Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
Referring to fig. 1, a first embodiment of a neck massager provided herein will now be described. The neck massager 10 provided by the application comprises a control main board 11, a detection circuit 12 and a communication circuit 13; and the detection circuit 12 and the communication circuit 13 are both electrically connected with the control mainboard 11. The detection circuit 12 is configured to obtain a neck characteristic of a user, the communication circuit 13 is configured to receive a massage instruction corresponding to the neck characteristic, and transmit the massage instruction to the control main board 11, and the control main board 11 massages the user according to the massage instruction, so as to promote blood circulation of the user and adjust a nerve function of the user.
In this embodiment, the detection circuit 12 includes at least one of a tenderness point detector, an artery detector, and a muscle state monitoring analyzer, that is, the detection circuit 12 may obtain the neck characteristics of the user, and after obtaining the neck characteristics of the user, the detection circuit 12 sends the neck characteristics of the user to the control main board 11, and the control main board 11 analyzes the neck characteristics and generates a massage instruction corresponding to the neck characteristics; after the massage instruction is generated, the main control board 11 controls the neck massager 10 to massage the user.
In the embodiment of the present application, the neck characteristics of the user acquired by the detection circuit 12 include a position of a neck tenderness point, a position of a neck artery, a neck artery pump, and a neck muscle state.
After the detection circuit 12 acquires the neck features; the neck features are sent to the control main board 11, the control main board 11 analyzes the neck features, and different massage instructions are generated according to different neck features; wherein the massage instruction comprises at least one of massage movement track, massage force, massage speed and massage time.
Of course, in other embodiments of the present application, the neck feature may be other physiological features associated with the user's neck, such as: cervical lymph, neck size; in addition, the massage instruction can also be massage rhythm and massage manipulation; and are not intended to be limiting.
Referring to fig. 2, a neck massager of a second embodiment of the present application includes a circuit structure shown in fig. 1 and a housing 100. The housing 100 includes an elastic arm 101, a first handle 103, a second handle 104, a conductive silicone part 102, and an electrical pulse generating device (not shown) electrically connected to the conductive silicone part 102, wherein the first handle 103 and the second handle 104 are fixedly connected to two sides of the elastic arm 101, the conductive silicone part 102 is disposed on an outer layer of the elastic arm 101, and the conductive silicone part 102 can conduct an electrical pulse emitted by the electrical pulse generating device.
In this embodiment, the conductive silicone part 102 can be attached to the neck skin of a human body in a soft manner, so that the technical problem that the electrode plate of the traditional neck massager cannot be attached to the skin of the human body well is solved.
The neck massage instrument is worn by the deformation of the elastic arm 101, so that the neck massage instrument can adapt to the thickness of a neck well, and the conductive silica gel part 102 is attached to the neck well and comfortably by the downward action of the weights of the first handle 103, the second handle 104, the electric pulse generating device and a battery (not shown), so that the acupuncture pain is avoided; in addition, since the deformation of the elastic arm 101 depends on the change of its own form, not on the large and stiff elastic force of the spring, the elastic force of the first handle 103 and the second handle 104 held on the neck as a whole is softer and more comfortable.
Of course, the housing 100 may be an integrated structure, so that the assembly process of the neck massager is simplified; the conductive silica gel part can also adopt a metal electrode plate, so that the cost can be reduced.
Specifically, referring to fig. 2, the control main board 11, the detection circuit 12, and the communication circuit 13 are separately provided. Specifically, the control main board 11, the detection circuit 12 and the communication circuit 13 are separately disposed at the elastic arm 101, the conductive silica gel part 102, the first handle 103 or the second handle 104, so that when the neck massage apparatus is out of order, the maintenance of the neck massage apparatus is facilitated.
In the embodiment, the control main board 11 is disposed in the first handle 103, the communication circuit 13 is disposed in the elastic arm 101, the detection circuit 12 is disposed in the second handle 104, and since the first handle 103 and the second handle 104 are connected by the elastic arm 101, the communication circuit 13 disposed in the elastic arm 101 can better connect the whole circuit structure, so as to enhance the effect of signal transmission.
Of course, the control main board 11, the detection circuit 12, and the communication circuit 13 may be disposed at other positions of the housing 100 according to the user's needs. For example, the detection circuit 12 is disposed in the first handle 103, and the control main board 11 is disposed in the second handle 104, which is not limited herein.
In addition, in other embodiments of the present embodiment, the circuit structure may be integrated on the control main board 11, for example, any one or all of the detection circuit 12 and the communication circuit 13 may be integrated on the control main board 11, so that the assembly process of the neck massager may be saved.
In this embodiment, the detection circuit 12 includes a detection element (not shown), specifically, the detection element includes at least one of a tenderness point detector, an artery detector, and a muscle state detection analyzer, that is, the detection circuit 12 may acquire a neck characteristic of the user, after acquiring the neck characteristic of the user, the detection circuit 12 sends the neck characteristic of the user to the control main board 11, and the control main board 11 analyzes the neck characteristic and generates a massage instruction corresponding to the neck characteristic; after the massage instruction is generated, the main control board 11 controls the neck massager 10 to massage the user.
In the embodiment of the present application, the neck characteristics of the user acquired by the detection circuit 12 include a position of a neck tenderness point, a position of a neck artery, a neck artery pump pressure, and a neck muscle state.
After the detection circuit 12 acquires the neck features; the neck characteristics are sent to the control main board 11, the control main board 11 analyzes the neck characteristics, and different massage instructions are generated according to different neck characteristics; wherein the massage instruction comprises at least one of massage track, massage force, massage speed and massage time.
Of course, in other embodiments of the present application, the neck feature may be other physiological features associated with the user's neck, such as: cervical lymph, neck size; in addition, the massage instruction can also be massage rhythm and massage manipulation; to promote blood circulation in the user and to regulate nerve function, and is not limited herein.
Specifically, the detecting element (not shown) is detachably connected to the surface of the housing 100, and may be an inner surface of the housing 100, or an outer surface of the housing 100, for example, one detecting element is respectively disposed on the surfaces of the first handle 103 and the second handle 104 facing the neck of the human body, so as to make the overall appearance of the neck massager more beautiful. In addition, the number of the detecting elements may be set according to the requirement of the user, for example, two, three or four, and is not limited herein.
In one embodiment, the detecting elements are a plurality of pressure sensors and a plurality of temperature sensors, and the plurality of pressure sensors and the plurality of temperature sensors are alternately arranged along the surface of the first handle 103 and the second handle 104 facing the neck of the human body at intervals to form a composite arrangement of pressure and temperature detecting points. Based on this structure, can obtain human neck circumference's pressure, temperature distribution, and then can accurately detect the temperature, the pressure distribution of artery position and human neck circumference.
In addition, the types of the detection elements can be increased and changed according to the requirements of users, and needless detection elements can be detached without only limiting the detection elements, so that the functions of the neck massage instrument are more diversified.
Referring to fig. 3, fig. 3 is a schematic flow chart of the massage method according to the present application. As shown in fig. 3, the massage method of the present embodiment includes the steps of:
s101: the neck massager detects the neck characteristics of the user using a sensor.
The neck massage apparatus generates neck feature information of a user after detecting the neck feature of the user using a sensor. In particular, the neck features include at least one of a neck tenderness point location, a neck artery location or pump pressure, a neck muscle status; that is, the neck feature information includes at least one of neck tenderness point position information, neck artery pump pressure information, and neck muscle state information.
Of course, the neck feature may also be other physiological or pathological features related to the user, such as: cervical lymph, neck size; therefore, the neck massager can massage the user according to the massage mode which is most suitable for the user.
S102: the neck massager sends the neck characteristics to the control center, the control center analyzes the neck characteristics and generates a massage instruction.
After the neck massage instrument sends the neck characteristics of the user to the control center, the control center analyzes the neck characteristics and generates different massage instructions according to different neck characteristics.
In the embodiment of the application, the control center is connected with the mobile terminal APP, and after the control center completes the neck characteristic analysis, the analysis result is sent to the mobile terminal APP, so that a user can obtain the neck characteristic information of the user; thus, the user can know the neck condition of the user.
After the control center completes the analysis of the neck characteristics, the neck massager generates different massage instructions through different neck characteristics; specifically, generating a massage movement track instruction according to the position of the neck tenderness point; generating a massage speed instruction according to the neck artery pumping pressure or position; and generating a massage force instruction according to the neck muscle state.
Specifically, an instruction of a massage movement track is generated through the positions of the neck pressure pain points, and because part of the pressure pain points are not suitable for being pressed, the generated massage track can avoid the pressure pain points after the control center obtains the part of the pressure pain points which are not suitable for being massaged; and the control center obtains the pressure pain points beneficial to the human body after the massage, and forms a massage track instruction according to the positions of the pressure pain points.
The position and the pump pressure of the neck artery of the user are used for generating the instruction of the massage speed, and the neck artery is a place where blood flows rapidly and is not suitable for long-time or high-intensity pressing, so that after the position and the pump pressure of the neck artery are obtained, whether the pump pressure of the neck artery of the user is normal or not needs to be judged, specifically, if the pump pressure value of the neck artery of the user deviates from the normal pump pressure value, the pump pressure of the neck artery of the user is judged to be abnormal, the control center immediately sends an instruction of accelerating or stopping massage, the neck massage instrument rapidly passes through the neck artery, or the massage is stopped immediately, and therefore the safety of massage is improved.
In addition, the neck muscle state of the user is acquired, and the massage strength is set to be matched with the acquired neck muscle state. Wherein, the neck muscle state comprises tension, normal and relaxation. Specifically, when the neck muscles of the user are in a tense state, an instruction for increasing the massage strength is generated; when the neck muscle state of the user is in a normal state, generating an instruction of common massage force; when the neck muscle state of the user is in a relaxed state, an instruction to reduce the massage force is generated. Thus, the neck muscles of the user can be optimally relaxed and relaxed by matching different massage strength with the neck muscle state of the user.
Of course, in other embodiments of the present application, other massage instructions may also be generated from other neck features, such as: and generating a massage rhythm instruction according to the neck lymph. And are not intended to be limiting.
S103: the neck massager receives the massage instructions, sequences the massage instructions, generates a set of complete massage modes according to the sequenced massage instructions, and massages the user according to the massage instructions. The sequencing mode can be sequential sequencing or combined sequencing, specifically, the sequential sequencing is to arrange all the received massage instructions according to the received sequence to form a set of massage modes; the combined sorting means that any several or all types of massage instructions are selected to be arranged according to the received sequence. Of course, in other embodiments of this embodiment, the arrangement mode may be other modes, for example: the received massage instructions are staggered according to the sequence of time or different types; and are not intended to be limiting.
In addition, a set of arranged complete massage instructions are circularly arranged, so that sudden stop of massage caused by short massage mode time generated by the massage instructions is prevented.
And after the neck massage instrument receives the massage instruction, judging whether the neck characteristics are the neck characteristics of the new user. If so, generating a set of new massage modes and storing the new massage modes.
Wherein, judge whether neck characteristic is new user's neck characteristic's step, include: judging whether the received massage instruction is completely the same as the massage instruction received when the user uses the massage device last time; if not, the user is judged to be a new user.
Specifically, the neck massage apparatus stores a massage instruction generated by the user using the neck massage apparatus each time, and if the neck massage instruction received when the neck massage apparatus is in use is identical to the massage instruction received when the user used the last time, it is determined that the user is not a new user; or, according to the detected pressure and temperature distribution characteristics of the human neck in the circumferential direction, and the difference between the pressure and temperature distribution characteristics stored in the previous step, the user is judged to be not a new user, and then the neck massage instrument can directly massage the user according to the massage mode generated when the user uses the neck massage instrument last time.
If the received massage instruction is different from the massage instruction received by the neck massage instrument last time by the user, or the difference between the detected pressure and temperature distribution characteristics of the circumference of the neck of the human body and the previously stored pressure and temperature distribution characteristics is larger than a threshold value, the user is determined to be a new user, and certainly, the neck state of an old user can also be changed; the neck massager generates a set of new massage modes through the newly received massage instructions and stores the new massage modes, so that the neck massager can directly massage the user through memory when the user uses the neck massager next time.
Referring to fig. 4, fig. 4 is a schematic flow chart of the massage method according to the embodiment of the present application. As shown in fig. 4, the massage method of the present embodiment includes the steps of:
s201: the control center receives the neck characteristics of the user from the neck massager by using the sensor detection.
The neck massage apparatus generates neck feature information of a user after detecting the neck feature of the user using a sensor. In particular, the neck features include at least one of a neck tenderness point location, a neck artery location or pump pressure, a neck muscle status; that is, the neck feature information includes at least one of neck tenderness point position information, neck artery pump pressure information, and neck muscle state information.
Of course, the neck feature may also be other physiological or pathological features related to the user, such as: cervical lymph, neck size; therefore, the neck massage instrument can generate a massage mode which is most suitable for the user according to the neck characteristics of the user.
S202: the control center analyzes the neck characteristics and generates a massage instruction.
After the control center completes the analysis of the neck characteristics, the neck massager generates different massage instructions through different neck characteristics; specifically, generating a massage movement track instruction according to the position of the neck tenderness point; generating a massage speed instruction according to the neck artery pumping pressure or position; generating a massage force instruction according to the neck muscle state; of course, in other embodiments of the present application, other massage instructions may also be generated from other neck features, such as: and generating a massage rhythm instruction according to the neck lymph.
Specifically, the control center acquires the positions of neck tenderness points, and generates massage tracks through the positions of the neck tenderness points, and the generated massage tracks can avoid the tenderness points after the control center acquires the parts of the tenderness points which are not suitable for massage because the parts of the tenderness points are not suitable for being pressed; and after the control center obtains the pressure pain points beneficial to the human body after the massage, generating a massage movement track instruction according to the positions of the pressure pain points.
In addition, the control center acquires the position and the pump pressure of the carotid artery, and the carotid artery is a place where blood flows rapidly and is not suitable for long-time or high-intensity pressing, so after the position and the pump pressure of the carotid artery are acquired, it is necessary to determine whether the pump pressure of the carotid artery of the user is normal. Specifically, if the deviation between the cervical artery pump pressure value of the user and the normal pump pressure value is too large, the control center sends an instruction for accelerating or stopping the massage, so that the neck massage instrument quickly passes through the cervical artery, or the massage is stopped immediately, and the safety of the massage is improved.
In addition, the control center acquires the neck muscle state of the user and judges the acquired neck muscle state, specifically, the neck muscle state comprises tension, normal and relaxation; after the acquired neck muscle state is judged, the massage strength matched with the neck muscle state is set according to the neck muscle state of the user.
Specifically, when the neck muscles of the user are in a tense state, an instruction for increasing the massage strength is generated; when the neck muscle state of the user is in a normal state, generating an instruction of common massage force; when the neck muscle state of the user is in a relaxed state, an instruction to reduce the massage force is generated. Therefore, the neck muscles of the user can be well relaxed and relaxed by massaging the neck muscles with different strength through different muscle states.
S203: the control center sends massage instructions to the neck massage instrument, the massage instructions are sequenced, and a set of complete massage modes are generated according to the sequenced massage instructions, so that the neck massage instrument massages a user according to the massage modes.
In the embodiment, before the control center sends the massage instruction to the neck massager, the control center is connected with the mobile terminal APP and sends the massage instruction to the mobile terminal APP, the mobile terminal APP receives a plurality of massage instructions, a user can adjust the sequence of the massage instructions according to the requirement of the user, and then a set of complete massage modes are generated according to the sequenced massage instructions; the mobile terminal APP can also automatically sequence the massage instructions through the neck characteristics of the user to generate a set of complete massage modes, and certainly, multiple sets of complete massage modes, such as three, four, and five sets, can also be generated within a range suitable for the neck characteristics of the user, which is not limited herein. If the user does not want to adjust the sequence of the massage instructions, the user can directly select a set of favorite or proper massage modes from a plurality of sets of complete massage modes generated by the neck massager, so that the massage modes are more diversified.
If the user does not select the massage mode through the mobile terminal, the control center sorts the massage instructions according to a default sorting mode, namely the control center sorts the received massage instructions in sequence to generate a set of complete massage modes, and the neck massage instrument massages the user according to the massage mode automatically generated by the control center. Of course, the default sorting manner may be to arrange the received massage commands in combination, which is not limited herein.
In summary, the neck massager detects the neck characteristics of the user through the sensor; the acquired neck characteristics of the user are sent to a control center, the control center analyzes the neck characteristics, and different massage instructions are generated according to different neck characteristics; after the massage instruction is generated, the neck massage instrument receives the massage instruction, sequences the massage instructions, generates a set of complete massage modes according to the sequenced massage instruction, and massages the user according to the massage modes. Therefore, the neck massager can generate a massage method suitable for the user according to the specific neck characteristics of different users, and can effectively prevent the phenomenon that the fixed massage mode is not suitable for the user, so that discomfort is brought to the user in the massage process; meanwhile, the user is massaged according to the massage method generated by the neck characteristics of the user, so that the physiological and pathological conditions of the user can be effectively adjusted.
The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.