 20 further includes an adjusting component 23, wherein the adjusting component 23 is connected to the driving component 22, so as to adjust the adjusting component 23 by the driving component 22, and the stimulation component 21 is adjustably connected to the adjusting component 23, so as to enable the frequency of pressing the user's inner-guan acupoint by the stimulation component 21 and the force of pressing the user's wrist on the inner-guan acupoint to be adjusted, wherein the adjusting component 23 can be disposed on the wearable main body 10 of the wearable device 100, so that the user can adjust the frequency of stimulating the user's wrist by the stimulation component 21 by externally adjusting the adjusting component 23. It will be appreciated by those skilled in the art that the adjusting component 23 may include a control circuit connected to the driving component 22 and an adjusting knob disposed on the wearable main body 10, so as to enable the user to adjust the operating frequency of the driving component 22 driving the stimulation component 21, i.e. the wearable device 100 can operate at different stimulation frequencies for different users. More preferably, the adjusting component 23 may be an external adjusting knob or button, or may be a virtual touch screen type button, and the present invention is not limited by the present invention.

As will be understood by those skilled in the art, the wearable device 100 can be switched between an operating state and a closed state by the adjusting component 23, wherein when the wearable device 100 is in the operating state, the stimulating component 21 can stimulate the corresponding acupuncture points of the user at a certain frequency by the adjusting component 23, and when the wearable device 100 is in the closed state, the stimulating component 21 stimulates the user at zero frequency.

It should be noted that the stimulation device 20 further includes a sensing component 24, wherein the sensing component 24 can identify the state of the wearable main body 10, wherein the sensing component 24 is disposed on the wearable main body 10, and the sensing component 24 is connected to the driving component 22.

Specifically, when the sensing component 24 senses that the wearable main body 10 is worn by the user, the sensing component 24 can drive the driving component 22 to operate, so that the driving component 22 further drives the stimulating component 21 to operate, and further the stimulating component 21 can stimulate the Neiguan acupoint on the wrist of the user, thereby achieving a physiotherapy health-care effect; when the sensing component 24 senses that the wearable main body 10 is not worn by the user, the sensing component 24 does not drive the driving component 22 to work, that is, the stimulation component 21 does not work at this time, so as to ensure the working efficiency of the stimulation component 21, and when the wearable main body 10 is implemented as an electronic device, the electric quantity of the wearable main body 10 can be saved to prolong the working time of the wearable device 100.

Preferably, the sensing element 24 is connected to the stimulating element 21, wherein when the sensing element 24 detects that the user is wearing the main body 10, the sensing element 24 will drive the stimulating element 21 to operate, wherein the user can adjust the frequency of the stimulating element 21 by adjusting the adjusting element 23.

As will be understood by those skilled in the art, the sensing element 24 can be implemented as an infrared device, wherein the infrared device can acquire the distance from the wearable main body 10 to the human body, and when the distance from the wearable main body 10 to the human body acquired by the sensing element 24 is smaller than a preset value, the sensing element 24 can further drive the driving element 22 to further drive the stimulating element 21 to stimulate the Neiguan acupoint on the wrist of the user, so as to further achieve the physiotherapy health effect. It will also be appreciated by those skilled in the art that the sensing assembly 24 of the present invention can also be configured as a manual adjustment switch disposed on the wearable body 10.

Referring to fig. 2B, according to another embodiment of the present invention, wherein the stimulation component 21A is implemented as a pulse generator, wherein the pulse generator can emit at least one pulse, which can stimulate the Neiguan acupoint of the human body, thereby realizing the health care function of the wearable device 100. That is, when the wearable body 10 is worn on the wrist of the user, the pulse emitted by the stimulation component 21A can cover the position of the Neiguan point on the wrist of the user, and thus can stimulate the Neiguan point on the wrist of the user.

Specifically, the pulse emitted by the stimulation component 21A and the nerve pulse on the wrist of the user can form a loop, and at least one acupoint on the body of the user is located in the loop, so that the nerve pulse on the Neiguan acupoint on the wrist of the user can be stimulated to achieve the effects of physiotherapy and health care.

Further, in this embodiment, the stimulation device 20A also includes an adjusting component 23A, wherein the adjusting component 23A is connected to the stimulation component 21A, so that the frequency of the pulses emitted by the stimulation component 21A can be adjusted, and the bracelet can select the pulse frequency adapted to the user according to the physical condition of the user.

The stimulation device 20A also includes a sensing element 24A, wherein the sensing element 24A is connected to the stimulation element 21A, wherein the sensing element 24A is disposed on the wearable body 10A. Specifically, when the sensing component 24A monitors that the wearable main body 10 is worn by the user, the sensing component 24A can actuate the stimulation component 21A to work to emit at least one pulse to stimulate the Neiguan acupoint on the wrist of the user, so as to achieve the physical therapy and health care effects; when the sensing component 24A monitors that the wearable main body 10 is not worn by the user, the sensing component 24A is in a closed state, that is, the stimulation component 21A does not work, so that the working efficiency of the stimulation component 21A is ensured, and the electric quantity of the wearable main body 10 is also saved. Preferably, the sensing component 24A is connected to the adjusting component 23A, wherein when the sensing component 24A detects that the user wears the wearable main body 10, the sensing component 24A drives the stimulating component 21A to operate, wherein the user can adjust the frequency of the stimulating component 21A by adjusting the adjusting component 23A.

According to an embodiment of the present invention, the sensing assembly is implemented in the same structure as the sensing assembly in the above-mentioned embodiment.

According to the utility model discloses a further embodiment, wherein the stimulation subassembly 21 is implemented as a heating subassembly, wherein when the user dresses the wearable main body 10, the stimulation subassembly 21 can automatically generate heat and then make the user's internal guan cave can be stimulated through the mode of heat-conduction, and then in order to further reach physiotherapy health care effect. It is worth mentioning that the heat generated by the stimulation component 21 does not exceed the temperature to which the human body is subjected, so as to prevent the hands of the user from being scalded.

According to the present embodiment, other obvious heating methods can be conceived by those skilled in the art, including electromagnetic heating, resistance heating, etc., and the present invention is not limited in this respect.

It will be understood by those skilled in the art that the foregoing embodiments are merely illustrative of the ability of those skilled in the art to understand and practice the invention, and do not limit the invention in any way that other obvious variations will occur to those skilled in the art.

Referring to fig. 3, it is worth mentioning that, according to the above embodiment, when the wearable body 10 is worn by the user, the stimulation component 21 provided on the wearable body 10 is configured in size to cover the inner guan point of the user, that is, when the wearable body 10 is worn by the user, the stimulation component 21 forms a stimulation area at the wrist of the user sufficient to cover the position of the inner guan point of the user. For example, in the embodiment of the wearable device 100 shown in fig. 3, the wearable body 10 forms a wearing space 300 for wearing at the wrist of the user, wherein the stimulation region 200 is formed at the wearing space 300 to stimulate acupuncture points at the wrist of the user.

Specifically, the stimulation component 21 disposed on the wearable main body 10 forms the stimulation area 200 when driven to operate, wherein the stimulation area 200 formed by the stimulation component 21 is enough to cover the Neiguan acupoint of the user when the user wears the wearable main body 10, and preferably, the stimulation area 200 formed by the stimulation component 21 is a circular area with a radius of 2.0-2.5 inches and using tendons of three fingers away from the wrist striation of the user as a center, so that the user does not need to specially search the position of the Neiguan acupoint when wearing the wearable main body 10. That is, according to the embodiment of the present invention, wherein the stimulation component 21 is on the user belt behind the wearable main body 10, the stimulation component 21 forms the stimulation area 200 inevitably covers the inner acupuncture point of the user, and then the user can wear the wearable main body 10 only according to the normal wearing manner. In addition, although the position of the wearable main body 10 may be shifted during the user's strenuous exercise, since the stimulation area 200 formed by the stimulation component 21 is large, the inner acupuncture point of the user is difficult to be deviated from the stimulation area 200 formed by the stimulation component 21, and thus the health care and physical therapy functions of the wearable main body 10 can be sufficiently exhibited during the user's strenuous exercise.

More specifically, according to the above embodiment of the present invention, when the stimulation component 21 is implemented as a pressing component, the contact area between the stimulation component 21 and the wrist of the user can cover the inner pass point of the wrist of the user; when the stimulation component 21 is implemented as a pulse generator, the pulse generator generates a pulse covering range capable of covering the position of the Neiguan point of the wrist of the human body; when the stimulation component 21 is implemented as a heat generating component, the contact area between the heat generating component and the wrist of the user can cover the Neiguan point of the wrist of the user.

It will be understood by those skilled in the art that the shape and size of the stimulation area 200 formed by the stimulation component 21 are merely illustrative, and that the stimulation area 200 formed by the stimulation component 21 can be adjusted to other shapes such as rectangular, fan-shaped, oval, etc. by adjusting the stimulation device 20; wherein the size of the stimulation area 200 can also be adjusted accordingly, refer to fig. 3, wherein the stimulation area 200 formed by the stimulation component 21 is elliptical. That is, the stimulation region 200 is a dynamic stimulation region.

Referring to fig. 4, 5A and 5B, according to another embodiment of the present invention, the wearable device 100 includes an adjusting device 30, wherein the adjusting device 30 is disposed on the wearable main body 10, wherein the adjusting device 30 includes an identification component 31, and the identification component 31 is disposed on the wearable main body 10 to be able to acquire a certain feature on the wrist of the user to form a feature signal.

Preferably, the recognition component 31 is implemented as an image acquisition device, wherein the recognition component 31 can automatically pick up the posture of the user wearing the wearable body 10 when the user wears the wearable body 10. Specifically, according to the utility model discloses, identification element 31 can pick up and acquire the user and be wearing during wearing formula main part 10, the characteristic of user wrist band is in order to judge wearing formula main part 10 is apart from user wrist band characteristic, and then forms a characteristic signal.

More preferably, the identification component 31 may be implemented as a human body acupoint detector.

Specifically, when the wearable device 100 is worn on the wrist of the user, the recognition component 31 can detect that the posture of the wearable main body 10 can be the width, the length, and the like of the wrist upper cross print of the user, and then determine the distance between the wearable main body 10 and the wrist upper cross print of the user to form a characteristic signal corresponding thereto.

Further, the adjusting device 30 comprises an analyzing component 32, wherein the analyzing component 32 is disposed on the wearable body 10, wherein the analyzing component 32 is connected to the identifying component 31. According to the embodiment of the present invention, the analysis component 32 includes an analysis element 321 and a storage element 322 connected to the analysis element 321, wherein the storage element 322 stores a reference signal in advance.

Preferably, according to the embodiment of the present invention, the reference signal may correspond to the characteristics of the wrist cross striation (e.g. the length of the wrist cross striation, the distance between the wrist cross striation and the wearable main body, etc.) when the user correctly wears the wearable main body 10 (i.e. the wearable main body 10 is in the standard posture); the analyzing element 321 is connected to the storage element 322 and the identification component 31, so as to be able to acquire the reference signal in the storage element 322 and the characteristic signal in the identification component 31, respectively, and the analyzing element 321 of the analyzing component 32 can compare the acquired reference signal and characteristic information to form a feedback signal.

According to an embodiment of the present invention, the adjusting device 30 further comprises a communication component 33, wherein the communication component 33 is connected to the analyzing component 32. Specifically, the communication component 33 is connected to the analysis element 321 of the analysis component 32, and the communication component 33 is disposed on the wearable main body 10, wherein the communication component 33 can be communicatively connected to a terminal (e.g., a smart robot, an electronic device, a virtual cloud, etc.) to feed back the formed feedback signal to the user.

Preferably, according to the present embodiment, the adjusting component 23 of the stimulation device 20 is connected to the communication component 33, so that the user can adjust the frequency intensity stimulated by the stimulation component 31 through a virtual button on the electronic device.

According to another embodiment of the present invention, the communication component 33 is connected to the identification component 31 to be able to acquire the characteristic signal formed by the identification component 31. In the present embodiment, the communication component 33 is implemented as a bluetooth module, wherein the communication component 33 is capable of transmitting the characteristic signal formed by the identification component 31 to a service end. The server stores data information of the user wearing the wearable device 100 correctly, such as: the characteristics of the user wrist striations recorded when the user correctly wears the wearable device 100 are stored, wherein the server can automatically compare the characteristic information received from the communication component 33 with the reference signal stored in the server to form a feedback signal, wherein the feedback signal can be transmitted to the communication component, that is, the analysis component 32 in the previous embodiment can be implemented as a service terminal.

Further, the adjusting device 30 further comprises an executing element 34, wherein the executing element 34 is disposed on the wearable main body 10, wherein the executing element 34 is connected to the analyzing element 321 of the analyzing element 32, wherein when the executing element 34 obtains the feedback signal from the analyzing element 321, the executing element 34 executes at least one feedback action, by which the relative position between the wearable main body 10 and the wrist of the user can be selectively and automatically adjusted.

Specifically, when the characteristic information formed by the identification element 31 is not consistent with the reference signal stored in the server, it indicates that the stimulation area 200 formed by the stimulation element 21 worn by the user cannot cover the inner acupuncture point on the wrist of the user, wherein the feedback signal is transmitted to the execution element 34 through the communication element 33 to drive the execution element 34 to drive the wearable main body 10 to execute at least one feedback action, i.e. at least one vector motion, and based on the vector motion, the relative position between the whole wearable main body 10 and the wrist of the user is adjusted; when the characteristic information formed by the identification element 31 is consistent with the reference signal stored in the server, it indicates that the inner acupuncture point on the wrist of the user wearing the wearable device 100 is covered by the stimulation area 200 formed by the stimulation element 21, wherein the feedback signal is transmitted to the execution element 34 by the communication element 33 to drive the execution element 34 to execute at least one feedback action, i.e. stop working, and at this time, the relative position between the wearable main body 10 and the wrist of the user is not adjusted.

It is worth mentioning that when the wearable main body 10 is worn by the user, the interaction among the identification component 31, the communication component 33, the execution component 34 and the server occurs at the moment, that is, once the stimulation area 200 formed by the stimulation component 21 cannot cover the inner acupoint of the user, the execution component 34 is driven to perform at least one vector motion to adjust the relative position between the wearable device 100 and the wrist of the user until the execution component 34 stops performing the vector motion.

It is worth mentioning that the actuator 34 may be implemented as a motor as the driving element in the above-mentioned embodiment.

It should be noted that the vector motion may be up and down sliding along the arm of the user, or turning.

In addition, the service end may be a commercial platform of the manufacturer of the wearable device 100, wherein when each user purchases the wearable device 100, the vendor may instruct the user to correctly wear the wearable device 100 so that the stimulation area 200 formed by the stimulation component 21 of the stimulation apparatus 20 can cover the inner pass point on the wrist of the user, wherein the identification component 31 of the adjustment apparatus 30 can now acquire the characteristics of the wrist cross print of the purchaser, thereby forming an initial characteristic information, which is transmitted to the service end by the vendor as the reference signal.

The above examples are given solely to enable those skilled in the art to understand and practice the invention without imposing any limitations thereon, and other obvious variations will occur to those skilled in the art.

According to another embodiment of the present invention, the adjusting device 30 further comprises an indicating device 40, wherein the indicating device 40 is disposed on the wearable main body 10, and the indicating device 40 is connected to the analyzing element 321 of the analyzing component 32, so that the feedback signal formed by the analyzing element 321 can be fed back to the user.

Specifically, when the Neiguan point on the wrist of the user is not located in the stimulation area 200 formed by the stimulation component 21, the indication device 40 can perform a prompt (e.g., voice, vibration, etc.) to prompt the user that the position of the wearable device 100 needs to be adjusted, so that the user can adjust the stimulation component 21 by using the prompt information to enable the stimulation area 200 formed by the stimulation component 21 to cover the Neiguan point on the wrist of the user; when the Neiguan point on the wrist of the user is adjusted and is in the stimulation area 200 formed by the stimulation component 21, the indication device 40 stops executing the prompt action.

Through the above description, those skilled in the art can know that the wearable device 100 of the present invention can be worn by a user without reading long document specifications and spending time to find the location of the inner relation point, and once the wearable device 100 is worn by the user, the adjusting device 30 of the wearable device 100 can be automatically adjusted to enable the inner relation point of the user to be corresponding to the stimulation area 200 of the stimulation component 21 of the stimulation device 20.

Further, the communication component 33 of the adjustment device 30 is further connected to the sensing component 24 of the stimulation device 20, wherein when the wearable device 100 is not worn by the user, the sensing component 24 is in a closed state, that is, the stimulation component 21 of the stimulation device 20 does not work, so as to save the power of the wearable main body 10; when the user wears the wearable main body 10, the sensing element 24 is automatically turned on, so that the sensing element 24 can normally work.

Preferably, the adjusting device 30 further includes a light emitting component 50, wherein the light emitting component 50 is disposed on the wearable main body 10, wherein the light emitting component 50 includes a light emitting element 501 and a light sensing element 502, wherein the light emitting element 501 is connected to the light sensing element 502, wherein the light sensing element 502 is connected to the identification component 31, and further when the identification component 31 is in an operating state and external light is insufficient to cause the identification component 31 to be unable to clearly obtain the features of the wrist striations of the user, the light sensing element 502 drives the light emitting element 501 to operate to provide sufficient light for the identification component 31, so that the identification component 501 can more clearly obtain the features of the wrist striations of the user to form an accurate feature signal.

Through the above description, the technical solution of the present invention can be understood by those skilled in the art, and furthermore, the wearable device 100 of the present invention can be worn at other parts of the human body, as shown in fig. 1B, when the user needs to use the wearable device 100 to stimulate tsusanli acupoints, the identification component 31 identifies the relative position relationship between the wearable device 100 and the user. At this time, the characteristic signal corresponds to the recognition component 31 recognizing the relative position relationship between the wearable device 100 and the tibia and the outsider eyes of the user, thereby detecting the posture of the wearable main body 10 of the wearable device 100. The reference signal at this time corresponds to the position of the wearable body 10 (i.e., the standard posture) when the stimulation area 200 of the wearable device 100 covers the tsu-san-li point of the user (where the tsu-san-li point is located on the lateral side of the tibia of the L4 below the knee eye of the human body).

As shown in fig. 1C, when the user needs to stimulate the taichong acupoint with the wearable device 100, the identification component 31 identifies the relative position relationship between the wearable device 100 and the user, and further detects the posture of the wearable main body 10 of the wearable device 100. The characteristic signal corresponds to the relative position relationship between the wearable device 100 and the mark between the big toe and the index finger of the user's instep, which is identified by the identification component 31, and the reference signal corresponds to the position of the wearable body 10 (i.e. the standard posture) when the stimulation area 200 formed by the stimulation component covers the taichong acupoint of the user (where the taichong acupoint is located in the depression in front of the first and second metatarsal joints of the human instep, which is the distance between the big toe and the index finger of the instep, which is the distance between the two fingers L2).

It is worth mentioning that when the identification component 31 is implemented as a human body acupoint detector, the characteristic signal can be implemented as a human body resistance detected by the identification component 31; the reference signal is implemented as a standard resistance corresponding to the acupuncture point.

Preferably, the analysis component 32 of the adjustment device 30 is connected to the stimulation component 21, so that the stimulation component 21 can be selectively driven or turned off by the feedback signal generated by the analysis element 321 of the analysis component 32, that is, when the feedback signal corresponds to the stimulation range generated by the stimulation component 21 and cannot cover the acupuncture points of the user's body, the stimulation component 21 stops working based on the feedback signal; the stimulation component 21 is operable based on the feedback signal when the feedback signal corresponds to a stimulation range formed by the stimulation component 21 to cover the acupuncture points of the user's body. Thereby, the power of the wearable device 100 can be saved. In addition, the analysis component 321 can also obtain data of the operation of the stimulation component 21, such as the time of the operation of the stimulation component 21 and the time of the operation of the stimulation component 21 at different frequencies.

More preferably, the analysis element 321 of the analysis component 32 is capable of transmitting the acquired data to the communication component 33.

Further, the wearable device 100 further comprises a monitoring device 60, wherein the monitoring device 60 is connected to the stimulation component 21 of the stimulation device 20 to record the time of the operation of the stimulation component 21 and form a time data.

It should be noted that the monitoring device 60 is connected to the communication component 33, so that the time data can be obtained by the communication component 33, wherein the communication component 33 can be communicatively connected to an external electronic device, so that the data can be transmitted to the user through the communication component 33.

Further, the monitoring device 60 includes a wearing device monitoring part 61 and a user status monitoring part 62, wherein the wearing device monitoring part 61 is communicatively connected to the stimulating assembly 21 of the stimulating device 20, so as to monitor the time and frequency, etc. of the stimulating assembly 21 stimulating the corresponding acupuncture points of the user and accordingly form a wearing device monitoring data. It can be connected by those skilled in the art that the wearable device monitoring data may also include parameters related to the operation of the stimulating assembly 21, such as the time when the user stimulates different acupoints by using the wearable device monitoring part 61, and the present invention is not limited in this respect.

In an embodiment of the present invention, the wearable device monitoring part 61 is communicatively connected to the communication component 33, wherein the communication component 33 can obtain the wearable device monitoring data from the wearable device monitoring part 61.

In an embodiment of the present invention, the user status monitoring part 62 is also communicatively connected to the communication assembly 33, wherein the user status monitoring part 62 can monitor the physical condition of the user and form corresponding user status monitoring data. It will be understood by those skilled in the art that the user status monitoring unit 62 can be implemented as a device for monitoring the body characteristics of the user, such as the heartbeat, pulse, and body temperature, and the present invention is not limited in this respect. The communication component 33 is capable of obtaining the user status monitoring data from the user status monitoring component 62.

It is worth mentioning that in an embodiment of the present invention, the analysis component 32 can be followed the communication component 33 acquires wear equipment monitoring data with user status monitoring data, and can be to acquireing wear equipment monitoring data with user status monitoring data carries out the analysis, thereby can form the user and use health relevant at least analytic data behind the wearable equipment 100, wherein by the analytic data, and then can obtain the user and use the wearable equipment 100 is to self influence.

For example, the physical condition of the user before using the wearable device 100 is not good, the user status monitoring component 62 can obtain the physical condition of the user before using the wearable device 100 by monitoring the physical characteristics of the user wearing the wearable device 100, and the user status monitoring component 62 can also monitor the physical condition of the user after using the wearable device 100 by monitoring the physical characteristics of the user, and form the corresponding user status monitoring data.

In the embodiment of the present invention, the analysis component 32 generates after the analysis data, further, through the communication component 33 follows the analysis component 32 acquires the analysis data, and will the analysis data is fed back to the user, and then can make this user or other users know this user uses the change of the health state behind the wearable device 100, thereby make other users can use rationally according to the health of self wearable device 100.

As shown in fig. 6, according to another aspect of the present invention, the present invention provides a management system 700 for a wearable device, wherein the management system 700 comprises a transmission module 71 and an analysis module 72, wherein the transmission module 71 comprises a receiving unit 711, wherein the receiving unit 71 is connected to the analysis module 72, wherein the receiving unit 711 is simultaneously connected to a communication module 33 of the wearable device 100 for communication, so as to obtain the data related to the working time of the stimulation module 21 from the communication module 33 to form a monitoring data. Further, the analysis module 72 can obtain the monitoring data in the receiving unit 71 to compare and analyze the monitoring data to form a result signal.

It should be noted that the user can log in the management system 700 of the wearable device, and then can know the relevant situation of using the wearable device 100.

It should be noted that the transmission module 71 further includes a communication unit 712, wherein the communication unit 712 is communicatively connected to the analysis module 72, and the communication unit 712 can be communicatively connected to a terminal outside the user (e.g., a smart robot, an electronic device, a virtual cloud, etc.) to feed back the formed feedback signal to the user, so as to know the relevant situation of the wearable device 100 by the electronic device in real time.

It is worth mentioning that the resulting signal may correspond to the time the user wears the wearable device 100 each day, wherein the stimulating assembly 21 is active.

Preferably, the management system 700 of the wearable device further includes a storage module 73, wherein the storage module 73 is preset with reference data related to stimulation time of a standard acupoint, and the storage module is connected to the analysis module 72, so that the analysis module 72 can obtain the reference data, and can compare and analyze the reference data and the monitoring data, thereby forming a result signal, wherein the result signal can be a signal for reminding a user to increase or decrease the time of the wearable device 100.

According to another aspect of the present invention, the utility model provides a method of wearable equipment auto-alignment acupuncture point, wherein the method of wearable equipment auto-alignment acupuncture point, include:

(1) an identification component 31 of an adjustment device 30 acquires a characteristic signal;

(2) the communication component 33 of the adjusting component 30 acquires the characteristic signal and transmits the characteristic signal to the outside service end so that the outside service end forms at least one feedback signal based on the characteristic information and a pre-acquired reference signal;

(3) the communication component 33 acquires the feedback signal and transmits the feedback signal to an execution component 34 of the adjusting device; and

(4) the execution element 34 executes at least one feedback action according to the feedback signal.

Preferably, according to an embodiment of the present invention, wherein the step (1) includes:

(1.1) the identification means 31 captures the characteristics of the user's wrist band to form a characteristic signal.

Wherein the step (4) comprises:

(4.1) the driving device 34 performs an overturning motion to drive a wearable main body 10 of the wearable device 100 connected to the driving component 34 to move, so as to adjust the stimulation area 200 formed by the stimulation component of the wearable main body 10.

Wherein the step (4) further comprises:

(4.2) the driving device 34 performs a movement along a direction in which the wrist naturally extends to move a wearable main body 10 of the wearable device 100 connected to the driving element 34, thereby adjusting the stimulation area 200 formed by the stimulation elements disposed on the wearable main body 10.

According to another embodiment of the present invention, there is provided a method for automatically aligning wrist points of a wearable device, including:

(a) an identification component 31 of an adjustment device 30 acquires at least one characteristic signal;

(b) the analyzing element 321 of the analyzing element 32 obtains the characteristic information, and analyzes and compares the characteristic information with the reference signal stored in a storage element 322 of the analyzing element 32 to form at least one feedback signal; and

(c) the execution component 34 obtains the feedback signal to execute at least one feedback action.

Wherein the step (c) comprises:

(c1) the driving device 34 performs an overturning motion to drive a wearable main body 10 of the wearable device 100 connected to the driving component 34 to move, so as to adjust the stimulation area 200 formed by the stimulation component of the wearable main body 10.

Wherein the step (c) further comprises:

(c2) the driving device 34 performs a movement along a direction in which the wrist naturally extends to drive a wearable main body 10 of the wearable device 100 connected to the driving element 34 to move, thereby adjusting the stimulation area 200 formed by the stimulation elements disposed on the wearable main body 10.

According to another aspect of the present invention, there is further provided a method of automatically aligning a wearable device to a wrist acupoint, wherein the method comprises the steps of:

(a) detecting a posture of a wearable body 10 while wearing the wearable body 10;

(b) comparing the posture of the wearable main body 10 with a standard posture to obtain a feedback signal; and

(c) adjusting the posture of the wearable main body 10 according to the feedback signal, so that a stimulation area 200 formed by a stimulation component 21 disposed on the wearable main body 10 corresponds to the acupuncture point of the wrist.

According to another aspect of the present invention, the present invention provides a health guidance system 800 based on wearable device, wherein the health guidance system 800 includes a data acquisition unit 81, a health strategy processing unit 82 and a health strategy feedback unit 83, wherein the health strategy processing unit 82 is communicatively connected to the data acquisition unit 81 and the health strategy feedback unit 83, wherein the data acquisition unit 81 is communicatively connected to the communication component 33 of the adjustment device 30 so as to be able to receive the data acquired by the communication component 33.

Specifically, in an embodiment of the present invention, the communication module 33 can obtain the wearing device monitoring data and the user status monitoring data from the wearing device monitoring part 61 and the user status monitoring part 62 of the monitoring apparatus 60, and the data acquisition unit 81 is capable of acquiring the data from the communication component 33, and the health policy processing unit 82 generates at least one health policy by analyzing the data acquired from the data acquisition unit 81, wherein the health strategy feedback unit 83 is capable of executing the health strategy and generating at least one indication according to the health strategy, according to which the user can know the change of the body state of the user before and after using the wearable device 100, thereby enabling the user to take timely measures to enable the physical condition of the user to reach an optimal state.

The health policy feedback unit 83 includes an interaction module 831, wherein the interaction module 831 is communicatively connected to the health policy processing unit 82, and the interaction module 831 is communicatively connected to a communication device, wherein the user can further obtain the indication generated by the health feedback generation unit 83 through the communication device.

As can be appreciated by those skilled in the art, after the user obtains the indication through the communication device, the user can know the physical condition of the user in time according to the relevant health data represented by the indication. For example, when the user wants to use the wearable device 100 for physiotherapy, but after a period of time, the user cannot know the physiotherapy effect of the wearable device 100, and the health guidance system 800 of the present invention can solve the problem.

Specifically, in this example, the monitoring device 60 of the wearable device 100 monitors the physical conditions of the user before and after using the wearable device and forms corresponding user status monitoring data, the data collecting unit 81 can obtain the user status data, the health policy processing unit 82 can analyze the physical conditions of the user before and after using the wearable device 100 by analyzing the user status data obtained from the data collecting unit 81, and the interaction module 831 of the health feedback generating unit 83 can transmit the data related to the physical conditions of the user before and after using the wearable device 100 to the communication device used by the user, so that the user can know the physical therapy effect of the wearable device 100 on himself in time.

In the present invention, the health policy processing unit 82 includes a processing module 821 and a status policy generating module 822, wherein the processing module 821 is communicatively connected to the data collecting unit 81 and the status policy generating module 822, wherein the status policy generating module 822 is communicatively connected to the interaction module 831 of the health feedback generating unit 83, wherein the processing module 821 can obtain the user status monitoring data and the wearing device monitoring data from the data collecting unit 81, and can analyze and process the data, so that the user can know the effect of using the wearable device 100 to perform physiotherapy on the user.

Those skilled in the art will appreciate that the processing module 821 can compare the data acquired from the data acquisition unit 81 with a reference data representing health to generate a corresponding comparison result, wherein the status policy generating module 822 acquires the comparison result from the processing module 821 and generates at least one health policy accordingly, wherein the health policy is executed by the interaction module 831 of the health feedback unit 83 to communicate the health policy to the user. For example, in an embodiment, the health policy may be implemented as an effect level of the user performing the self health therapy using the wearable device 100, and it can be understood by those skilled in the art that the effect level may be preset as "effective", "general" and "ineffective", so that the user can timely know the effect of the wearable device 100 on the self therapy according to the result executed by the interaction module 831 of the feedback unit 83.

Still further, the health feedback unit 83 comprises a health guidance feedback module 832, wherein the health policy processing unit 82 further comprises a guidance policy generation module 823, wherein the guidance policy generation module 823 is communicatively connected to the processing module 821 and the health guidance feedback module 832 of the health feedback unit 83, wherein the guidance policy generation module 823 is capable of forming at least one health guidance policy according to the analysis result formed by the processing module 821, wherein after the health guidance feedback module 832 acquires the health guidance policy from the guidance policy generation module 823, the health guidance policy is executed to provide corresponding health guidance for the user.

It is worth mentioning that, in the utility model discloses in, processing module 821 can acquire acquisition unit 81 acquires wear equipment monitoring data with user state monitoring data to can synthesize the user and use time and the frequency of physiotherapy that wearable equipment 100 carries out the physiotherapy and user are using wearable equipment 100 carries out the health state around the physiotherapy, and then forms corresponding analysis result, wherein guide strategy generation module 823 can be according to analysis result forms the health guidance strategy, correspondingly, health guidance feedback module 832 can follow guide strategy generation module 823 acquires the health guidance strategy, and can carry out the health guidance strategy to make the user obtain corresponding health guidance.

For example, in an embodiment of the present invention, after the user uses the wearable device 100 for a period of time, the physical condition of the user is not significantly improved, wherein the processing module 821 forms a corresponding analysis result by analyzing the data collected by the data collecting unit 81, and the guiding policy generating module 823 matches a health guiding policy according to the analysis result after acquiring the analysis result. For example, in this embodiment, the health guidance policy includes: increase the frequency of wearable equipment 100 physiotherapy, carry out exercise, specific exercise program, the diet of presetting time rationally and guide etc, the utility model discloses do not receive the restriction of this aspect, in addition, by the strategy is guided to health to can make the user accept corresponding health and guide the back, make wearable equipment exerts better physiotherapy effect.

Further, the health policy processing unit 82 further comprises a matching module 824, wherein the matching module 824 is communicatively connected to the processing module 821, the status policy generating module 822 and the guidance policy generating module 823, wherein the matching module 824 is capable of obtaining the respective analysis results from the processing module 821, and matching the obtained analysis result with the previously obtained analysis results of other users, and accordingly forming a matching result, wherein when the matching module 824 succeeds in matching, i.e., the user's physical condition is the same as the previous one, wherein the guidance policy generation module 823 takes the same health guidance policy of the previous user and related monitoring data as the health guidance policy of the user, thereby enabling the user to receive professional use instructions before using the wearable device 100.

According to another aspect of the present invention, the present invention provides a health guidance method based on wearable device, wherein the method comprises:

(A) collecting monitoring data related to the use of the wearable device 100 by a user and the state of the user;

(B) generating a health guidance strategy according to the monitoring data; and

(C) feeding back the health guidance strategy to the user.

Still further, the method for health guidance based on the wearable device 100 further comprises:

(D) generating a health strategy according to the monitoring data; and

(E) feeding back the health policy to a user.

Preferably, the wearable device-based health guidance method further comprises:

(F) matching the body condition related data of the new user with the body condition related data of another user who uses the wearable device; and

(G) and when the matching is successful, taking the monitoring data of the user using the wearable equipment as the health guidance strategy.

It can thus be seen that the objects of the invention have been fully and effectively accomplished. The embodiments have been fully illustrated and described for the purpose of explaining the functional and structural principles of the present invention, and the present invention is not limited by changes based on the principles of these embodiments. Accordingly, this invention includes all modifications encompassed within the scope and spirit of the following claims.

Claims

1. A wearable device, comprising:

a wearable main body; and

2. The wearable device according to claim 1, wherein the wearable body forms a wearing space, and the stimulation area formed by the stimulation component is located in the wearing space.

3. The wearable device according to claim 2, wherein the stimulation zone is a dynamic stimulation zone.

4. A wearable device according to any of claims 1-3, wherein the stimulation device further comprises an adjustment assembly, wherein the stimulation assembly is adjustably connected to the adjustment assembly.

5. A wearable device according to any of claims 1-3, wherein the stimulation device further comprises a drive assembly, wherein the stimulation assembly is drivably connected to the drive assembly.

6. A wearable device according to any of claims 1-3, wherein the stimulation component is a pulse generator.

7. The wearable device of claim 4, wherein the stimulation component is a pulse generator.

8. A wearable device according to claim 5, wherein the stimulation component is a pulse generator.

9. A wearable device according to any of claims 1 to 3, further comprising an adjustment means, wherein the adjustment means is provided to the wearable body.

10. The wearable device of claim 9, wherein the adjustment means further comprises:

11. The wearable device of claim 9, wherein the adjustment means further comprises:

12. The wearable device of claim 10, wherein the adjustment mechanism further comprises a monitoring mechanism, wherein the stimulation component is coupled to the monitoring mechanism.

13. The wearable device of claim 11, wherein the adjustment mechanism further comprises a monitoring mechanism, wherein the stimulation component is coupled to the monitoring mechanism.

14. The wearable device of claim 13, wherein the monitoring apparatus comprises a wearable device monitoring component, wherein the wearable device monitoring component is electrically coupled to the stimulating assembly and the analyzing assembly.

15. The wearable device of claim 14, wherein the adjustment device comprises a communication component, wherein the communication component is coupled to the analysis component, wherein the monitoring device further comprises a user status monitoring component, wherein the user status monitoring component is communicatively coupled to the communication component.