CN111558144A

CN111558144A - Neck massager and temperature detection method thereof

Info

Publication number: CN111558144A
Application number: CN202010206381.4A
Authority: CN
Inventors: 刘杰; 肖华; 王储
Original assignee: Guangdong SKG Intelligent Technology Co Ltd
Current assignee: SKG Health Technologies Co Ltd.
Priority date: 2020-03-23
Filing date: 2020-03-23
Publication date: 2020-08-21
Anticipated expiration: 2040-03-23
Also published as: CN111558144B

Abstract

The application discloses a neck massager and a temperature detection method of the neck massager. The neck massager comprises a massager body, a heating element, a temperature detection element and a control circuit. The heating element is arranged on the massage instrument body and used for heating the neck of the human body; the temperature detection element is arranged on the massager body and used for detecting the temperature of the neck of a human body; control circuit set up in on the massage appearance body, and the electrical coupling heating member temperature detecting element for the response the condition that heating member is not in operating condition controls human neck temperature is detected to temperature detecting element, in order to obtain body temperature under the neck massage appearance person of dress natural state. In this way, this application can obtain the body temperature under the natural state of neck massage appearance wearing person, to the influence that the temperature detected when avoiding heating the heating member heating, improves the temperature and detects the accuracy.

Description

Neck massager and temperature detection method thereof

Technical Field

The application relates to the technical field of massage instruments, in particular to a neck massage instrument.

Background

In recent years, the onset of cervical spondylosis has been on the trend toward younger patients due to work, bad lifestyle, and the like. In order to relieve the neck fatigue and reduce the occurrence of cervical spondylosis, massage products such as neck massagers appear on the market, and the neck massagers can relieve the neck fatigue in a neck massage mode.

Disclosure of Invention

In order to solve the function problem that the neck massage appearance exists among the prior art, if: if the body temperature of the human body in the natural state is required to be detected, other factors which greatly influence the body temperature are not eliminated, so that the problem that the accurate body temperature value of the human body in the natural state cannot be obtained is solved. Therefore, the application provides a temperature neck massager capable of temperature detection and a method for detecting the temperature of the neck massager.

In order to solve the above problem, an embodiment of the present application provides a neck massager, which includes:

a massage apparatus body;

the heating element is arranged on the massage instrument body and used for heating the neck of the human body;

the temperature detection element is arranged on the massager body and used for detecting the temperature of the neck of a human body;

the control circuit set up in on the massage appearance body, and the electrical coupling heating member temperature detection element for the response the condition that heating member is not in operating condition controls temperature detection element detects human neck temperature, in order to obtain body temperature under the neck massage appearance person of dress natural state.

In another aspect, the present application further provides a method for detecting a temperature of a neck massager, including:

the control circuit of the neck massager judges whether the heating element of the neck massager is in a working state;

if the heating member is not in the working state, the temperature detection element of the neck massager is controlled to detect the temperature of the neck of the human body, so that the first temperature of the neck massager wearer in the natural state is obtained.

Has the advantages that: compared with the prior art, the neck massager of this application includes: the heating member of setting on the massage appearance body, temperature detection component and control circuit, wherein control circuit electric coupling adds heating member and temperature detection component to be used for responding the condition that the heating member is not in operating condition, then control temperature detection component detects human neck temperature, with the body temperature that obtains under the neck massage appearance wearing person's natural state, to the influence that the temperature detected when avoiding adding the heating member heating, improve the temperature and detect the accuracy.

Drawings

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

Fig. 1 is a schematic structural view of a neck massager of an embodiment of the present application;

FIG. 2 is a schematic block diagram of a neck massager of an embodiment of the present application;

fig. 3 is a schematic flow chart of a method for detecting the temperature of a neck massager in accordance with an embodiment of the present application;

fig. 4 is a schematic flow chart of a temperature detection method for a neck massager in the second embodiment of the present application;

fig. 5 is a schematic flow chart of a method for detecting the temperature of a neck massager in the third embodiment of the present application;

fig. 6 is a schematic flow chart of a temperature detection method for a neck massager in accordance with a fourth embodiment of the present application;

fig. 7 is a schematic flow chart of a method for detecting the temperature of the neck massager in the fifth embodiment of the present application.

Reference numerals: the neck massager 10, the massager body 100, the electrode plate 110, the first side portion 120, the second side portion 130, the gravity traction main body 140, the massage main body 150, the control circuit 210, the heating element 220, the temperature detection element 230, the communication circuit 240 and the output circuit 250.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be noted that the following examples are only illustrative of the present application, and do not limit the scope of the present application. Likewise, the following examples are only some examples and not all examples of the present application, and all other examples obtained by a person of ordinary skill in the art without any inventive step are within the scope of the present application.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of a neck massager 10 according to an embodiment of the present application, and fig. 2 is a schematic block diagram of a neck massager 10 according to an embodiment of the present application.

The neck massager 10 provided by the present application may include a massager body 100. The massage apparatus body 100 may include a massage main body 150, a first side 120 and a second side 130, wherein the first side 120 and the second side 130 are respectively installed at two ends of the massage main body 150, for example, the first side 120 may be connected to the left side of the massage main body 150, and the second side 130 may be connected to the right side of the massage main body 150, that is, the first side 120 is a left side, and the second side 130 is a right side. That is, the entire neck massager massage part may be divided into three parts, which can respectively realize different actions according to their own positions, and the massage main body 150 is mainly used to massage the nape region of the wearer, and the first side 120 and the second side 130 respectively correspond to the lateral neck regions of both sides, which can be mutually engaged, so that the neck of the user can be massaged in cooperation.

Wherein the massage body 150 may be a rigid deformation-resistant structure, and the first and

second sides

120 and 130 may be elastic bodies. Therefore, the neck massage main part of this application has adopted the elastomer of two separation arrangements, rather than a whole elastic arm, like this, first side 120 and second side 130 realize the laminating to the wearer's neck through the lapped mode of swing, so can control the deformation of first side 120 and second side 130 better to the inconvenient problem of wearing that first side 120 and second side 130 deformation range was too big when can avoiding user's operation causes.

Referring to fig. 1, the neck massager 10 provided by the present application further includes a gravity traction body 140, wherein the gravity traction body 140 can provide forward traction forces at two ends of the neck massage body 150, the forward traction forces can enable the neck massage body 150 to better grip the neck of the user, and through force analysis, the gripping force of the neck massage body 150 on the neck of the user can be reduced at least to some extent, so as to improve the wearing comfort of the user. The neck massage body is constructed in a structure adapted to hold the rear half of the neck of the user, and the gravity traction body 140 is constructed in a structure adapted to overlap the clavicle at the shoulder of the user.

Further, the neck massager 10 provided by the present application may further include a temperature detecting element 230 provided on the massager body 100. Specifically, the temperature sensing element 230 may be disposed at the first side 120 or the second side 130 so that the temperature sensing element 230 can be brought into close contact with both sides of the neck of the wearer, thereby obtaining an accurate body temperature. The temperature detecting element 230 is electrically coupled to the control circuit 210, so that when the heating element 220 is not in an operating state, the control circuit 210 can control the temperature detecting element 230 to operate to detect the neck temperature of the human body, so as to obtain the natural temperature of the wearer of the neck massager 10. In other embodiments, the temperature detecting element 230 may be an infrared temperature detector 2301, wherein the infrared temperature detector 2301 may be disposed on the gravity traction body 140 and specifically faces one side of the neck of the human body, and the infrared temperature detector 2301 may be disposed on the gravity traction body 140 to enable the infrared temperature detector 2301 to be spaced apart from the neck of the wearer of the neck massager 10, and may convert the infrared signal emitted toward the human body into the human body temperature information. In other embodiments, the infrared temperature detector 2301 may be disposed at other positions, and it is only necessary that the position of the infrared temperature detector 2301 is disposed at one side of the neck of the human body and spaced from the neck of the human body when the neck massager 10 is normally used. In other embodiments, the temperature detecting element 230 may also be a thermocouple, wherein the thermocouple may be disposed on the side of the neck massager 10 close to the human body, and only the portion where the thermocouple is disposed can be attached to the neck of the human body when the neck massager 10 is in use, so that the accurate temperature of the neck of the human body can be measured.

As shown in fig. 1, the electrode sheet 110 of the massager body 100 provided by the present application can be disposed on the surface of the heating element 220 and electrically coupled to the control circuit 210 for outputting pulse current to the neck of the human body. The electrode sheet 110 may be inclined inward and downward with respect to the massage body 100. That is, the electrode sheet 110 may face the lower neck of the user, so that the surface of the electrode sheet 110 facing inward and downward can be substantially parallel to the skin of the lower neck of the user, and thus the electrode sheet can be better attached to the lower neck of the user, and the massage effect is better. This electrode slice 110 of massager body 100 can be when initial condition both contained angles less present the gesture of drawing close together, and when wearing, this electrode slice 110 then expands to both sides under the extrusion of user's neck to finally present the gesture of opening when wearing, this electrode slice 110 has the shrink trend this moment, consequently can be attached user's neck better, avoids droing and causes the stabbing pain. The electrode sheet 110 may also be a flexible conductive silica gel, which is attached to one side of the massage apparatus body 100 facing the human neck, or embedded in one side of the massage apparatus body 100 facing the human neck, and may be flush with the surface of one side of the massage apparatus body 100 facing the human neck, or may slightly protrude from one side of the massage apparatus body 100 facing the human neck.

Wherein the heating element 220 is disposed between the electrode sheet 110 and the massage main body 150, in other embodiments, the heating element 220 and the electrode sheet 110 may be disposed at other positions of the neck massage apparatus 10. The number of the heating elements 220 and the electrode sheets 110 is not limited to one, or a plurality of them, and they may be located at different positions of the neck massager 10. The heating member 220 may perform a heating function at the rear side of the electrode sheet 110, so that heat may be transferred to the neck of a user in a use state, and particularly, the use effect may be better in winter. The arrangement of the electrode sheet 110 can further improve the comfort of the neck massager 10. And the heating member 220 may be disposed away from the temperature detecting element 230 so that the body temperature measured by the temperature detecting element 230 approaches the temperature of the human body in a natural state.

Referring to fig. 2, fig. 2 is a schematic block diagram of the neck massager 10 according to the embodiment of the present application. The neck massager 10 provided by the present application may further include an output circuit 250 and a communication circuit 240 disposed on the massager body 100, wherein the communication circuit 240 is disposed on the neck massager body 100 and electrically coupled to the control circuit 210 for establishing a wireless communication connection with a terminal, so as to send the obtained body temperature value of the wearer of the neck massager 10 in a natural state to the mobile terminal to which the neck massager 10 establishes the connection. The output circuit 250 is electrically coupled to the control circuit 210, and after the control circuit 210 obtains the body temperature value of the wearer by controlling the temperature detection element 230 to work, the control circuit 210 controls the output circuit 250 to display the body temperature value of the wearer detected by the temperature detection element 230 through a display (not shown) connected to the output circuit 250; alternatively, the output circuit 250 is connected to a speaker (not shown) of the neck massager 10, and the body temperature value detected by the temperature detecting element 230 is broadcasted to the user through the speaker. This application can let the wearing person obtain accurate neck body temperature in real time through set up output circuit 250 on neck massage appearance body 100, can make things convenient for the wearing person to take in advance according to data whether to continue to use the action of heating with hot piece 220 heating, and then can promote wearing person's comfort level.

The application also provides a method for detecting the temperature of the neck massager 10, and referring to fig. 3, fig. 3 is a schematic flow chart of the method for detecting the temperature of the neck massager 10 according to the first embodiment of the application; the control method of the embodiment may include:

step S11, the control circuit 210 of the neck massager 10 judges whether the heating element 220 of the neck massager 10 is in the working state; if the heating member 220 is not in the working state, the temperature detecting element 230 of the neck massager 10 is controlled to detect the neck temperature of the human body, so as to obtain a first temperature of the wearer of the neck massager 10 in the natural state.

In an application scenario, if a wearer of the neck massager 10 wants to obtain the body temperature of the wearer in the current state, the temperature detection function can be started. So that the temperature sensing element 230 is controlled to measure the current body temperature of the human body. However, if the wearer wants to obtain the temperature of the wearer in the natural state, the heating element 220 of the neck massager 10 may be in the working state, and the detected body temperature may be different from the body temperature in the natural state. At this time, the control circuit 210 of the neck massager 10 determines whether the heating element 220 is in the working state, and if the heating element 220 is not in the working state, the control circuit 210 can control the temperature detecting element 230 to detect the body temperature of the human body in the current state through the temperature detecting circuit arranged on the control circuit 210 board, so as to obtain the temperature of the human body in the natural state.

And step S12, judging whether the first temperature is normal, and if the first temperature is abnormal, giving an alarm of human body abnormity.

In one application scenario, the neck massager 10 identifies the body temperature value of the human body detected in step S11 in the natural state, and if the body temperature is different from the temperature at which the human body should be kept in the healthy state, the human body may be in the sub-healthy state. Based on this, the neck massager 10 gives an alarm to alert the wearer to the body state of the wearer.

And step S13, sending the data corresponding to the human neck temperature to a mobile terminal in a wireless communication mode or displaying the data on a display screen of the massage instrument.

In one application scenario, the neck massager 10 may further have a communication circuit 240 coupled to the control circuit 210, so that the neck massager 10 may create a connection with a smart terminal, which may be a wireless connection, such as bluetooth, WIFI, NFC, etc., or a wired connection, such as OTG. After the connection is established, the neck massager 10 sends the temperature of the human body detected by the temperature detecting element 230 in the natural state to the intelligent terminal connected with the neck massager, so that the intelligent terminal can analyze the human body at the current body temperature and count the body temperature data according to the existing database.

The neck massager 10 can also display the obtained temperature value on the display screen of the neck massager 10 through the output circuit 250 so as to visually display the value in front of the wearer.

Referring to fig. 4, fig. 4 is a schematic flow chart of a method for detecting the temperature of the neck massager 10 according to the second embodiment of the present application. The embodiment comprises the following steps:

step S21: the control circuit 210 of the neck massager 10 determines whether the heating element 220 of the neck massager 10 is in a working state; if the heating element 220 is not in the working state, the temperature detecting element 230 of the neck massager 10 is controlled to detect the neck temperature of the human body, so as to obtain a first temperature of the wearer of the neck massager 10 in the natural state.

The implementation scenarios of step S21 and step S11 may be the same, and are not described herein again.

Step S22: detecting whether the remaining power of the neck massager 10 is abnormal;

if the remaining power of the neck massager 10 is abnormal, it is further determined whether the first temperature is lower than a threshold value.

Step S23: if the first temperature is lower than the threshold value, the control circuit 210 controls the massage main body 150 to stop working, and starts the heating element 220 to apply hot compress to the neck of the human body.

In this embodiment, the control circuit 210 of the neck massager 10 determines the first temperature of the natural state of the human body detected by the temperature detecting element 230 when the battery remaining capacity of the neck massager 10 and the temperature of the natural state of the user detected by the temperature detecting element 230 when the heating element 220 is not heating are not enough, for example, the electric capacity value is 20% of the total electric capacity remaining, the control circuit 210 further determines the first temperature of the natural state of the human body detected by the temperature detecting element 230, when the first temperature is lower than a certain value T1, it indicates that the body of the user is in a cold state, and when both conditions are satisfied, the control circuit 210 automatically turns off the massage main body 150 of the neck massager 10 to stop the operation of the massage main body 150 of the neck massager 10, and at the same time, the heating element 220 is turned on to provide hot compress to the human body in the cold state. In other embodiments, the user may also manually issue an instruction to turn off or on the massage body 150 or the heating element 220.

Step S24: and sending the data corresponding to the residual electric quantity of the neck massager 10 to a mobile terminal in a wireless communication mode, or displaying the data on a display screen of the neck massager 10.

After neck massager 10 is connected with mobile terminal through radio communication, control circuit 210 can gather the remaining electric quantity that neck massager 10 was spent constantly to send the numerical value of remaining electric quantity to mobile terminal through radio communication network, in other embodiments, when the remaining electric quantity of neck massager 10 is less than a certain predetermined numerical value, mobile terminal can pop out the warning that the electric quantity is not enough automatically on its display screen, perhaps reports through neck massager 10's speaker.

Referring to fig. 5, fig. 5 is a schematic flow chart of a method for detecting the temperature of the neck massager 10 according to a third embodiment of the present application. The embodiment comprises the following steps:

step S31: the control circuit 210 of the neck massager 10 determines whether the heating element 220 of the neck massager 10 is in a working state; if the heating element 220 is not in the working state, the temperature detecting element 230 of the neck massager 10 is controlled to detect the neck temperature of the human body, so as to obtain a first temperature of the wearer of the neck massager 10 in the natural state.

The implementation scenarios of step S31 and step S11 may be the same, and are not described herein again.

Step S32: if the heating member 220 is in a working state, the temperature detecting element 230 is controlled to detect the temperature of the neck of the human body or the heating member 220, so as to obtain a second neck temperature of the neck massager wearer in a hot compress state.

And step S33, determining whether the second temperature is normal, and if the second temperature is not normal, controlling the output of the heating power of the heating element 220 to make the second temperature normal or stopping the heating element 220 from working.

In an application scenario, the control circuit 210 of the neck massager 10 controls the heating element 220 and the temperature detecting element 230 to operate simultaneously to detect the temperature of the neck massager 10 during hot compress, and compares the temperature obtained during hot compress with a preset normal temperature during hot compress, for example, the preset temperature is a high temperature state above 38 ℃, and when the detected temperature during hot compress is higher than 38 ℃, it is determined that the second temperature is in an abnormal temperature state, which is a high temperature state. At this time, the control circuit 210 controls to reduce the power output of the heating element 220 or stop the operation of the heating element. For example, the preset second temperature is lower than 36.5 degrees celsius, which is a low temperature state, at this time, the control circuit 210 may control to increase the output power of the heating element 220, so that the temperature is increased appropriately, so as to ensure the comfort of the user.

And step S34, judging whether the closing time of the heating element 220 exceeds a threshold value, if so, detecting the neck temperature of the human body to acquire the body temperature value of the wearer.

In an application scenario, if the control circuit 210 determines that the second temperature is in the high temperature state, the control circuit 210 controls the heating element 220 to stop working. Or the user may manually turn off the heat generating member if the user wants to detect the temperature of the wearer in the natural state during the operation of the heating member 220. After the heating member is turned off, the control circuit 210 may determine a time period for which the heating member 220 is turned off, and activate the temperature detecting element 230 if the time period for which the heating member 220 is turned off exceeds a threshold value, so as to obtain the temperature of the wearer in the normal state.

And step S35, sending the data corresponding to the human neck temperature to a mobile terminal in a wireless communication mode or displaying the data on a display screen of the massage instrument.

Referring to fig. 6, fig. 6 is a schematic flow chart of a method for detecting the temperature of the neck massager 10 according to a fourth embodiment of the present application. The embodiment comprises the following steps:

step S41, the control circuit 210 of the neck massager 10 judges whether the heating element 220 of the neck massager is in the working state; if the heating element 220 is not in the working state, the temperature detecting element 230 of the neck massager 10 is controlled to detect the neck temperature of the human body, so as to obtain a first temperature of the wearer of the neck massager 10 in the natural state.

And step S42, if the heating element 220 is in the working state, controlling the temperature detecting element 230 to detect the temperature of the neck of the human body or the heating element 220 so as to obtain a second neck temperature of the neck massager wearer in the hot compress state.

Step S43, detecting whether the residual electricity quantity of the neck massage instrument 10 is abnormal;

if the power of the neck massager 10 is abnormal, the control circuit 210 controls the heating element 220 to stop working.

Specifically, when the massage main body 150 and the heating element 220 of the neck massager 10 are both in the working state, the power consumption of the neck massager 10 is large, and when the control circuit 210 of the neck massager 10 detects that the remaining power of the neck massager 10 is lower than a certain value, the control circuit 210 can control the heating element 220 to stop working, so that the neck massager 10 only provides massage for the wearer, and the working time of the neck massager 10 is increased under the condition that the power of the neck massager 10 is low. In other embodiments, the average power consumption of the neck massager 10 over a period of time can be detected to determine the power consumption of the neck massager 10 over a period of time, so as to remind the user that the power consumption of the neck massager 10 is fast and recommend turning off certain components. Or the heating state of the neck massager 10 within a period of time can be detected, so that the neck massager 10 is prevented from being in a high-temperature working state for a long time, and the service life of the neck massager 10 is prevented from being shortened.

And step S44, sending the data corresponding to the residual electric quantity of the neck massager 10 to a mobile terminal in a wireless communication mode or displaying the data on a display screen of the neck massager 10.

And step S45, sending the data corresponding to the human neck temperature to a mobile terminal in a wireless communication mode or displaying the data on a display screen of the massage instrument.

Referring to fig. 7, fig. 7 is a schematic flow chart of a method for detecting the temperature of the neck massager 10 according to the fifth embodiment of the present application. The embodiment comprises the following steps:

step S51, the control circuit 210 of the neck massager 10 judges whether the heating element 220 of the neck massager is in the working state; if the heating element 220 is not in the working state, the temperature detecting element 230 of the neck massager 10 is controlled to detect the neck temperature of the human body, so as to obtain a first temperature of the wearer of the neck massager 10 in the natural state.

And step S52, if the heating element 220 is in the working state, controlling the temperature detecting element 230 to detect the temperature of the neck of the human body or the heating element 220 so as to obtain a second neck temperature of the neck massager wearer in the hot compress state.

And step S53, determining whether the second temperature is normal, and if the second temperature is not normal, controlling the output of the heating power of the heating element 220 to make the second temperature normal or stop the operation of the heating element.

And step S54, if the second temperature is abnormal, at least one of a vibration early warning mode, a ringtone early warning mode, an LED lamp flicker early warning mode or a voice broadcast early warning mode is carried out.

In this application scenario, after the temperature of the wearer who acquires under the hot compress state exceeds the threshold value, if the wearer is in the sleep state, and the control circuit 210 does not timely reduce the heating power to the heating member 220 and handles, the neck massager 10 can carry out the early warning prompt, wherein, the early warning prompt can be at least one early warning mode among vibrations early warning, the early warning of ringtone, the LED lamp scintillation early warning or the voice broadcast early warning.

And step S55, sending the data corresponding to the human neck temperature to a mobile terminal in a wireless communication mode or displaying the data on a display screen of the massage instrument.

The principle and the implementation of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A neck massager, comprising:

a massage apparatus body;

2. The neck massager of claim 1 comprising:

the output circuit is arranged on the massager body, is electrically coupled with the control circuit and is used for outputting the human neck temperature or the body temperature of the current wearer of the neck massager obtained according to the human neck temperature.

3. The neck massager of claim 2,

the output circuit is a display or a loudspeaker arranged on the massage apparatus body.

4. The neck massager of claim 1 comprising:

the electrode slice is arranged on the surface of the heating element, is electrically coupled with the control circuit and is used for outputting pulse current to the neck of a human body;

wherein the temperature detection element is disposed away from the heating member.

5. The neck massager of claim 4 comprising:

the communication circuit is arranged on the massager body, is electrically coupled with the control circuit and is used for establishing wireless communication connection with a terminal and sending the obtained body temperature value of the neck massager wearer in a natural state to the terminal;

the communication circuit is remote from the electrode sheet.

6. The neck massager of claim 1,

the temperature detection element is an infrared temperature detector.

7. A neck massager temperature detection method is characterized by comprising the following steps:

8. The method of claim 7, comprising:

and judging whether the first temperature is normal or not, and if the first temperature is abnormal, giving an alarm of human body abnormity.

9. The method of claim 7, wherein after obtaining the first temperature of the neck massager wearer at its natural state, the method further comprises:

detecting whether the residual electric quantity of the neck massager is abnormal or not;

if the residual electric quantity of the neck massager is abnormal, further judging whether the first temperature is lower than a threshold value;

if the first temperature is lower than the threshold value, the control circuit controls the massage main body to stop working and starts the heating element to carry out hot compress on the neck of the human body.

10. The method of claim 7,

if the heating element is in a working state, controlling the temperature detection element to detect the temperature of the neck of the human body or the heating element so as to obtain a second neck temperature of a wearer of the neck massager in a hot compress state;

and judging whether the second temperature is normal or not, and if the second temperature is abnormal, controlling the heating power output of the heating element so that the second temperature is normal or stopping the heating element to work.

11. The method of claim 10, comprising:

and if the second temperature is abnormal, performing at least one of vibration early warning, ringtone early warning, LED lamp flicker early warning or voice broadcast early warning.

12. The method of claim 10, wherein after automatically turning off the heating element, the method further comprises:

and judging whether the closing time of the heating element exceeds a threshold value, if so, detecting the neck temperature of the human body to obtain the body temperature value of the wearer.

13. The method of claim 10, wherein after the heating element is in the active state, the method further comprises:

if the electric quantity of the neck massager is abnormal, the control circuit controls the heating element to stop working.

14. The method of claim 9 or 13, wherein the method further comprises:

and sending data corresponding to the residual electric quantity of the neck massager to a mobile terminal in a wireless communication mode or displaying the data on a display screen of the neck massager.

15. The method of any of claims 7 to 12, comprising:

and sending the data corresponding to the human neck temperature to a mobile terminal in a wireless communication mode, or displaying the data on a display screen of the massager.