CN118058962A - Multifunctional massager and control method thereof - Google Patents

Abstract

The invention provides a multifunctional massager, which comprises an elastic adjusting belt and a massaging device. The elastic adjusting belt is used for fixing the massage device at the part to be massaged; the massage device comprises a heating component, a vibration component and a control unit, wherein the heating component and the vibration component are connected with the control unit, and the control unit comprises a mode switching module and a mode adjusting module; the mode switching module is used for receiving a first input instruction or a second input instruction and respectively performing sequential cyclic response on the first input instruction or the second input instruction so as to switch the heating grade or the vibration grade of the heating component or the vibration component; the mode adjustment module is used for automatically adjusting the heating grade and/or the vibration grade of the massage device according to the working time of the massage device. The invention is used for the massage requirements of different massage parts.

Description

Multifunctional massager and control method thereof

Technical Field

The invention relates to a massager, in particular to a multifunctional massager and a control method thereof.

Background

The multifunctional massager has various massage functions, such as massage, kneading, massaging, vibration and the like, and can massage different body parts, such as neck, shoulder, back, waist, legs and the like. The multifunctional massager is helpful for relieving muscle fatigue, promoting blood circulation and relaxing body and mind. It is suitable for people of all ages, especially people sitting for a long time for work or study, and people needing to relieve physical fatigue and tension.

The prior massager is provided with a timing function in order to avoid the harm to the body caused by long-time use of a user. Because the massage demands of different users are different, if the timing time is too short, when the massage is stopped, the operation is needed again, and the operation process is complicated. Some massagers can set time by themselves according to requirements, but setting timing functions may increase the complexity and difficulty of using the massagers for users unfamiliar with electronic products, and present a safety hazard.

For example, a three-in-one massage cushion with remote control timer has the application number of CN201320086635.9, and adopts the following technical scheme: including the massage pad body, the surface of massage pad body is equipped with the one deck pad cover, the human neck position of massage pad body top is equipped with the manipulator, the middle part of massage pad body is equipped with gyro wheel, vibrator and receiver respectively, the receiver passes through remote controller control, the remote controller includes memory, mainboard, shell and timer, will predetermine the procedure input memory, and the receiver on the massage pad receives appointed command, massages this position, and the remote controller control can carry out the omnidirectional massage to the human body, and what the manipulator imitates is true man's hand, and the sense of realism is very strong, is applicable to current market very much. The above-described invention has a timing function, but if the user needs more or less massage time, it needs to be reset, which may be inconvenient.

Accordingly, the present invention provides a multifunctional massage device and a control method thereof.

Disclosure of Invention

The invention provides a multifunctional massager and a control method thereof, wherein the control unit is used for sequentially and circularly responding to vibration grades and heating grades, and heating temperature or vibration strength of a heating component or a vibration component is automatically adjusted according to working time, so that the massage requirements of users on different massage positions can be met.

In one aspect, the present invention provides a multi-functional massage device comprising an elastic adjustment belt and a massage device, wherein,

The elastic adjusting belt is used for fixing the massage device at the part to be massaged;

the massage device comprises a heating component, a vibration component and a control unit, wherein the heating component and the vibration component are connected with the control unit, and the control unit comprises a mode switching module and a mode adjusting module;

The mode switching module is used for receiving a first input instruction or a second input instruction and respectively performing sequential cyclic response on the first input instruction or the second input instruction so as to switch the heating grade or the vibration grade of the heating component or the vibration component;

the mode adjustment module is used for automatically adjusting the heating grade and/or the vibration grade of the massage device according to the working time of the massage device.

In one embodiment, the elastic adjusting band comprises a cover part for wrapping the part to be massaged, and the two opposite diagonal positions on the cover part extend outwards to form a protruding part; the cover part is uniformly connected with a tightening belt at one side opposite to the protruding part, and the length of the tightening belt is larger than that of the protruding part.

In one embodiment, the massage device further comprises a housing, a battery and a control panel, wherein a cavity is formed in the housing, and the heating component, the vibration component, the control unit and the battery are all positioned in the cavity in the housing;

The control panel is arranged on the upper surface of the shell, an on/off button, a vibration level selection button, a heating level selection button and a charging port are arranged on the control panel, and the on/off button, the vibration level selection button, the heating level selection button and the charging port are all connected with the control unit.

In one embodiment, the heating element is a heating pad that is removably attached to the cover.

In one implementation manner, the mode adjustment module comprises a data acquisition sub-module, a time limit determination sub-module, a judgment sub-module and a mode exchange sub-module;

The data acquisition sub-module is used for acquiring the heating grade and/or vibration grade of the current massager and the working time corresponding to the heating grade and/or vibration grade;

the limit duration determination submodule is used for determining limit duration according to the current vibration grade and/or the heating grade;

the judging submodule is used for judging whether the working time length reaches the limit time length or not;

The mode-swapping sub-module is configured to: when the working time length reaches the limiting time length, switching the current vibration grade and/or heating grade to the vibration grade and/or heating grade lower than the current vibration grade and/or heating grade, and recalculating the limiting time length according to the current vibration grade and/or heating grade;

If the first input instruction or the second input instruction is not detected within the switched limiting time, when the working time of the switched vibration grade and/or the heating grade reaches the limiting time, the heating grade and/or the vibration grade is switched again, the limiting time is recalculated, and the massager is closed until the heating grade and/or the vibration grade is one-level;

And if the first input instruction or the second input instruction is received within the current limiting time period, switching the heating grade and/or the vibration grade to the initial heating grade and/or the vibration grade.

In one embodiment, the massager further comprises a pressure sensing module for monitoring the pressure applied to the massager by the massage region and a temperature sensing module; the temperature sensing module is used for monitoring the temperature in the massage area;

the step of determining the limiting duration according to the current vibration level and/or the heating level specifically comprises the following steps:

based on a preset grade weight library, weighting calculation is carried out on the safety duration corresponding to the heating grade and the vibration grade to obtain a limit duration; wherein,

The grade weight library stores the corresponding safe duration and corresponding basic weight of each heating grade and vibration grade;

determining whether the pressure value and/or the temperature value in the current massage area exceed a first threshold value and/or a second threshold value, and dynamically adjusting the weight of each vibration level and/or heating level when the pressure value and/or the temperature value exceed the first threshold value and/or the second threshold value.

In an implementation manner, the control panel is further provided with a display panel and a circulation button, the display panel and the circulation button are connected with the control unit, and the display panel is used for displaying and identifying the current heating level and/or vibration level of the massage device;

the control unit is also used for adjusting and controlling the display content of the display panel according to the first input instruction or the second input instruction; and in response to the third input command, switching the heating level of the heating assembly and the vibration level of the vibration assembly in a sequentially cyclical manner.

In an implementation manner, the housing is further provided with a power monitoring sensor, and the control unit is further configured to calculate a remaining power percentage of the battery according to an output signal of the power monitoring sensor, and adjust display content of the display panel according to the power percentage.

On the other hand, the invention also provides a control method of the multifunctional massager, which comprises the following steps:

receiving a first input instruction or a second input instruction;

Sequentially and circularly responding to the first input instruction or the second input instruction respectively so as to switch the heating grade or the vibration grade of the heating component or the vibration component;

acquiring the working time of each heating grade and/or vibration grade;

and automatically adjusting the heating grade and/or vibration grade of the massage device according to the working time of the massage device.

In one embodiment, the step of automatically adjusting the heating level and/or the vibration level of the massaging device according to the working time of the massaging device specifically includes:

Acquiring the heating grade and/or vibration grade of the current massager and the working time corresponding to the heating grade and/or vibration grade;

determining a limiting duration according to the current vibration level and/or the heating level;

Judging whether the current working time length reaches the limiting time length or not;

when the working time length reaches the limiting time length, switching the current vibration grade and/or heating grade to the vibration grade and/or heating grade lower than the current vibration grade and/or heating grade by one level; judging whether a first input instruction or a second input instruction is input within the switched limiting time length;

If the first input instruction or the second input instruction is not received, when the working time length of the vibration grade and/or the heating grade after switching reaches the limiting time length, switching the heating grade and/or the vibration grade again until the heating grade and/or the vibration grade is one-level, and then closing the massager;

And if the first input instruction or the second input instruction is received within the current limiting time period, switching the heating grade and/or the vibration grade to the initial heating grade and/or the vibration grade.

The invention has the beneficial effects that:

The multifunctional massager has the advantages of small size and portability, and can be suitable for a plurality of body parts. The application is also provided with a plurality of massage modes and heating modes, and simultaneously, in order to avoid overlong use, the massage grade can be automatically adjusted according to the working time of the massage device, thereby being beneficial to relieving muscle fatigue, promoting blood circulation and meeting the demands of users.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a schematic structural view of a multifunctional massager according to embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of an elastic adjusting belt in embodiment 1 of the present invention;

FIG. 3 is a schematic structural diagram of a control panel in embodiment 1 of the present invention;

fig. 4 is a flowchart of a control method of the multifunctional massager in embodiment 2 of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Referring to fig. 1, this embodiment 1 provides a multifunctional massage machine including an elastic adjustment belt and a massage device.

The elastic adjusting belt 1 is used for fixing the massage device on the part to be massaged;

the massage device 2 comprises a heating component, a vibration component and a control unit, wherein the heating component and the vibration component are connected with the control unit, and the control unit comprises a mode switching module and a mode adjusting module;

The mode switching module is used for receiving a first input instruction or a second input instruction and respectively performing sequential cyclic response on the first input instruction or the second input instruction so as to switch the heating grade or the vibration grade of the heating component or the vibration component;

the mode adjustment module is used for automatically adjusting the heating level and/or the vibration level of the massage device 2 according to the working time of the massage device 2.

Wherein, heating element can be heater strip or ceramic heat-generating body, and the control unit accessible adjusts the electric current control heating temperature of heater strip or ceramic heat-generating body, and vibration assembly can be driving motor or vibrator produces the vibration.

The working principle of the technical scheme is as follows: when the multifunctional massager is used, the elastic adjusting belt 1 can be used for fixing the massaging device 2 on the part to be massaged, and then the massager is started. When the mode switching module receives a first input instruction or a second input instruction of a user, the mode switching module performs sequential cyclic response on the first input instruction or the second input instruction so as to perform cyclic adjustment on the heating temperature of the heating component or perform cyclic adjustment on the vibration intensity of the vibration component. The first input instruction and the second input instruction may be issued by a user by pressing a button, or may be an instruction issued by the mobile terminal APP. For example, the massage device may be provided with a massage mode and a heating mode of three stages of low, medium and high, and the massage intensity or the heating temperature is sequentially increased according to the stages. When the first input instruction is received for the first time, the temperature can be increased to the heating temperature corresponding to the middle grade by controlling the current of the heating component, and when the first input instruction is received for the second time, the heating temperature is increased again until the temperature is increased to the heating temperature corresponding to the high grade; when the first input instruction is received for the third time, the temperature is reduced to the heating temperature corresponding to the low grade; when the first input instruction is received for the fourth time, the temperature is increased to the heating temperature corresponding to the high grade; the sequential loop response is performed in the manner described above. The steps of the sequential loop response of the second input instruction are identical to those of the first input instruction and are not described here too much. In the massage process, the mode adjustment module can automatically adjust the heating level and/or vibration level of the massage device 2 according to the working time of the massage device 2, so as to avoid harm to the user's body due to excessive massage or heating time.

The beneficial effects of the technical scheme are that: the multifunctional massager has the advantages of small size and portability, and can be suitable for a plurality of body parts. The massage device is also provided with a plurality of massage modes and heating modes, and simultaneously, in order to avoid overlong use, the massage level can be automatically adjusted according to the working time length of the massage device 2, thereby being beneficial to relieving muscle fatigue, promoting blood circulation and meeting the demands of users.

On the basis of embodiment 1, referring to fig. 2, the elastic adjusting band 1 includes a cover part 5 for wrapping a portion to be massaged, and the cover part 5 is extended outwardly at two opposite diagonal positions to form a protrusion 4, and the cover part 5 is integrally connected with a tightening band 3 at a side opposite to the protrusion 4, and the length of the tightening band 3 is greater than the length of the protrusion.

The working principle of the technical scheme is as follows: the binding bands of the existing massager are generally symmetrically arranged, although the binding bands can be closely attached to the knee joint and the elbow joint so as to massage. However, when the shoulder joint is massaged, the shoulder joint cannot be closely attached to the body, and the massaging effect is poor. The application adopts the cover part 5, and the two opposite diagonal positions of the cover part 5 are extended outwards to form the protruding part 4, the cover part 5 is uniformly connected with the tightening belt 3 on the side opposite to the protruding part 4, and the length of the tightening belt 3 is longer than the length of the protruding part 4. When the shoulder joint is massaged, the covering part 5 can be wrapped on the part to be massaged firstly, then the tightening belts 3 on the two sides are pulled, the tightening belts 3 are stretched forwards to reach the required pressure, then the tightening belts 3 are fixed at the protruding parts opposite to the tightening belts, and the fixing of the multifunctional massager can be realized through the fixing of the magic tape.

The beneficial effects of the technical scheme are that: the application is applicable to knee joints, elbow joints and shoulder joints, can be tightly attached to the part to be massaged when in use, improves the massage efficiency, and is convenient and easy to use.

On the basis of the embodiment 1, the massage device further comprises a shell 6, a battery and a control panel 7, wherein a cavity is formed in the shell 6, and the heating component, the vibration component, the control unit and the battery are all positioned in the cavity in the shell;

The control panel 7 is arranged on the upper surface of the shell 6, and the control panel 7 is provided with an on/off button 8, a vibration level selection button 9, a heating level selection button 10 and a charging port, and the on/off button 8, the vibration level selection button 9, the heating level selection button 10 and the charging port are all connected with the control unit.

Wherein the housing 6 is preferably rectangular. The heating assembly, vibration assembly, control unit and battery etc. assemblies are placed in the cavity of the housing 6 so that these modules can be conveniently managed and controlled to ensure that they co-operate. For convenience of use, a control panel 7 of the massage machine is provided on the upper surface of the housing 6. The control panel 7 is provided with a plurality of buttons and indicator lamps, including an on/off button 8, a massage mode selection button 9, a heating mode selection button 10, a charging port and the like, which can be directly connected with each module through a control unit so as to realize the switching and adjustment of various functions. All buttons and ports can be sized and shaped as desired to ensure easy and safe handling by the user during use. In addition, all buttons and ports can be placed in an easily accessible location during placement, which may make the user experience more comfortable.

The beneficial effects of the technical scheme are that: the application integrates multiple functions on the control panel, and a user can use the control panel without excessive learning operation steps. The user can see the current setting and state and change the current setting and state at any time according to the needs.

On the basis of embodiment 1, the heating element is a heating pad, which is detachably connected to the covering part.

The technical scheme has the working principle and beneficial effects that: the application adopts the heating pad, and the heating pad is detachably connected to the covering part, so that the contact area is large, the cleaning is convenient, and the size of the heating pad can be set according to the requirement.

On the basis of embodiment 1, the mode adjustment module includes a data acquisition sub-module, a limit duration determination sub-module, a judgment sub-module, and a mode exchange sub-module;

the data acquisition sub-module is used for acquiring the heating grade and/or vibration grade of the current massager and the working time corresponding to the heating grade and/or vibration grade;

The limit duration determination submodule is used for determining limit duration according to the current vibration grade and/or the heating grade;

The judging submodule is used for judging whether the working time length reaches the limiting time length or not;

The mode-swapping sub-module is configured to: when the working time length reaches the limiting time length, switching the current vibration grade and/or heating grade to the vibration grade and/or heating grade lower than the current vibration grade and/or heating grade, and recalculating the limiting time length according to the current vibration grade and/or heating grade;

If the first input instruction or the second input instruction is not detected within the switched limiting time, when the working time of the switched vibration grade and/or the heating grade reaches the limiting time, the heating grade and/or the vibration grade is switched again, the limiting time is recalculated, and the massager is closed until the heating grade and/or the vibration grade is one-level;

And if the first input instruction or the second input instruction is received within the current limiting time period, switching the heating grade and/or the vibration grade to the initial heating grade and/or the vibration grade.

The working principle of the technical scheme is as follows: the application relates to a mode adjustment module data acquisition sub-module, a limit duration determination sub-module, a judgment sub-module and a mode exchange sub-module. The application firstly receives and acquires the heating grade and/or vibration grade of the current massager through the data acquisition sub-module, and simultaneously acquires the working time corresponding to the two grades. This information will be used by the subsequent modules to make the appropriate mode adjustments. And then, calculating the corresponding limit duration by utilizing the limit duration determination submodule according to the acquired heating grade and/or vibration grade. For the user who needs long-time use massager, set up the restriction duration, through this restriction duration, can ensure that the massager can not surpass the biggest operating time of settlement in the operation, reduce the harm of long-time use massager. And judging whether the current working time length reaches the limiting time length or not through a judging submodule. If this is already achieved, a mode adjustment is required. The mode exchanging sub-module is configured to switch the current vibration level and/or heating level to a vibration level and/or heating level one level lower than the current vibration level and/or heating level when the operation time period reaches the limit time period. When the grade is switched, the limit duration determination submodule recalculates the limit duration according to the switched heating grade and/or vibration grade. And monitoring for triggering of any of the first input instruction or the second input instruction within the switched limit duration. If no trigger of any instruction is detected when the working time of the vibration level and/or the heating level after switching reaches the limit time, when the working time reaches the new limit time, the mode exchange submodule switches the heating level and/or the vibration level again until the heating level and/or the vibration level reaches one level, and the massager is completely closed. If the user wants to massage with the initial heating level and/or vibration level, the first input instruction or the second input instruction can be sent, and when the mode adjustment module receives the first input instruction or the second input instruction, the heating level and/or vibration level is switched to the initial heating level and/or vibration level, so that the user requirement is met.

The beneficial effects of the technical scheme are that: for users who need to use the massager for a long time, the application can automatically adjust the vibration level and the heating level according to the working time of the massager, and the mode adjustment method is adopted to prolong the massage time to the greatest extent and meet the requirements of the users while protecting the users from being injured; the massager can be prevented from running in a high-strength working state for a long time, and the service life of the device is effectively prolonged.

On the basis of the embodiment 1, the massager further comprises a pressure sensing module and a temperature sensing module, wherein the pressure sensing module is used for monitoring the pressure applied to the massager by the massage area; the temperature sensing module is used for monitoring the temperature in the massage area;

the step of determining the limit duration according to the current vibration level and/or the heating level specifically includes:

based on a preset grade weight library, weighting calculation is carried out on the safety duration corresponding to the heating grade and the vibration grade to obtain a limit duration; wherein,

The grade weight library stores the corresponding safe duration of each heating grade and vibration grade and the corresponding basic weight;

determining whether the pressure value and/or the temperature value in the current massage area exceed a first threshold value and/or a second threshold value, and dynamically adjusting the weight of each vibration level and/or heating level when the pressure value and/or the temperature value exceed the first threshold value and/or the second threshold value.

The technical scheme has the working principle and beneficial effects that: according to the application, through the preset grade weight library, the safe duration corresponding to the heating grade and the vibration grade is weighted and calculated, so that the limit duration is obtained. The safe time length and the basic weight of each heating grade and vibration grade are stored in the grade weight library, and the calculation formula of limiting the time length is formulated according to the safety standard of the massager when the weights and the time lengths are as follows:

Limit time = (heating grade weight×heating safety time length+vibration grade weight×vibration safety time length)/(heating grade weight+vibration grade weight).

Meanwhile, the pressure sensing module of the massager can monitor the pressure applied by the massage area to the massager, namely the pressure for fixing the massager at the position to be massaged when a user uses the massager; the temperature sensing module monitors the temperature in the massage area in real time. Increasing the weight of the shock level, for example increasing the weight from 0.3 to 0.4, when the pressure value exceeds a first preset threshold; when the temperature value exceeds a first preset threshold, the weight of the heating level is reduced, for example, from 0.8 to 0.7, and the specific adjusted value can be set as required. For the pressure sensing module and the temperature sensing module, the pressure sensing module can be arranged at the position of the massager away from the vibration center according to the requirement, the temperature sensing module is arranged at the position contacted with the massage part of the user, and the specific position can be arranged according to the practical requirement.

On the basis of embodiment 1, a display panel 11 and a circulation button 12 are further arranged on the control panel, the display panel 11 and the circulation button 12 are connected with the control unit, and the display panel 11 is used for displaying and identifying the current heating level and/or vibration level of the massage device;

The control unit is also used for adjusting and controlling the display content of the display panel according to the first input instruction or the second input instruction; and automatically switching a heating level of the heating assembly and a vibration level of the vibration assembly in a sequential loop in response to the third input command.

The working principle of the technical scheme is as follows: the control unit of the present application analyzes the received first input command or second input command to determine the vibration intensity or heating temperature, and then displays the content capable of identifying the current working level of the massage device 2 on the display panel 11 according to the vibration intensity or heating temperature. For example, the corresponding vibration level and heating level may be displayed in the designated area of the display panel in the form of text; the heating level and the vibration level may be identified in different colors according to the mapping relationship between the vibration level and the color and the mapping relationship between the heating temperature and the color, and may be displayed in different areas of the display panel 11 in order to distinguish the vibration level and the heating level. For example, when the massage intensity is in a low level, green is displayed; when the massage intensity is in the middle range, displaying blue; when the massage intensity is high, the massage is displayed in red. Also, when the heating temperature is low, green is displayed; when the heating temperature is medium temperature, blue is displayed; when the heating temperature is high, it is blue. And the application is also provided with the circulation button 12, after the user presses the circulation button 12, the massager can switch the heating level of the heating component and the vibration level of the vibration component in a sequential circulation mode at fixed time, and the switching time can be determined according to the requirement, which is not repeated here.

The beneficial effects of the technical scheme are that: when the user adjusts the intensity, the color on the display panel changes immediately, providing immediate feedback. Not only the user experience is enhanced, but also the operation is more visual.

On the basis of embodiment 1, an electric quantity monitoring sensor is further disposed in the housing, and the control unit is further configured to calculate a remaining electric quantity percentage of the battery according to an output signal of the electric quantity monitoring sensor, and adjust a display content of the display panel according to the electric quantity percentage.

The working principle of the technical scheme is as follows: the control unit calculates the remaining capacity percentage of the battery according to the output signal of the electric quantity monitoring sensor, and controls the electric quantity to adjust the display content of the display panel according to the capacity percentage. For example, when the power is turned on, the area of the display panel for displaying the electric quantity is constant, and when the electric quantity of the massager is insufficient, the display panel blinks in green; when charged, the battery power indication areas are gradually lightened, and when fully charged, all the battery power indication areas are lightened.

The beneficial effects of the technical scheme are that: the application not only enhances the user experience, but also makes the operation more visual.

Embodiment 2 provides a control method of a multifunctional massager, referring to fig. 3, including the following steps:

receiving a first input instruction or a second input instruction;

Sequentially and circularly responding to the first input instruction or the second input instruction respectively so as to switch the heating grade or the vibration grade of the heating component or the vibration component;

acquiring the working time of each heating grade and/or vibration grade;

the heating level and/or vibration level of the massage device 2 is automatically adjusted according to the operating time of the massage device 2.

The working principle of the technical scheme is as follows: when the mode switching module receives the first input instruction or the second input instruction, the mode switching module performs sequential cyclic response on the first input instruction or the second input instruction so as to perform cyclic adjustment on the heating temperature of the heating component or perform cyclic adjustment on the vibration intensity of the vibration component. The first input instruction and the second input instruction may be issued by a user by pressing a button, or may be an instruction issued by the mobile terminal APP. In the massage process, the mode adjustment module can automatically adjust the heating level and/or vibration level of the massage device 2 according to the working time of the massage device 2, so as to avoid harm to the user's body due to excessive massage or heating time.

The beneficial effects of the technical scheme are that: the multifunctional massager has the advantages of small size and portability, and can be suitable for a plurality of body parts. The massage device is also provided with a plurality of massage modes and heating modes, and simultaneously, in order to avoid overlong use, the massage level can be automatically adjusted according to the working time length of the massage device 2, thereby being beneficial to relieving muscle fatigue, promoting blood circulation and meeting the demands of users.

On the basis of embodiment 2, referring to the figure, the step of automatically adjusting the heating level and/or vibration level of the massaging device 2 according to the operation time of the massaging device 2 specifically includes:

Acquiring the heating grade and/or vibration grade of the current massager and the working time corresponding to the heating grade and/or vibration grade;

determining a limiting duration according to the current vibration level and/or the heating level;

Judging whether the current working time length reaches the limiting time length or not;

when the working time length reaches the limiting time length, switching the current vibration grade and/or heating grade to the vibration grade and/or heating grade lower than the current vibration grade and/or heating grade by one level; judging whether a first input instruction or a second input instruction is input within the switched limiting time length;

If the first input instruction or the second input instruction is not received, when the working time length of the vibration grade and/or the heating grade after switching reaches the limiting time length, switching the heating grade and/or the vibration grade again until the heating grade and/or the vibration grade is one-level, and then closing the massager;

And if the first input instruction or the second input instruction is received within the current limiting time period, switching the heating grade and/or the vibration grade to the initial heating grade and/or the vibration grade.

The working principle of the technical scheme is as follows: the application firstly receives and acquires the heating grade and/or vibration grade of the current massager, and simultaneously acquires the working time corresponding to the two grades; then, according to the acquired heating grade and/or vibration grade, calculating a corresponding limit duration; and judging whether the current working time length reaches the limit time length. If so, then mode adjustments are required; when the working time reaches the limit time, the current vibration level and/or heating level is switched to the vibration level and/or heating level lower than the current vibration level and/or heating level; and finally, recalculating the limit duration according to the switched heating grade and/or vibration grade, and monitoring whether the trigger of the first input instruction or the second input instruction exists in real time. If no trigger of any instruction is detected during the switched operating time of the vibration level and/or the heating level, when the operating time reaches the new limit time, the heating level and/or the vibration level is switched to the vibration level and/or the heating level lower than the first level again, and the massager is not completely closed until the heating level and/or the vibration level reaches the first level.

The beneficial effects of the technical scheme are that: for users who need to use the massager for a long time, the application can automatically adjust the vibration level and the heating level according to the working time of the massager, and the mode adjustment method is adopted to prolong the massage time to the greatest extent and meet the requirements of the users while protecting the users from being injured; the massager can be prevented from running in a high-strength working state for a long time, and the service life of the device is effectively prolonged.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. A multifunctional massager is characterized by comprising an elastic adjusting belt and a massaging device, wherein,

The elastic adjusting belt is used for fixing the massage device at the part to be massaged;

the massage device comprises a heating component, a vibration component and a control unit, wherein the heating component and the vibration component are connected with the control unit, and the control unit comprises a mode switching module and a mode adjusting module;

The mode switching module is used for receiving a first input instruction or a second input instruction and respectively performing sequential cyclic response on the first input instruction or the second input instruction so as to switch the heating grade or the vibration grade of the heating component or the vibration component;

the mode adjustment module is used for automatically adjusting the heating grade and/or the vibration grade of the massage device according to the working time of the massage device.

2. The multifunctional massager of claim 1, wherein the elastic adjusting band comprises a cover for wrapping the portion to be massaged, and the cover is extended outwardly at two opposite diagonal positions to form a protrusion; the cover part is uniformly connected with a tightening belt at one side opposite to the protruding part, and the length of the tightening belt is larger than that of the protruding part.

3. The multifunctional massager of claim 2, wherein the massaging device further comprises a housing, a battery and a control panel, wherein the housing is internally provided with a cavity, and the heating assembly, the vibration assembly, the control unit and the battery are all positioned in the cavity inside the housing;

The control panel is arranged on the upper surface of the shell, an on/off button, a vibration level selection button, a heating level selection button and a charging port are arranged on the control panel, and the on/off button, the vibration level selection button, the heating level selection button and the charging port are all connected with the control unit.

4. A multi-purpose massager as set forth in claim 3 wherein the heating element is a heating pad removably attached to the cover.

5. The multifunctional massager according to claim 1, wherein the mode adjustment module comprises a data acquisition sub-module, a time limit determination sub-module, a judgment sub-module, and a mode exchange sub-module;

The data acquisition sub-module is used for acquiring the heating grade and/or vibration grade of the current massager and the working time corresponding to the heating grade and/or vibration grade;

the limit duration determination submodule is used for determining limit duration according to the current vibration grade and/or the heating grade;

the judging submodule is used for judging whether the working time length reaches the limit time length or not;

The mode-swapping sub-module is configured to: when the working time length reaches the limiting time length, switching the current vibration grade and/or heating grade to the vibration grade and/or heating grade lower than the current vibration grade and/or heating grade, and recalculating the limiting time length according to the current vibration grade and/or heating grade;

If the first input instruction or the second input instruction is not detected within the switched limiting time, when the working time of the switched vibration grade and/or the heating grade reaches the limiting time, the heating grade and/or the vibration grade is switched again, the limiting time is recalculated, and the massager is closed until the heating grade and/or the vibration grade is one-level;

And if the first input instruction or the second input instruction is received within the current limiting time period, switching the heating grade and/or the vibration grade to the initial heating grade and/or the vibration grade.

6. The multifunctional massager of claim 5, further comprising a pressure sensing module and a temperature sensing module, wherein the pressure sensing module is configured to monitor the pressure applied to the massager by the massage area; the temperature sensing module is used for monitoring the temperature in the massage area;

the step of determining the limiting duration according to the current vibration level and/or the heating level specifically comprises the following steps:

based on a preset grade weight library, weighting calculation is carried out on the safety duration corresponding to the heating grade and the vibration grade to obtain a limit duration; wherein,

The grade weight library stores the corresponding safe duration and corresponding basic weight of each heating grade and vibration grade;

determining whether the pressure value and/or the temperature value in the current massage area exceed a first threshold value and/or a second threshold value, and dynamically adjusting the weight of each vibration level and/or heating level when the pressure value and/or the temperature value exceed the first threshold value and/or the second threshold value.

7. A multifunctional massager according to claim 3, wherein the control panel is further provided with a display panel and a circulation button, the display panel and the circulation button are connected with the control unit, and the display panel is used for displaying and identifying the current heating level and/or vibration level of the massaging device;

the control unit is also used for adjusting and controlling the display content of the display panel according to the first input instruction or the second input instruction; and in response to the third input command, switching the heating level of the heating assembly and the vibration level of the vibration assembly in a sequentially cyclical manner.

8. The multifunctional massager of claim 3, wherein the housing is further provided with a power monitoring sensor, and the control unit is further configured to calculate a remaining power percentage of the battery according to an output signal of the power monitoring sensor, and adjust a display content of the display panel according to the remaining power percentage.

9. The control method of the multifunctional massager is characterized by comprising the following steps:

receiving a first input instruction or a second input instruction;

Sequentially and circularly responding to the first input instruction or the second input instruction respectively so as to switch the heating grade or the vibration grade of the heating component or the vibration component;

acquiring the working time of each heating grade and/or vibration grade;

and automatically adjusting the heating grade and/or vibration grade of the massage device according to the working time of the massage device.

10. The method for controlling a multifunctional massager according to claim 9, wherein the automatically adjusting the heating level and/or the vibration level of the massaging device according to the operating time of the massaging device specifically comprises:

Acquiring the heating grade and/or vibration grade of the current massager and the working time corresponding to the heating grade and/or vibration grade;

determining a limiting duration according to the current vibration level and/or the heating level;

Judging whether the current working time length reaches the limiting time length or not;

when the working time length reaches the limiting time length, switching the current vibration grade and/or heating grade to the vibration grade and/or heating grade lower than the current vibration grade and/or heating grade by one level; judging whether a first input instruction or a second input instruction is input within the switched limiting time length;

If the first input instruction or the second input instruction is not received, when the working time length of the vibration grade and/or the heating grade after switching reaches the limiting time length, switching the heating grade and/or the vibration grade again until the heating grade and/or the vibration grade is one-level, and then closing the massager;

And if the first input instruction or the second input instruction is received within the current limiting time period, switching the heating grade and/or the vibration grade to the initial heating grade and/or the vibration grade.