CN213852759U - Neck massager - Google Patents

Abstract

The utility model provides a neck massager, this massager includes: a clamping body; the massage component is arranged on the clamping body and is used for massaging the neck of the human body; the pressure sensor is arranged on the clamping body and used for detecting a pressure signal of the lateral neck of the user; the data processing element is electrically coupled with the pressure sensor and used for receiving the pressure signal detected by the pressure sensor and processing the pressure signal; the wireless communication circuit is arranged on the clamping body and used for sending the pressure signal to the user mobile terminal so that the user mobile terminal can process the pressure signal and further determine the cough condition of the user; the control circuit is arranged on the clamping body and is electrically coupled with the massage component, the pressure sensor and the wireless communication circuit. The application provides a neck massage appearance can be through sending the pressure signal that receives the user to user mobile terminal, and then acquires user's cough condition, makes the user enjoy the massage while, also can in time master its health.

Description

Neck massager

Technical Field

The utility model relates to a massage equipment technical field especially relates to a neck massager.

Background

Cervical spondylosis is a common chronic disease at present, and particularly relates to a group for keeping a sitting posture for a long time, including drivers, office staff and even students. For the intervention treatment of cervical spondylosis, the key is daily prevention and health care. The wearable portable neck massager has the advantages that the wearable portable neck massager can be carried about, and can massage the neck in working, traveling, walking and other states, and is widely loved by patients with cervical spondylosis.

Currently, neck massagers are single-function (massage only), and cannot meet the diversified demands of users.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a neck massage appearance solves the problem of neck massage appearance function singleness.

In order to solve the above technical problem, the utility model also provides a neck massager, this neck massager includes: a clamping body; the massage component is arranged on one side of the clamping body close to the neck of the human body and is used for massaging the neck of the human body; the pressure sensor is arranged on one side of the clamping body close to the neck of the human body and used for detecting a pressure signal of the lateral neck of the user; the data processing element is electrically coupled with the pressure sensor and used for receiving the pressure signal detected by the pressure sensor and processing the pressure signal; the wireless communication circuit is arranged on the clamping body and used for sending the pressure signal to the user mobile terminal so that the user mobile terminal can process the pressure signal and further determine the cough condition of the user; the control circuit is arranged on the clamping body and is electrically coupled with the massage component, the pressure sensor and the wireless communication circuit.

By the proposal, the beneficial effects of the utility model are that: the utility model discloses a pressure signal of sensing user's neck and convey it to user mobile terminal to make user mobile terminal handle pressure signal, and then confirm the user condition of coughing. And then make the user can enjoy the massage while, can also monitor its condition of coughing through mobile terminal to make the user can in time master its health, in time seek medical advice.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts, wherein:

fig. 1 is a schematic structural view of an embodiment of a neck massager of the present invention;

fig. 2 is a schematic structural view of another embodiment of the neck massager of the present invention;

fig. 3 is a schematic flow chart of a cough detection method of the neck massager of the present invention.

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, fig. 1 is a schematic structural view of a neck massager of the present invention. As shown in fig. 1, the present embodiment provides a neck massager 1000 including: a gripping body 100, a massage assembly 110, a pressure sensor 120, a wireless communication circuit 130, and a control circuit 140.

A massage assembly 110 disposed on the holding body 100, the massage assembly 110 being used for massaging the neck of the human body;

and a pressure sensor 120 disposed on the holder body 100, for detecting a pressure signal of the user's lateral neck.

And a wireless communication circuit 130, disposed on the holder 100, for communicating with an external device or a user mobile terminal.

The control circuit 140 is disposed on the holder 100, and electrically coupled to the massage assembly 110, the pressure sensor 120 and the wireless communication circuit 130, for controlling the massage assembly 110 to massage the neck of the human body, controlling the pressure sensor 120 to detect the pressure signal of the neck of the human body, and controlling the communication circuit 130 to perform signal transmission with an external device or a user mobile terminal.

The clamping body 100 is used for clamping a neck of a user, and comprises: the clamping device comprises a rear clamping body 10, a left clamping body 20 and a right clamping body 30, wherein the left clamping body 20 is installed on the left side of the rear clamping body 10, and the right clamping body 30 is installed on the right side of the rear clamping body 10. That is to say, whole neck clamping body 100 divide into three part, and back clamping body 10, left clamping body 20 and right clamping body 30 can realize different effects respectively according to the position of self, and back clamping body 10 mainly used centre gripping user's nape is regional moreover, and left clamping body 20 and right clamping body 30 correspond the side neck region of both sides respectively, and the three can mutually support to can centre gripping user's neck in coordination.

The rear clamping body 10 is a rigid anti-deformation structure, and the left clamping body 20 and the right clamping body 30 are elastic bodies. That is, in the present embodiment, two elastic bodies separately arranged are used for the clamping body 100, instead of one integral clamping body 100. Like this, left clamping body 20 and right clamping body 30 realize the centre gripping to the user's neck through the lapped mode of swing, so can control the deformation of left clamping body 20 and right clamping body 30 better to can avoid the inconvenient problem of wearing that the too big institute of user operation left clamping body 20 and right clamping body 30 deformation range caused.

The pressure sensor 120 is used to detect a pressure signal at the neck of the user, and when the human body coughs, muscles at two sides of the neck expand, which can press the clamping bodies 100 at two sides of the neck massager 1000. With this compression, it is possible to detect whether or not the human body coughs and the degree of coughing. The pressure sensor 120 may be disposed at a side of the left grip body 20 or the right grip body 30 near the lateral neck of the human body. Thus, after the user correctly wears the neck massager 1000, the pressure sensor 120 is just attached to the lateral neck of the user, and at the moment, the pressure sensor 120 can detect whether the lateral neck of the human body is pressed and collect a pressure signal.

Since the left clamping body 20 and the right clamping body 30 are elastic bodies, the pressure signal value sensed by the pressure sensor 120 is usually small, and the detected pressure signal value can be properly amplified according to the mechanical law. For example, it can be determined through a large amount of test data in the early stage that the corresponding relationship between the pressure value corresponding to the actual pressure signal detected by the pressure sensor 120 and the pressure value corresponding to the actual pressure signal is a double relationship, and then the detected pressure value can be multiplied by two to obtain the actual pressure value, and the actual pressure value is converted into the corresponding pressure signal, which is the actual pressure signal.

Referring to fig. 2, fig. 2 is a schematic structural view of another embodiment of the neck massager provided by the present invention. Since the pressure values of the two sides of the neck should be the same or at least slightly different when the human body is in cough, if only the pressure signal of one side of the neck is detected, the neck massager 1000 may erroneously detect some motion of the human body as cough, for example, the user suddenly makes a motion like turning left when using the neck massager 1000, and at this time, the pressure sensor 120 located on the left clamping body 20 detects a larger pressure signal, but the right clamping body 30 hardly detects the pressure signal, so the neck massager 1000 may erroneously consider the motion as a cough state of the human body, which causes inaccuracy in cough detection of the neck massager 1000.

Therefore, in order to improve the accuracy of cough detection of the neck massager 1000, the pressure sensor 120 includes a first pressure sensor 121 and a second pressure sensor 122, the first pressure sensor 121 is disposed on the left clamping body 20 near the left neck of the human body, and the second pressure sensor 122 is disposed on the right clamping body 30 near the right neck of the human body. Thus, when the user correctly wears the neck massager 1000, the first pressure sensor 121 and the first pressure sensor 122 are just attached to the two lateral necks of the user, and at this time, the first pressure sensor 121 and the second pressure sensor 122 can detect the pressure signals of the two lateral necks of the user in real time, that is, the first pressure sensor 121 is used for detecting the first pressure signal, and the second pressure sensor 122 is used for detecting the second pressure signal. At this time, a first pressure value corresponding to the first pressure signal and a pressure value corresponding to the second pressure signal can be obtained, and whether the absolute value of the difference value between the first pressure value and the second pressure value is smaller than a preset threshold value or not is judged. And if so, sending the first pressure signal and the second pressure signal to the user mobile terminal. Of course, the pressure signal corresponding to the average pressure value of the first pressure value and the second pressure value may also be sent to the user mobile terminal.

In this embodiment, the first pressure sensor 121 and the second pressure sensor 122 are disposed on the neck massager 1000, so as to correspondingly collect pressure signals received by the two side necks of the user, and further compare the collected first pressure signal with the collected second pressure signal, if the pressure value corresponding to the first pressure signal is the same as or similar to the pressure value corresponding to the second pressure signal, the collected pressure signals are further processed to obtain the cough degree of the user. The embodiment can improve the accuracy of cough detection of the neck massager 1000.

The massage assembly 110 is disposed at a position of the rear holding body 10 close to the back neck of the human body, and includes an electric pulse generating device 112 and a massage main body 111, wherein the electric pulse generating device 112 is electrically connected to the massage main body 111. The electric pulse generator 112 can generate a pulse current through the massage body 111, so as to stimulate the skin of the neck of the user, thereby achieving the effect of massaging the neck of the user.

Preferably, the neck massager 1000 may further include a gravity traction body 200 connected to an end of the clamping body 100, including: the first handle 210 is mounted at the end of the left clamping body 20, and the second handle 220 is mounted at the end of the right clamping body 30, that is, the first handle 210 may be a left-side handle and the second handle 220 may be a right-side handle. Also, since the first and second handle bodies 210 and 220 are respectively a part of the gravity traction main body 200, the first handle body 210 is mainly used to provide a forward traction force to the left grip body 20, and the second handle body 220 is mainly used to provide a forward traction force to the right grip body 30. The first handle 210 and the second handle 220 may correspond to the left and right clavicles of the shoulder of the user, respectively, that is, the first handle 210 and the second handle 220 may be respectively overlapped at the left and right clavicles of the user, and the first handle 210 and the second handle 220 generate friction with the left and right clavicles, respectively, so that the first handle 210 and the second handle 220 do not need to clamp the neck of the user in a conventional manner, but can be comfortably worn by virtue of the friction and the self-gravity, and the neck clamping body 100, and the first handle 210 and the second handle 220 can guide the left clamping body 20 and the right clamping body 30 to clamp the lateral neck, so that the left clamping body 20 and the right clamping body 30 can clamp the back half neck circumference of the neck of the user with a light clamping force at both sides, thereby preventing the neck massage instrument 1000 from pressing the neck of the user when the user is in a normal body state, such as a non-cough state, the comfort of the user wearing the neck massager 1000 can be improved.

Thus, according to the neck massager 1000 of the present embodiment, the user's neck can be effectively clamped by the left and right clamping members 20 and 30, and the user's neck can be prevented from being pressed by the clamping members 100. In addition, through setting up first handle body 210 and second handle body 220, can overlap joint in user's collar bone department, can provide left clamping body 20 and the forward traction force of right clamping body 30 to prevent that left clamping body 20 and right clamping body 30 from slipping by the latter half neck of this neck, also can further reduce the pressure between left clamping body 20 and right clamping body 30 and user side neck like this in addition, when promoting the user and wearing neck massage appearance 1000 travelling comfort, make the user when the health is normal, the pressure that first pressure sensor 121 and second pressure sensor 122 detected is close to zero.

The wireless communication circuit 130 is responsible for data interaction between the neck massager 1000 and the user mobile terminal 2000. At least one of Long Term Evolution (LTE), LTE-advanced (LTE-a), Code Division Multiple Access (CDMA), wideband CDMA (wcdma), Universal Mobile Telecommunications System (UMTS), wireless broadband (WiBro), global system for mobile communications (GSM), etc., which are cellular communication protocols, for example, may be used. Specifically, the wireless communication circuit 130 may be configured to send the pressure signal detected by the pressure sensor 120 of the neck massager 1000 to the user mobile terminal 2000 and receive a control instruction issued by the user mobile terminal 2000.

Of course, the neck massager 1000 may establish a communication connection with the other mobile terminal 2000 so that the user can control the neck massager 1000 by connecting the neck massager 1000 with the other mobile terminal 2000 in a case where the user cannot use his mobile terminal 2000 or the user cannot take his or her own care, or the like.

In one embodiment, the neck massager 1000 may be bound to the mobile terminal 2000 of a family member of the user. As is well known, the elderly are a large group of users of the neck massager 1000, and the elderly have many obstacles during the use process. For example, the elderly who are at home alone do not know how to use the high-tech electronic product, and at this time, the young can remotely monitor and grasp the physical health condition of the user by connecting the neck massage apparatus 1000 to the mobile terminal 2000 of the young. Specifically, the user may send the neck massager 1000 through the mobile terminal 2000 to start a cough detection function, the neck massager 1000 collects a pressure signal received by the user's neck in real time through the pressure sensor 120 and sends the pressure signal to the mobile terminal 2000 of the user's family, and the mobile terminal 2000 processes the received pressure signal and determines the type of cough of the user. Preferably, the user may adjust the operation mode of the neck massager 1000 according to the cough type, for example, if the cough type of the user is detected to be a severe cough, the mobile terminal 2000 transmits the massage force of the neck massager 1000 to be decreased, whereas if the cough type of the user is detected to be a mild cough, the mobile terminal 2000 transmits the massage force of the neck massager 1000 to be increased.

The data processing component 160 is used to pre-process the pressure signal detected by the pressure sensor 120. For example, to increase the sensitivity of the pressure sensor 120, the pressure signal is amplified and then transmitted to the user mobile terminal 2000 for analysis to obtain the cough condition of the user. For another example, since the pressure applied to the two sides of the neck should be the same or at least not different when the human body coughs, if the pressure signal applied to only one side of the neck is detected, the neck massage apparatus 1000 may erroneously detect some motion of the human body as a cough. Therefore, the data processing component 160 may obtain the first pressure value corresponding to the first pressure signal and the second pressure value corresponding to the second pressure signal before sending the first pressure signal and the second pressure signal to the user mobile terminal 2000. And judging whether the absolute value of the difference value between the first pressure value and the second pressure value is smaller than a preset threshold value, if so, sending the first pressure signal and the second pressure signal to the user mobile terminal 2000.

Alternatively, a pressure signal corresponding to an average pressure value of the first pressure value and the second pressure value is further sent to the user mobile terminal 2000. Therefore, the user mobile terminal 2000 can be prevented from processing invalid pressure information, and the detection precision of the neck massager 1000 is improved.

The user mobile terminal 2000 includes a wireless communication module 2100, a data storage module 2200, a data processing module 2300, a user interaction interface 2400, and an alarm and prompt module 2500. The wireless communication module 2100 performs data interaction with the wireless communication circuit 130 of the neck massager 1000, and can control the operation of the neck massager 1000. The data storage module 2200 can store the data transmitted from the neck massager 1000 and the data processed by the data processing module 2300. The data processing module 2300 processes and analyzes the data transmitted from the neck massager 1000 by using the cough recognition model to obtain the real-time cough condition of the user. The user interface 2400 is a management interface of the user mobile terminal, and performs management including user information management, pairing management of the neck massage apparatus 1000, control of the operating mode of the neck massage apparatus 1000, and measurement data management. The user interface 2400 can present the data collected by the neck massager 1000 and the result of detecting the cough condition of the user to the user in a friendly visualization manner according to the user's requirements. The alarm and prompt module 2500 responds when the processing result of the data processing module 2300 triggers the early warning condition, and gives a prompt of a corresponding level through the user interaction module.

Specifically, the wireless communication module 2100 receives the pressure information transmitted from the wireless communication circuit 130 of the neck massager 1000 and stores the pressure information in the data storage module 2200. The data processing module 2300 is pre-provided with a cough recognition model, and the pressure signal in the data storage module 2200 is called to predict the cough condition of the user in real time. When the cough detection result meets the early warning condition, the data processing module 2300 gives an early warning prompt through the alarm and prompt module 2500.

Preferably, the neck massager 1000 includes a temperature sensor 150 for measuring the body temperature of the user. The temperature sensor 150 can be disposed at any position of the neck massager 1000 near the skin of the human body, such as the position of the rear clamping body 10, the left clamping body 20, the right clamping body 30, the first handle body 210 and the second handle body 220 near the back neck of the human body. The temperature sensor 150 can cooperate with the pressure sensor 120 to detect the physical condition of the user, for example, when the user is determined to be in severe cough by the user mobile terminal 2000 according to the pressure signal transmitted by the wireless communication circuit 130, an instruction for the neck massager 1000 to start the temperature sensor 150 to detect the body temperature of the user is sent, and if the body temperature of the user is higher than 37.3 ℃, the user can be reminded to keep warm or seek medical advice in time.

Referring to fig. 3, fig. 3 is a schematic flow chart of a cough detection method of the neck massager of the present invention. As shown in fig. 3, the method for detecting cough of the neck massager 1000 includes the following steps:

s11: the pressure signal is detected by the pressure sensor 120.

Before the user wants to detect whether the user has a cough and the cough condition through the neck massager 1000, the user should check whether the neck massager 1000 starts the cough detection function, and if not, the user starts the cough detection function and wears the neck massager 1000. Alternatively, the user may turn on the cough detection function of the neck massager 1000 through the mobile terminal 2000, i.e., the mobile terminal 2000 transmits a command to turn on the cough detection function to the neck massager 1000 through the wireless communication module 2100. The neck massager 1000 collects pressure signals received by the lateral neck of the user through the built-in pressure sensor 120 while massaging the user. Specifically, since the pressure sensor 120 is located at the lateral neck of the user, when the human body coughs, the lateral neck is compressed, and at this time, the pressure sensor 120 can acquire the pressure signal at the lateral neck of the user.

Optionally, in order to improve the accuracy of cough detection of the neck massager 1000, the compression of the lateral neck generated by the user when performing certain specific actions such as turning the head left/right is reduced, thereby causing the neck massager 1000 to make a misjudgment that the user is cough. The present embodiment can detect the pressure signals received by the necks of the two sides of the user at the same time, and if the values of the pressure signals at the two sides are the same or similar, the pressure signals at the two sides are averaged or one of the pressure signals is selected as the pressure signal collected by the pressure sensor 120. Otherwise, the pressure signal at the lateral neck of the user is re-acquired.

S12: the pressure signal is transmitted to the user mobile terminal 2000 so that the user mobile terminal 2000 processes the pressure signal to determine whether the user coughs and the coughing condition.

Alternatively, the neck massager 1000 may transmit the pressure signal to all the mobile terminals 2000 that establish a connection with the neck massager 1000, for example, when family and friends of the user need to monitor the physical condition of the user in real time and remotely control the neck massager. The mobile terminal 2000 can be in communication connection with the neck massager 1000 to receive the pressure signal, and the received pressure signal is processed and analyzed to obtain the cough condition or the cough type of the user.

Since the portion of the neck massager 1000 where the pressure sensor 120 is installed is made of an elastic material, the pressure signal collected by the pressure sensor 120 is usually smaller than the real pressure signal, and therefore the mobile terminal 2000 can amplify the received pressure signal. In addition, the collected pressure signals also have noise inevitably, so that the amplified pressure signals can be subjected to filtering processing. The present embodiment can improve the sensitivity of the neck massager 1000 to the physiological response of the user to cough by properly amplifying the pressure signal, and the target pulse signal with low noise can be obtained by filtering the amplified pressure signal.

The mobile terminal 2000 inputs the target pulse signal into a cough classification model trained in advance to perform classification, so as to determine the cough type of the user. The cough classification model is obtained by utilizing collected lateral neck pressure signals when a human body coughs and carrying out supervised training by artificially labeling cough types.

During epidemic situations, cough is one of symptoms of novel coronary pneumonia, and when a user has cough symptoms and cannot distinguish whether the user has the novel coronary pneumonia, the user is easy to panic, and psychological stress of the user is caused. In this case, if the user selects to go to a hospital for examination, cross infection is likely to occur, and if the user selects not to go to the hospital at home, the disease condition may be aggravated. The mobile terminal 2000 may previously establish a classification model obtained by supervised training using the acquired neck pressure of the patient with confirmed cough and by artificially tagging the cough type. The specific training process is as follows:

the method comprises the steps of obtaining cough sample data of a plurality of cough patients, wherein each cough sample data carries a corresponding cough category label. The cough sample data comprises pressure signals collected from the lateral neck of a patient who is diagnosed, and the cough types which need to be identified and are carried by each cough sample data, such as novel coronary pneumonia, common cold, bronchitis and the like, are specifically selected according to actual requirements.

It should be noted that, the number of patients with cough is not limited in this embodiment, and generally, the same number of samples may be taken for each cough type, for example, 20 persons may be taken for each cough type.

Inputting the side neck cough pressure sample data of a plurality of cough type patients into a recurrent neural network model for training, and constructing a cough type recognition model, wherein the cough type recognition model records the mapping relation between the patient cough pressure data and the patient cough type.

Since the cough data of different cough types are included in the patient cough pressure sample data, in order to distinguish the cough pressure data of patients with different cough types, the patient cough pressure sample data needs to be marked, and here, the patient cough sample data carrying different cough types is mainly marked.

For the embodiment, the recurrent neural network model is a network structure that can train patient cough sample data and patient cough type mapping, the network structure is equivalent to a patient cough identification model, and the patient cough type can be identified according to the patient cough data through the patient cough identification model.

The structure of concrete recurrent neural network model can be realized through the coding-decoding structure of 6 layers, also can train the data characteristic of patient's cough sample data according to actual need to select the structure of other recurrent neural network models certainly, the embodiment of the utility model provides a do not restrict.

And inputting the user data to be recognized into the cough recognition model, and recognizing the cough type corresponding to the user data to be recognized.

According to the embodiment, the patient sample is input into the recurrent neural network model for training, the cough recognition model is constructed, the mapping relation between the patient cough data and the patient cough type is recorded in the cough recognition model, and the cough type of the user can be accurately recognized through the cough recognition model.

If the mobile terminal 2000 inputs the target pulse signal of the user into the pre-established cough recognition model and the obtained cough type of the user is the type according with the novel coronary pneumonia, the mobile terminal sends a signal for starting the temperature sensor 150 to collect the temperature of the human body to the neck massager 1000.

A large number of statistics indicate that cough, although one of the symptoms of the novel coronary pneumonia, is not necessarily the only symptom of cough with the novel coronary pneumonia. Fever is also one of the symptoms of the novel coronary pneumonia, and if a user is in the premise of cough, the symptom accompanied with hyperthermia needs to go to a hospital for examination. Therefore, when judging that the cough type of the user is the novel coronary pneumonia type, the mobile terminal 2000 can send an instruction for starting the temperature sensor 150 to collect body temperature data of the user to the neck massager 1000, the neck massager 1000 receives the instruction and starts the temperature sensor 150 to collect the body temperature data of the user, and if the body temperature of the user is higher than a certain threshold value, if the body temperature is higher than 37.3 ℃, the mobile terminal 2000 sends an alarm and reminds the user to go to a hospital for examination.

In another embodiment, step S12 includes the steps of:

s121: the mobile terminal 2000 acquires the amplitude of the target pulse signal.

S122: and if the amplitude of the target pulse signal is greater than the first preset amplitude, acquiring the occurrence frequency of the target pulse signal.

S123: and when the amplitude of the characteristic wave band is larger than the second preset amplitude and/or the appearance frequency of the characteristic wave band is larger than the preset frequency, determining that the user is the first type of cough. And when the amplitude of the characteristic wave band is smaller than a second preset amplitude and the appearance frequency of the characteristic wave band is smaller than a preset frequency, determining that the user is the second type of cough. And the second preset amplitude is greater than the first preset amplitude.

The frequency and the amplitude of the signal wave are two major indexes reflecting the strength of the signal, so that whether the user coughs and the cough degree can be judged undoubtedly through the frequency and the amplitude of the pressure signal.

Before step S121, in order to improve the accuracy of the determination, the mobile terminal 2000 may amplify and filter the received pressure signal. Thereafter, the mobile terminal 2000 may perform a spectrum analysis on the processed pressure signal. Specifically, the amplified and filtered pressure signal is subjected to fourier transform, so that the pressure signal is converted from a time domain to a frequency domain. A typical use of fourier transforms in signal processing is to decompose a signal into amplitude and frequency components.

The present embodiment enables the user mobile terminal 2000 to process the pressure signal by transmitting the pressure signal detected by the neck massager 1000 to the user mobile terminal 2000, so as to obtain the cough condition of the user. The internal structure of the neck massager 1000 is simplified, and the manufacturing cost of the neck massager can be greatly reduced.

In one embodiment, the massage mode of the neck massager 1000 may be adjusted according to the type of cough experienced by the user.

The condition of the cough of the user may be obtained through step S12, for example, if the first type of cough is a severe cough and the second type of cough is a mild cough, the user may view the condition of the cough or the type of the cough through the user interface 2400 of the mobile terminal 2000. Optionally, the mobile terminal 2000 adjusts the massage mode of the neck massager 1000 according to the acquired cough type of the user. For example, if the first type of cough is a severe cough and the second type of cough is a mild cough, the mobile terminal 2000 may transmit an instruction to adjust the massage mode of the neck massager 1000 through the wireless communication module 2100. For example, when the user is in a mild cough state, the massage strength can be adjusted to be large, and when the user is in a severe cough state, the massage strength can be adjusted to be small.

In another embodiment, after the user mobile terminal 2000 determines the cough condition of the user according to the neck massager 1000, the mobile terminal 2000 may automatically store the cough condition of the user, for example, automatically store the cough type of the user according to time sequence, that is, automatically store the cough type of each time of the user. Of course, the user mobile terminal 2000 may only save several cough situations closest to the current detection time, considering that the longer the distance from the current detection time, the smaller the weight occupied by the reference meaning of the user's historical cough data. And if the historical cough condition of the user meets the set condition, reminding the user.

For example, if the last three cough types of the user are mild cough, moderate cough and severe cough, the cough symptom of the user is determined to be prone to aggravation, and the user or the family is reminded to seek medical advice in time. Or the last three cough types of the user are severe cough, moderate cough and mild cough respectively, the cough symptom of the user is judged to be relieved, and the user can observe for a period of time.

The neck massager 1000 provided by the present application detects the pressure signal received by the lateral neck when the user coughs through the pressure sensor 120, and sends the pressure signal to the user mobile terminal 2000, so that the mobile terminal 2000 performs analysis processing on the received pressure signal, and further, the user can conveniently monitor the physical condition of the user through the mobile terminal 2000 while enjoying the basic massage function.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure or those directly or indirectly applied to other related technical fields are intended to be included in the scope of the present disclosure.

Claims (9)

1. A neck massager, characterized in that the neck massager comprises:

a clamping body;

the massage component is arranged on one side, close to the neck of the human body, of the clamping body and is used for massaging the neck of the human body;

the pressure sensor is arranged on one side of the clamping body close to the neck of the human body and used for detecting a pressure signal of the lateral neck of the user;

the data processing element is electrically coupled with the pressure sensor and used for receiving the pressure signal detected by the pressure sensor and processing the pressure signal;

the wireless communication circuit is arranged on the clamping body and used for sending the pressure signal to a user mobile terminal so that the user mobile terminal can process the pressure signal and further determine the cough condition of the user;

the control circuit is arranged on the clamping body and is electrically coupled with the massage component, the pressure sensor and the wireless communication circuit.

2. The neck massager of claim 1 wherein the clamp body comprises a left clamp body, a right clamp body, and a rear clamp connecting the left clamp body and the right clamp body.

3. The neck massager of claim 2 wherein the pressure sensor comprises a first pressure sensor and a second pressure sensor;

the first pressure sensor and the second pressure sensor are respectively arranged on the left clamping body and the right clamping body, the first pressure sensor detects a first pressure signal, and the second pressure sensor is used for detecting a second pressure signal.

4. The neck massager of claim 3 including a gravity traction body connected to an end of the clamp body for providing forward traction to the clamp body.

5. The neck massager of claim 4 wherein the gravity traction body comprises a first handle body and a second handle body, the first handle body is mounted to the end of the left clamp body, the second handle body is mounted to the end of the right clamp body, the first handle body is configured to provide forward traction to the left clamp body, and the second handle body is configured to provide forward traction to the right clamp body.

6. The neck massager of claim 1 wherein the user mobile terminal is configured to amplify and filter the pressure signals in sequence to identify the target pulse signals for determining the cough status of the user.

7. The neck massager of claim 6,

the user mobile terminal is used for determining the cough condition of the user according to the amplitude and the occurrence frequency of the characteristic wave band in the target pulse signal; wherein the amplitude of the characteristic band is greater than a first preset amplitude.

8. The neck massager of claim 6, wherein the user mobile terminal is configured to input the target pulse signal into a pre-trained classification model for classification to determine the cough type of the user;

the classification model is obtained by utilizing neck pressure signals collected by the user mobile terminal and including patients with confirmed cough and carrying out supervised training through artificial labeling of cough types.

9. The neck massager of claim 8, wherein the user mobile terminal stores a historical cough condition of the user and alerts the user according to the historical cough condition.

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