CN111905255A

CN111905255A - Neck massager, gear adjusting method thereof and computer storage medium

Info

Publication number: CN111905255A
Application number: CN202010634196.5A
Authority: CN
Inventors: 刘杰; 王储; 张雨微
Original assignee: SKG Health Technologies Co Ltd.
Current assignee: SKG Health Technologies Co Ltd.
Priority date: 2020-07-02
Filing date: 2020-07-02
Publication date: 2020-11-10

Abstract

The invention discloses a neck massager, a gear adjusting method thereof and a computer storage medium. This neck massager includes: the massage device comprises a massage device body, a massage circuit, a detection circuit and a control circuit, wherein the massage circuit, the detection circuit and the control circuit are arranged on the massage device body; the control circuit is electrically connected with the massage circuit and the detection circuit and used for acquiring the heart rate information and adjusting the working gear of the massage circuit according to the heart rate information. Through the mode, the automatic adjustment device can automatically adjust the working gear of the massage circuit of the neck massage instrument.

Description

Neck massager, gear adjusting method thereof and computer storage medium

Technical Field

The invention relates to the field of neck massage instruments, in particular to a neck massage instrument, a gear adjusting method thereof and a computer storage medium.

Background

The existing neck massage instrument generally massages a user by means of low-frequency electrotherapy, magnetic therapy and the like, can relax tendons and activate collaterals, helps to improve neck blood circulation, effectively relieves the problems of neck muscle stiffness, pain and the like, and is popular with the user.

Disclosure of Invention

The invention provides a neck massager, a gear adjusting method thereof and a computer storage medium, which aim to solve the problem of how to adjust the working gear of the neck massager.

In order to solve the technical problems, the invention adopts a technical scheme that: there is provided a neck massager comprising: a massage apparatus body; the massage circuit is arranged on the massage instrument body and is used for massaging a user; the detection circuit is arranged on the massage instrument body and at least comprises a heart rate detection element, and the heart rate detection element is used for detecting the heart rate information of the user when the massage circuit works; the control circuit is arranged on the massager body, is electrically connected with the massage circuit and the detection circuit and is used for acquiring the heart rate information and adjusting the working gear of the massage circuit according to the heart rate information.

In order to solve the technical problem, the invention adopts another technical scheme that: the method for adjusting the gears of the neck massager is characterized in that the neck massager comprises a massager body, a massage circuit, a detection circuit and a control circuit, wherein the massage circuit, the detection circuit and the control circuit are arranged on the massager body; the control circuit is electrically connected with the detection circuit and the control circuit, and the massage circuit further comprises a heart rate detection element; the gear adjusting method comprises the following steps: when the massage circuit works, the heart rate detection element is used for detecting the heart rate information of the user; and acquiring the heart rate information by using the control circuit and adjusting the working gear of the massage circuit according to the heart rate information.

In order to solve the technical problem, the invention adopts another technical scheme that: there is provided a computer storage medium having stored therein a computer program for executing the computer program to implement any of the methods as described above, the computer program when executed implementing the steps of the method for pre-estimating effectiveness of advertisement impressions as described above.

Different from the prior art, the heart rate detection element is arranged on the massage instrument body and used for detecting the heart rate information of the user when the massage circuit works, then the heart rate information is obtained through the control circuit, the comfort degree of the massage circuit for the user when the massage circuit massages the user is determined based on the heart rate information, and then the working gear of the massage circuit is adjusted according to the heart rate information. Therefore, the automatic adjustment of the massage circuit of the neck massager can be realized, the manual operation of a user is reduced, and the user experience is improved.

Drawings

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

FIG. 1 is a schematic structural view of a first embodiment of the neck massager of the present invention;

FIG. 2 is a schematic structural view of a second embodiment of the neck massager of the present invention;

FIG. 3 is a schematic view of the internal structure of the side neck part of the neck massager shown in FIG. 1;

FIG. 4 is a schematic flow chart illustrating a first embodiment of a method for adjusting gears of the neck massager of the present invention;

FIG. 5 is a schematic flow diagram of the substeps of step S12 of FIG. 4;

FIG. 6 is another schematic flow chart of the substeps of step S12 of FIG. 4;

FIG. 7 is a schematic flow chart illustrating a second embodiment of a method for adjusting gears of the neck massager of the present invention;

FIG. 8 is a schematic flow chart of a sub-step of step S22 of FIG. 7;

FIG. 9 is a schematic structural diagram of an embodiment of a computer storage medium according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

Referring to fig. 1-3, the present invention provides a neck massager 10, wherein the neck massager 10 comprises a massager body 100, a massage circuit 200, a control circuit 300 and a detection circuit 400.

The massage circuit 200, the control circuit 300 and the detection circuit 400 are disposed on the massage apparatus body 100, and the massage circuit 200 can be used for massaging a user, specifically, electrotherapy massage, magnetotherapy massage, and the like.

The detection circuit 400 includes at least a heart rate detection element 410, and the heart rate detection element 410 can be used to detect heart rate information of the user when the massage circuit 200 is in operation. In an alternative embodiment, the heart rate detecting element 410 may specifically be an optoelectronic detecting element, and may specifically adopt a transmission type photoelectric method or a reflection type photoelectric method for detection. In a specific detection scene, because blood is red, the blood can reflect red light and absorb green light, and when the heart beats, the blood flow is increased, and the absorption amount of the green light is increased; the blood flow decreases in the beating gap of the heart, and the green light absorption decreases accordingly. Therefore, the heart rate can be measured by the absorbance of blood. In other alternative embodiments, other types of sensing elements may be used, and are not limited herein.

The control circuit 300 is electrically connected to the massage circuit 200 and the detection circuit 400, and can be used to control the massage circuit 200 to massage the user, and also can be used to obtain the heart rate information detected by the heart rate detection element 410, and then further adjust the operating position of the massage circuit 200 according to the heart rate information.

In the above embodiment, through set up in heart rate detecting element 410 on massager body 100 to be used for at massage circuit 200 during operation, detect user's heart rate information, later obtain heart rate information through control circuit 300, because confirm massage circuit 200 user's comfort level when massaging the user based on heart rate information, and then according to the work gear based on heart rate information adjustment massage circuit 200.

In an alternative embodiment, when the massage circuit 200 massages the user, the heart rate information of the user may indicate the comfort level of the user to a certain extent, for example, the heart rate of the user may be accelerated due to mood fluctuation or physical discomfort, and therefore, when the heart rate of the user is accelerated, the comfort level of the user may be indicated to be low, and the heart rate of the user may be slowed down due to physical comfort and relaxation, and therefore, when the heart rate of the user is slowed down, the comfort level of the user may be indicated to be high, and therefore, the operating position of the massage circuit 200 may be adjusted according to the heart rate information.

In an alternative embodiment, if the heart rate information indicates that the heart rate of the user starts to increase during the massage, it indicates that the comfort of the user may be poor, and thus that the operating range of the massage circuit 200 may be too high, so that the operating range of the massage circuit may be adjusted downward.

As an alternative embodiment, if the heart rate information indicates that the heart rate of the user continues to increase to reach the first high heart rate value for a first predetermined time interval and reaches the first predetermined time threshold at a time when the heart rate of the user is greater than or equal to the first high heart rate value. That is, if the heart rate information indicates that the heart rate of the user is continuously accelerated to reach the first high heart rate value within the first preset time interval and reaches the first preset time threshold value within a time period greater than or equal to the first high heart rate value, it may indicate that the heart rate of the user is accelerated.

In an optional scenario, the first preset time interval is 5S, the first high heart rate is 90 times/min, and the first preset time threshold is 3S, and when the heart rate of the user reaches 90 times/min within 5S and reaches 3S within 90 times/min or more, it may indicate that the heart rate of the user is accelerated.

In another optional embodiment, if the heart rate information indicates that the heart rate of the user is increasing in a second predetermined time interval, the second high heart rate value is reached, and the heart rate of the user reaches the second predetermined time threshold at a time greater than or equal to the second high heart rate value. That is, if the heart rate information indicates that the heart rate of the user is in an overall accelerated trend and reaches the second high heart rate value in the second preset time interval, and reaches the second preset time threshold value in the time greater than or equal to the second high heart rate value, that is, in the second preset time interval, the beating speed of the heart rate of the user at the end of the second preset time interval is greater than the beating speed at the beginning of the second preset time interval, it indicates that the overall trend of the heart rate in the second preset time interval is in an accelerated trend. It may indicate that the heart rate of the user is increasing.

As another alternative embodiment, the heart rate of the user is determined to be increasing if the heart rate information indicates that the heart rate of the user increases by a preset factor for a sixth preset time interval to reach a third high heart rate value while the heart rate information further indicates that the heart rate of the user reaches a third preset time threshold at a time greater than or equal to the third high heart rate value. Optionally, the third high heart rate value of this embodiment is a dependent value, and depends on the initial heart rate of the user and a preset multiple, and if the initial heart rate of the user is 70 times per minute, and the preset multiple is 30%, the high heart rate value is 91 times per minute.

As an alternative scenario, for example, the sixth preset time interval may be 10S, 20S, etc., the preset multiple may be 20%, 30%, or other multiples, etc., and the third preset time threshold may be 5S, 10S, etc. If the heart rate of the user starts at 60 beats/minute and then increases by 20% over a sixth predetermined time interval, such as 10 seconds, to a high heart rate value, at which point the high heart rate value is 72 beats/minute, and at a later time, the heart rate information of the user indicates that the heart rate reaches a third predetermined time threshold, such as 5 seconds, at a time greater than or equal to 72 beats/minute, then it may be determined that the heart rate of the user is increasing. By the method, the accidental heart rate of the user can be filtered, so that the accuracy is improved.

In another alternative embodiment, if the heart rate information indicates that the user's heart rate begins to slow down during the massage, it indicates that the user's comfort level may be better, and thus that the operating position of the massage circuit 200 is the proper position, so that the operating position of the massage circuit can be adjusted up or maintained.

In an alternative embodiment, if the heart rate information indicates that the heart rate of the user continuously decreases within the third predetermined time interval or the heart rate of the user gradually decreases within the fourth predetermined time interval, the heart rate information indicates that the heart rate of the user is decreasing.

As another alternative, if the heart rate information indicates that the variation amplitude of the heart rate of the user in the fifth preset time interval is smaller than the preset heart rate variation threshold, it indicates that the heart rate of the user tends to be stable. I.e. the user's heart rate has a small shift over the fifth preset time interval.

In an optional scenario, the fifth preset time interval may be 10S, the preset heart rate conversion threshold is 5 times/minute, and if the heart rate of the user is within 10S and the difference between the highest value and the lowest value of the heart rate is less than or equal to 5 times/minute, it indicates that the conversion amplitude of the heart rate of the user within the fifth preset time interval is less than the preset heart rate conversion threshold, that is, it indicates that the heart rate of the user tends to be stable.

In an alternative embodiment, the heart rate of an adult is generally 70/min to 80/min in the awake state and 50/min to 60/min in the sleep state, since the heart rate of an adult is somewhat common. Therefore, the operating gear of the massage circuit can be adjusted based on the heart rate.

In an optional scenario, if the heart rate information indicates that the heart rate of the user is within a first threshold range, the operating range of the massage circuit is adjusted downward. Optionally, the first threshold range is greater than 80 times/min, and less than or equal to 120 times/min, and specifically may be 81 times/min, 90 times/min, or 120 times/min.

As another optional scenario, if the heart rate information indicates that the heart rate of the user is within the second threshold range, the operating range of the massage circuit is maintained or adjusted up. Optionally, the second threshold range is greater than 60 times/min, and less than or equal to 80 times/min, and specifically may be 61 times/min, 70 times/min, or 80 times/min.

In another optional scenario, if the heart rate information indicates that the heart rate of the user is within the third threshold range, the massage circuit is turned off or the working gear of the massage circuit is controlled not to be greater than the preset gear. Optionally, the third threshold range is greater than or equal to 40 times/min and less than or equal to 60 times/min. Specifically, the number of the reaction solution may be 41 times/minute, 50 times/minute, 60 times/minute, or the like. Optionally, the third threshold range is a sleeping heart rate of an adult, which indicates that the user has entered a rest state, and to ensure user experience, the working gear of the massage circuit may be turned off, or may not be greater than a preset gear.

In an alternative embodiment, the first threshold range, the second threshold range, and the third threshold range may be preset based on the age of the neck massager 10 facing the audience, and are not limited herein.

In other embodiments, the first threshold range, the second threshold range, and the third threshold range may also be adjusted according to the input information of the user.

As shown in fig. 2, the massage circuit 200 may include a massage electrode set 210, and the massage electrode set 210 may be specifically configured to provide a massage current to massage a user.

In an alternative embodiment, the massage electrode sheet set 210 may include two massage electrode sheets 211, and the two massage electrode sheets 211 set different voltages and use the muscles of the user as conductors, so as to generate massage currents through the muscles of the user, and further massage the user by electrotherapy.

In another alternative embodiment, the detection circuit 400 may further include a detection electrode sheet set 420, and the detection electrode sheet set 420 may be configured to detect muscle information of the user when the massage circuit 200 operates, and then the control circuit 300 acquires the muscle information and adjusts the operating position of the massage circuit 200 according to the muscle information.

In an optional embodiment, the detection electrode sheet set 420 may include two detection electrode sheets 421, where the two detection electrode sheets 421 may be used to cooperate to obtain muscle information of the user, and optionally, the control circuit 300 may apply the collected electrical signal to one of the two detection electrode sheets 421, and control the other of the two detection electrode sheets 421 to receive a received electrical signal formed after the collected electrical signal passes through muscles of the user, in contrast, the received electrical signal carries information of muscles of the user relatively to the collected electrical signal, so that the control circuit 300 may further obtain the muscle information of the user according to the collected electrical signal and the received electrical signal.

In an alternative embodiment, the collected electrical signal may specifically be a pulse voltage with a preset interval, and the pulse voltage may enable the muscle of the user to generate a safe and controllable spasm, then the control circuit 300 may obtain muscle information by comparing the collected electrical signal with the received electrical signal, such as amplitude variation of the voltage before the collected electrical signal and the received electrical signal, applying the collected electrical signal, and receiving a time interval between the collected electrical signal and the received electrical signal, and the muscle information at least includes a spasm time, a spasm degree, and a spasm interval of each spasm, and then the control circuit 300 further determines the muscle state according to the muscle information to determine that the muscle is in a tight state, a loose state, and the like.

Optionally, the state of the muscle may also indicate the comfort of the user to a certain extent, and the muscle in this position may enter a tight state in case of local muscle discomfort; for example, when the massage circuit 200 is massaging the neck muscles of the user, if the operating range is too high, the neck muscles may be stimulated strongly and become tight. Correspondingly, if the local muscles of the user are in a comfortable condition, the user generally enters a relaxed state; for example, when the massage circuit 200 is massaging the neck muscles of the user, if the operating range is appropriate, the neck muscles may be stimulated to a proper extent to begin relaxing. Therefore, the operating position of the massage circuit 200 can be adjusted according to the muscle information.

In an alternative embodiment, if the muscle information indicates that the user's muscles are tense during the massage, it indicates that the comfort of the user may be poor, and further indicates that the operating range of the massage circuit 200 may be too high, so that the operating range of the massage circuit 200 may be adjusted downward.

Optionally, if the muscle information indicates that the time for which the user's muscles are tight reaches a second preset time threshold, it is determined that the user's muscles are in a tight state.

In an optional scenario, when the user is massaging, the muscle may be tensed due to a sudden stimulation, and therefore, only when the muscle information indicates that the muscle of the user is tensed for a second preset time threshold, the muscle of the user can be determined to be in the neck state, so as to improve the accuracy of detection.

In another alternative embodiment, if the muscle information indicates that the user's muscles begin to relax while massaging, it indicates that the user's comfort may be better, and thus that the operating position of the massage circuit 200 is the proper position, so that the operating position of the massage circuit can be adjusted up or maintained.

In the above embodiment, by providing the detecting electrode plate set 420 and detecting the muscle information of the user when the massage circuit 200 works, and then acquiring the heart rate information through the control circuit 300, since the muscle state and the comfort level of the user when the massage circuit 200 massages the user are determined based on the muscle information, the working gear of the massage circuit 200 is adjusted according to the muscle information.

In an optional embodiment, the detecting electrode sheet set 420 and the massaging electrode sheet set 210 may be different electrode sheet sets, and in another optional embodiment, the detecting electrode sheet set 420 and the massaging electrode sheet set 210 may be the same electrode sheet set, that is, the two massaging electrode sheets 211 of the massaging electrode sheet set 210 may massage the user by setting different massaging voltages, or may collect muscle information of the user by setting different collecting voltages.

In the above embodiment, the massage electrode sheet set 210 of the massage circuit 200 is used as the detection electrode sheet set 420 to collect muscle information of the user, so that the cost can be effectively saved, and the volume space of the whole neck massage apparatus 10 can be improved.

As shown in fig. 1 and 2, the massage apparatus body 100 includes a rear neck portion 110 and side neck portions 120 extending from both ends of the rear neck portion 110, respectively.

The heart rate detecting element 410 may be disposed on the side neck 120, and since the side neck 120 is more obvious whether being a blood vessel or beating, the heart rate detecting element 410 is disposed on the side neck 120, and heart rate information of the user can be effectively detected by using a transmission-type photoelectric method or a reflection-type photoelectric method or other commonly used detecting methods.

The massage electrode sheet set 210 may be disposed on the rear neck 110, and the detection electrode sheet set 420 may also be disposed on the rear neck 110, which are not limited herein.

In summary, the present invention provides a neck massager 10, which is configured on a massager body 100 and is used for detecting heart rate information of a user through a heart rate detecting element 410, when a massage circuit 200 works, and then obtaining the heart rate information through a control circuit 300, because the comfort level of the user when the massage circuit 200 massages the user is determined based on the heart rate information, the working gear of the massage circuit 200 is adjusted according to the heart rate information. And further, by setting the detecting electrode plate set 420 and detecting muscle information of the user when the massage circuit 200 works, and then acquiring the heart rate information through the control circuit 300, the muscle state and comfort of the user when the massage circuit 200 massages the user are determined based on the muscle information, and then the working gear of the massage circuit 200 is adjusted according to the muscle information.

Referring to fig. 4, fig. 4 is a flowchart of a first embodiment of a method for adjusting gears of a neck massager, which is applied to the neck massager in any of the above embodiments, and the method includes the following steps:

and S11, detecting the heart rate information of the user by using the heart rate detecting element when the massage circuit works.

When the massage circuit works, the heart rate detection element is used for detecting the heart rate information of the user.

And S12, acquiring the heart rate information by using the control circuit and adjusting the working gear of the massage circuit according to the heart rate information.

The control circuit is used for acquiring the heart rate information detected by the heart rate detection element and adjusting the working gear of the massage circuit according to the heart rate information.

The detailed description of the specific structure and the specific implementation steps of the neck massager implementing the flow diagram has been given in the above embodiments, and are not repeated herein.

Referring to fig. 5, fig. 5 is a schematic view of a sub-step flow of step S12 in fig. 4, which specifically includes the following steps:

and S121a, if the heart rate information indicates that the heart rate of the user is accelerated, the working gear of the massage circuit is adjusted downwards by the control circuit.

And if the heart rate information indicates that the heart rate of the user is accelerated, the working gear of the massage circuit is adjusted downwards by using the control circuit.

And S122a, if the heart rate information indicates that the heart rate of the user is slowing down or tending to be stable, the control circuit is used for keeping or adjusting the working position of the massage circuit.

And if the heart rate information indicates that the heart rate of the user is slowing down, the working gear of the massage circuit is kept or adjusted upwards by using the control circuit.

Referring to fig. 6, fig. 6 is a schematic flow chart illustrating another sub-step of step S12 in fig. 4, which specifically includes the following steps:

and S121b, if the heart rate information indicates that the heart rate of the user is in the first threshold range, the working gear of the massage circuit is adjusted downwards.

Optionally, if the heart rate information indicates that the heart rate of the user is within the first threshold range, the operating range of the massage circuit is adjusted downward. Optionally, the first threshold range is greater than 80 times/min, and less than or equal to 120 times/min, and specifically may be 81 times/min, 90 times/min, or 120 times/min.

S122b, if the heart rate information indicates that the heart rate of the user is within the second threshold range, the operating position of the massage circuit is maintained or adjusted upward.

And if the heart rate information indicates that the heart rate of the user is within a second threshold range, keeping or adjusting the working gear of the massage circuit. Optionally, the second threshold range is greater than 60 times/min, and less than or equal to 80 times/min, and specifically may be 61 times/min, 70 times/min, or 80 times/min.

And S123b, if the heart rate information indicates that the heart rate of the user is in the third threshold range, the massage circuit is closed or the working gear of the massage circuit is controlled not to be larger than the preset gear.

And if the heart rate information indicates that the heart rate of the user is within the third threshold range, the massage circuit is closed or the working gear of the massage circuit is controlled not to be larger than the preset gear. Optionally, the third threshold range is greater than or equal to 40 times/min and less than or equal to 60 times/min. Specifically, the number of the reaction solution may be 41 times/minute, 50 times/minute, 60 times/minute, or the like. Optionally, the third threshold range is a sleeping heart rate of an adult, which indicates that the user has entered a rest state, and to ensure user experience, the working gear of the massage circuit may be turned off, or may not be greater than a preset gear.

Referring to fig. 7, fig. 7 is a flowchart illustrating a second embodiment of a method for adjusting gears of a neck massager, which is applied to the neck massager in any of the above embodiments, and includes the following steps:

and S21, detecting muscle information of the user by using the detection electrode slice when the massage circuit works.

When the massage circuit works, the muscle information of the user is detected by using the detection electrode slice.

And S22, acquiring muscle information by using the control circuit and adjusting the working gear of the massage circuit according to the muscle information.

The control circuit is used for obtaining muscle information and adjusting the working gear of the massage circuit according to the muscle information.

Referring to fig. 8, fig. 8 is a schematic view of a sub-step flow of step S22 in fig. 7, which specifically includes the following steps:

and S221, if the muscle information indicates that the muscles of the user are in a tight state, the working gear of the massage circuit is adjusted downwards.

And if the muscle information indicates that the muscles of the user are in a tight state, the working gear of the massage circuit is adjusted downwards.

And if the muscle information indicates that the time for which the muscles of the user are tight reaches a second preset time threshold, determining that the muscles of the user are in a tight state.

S222, if the muscle information indicates that the muscle of the user is in a relaxed state, the working gear of the massage circuit is kept or adjusted upwards.

And if the muscle information indicates that the muscle of the user is in a relaxed state, maintaining or adjusting the working gear of the massage circuit.

The logic process of the gear shift adjusting method is presented as a computer program, and in terms of the computer program, if the computer program is sold or used as a stand-alone software product, the computer program can be stored in a computer storage medium, so that the invention provides a computer storage medium. Referring to fig. 9, fig. 9 is a schematic structural diagram of a computer storage medium 700 according to an embodiment of the present invention, in which a computer program 71 is stored, and the computer program is executed by a processor to implement the distribution network method or the control method.

The computer storage medium 700 may be a medium that can store a computer program, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, or may be a server that stores the computer program, and the server may send the stored computer program to another device for running or may run the stored computer program by itself. The computer storage medium 700 may be a combination of multiple entities from a physical point of view, for example, multiple servers, servers plus storage, or storage plus removable hard disks.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

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

a massage apparatus body;

the massage circuit is arranged on the massage instrument body and is used for massaging a user;

the detection circuit is arranged on the massage instrument body and at least comprises a heart rate detection element, and the heart rate detection element is used for detecting the heart rate information of the user when the massage circuit works;

the control circuit is arranged on the massager body, is electrically connected with the massage circuit and the detection circuit and is used for acquiring the heart rate information and adjusting the working gear of the massage circuit according to the heart rate information.

2. The neck massager of claim 1 wherein the adjusting the operating position of the massage circuit based on the heart rate information comprises:

if the heart rate information indicates that the heart rate of the user is accelerated, the working gear of the massage circuit is adjusted downwards;

and if the heart rate information indicates that the heart rate of the user is slowing down or tends to be stable, keeping or adjusting the current working gear of the massage circuit.

3. The neck massager of claim 2,

if the heart rate information indicates that the heart rate of the user is accelerated, the method includes:

if the heart rate information indicates that the heart rate of the user continuously accelerates to reach a first high heart rate value within a first preset time interval and the heart rate of the user reaches a first preset time threshold value within the time that the heart rate of the user is greater than or equal to the first high heart rate value or the heart rate of the user integrally accelerates to reach a second high heart rate value within a second preset time interval and the heart rate of the user reaches a second preset time threshold value within the time that the heart rate of the user is greater than or equal to the second high heart rate value, it indicates that the heart rate of the user is accelerating;

if the heart rate information indicates that the heart rate of the user is slowing down or tending to be stable, the method comprises the following steps:

if the heart rate information indicates that the heart rate of the user is continuously slowed down within a third preset time interval or is wholly in a slowing trend within a fourth preset time interval, the heart rate of the user is slowed down;

and if the heart rate information indicates that the conversion amplitude of the heart rate of the user in a fifth preset time interval is smaller than a preset heart rate conversion threshold, the heart rate of the user tends to be stable.

4. The neck massager of claim 1 wherein the adjusting the operating position of the massage circuit based on the heart rate information comprises:

if the heart rate information indicates that the heart rate of the user is within a first threshold range, adjusting down the working gear of the massage circuit;

if the heart rate information indicates that the heart rate of the user is within a second threshold range, keeping or adjusting the working gear of the massage circuit;

and if the heart rate information indicates that the heart rate of the user is within a third threshold range, closing the massage circuit or controlling the working gear of the massage circuit not to be larger than a preset gear.

5. The neck massager of claim 4,

the first threshold range is greater than 80 times/min and less than or equal to 120 times/min;

the second threshold range is greater than 60 times/min and less than or equal to 80 times/min;

the third threshold range is greater than or equal to 40 times/minute and less than or equal to 60 times/minute.

6. The neck massager of claim 1 wherein the massage circuit comprises a massage electrode sheet set and a detection electrode sheet set,

the massage electrode slice is used for providing massage current to massage the user;

the detection electrode slice is used for detecting muscle information of the user when the massage circuit works, and the control circuit acquires the muscle information and adjusts the working gear of the massage circuit according to the muscle information.

7. The neck massager of claim 6 wherein the adjusting the operating position of the massage circuit based on the muscle information comprises:

if the muscle information indicates that the muscles of the user are in a tight state, the working gear of the massage circuit is adjusted downwards;

and if the heart rate information indicates that the muscle of the user is in a relaxed state, maintaining or up-regulating the current working gear of the massage circuit.

8. A gear adjusting method of a neck massager is characterized in that the neck massager comprises a massager body, a massage circuit, a detection circuit and a control circuit, wherein the massage circuit, the detection circuit and the control circuit are arranged on the massager body;

the control circuit is electrically connected with the detection circuit and the control circuit, and the massage circuit further comprises a heart rate detection element;

the gear adjusting method comprises the following steps:

when the massage circuit works, the heart rate detection element is used for detecting the heart rate information of the user;

and acquiring the heart rate information by using the control circuit and adjusting the working gear of the massage circuit according to the heart rate information.

9. The gear adjustment method according to claim 8, wherein the adjusting the operating gear of the massage circuit according to the heart rate information includes:

if the heart rate information indicates that the heart rate of the user is accelerated, the working gear of the massage circuit is adjusted downwards by using the control circuit;

10. The gear shift position adjustment method according to claim 9,

11. The gear shift position adjustment method according to claim 8,

12. The gear shift position adjustment method according to claim 11,

13. The gear adjustment method according to claim 8, wherein the massage circuit comprises a massage electrode sheet set and a detection electrode sheet set;

the gear adjusting method comprises the following steps:

providing a massage current with the massage electrode pad to massage the user;

when the massage circuit works, the detection electrode slice is used for detecting muscle information of the user;

and acquiring the muscle information by using the control circuit and adjusting the working gear of the massage circuit according to the muscle information.

14. The gear adjustment method according to claim 13, wherein said adjusting an operating gear of said massage circuit based on said muscle information comprises:

and if the muscle information indicates that the muscle of the user is in a relaxed state, keeping or up-regulating the working gear of the massage circuit.

15. A computer storage medium, characterized in that the computer storage medium stores a computer program which, when executed, implements the steps of the method according to any one of claims 8-14.