CN113133912A

CN113133912A - Gear output control method and device and computer storage medium

Info

Publication number: CN113133912A
Application number: CN202011634495.5A
Authority: CN
Inventors: 刘杰; 谢广宝; 余超
Original assignee: SKG Health Technologies Co Ltd.
Current assignee: SKG Health Technologies Co Ltd.
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-07-20
Anticipated expiration: 2040-12-31
Also published as: CN113133912B

Abstract

The application discloses a gear output control method and device and a computer storage medium. The method comprises the steps of receiving a first gear shifting command input through a roller button under the condition that the wearable massage equipment outputs in a first gear; determining a first gear shifting position according to the first gear shifting instruction; if the first gear shifting gear is two or more, controlling the wearable massage equipment to output in a second gear; the second gear and the first gear are adjacent gears. The method and the device can determine the gear shifting instruction according to the continuous gear shifting instruction input by the roller button by the user, so that the massage signal output by adjustment and the current massage signal are continuous massage signals, better adaptive feeling is brought to the user, and uncomfortable massage experience is avoided being brought to the user due to misoperation of the user.

Description

Gear output control method and device and computer storage medium

Technical Field

The present application relates to the field of massage device technology, and in particular, to a method and an apparatus for controlling gear output, and a computer storage medium.

Background

The current massage equipment is provided with a plurality of massage gears according to user's different demands, and different massage gears accessible press the plus-minus button that sets up on massage equipment or roll the gyro wheel that sets up on massage equipment and adjust. To current massage equipment through roller roll adjustment massage gear can ubiquitous when the user rolls the gyro wheel, easily cause the amazing fluctuation too big to user's massage position because of adjusting the gear too fast, and then influence user's massage experience.

Disclosure of Invention

The embodiment of the application provides a gear output control method and device and a computer storage medium, which can prevent the massage equipment from causing excessive stimulation fluctuation to the massage part of a user due to the fact that the gear is adjusted by the user too fast, and bring uncomfortable massage experience to the user.

In a first aspect, an embodiment of the present application provides a gear output control method, where the method is applied to a wearable massage device, where the wearable massage device includes a roller button, and the roller button is used to adjust a massage gear, and specifically includes:

receiving a first gear shifting instruction input through a roller button under the condition that the wearable massage equipment outputs a first gear;

determining a first gear shifting position according to the first gear shifting instruction;

if the first gear shifting gear is two or more, controlling the wearable massage equipment to output in a second gear; the second gear and the first gear are adjacent gears.

In the embodiment of the application, a shift instruction can be determined according to a continuous shift instruction input by a user through a roller button, so that the massage signal output by adjustment and the current massage signal are continuous massage signals, better adaptation feeling is brought to the user, and uncomfortable massage experience brought to the user due to misoperation of the user is avoided.

In an alternative of the first aspect, the first shift instruction includes M sub-instructions, where M is a positive integer greater than or equal to 2;

and the interval duration between the first sub-instruction and the last sub-instruction is within a preset duration.

In yet another alternative of the first aspect, the type of sub-command is an upshift command or a downshift command;

determining a first gear shifting position according to a first gear shifting command, comprising:

acquiring types of M sub-instructions;

a first gear shift is determined based on the type of the M sub-commands.

In yet another alternative of the first aspect, determining the first gear shift stage based on the type of the M sub-commands comprises:

determining the number of upshift instructions and the number of downshift instructions in the M sub-instructions;

offsetting the same number of upshift sub-instructions and downshift sub-instructions, and determining the types and the number of the remaining sub-instructions;

and determining a first gear shifting position and a gear shifting type corresponding to the first gear shifting position according to the types and the number of the residual sub-instructions.

In yet another alternative of the first aspect, the preset duration is a wearable massage apparatus default setting or a user on wearable massage apparatus setting.

In yet another alternative of the first aspect, the first gear shift command is a first upshift command, and the second gear is one gear higher than the first gear.

In yet another alternative of the first aspect, the method further comprises:

receiving a downshift instruction input through a roller button in the case that the wearable massage apparatus outputs at a third gear;

determining a gear reduction gear according to the gear reduction instruction;

determining a target gear according to the third gear and the downshift gear;

and controlling the wearable massage equipment to output in a target gear.

In yet another alternative of the first aspect, determining the downshift gear according to the downshift instruction includes:

acquiring the number of gear-reducing sub-instructions corresponding to the gear-reducing instruction to obtain a gear-reducing gear;

determining a target gear according to the third gear and the downshift gear, comprising:

and subtracting the gear reduction gear from the third gear to obtain the target gear.

In yet another alternative of the first aspect, after controlling the wearable massage device to output in the second gear, the method further comprises:

receiving a second gear-up instruction input through a roller button;

and if the time interval between the second gear-up command and the first gear-up command is less than or equal to the preset time threshold, controlling the wearable massage equipment to continuously output in a second gear.

In yet another alternative of the first aspect, if the time interval between the second upshift command and the first upshift command is less than or equal to the preset time threshold, the method further includes:

and outputting first prompt information, wherein the first prompt information is used for representing the false triggering of the roller button.

In yet another alternative of the first aspect, the method further comprises:

if the time interval between the second gear-shifting instruction and the first gear-shifting instruction is larger than a preset time threshold, determining a second gear-shifting gear according to the second gear-shifting instruction;

if the second gear shifting gear is two or more, controlling the wearable massage equipment to output in a fourth gear; the fourth gear is one higher than the second gear.

In yet another alternative of the first aspect, after controlling the wearable massage device to output in the fourth gear, the method further comprises:

and outputting second prompt information, wherein the second prompt information is used for representing that the wearable massage equipment is successfully shifted.

In a second aspect, an embodiment of the present application provides a gear output control device, which specifically includes:

the first receiving module is used for receiving a first gear shifting instruction input through a roller button under the condition that the wearable massage equipment outputs a first gear;

the first determining module is used for determining a first gear shifting position according to the first gear shifting instruction;

the first output module is used for controlling the wearable massage equipment to output in a second gear if the first gear is two or more; the second gear and the first gear are adjacent gears.

In an alternative of the second aspect, the first shift instruction includes M sub-instructions, where M is a positive integer greater than or equal to 2;

In a further alternative of the second aspect, the type of sub-command is an upshift command or a downshift command;

the first determining module includes:

the obtaining unit is used for obtaining the types of the M sub-instructions;

and the processing unit is used for determining a first gear shifting position based on the type of the M sub-instructions.

In yet another alternative of the second aspect, the processing unit specifically includes:

the first determining unit is used for determining the number of the upshift instructions and the number of the downshift instructions in the M sub-instructions;

the second determining unit is used for offsetting the same number of the upshift sub-instructions and the downshift sub-instructions and determining the types and the number of the remaining sub-instructions;

and the third determining unit is used for determining the first gear shifting position and the gear shifting type corresponding to the first gear shifting position according to the type and the number of the remaining sub-instructions.

In yet another alternative of the second aspect, the preset time period is a wearable massage apparatus default setting or a user setting at the wearable massage apparatus.

In yet another alternative of the second aspect, the first gear shift command is a first gear shift command, and the second gear is one gear higher than the first gear.

In yet another alternative of the second aspect, the apparatus further comprises:

the second receiving module is used for receiving a gear-down instruction input through the roller button under the condition that the wearable massage equipment outputs a third gear;

the second determining module is used for determining a gear reduction gear according to the gear reduction instruction;

the third determining module is used for determining a target gear according to a third gear and a downshift gear;

and the second output module is used for controlling the wearable massage equipment to output in the target gear.

In yet another alternative of the second aspect, the second determining module is configured to:

the third determining module is to:

the third receiving module is used for receiving a second gear-up instruction input through the roller button after controlling the wearable massage equipment to output in a second gear;

and the third output module is used for controlling the wearable massage equipment to continuously output in the second gear if the time interval between the second gear increasing instruction and the first gear increasing instruction is less than or equal to a preset time threshold.

In yet another alternative of the second aspect, if the time interval between the second upshift command and the first upshift command is less than or equal to the preset time threshold, the apparatus further includes:

and the fourth output module is used for outputting first prompt information, and the first prompt information is used for representing the false triggering of the roller button.

the fourth determining module is used for determining a second gear shifting gear according to the second gear shifting instruction if the time interval between the second gear shifting instruction and the first gear shifting instruction is larger than a preset time threshold;

the fifth output module is used for controlling the wearable massage equipment to output in a fourth gear if the second gear shifting gear is two or more gears; the fourth gear is one higher than the second gear.

and the fifth output module is used for outputting second prompt information after controlling the wearable massage equipment to output in the fourth gear, and the second prompt information is used for representing that the wearable massage equipment is successfully shifted.

In a third aspect, an embodiment of the present application further provides a gear output control device, including a processor and a memory; the processor is connected with the memory; a memory for storing executable program code; the processor executes a program corresponding to the executable program code by reading the executable program code stored in the memory, so as to execute the gear output control method provided by the first aspect of the embodiment of the present application or any implementation manner of the first aspect.

In a fourth aspect, the embodiment of the present application provides a wearable massage device, which includes a roller button for adjusting a massage gear and the gear output control device provided in the third aspect implementation manner.

In a fifth aspect, an embodiment of the present application further provides a computer storage medium, where a computer program is stored in the computer storage medium, where the computer program includes program instructions, and when the program instructions are executed by a processor, the method for controlling gear output according to the first aspect of the present application or any implementation manner of the first aspect may be implemented.

It is to be understood that the computer storage medium provided by the fifth aspect is used to execute the shift output control method provided by the first aspect or any implementation manner of the first aspect, and therefore, the beneficial effects achieved by the computer storage medium can refer to the beneficial effects in the pulse output control method provided by the first aspect or any implementation manner of the first aspect, and are not described herein again.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, 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 wearable massage apparatus for a gear output control method according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a wearable massage apparatus provided in an embodiment of the present application;

FIG. 3 is a flowchart illustrating a method for controlling gear output according to an embodiment of the present disclosure;

FIG. 4 is a schematic flow chart illustrating another method for controlling gear output according to an embodiment of the present application;

FIG. 5 is a schematic flow chart illustrating another method for controlling gear output according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a gear output control device according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of another gear output control device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

The terms "first," "second," "third," and the like in the description and claims of this application and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Referring to fig. 1, fig. 1 illustrates a wearable massage apparatus 100 for a gear output control method according to an embodiment of the present application.

As shown in fig. 1, the wearable massage apparatus 100 may adjust the massage output gear by a roller control, and a specific user may shift the roller button along the axial direction of the roller by a finger to roll the roller button, so as to adjust the massage output gear of the wearable massage apparatus 100. Taking the wearable massage device shown in fig. 1 as an example, fig. 2 shows a specific structural schematic diagram of a wearable massage device provided in the embodiment of the present application. As shown in fig. 2, the wearable massage device may be a SKG neck massager, which includes a middle support and clamp arms symmetrically disposed at two ends of the middle support for massaging the neck of the user, wherein the clamp arms include a clamp arm bottom case close to one side of the neck of the user, a circuit board disposed on the clamp arm bottom case, a dial, a roller key, a bracket, a chute member, and a clamp arm housing. The user wears the neck massager on the neck, turns on the power switch, and rolls the roller button through fingers to toggle the dialer control circuit board to output a massage signal corresponding to a user gear shifting instruction. Specifically, the massage gear of the neck massage apparatus when the apparatus is turned on may be a default gear, for example, 1 gear, wherein the adjustable gear is set between 1-10 ten gears, and the user can select the massage gear according to his own needs. Possibly, the massage gear of the neck massage device when the device is turned on is a massage gear which correspondingly outputs a corresponding massage signal according to the current position of the roller button, for example, the massage gear is stopped when the device is turned off after the user has last massaged.

The wearable massage apparatus 100 is not limited to pressing, kneading, beating, and the like, and the massage components may not be limited to output electrode pads, massage arms, and the like. The wearable massage device 100 may also include a speaker, or audio interface, which may be used to play audio signals, such as voice prompts or music, etc.

The wearable massage device 100 may further have a communication module for transmitting data, which may be, but not limited to, a bluetooth module, for example, to enable data transmission with other electronic devices with bluetooth function. The transmitted data may be text, photos, voice or video.

It should be noted that the wearable massage device applied in the present application may not be limited to a roller type massage device, but may also be a pressing type massage device. This push type massage equipment can confirm the massage gear range of regulation that corresponds according to the dynamics of pressing, and the massage intensity of the different gears of difference correspondence of the different corresponding of the dynamics of pressing. Specifically, the pressing force of the user when using the pressing type massage device can not be grasped sometimes, and the massage intensity output by the massage device is too high easily due to too heavy pressing, so that the massage stimulation to the user is too large.

As shown in fig. 3, fig. 3 is a schematic flowchart illustrating a method for controlling gear output according to an embodiment of the present application, where the method is applied to a wearable massage device, where the wearable massage device includes a roller button, and the roller button is used to adjust a massage gear, and specifically includes:

step 301, receiving a first gear shifting command input through a roller button under the condition that the wearable massage device outputs a first gear.

Specifically, after the user starts the massage device, the massage gear currently located in the massage device may be used as the first gear. It is possible that the first gear in which the massage device is activated may be a default initial massage gear of the massage device, e.g. the default initial massage gear of the massage device may be the lowest gear in this application. Possibly, the first gear of the massage device after being started may be a massage gear of the massage device after the last massage is finished, for example, ten massage gears are provided for the massage device, the massage device automatically outputs a massage gear of the roller button after being started, and the massage gear is a fifth massage gear, which may be used as the first gear. Possibly, the first gear at which the massage apparatus is started may also be a massage gear that is automatically adjusted according to the user rolling the roller button, for example, ten massage gears are provided for the massage apparatus, and the user rolling the roller button to make the massage gear be at a third massage gear, which may be used as the first gear.

It should be understood that the first gear, the second gear, the third gear, etc. proposed in the embodiments of the present application are only used to refer to a certain gear, and do not have explicit numerical meanings, for example, ten massage gears are provided for a massage apparatus, the first gear may represent that the massage apparatus is currently in the third massage gear instead of the first massage gear, the second gear may represent that the massage apparatus is currently in the fifth massage gear instead of the second massage gear, and the other gears are the same.

Further, the wearable massage device may receive a first shift command input by the roller button under the control of the user, while continuously outputting the first shift.

As an embodiment of the present application, the first shift instruction may include M sub-instructions, where M is a positive integer greater than or equal to 2; and the interval duration between the first sub-instruction and the last sub-instruction is within a preset duration.

Specifically, the first shift instruction may be a shift instruction including at least two sub-instructions within a preset time period, for example, taking ten massage gears provided for the massage apparatus, the first shift instruction may be two sub-instructions, and an interval time period between the two sub-instructions is within the preset time period.

As another example, the preset duration may be set as a default for the wearable massage apparatus or set by the user. Possibly, when the preset time is the default setting of the wearable massage device, the default setting can be selected to be 0.05s, 0.1s, 0.15s and the like, and the preferable preset time is 0.1 s. Possibly, when the preset time length is set by the user at the wearable massage device, the time length can be selected by the user at the display interface of the massage device, and the preset time length can be adjusted in a rolling mode through the roller buttons.

Step 302, determining a first gear shifting position according to the first gear shifting command.

Specifically, after receiving the first shift instruction, the massage device may determine the first shift position according to the shift type and the number of the shift sub-instructions in the first shift instruction.

As still another embodiment of the present application, the type of the sub-command is an upshift command or a downshift command, and determining the first shift stage according to the first shift command includes:

acquiring types of M sub-instructions;

a first gear shift is determined based on the type of the M sub-commands.

Specifically, the first shift command received by the massage device may include M sub-commands, and the first shift stage may be determined according to the types of the M sub-commands. For example, taking the example that the massage apparatus is provided with ten massage steps, the first shift command is a sub-command of three consecutive upshifts, and thus it can be determined that the first shift step is three upshifts. Possibly, the first gear shift command may also be a sub-command of three consecutive downshifts, whereby it may be determined that the first gear shift is three downshifts.

As still another embodiment of the present application, determining a first gear shift stage based on the type of the M sub-commands includes:

Specifically, the first shift instruction may not be limited to a series of sub instructions of the same type, but may include different types of sub instructions, determine the type and number of remaining sub instructions by canceling out the same number of upshift sub instructions and downshift sub instructions, and determine the first shift stage according to the type and number of remaining sub instructions. For example, taking the example that the massage device is provided with ten massage gears, the first gear shifting command is three gear-up sub-commands and one gear-down sub-command, two gear-up sub-commands are obtained by offsetting one gear-up sub-command and one gear-down sub-command, and the first gear shifting gear can be determined to be two gear-up.

It should be noted that the present application is not limited to the first gear shifting command comprising a plurality of consecutive upshift sub-commands and a plurality of consecutive downshift sub-commands, for example, the first gear shifting command may be two downshift sub-commands and four upshift sub-commands received sequentially within a preset time period. Specifically, when the first gear is 5 (massage gears include 1-10), the first shift instruction is to first shift 5 to 3 and then shift 3 to 7 within a preset time period, and the corresponding first shift gear is two upshifts. Possibly, the first shift command may also be two downshift sub-commands, five upshift sub-commands and one downshift sub-command received in sequence within a preset time period. Specifically, when the first gear is 5 (massage gears include 1-10), the first shift instruction is to first shift 5 to 3, then shift 3 to 8, then shift 8 to 7, and the corresponding first shift gears are two upshifts. It will be appreciated that the present application is also not limited to the first shift command being a sub-command received in the manner mentioned above.

And 303, if the first gear shifting gear is two or more, controlling the wearable massage equipment to output in a second gear.

Specifically, when the first shift stage is two or more stages, the massage apparatus may output the second stage in a stage adjacent to the first stage. For example, when the first gear is two upshifts or a plurality of upshifts, the massage apparatus may output a gear that is an upshift adjacent to the first gear.

Illustratively, taking the massage device provided with ten massage gears as an example, the first gear output by the current massage device is 5 gears. Possibly, when the massage device determines that the first gear shift is two gear shifts according to the first gear shift instruction, the output second gear shift is adjusted to be 6 gear shift. Possibly, when the gear massage device determines that the first gear is three or more than three upshifts according to the first gear instruction, the output second gear is adjusted to be 6.

In the application, a gear shifting instruction can be determined according to a continuous gear shifting instruction input by a user through a roller button, so that the massage signal output by adjustment and the current massage signal are continuous massage signals, better adaptive feeling is brought to the user, and uncomfortable massage experience brought to the user due to misoperation of the user is avoided.

Referring to fig. 4, fig. 4 is a schematic flowchart illustrating a further method for controlling a gear output according to an embodiment of the present application, where the method is applied to a wearable massage apparatus, the wearable massage apparatus includes a roller button, and the roller button is used to adjust a massage gear, and the method specifically includes:

step 401, receiving a first gear shifting command input through a roller button under the condition that the massage device outputs in a first gear.

Specifically, the first shift instruction is a first upshift instruction, and step S401 is identical to step 301, which is not described herein again.

Step 402, determining a first gear shifting position according to a first gear shifting command.

Specifically, step 402 is the same as step 302, and is not described in detail again.

And step 403, if the first gear shifting position is two or more, controlling the wearable massage equipment to output in a second gear.

Specifically, the second gear is higher than the first gear by one gear, and step 403 is identical to step 303, which is not described in detail again.

And step 404, receiving a gear-down command input through the roller button under the condition that the wearable massage device outputs the third gear.

Specifically, the massage apparatus may receive a down-shift command input by the user according to the wheel button in a case of being output in the third gear. The third gear is a massage gear currently output by the massage equipment, can be a massage gear same as the second gear, and can also be a massage gear different from the second gear. It should be noted that, no matter whether the third gear and the second gear are the same massage gear or different massage gears, the time interval between the first upshift instruction and the downshift instruction does not need to be considered, and as the downshift instruction for the user belongs to the reduction of massage stimulation, the influence caused by the continuous downshift instruction and the massage experience of the user does not need to be considered.

And step 405, determining a downshift gear according to the downshift instruction.

Specifically, the massage device can acquire the number of the downshift sub-instructions determined by the downshift instruction according to the received downshift instruction, and further determine the downshift gear. Specifically, taking the example that the massage device is provided with ten massage gears, the downshift instruction is three continuous downshift sub-instructions, and the downshift gear can be determined to be three downshifts.

The number of the downshift sub-commands is not limited, i.e. the number of the downshift sub-commands may be at least one in the embodiment.

And step 406, determining a target gear according to the third gear and the downshift gear.

Specifically, after the downshift gear is determined, the massage device may subtract the determined downshift gear from the massage gear corresponding to the third gear to obtain the target gear. Specifically, taking ten massage gears of the massage device as an example, the third gear may be represented as a fifth massage gear, and when the down-shift gear is three down-shift gears, the fifth massage gear may subtract the three down-shift gears to obtain a massage gear with an adjusted output as a second massage gear, and output the second massage gear as a target gear.

As still another embodiment of the present application, the manner of determining the target gear may not be limited to the above-mentioned subtraction of the determined downshift gear from the massage gear corresponding to the third gear. It is possible that, when it is determined that the downshift gear is the two or more gears, the massage gear adjacent to the third gear may be used as the target gear. For example, in the case where the massage apparatus is provided with ten massage steps, the third step may be represented as a fifth massage step, and when the down-shift step is three down-shifts, the fourth massage step, which is adjacent to the fifth massage step, may be a second massage step, and the second massage step may be output as the target step.

And step 407, controlling the wearable massage equipment to output in a target gear.

Specifically, the massage device can adjust the massage gear to the target gear for output.

Referring to fig. 5, fig. 5 is a schematic flowchart illustrating a further method for controlling a gear output according to an embodiment of the present application, where the method is applied to a wearable massage apparatus, the wearable massage apparatus includes a roller button, and the roller button is used to adjust a massage gear, and the method specifically includes:

step 501, under the condition that the wearable massage device outputs the first gear, receiving a first gear-up command input through a roller button.

Specifically, step S501 is identical to step 301 and step 401, and is not described here again.

Step 502, determining a first upshift gear according to a first upshift command.

Specifically, step 502 is the same as step 302 and step 402, and details are not repeated.

And 503, if the first upshift gear is two or more, controlling the wearable massage equipment to output in a second gear.

Specifically, the second gear is higher than the first gear by one gear, and step 503 is identical to step 303 and step 403, and will not be described again.

And step 504, receiving a second upshift instruction input through the roller button.

Specifically, after the massage device receives the first upshift command and outputs the first upshift command in the second gear, the massage device can further continue to receive the second upshift command through the roller button.

The second upshift instruction may include M upshift sub-instructions, where M is a positive integer greater than or equal to 2, and a time interval between the first upshift sub-instruction and the last upshift sub-instruction is within a preset time interval.

Specifically, the first upshift command may be a shift command including at least two consecutive upshift sub-commands within a preset time period, for example, taking ten massage gears provided for the massage apparatus as an example, the first shift command may be two consecutive upshift sub-commands, and an interval time period between the two upshift sub-commands is within the preset time period.

And 505, if the time interval between the second upshift command and the first upshift command is less than or equal to a first preset time threshold, controlling the wearable massage equipment to continuously output in a second gear.

Specifically, the massage equipment can start the timing instruction when receiving a first gear-up instruction through the roller button, and can adjust the started timing instruction to determine the time interval between the second gear-up instruction and the first gear-up instruction when receiving a second gear-up instruction through the roller button. The massage equipment can continuously output the second gear when detecting that the time interval between the second gear increasing instruction and the first gear increasing instruction is smaller than or equal to a first preset time threshold.

In order to avoid misoperation of the user, the first preset time threshold may be selected to be 0.5s, 1s, 1.5s, and the like, and the preferred first time threshold is 1 s.

It should be noted that the shifting requirement between different consecutive shifting commands can also be controlled by adjusting the aforementioned first preset time threshold, and it is possible to increase the time threshold to extend the time interval between different consecutive shifting commands, which is suitable for the older people. Possibly, the time threshold is reduced, so that the time interval between different continuous gear shifting commands can be shortened, and the method is suitable for young people. Specifically, can be at the electronic equipment installation with massage equipment corresponding application software (APP), realize through modes such as bluetooth massage equipment and electronic equipment's pairing to further use the APP to realize the regulation to massage equipment's first preset time threshold through the user.

As another embodiment of the present application, if the time interval between the second upshift command and the first upshift command is less than or equal to the first preset time threshold, the method further includes:

Specifically, when the massage device detects that the time interval between the received second upshift instruction and the first upshift instruction is smaller than or equal to a first preset time threshold, the massage device may determine that the current second upshift instruction is a user misoperation, may generate first prompt information for representing false triggering, for example, generate prompt information of voice and/or text of "attention to adjust a roller button", and display the prompt information to the user through a speaker and/or a display screen of the massage device. Possibly, after the massage equipment generates the first prompt message, the massage equipment can be displayed to the user by the preset electronic equipment which completes communication connection.

The electronic device of the embodiment may be a mobile phone, a tablet Computer, a desktop Computer, a laptop Computer, a notebook Computer, an Ultra-mobile Personal Computer (UMPC), a handheld Computer, a netbook, a Personal Digital Assistant (PDA), a wearable electronic device, a virtual reality device, and the like.

As another embodiment of the present application, if a time interval between the second upshift instruction and the first upshift instruction is greater than a first preset time threshold, determining a second gear shift according to the second upshift instruction; if the second gear shifting gear is two or more, controlling the wearable massage equipment to output in a fourth gear; the fourth gear is one higher than the second gear.

Specifically, when the massage device detects that the time interval between the received second upshift instruction and the first upshift instruction is greater than a first preset time threshold, the massage device may determine a second shift position according to the number of upshift sub-instructions included in the second upshift instruction, and output a fourth shift position that is adjacent to the second shift position when the second shift position is two or more.

The second upshift command received by the massage device may include M upshift sub-commands, and the second upshift may be determined according to types of the M upshift sub-commands. For example, taking the example that the massage apparatus is provided with ten massage steps, the second upshift command is three consecutive upshift sub-commands, and it is determined that the second upshift step is three upshifts.

As another embodiment of the present application, after controlling the wearable massage device to output in the fourth gear, the method further comprises: and outputting second prompt information, wherein the second prompt information is used for representing that the wearable massage equipment is successfully shifted.

Specifically, when the massage device detects that the time interval between the received second upshift instruction and the first upshift instruction is greater than a first preset time threshold, the massage device may determine that the current second upshift instruction is normal operation of the user, may generate first prompt information for indicating that the upshift is successful, for example, generate prompt information of voice and/or text of "successful upshift", and show the prompt information to the user through a speaker and/or a display screen of the massage device. Possibly, after the massage equipment generates the first prompt message, the massage equipment can be displayed to the user by the preset electronic equipment which completes communication connection.

Referring to fig. 6, fig. 6 is a schematic structural diagram illustrating a gear output control device according to an embodiment of the present application.

As shown in fig. 6, the gear output control device 600 includes a receiving module 601, a determining module 602, and an output module 603, wherein the detailed description of each module is as follows:

the first receiving module 601 is used for receiving a first gear shifting instruction input through a roller button under the condition that the wearable massage device outputs a first gear;

a first determining module 602, configured to determine a first shift position according to a first shift instruction;

the first output module 603 is configured to control the wearable massage device to output the second gear if the first gear shift is two or more gears; the second gear and the first gear are adjacent gears.

As an optional implementation manner, the first shift instruction includes M sub-instructions, where M is a positive integer greater than or equal to 2;

As an alternative embodiment, the type of the sub-command is an upshift command or a downshift command;

the first determining module 602 includes:

the obtaining unit is used for obtaining the types of the M sub-instructions;

As an optional implementation manner, the processing unit specifically includes:

As an alternative embodiment, the preset time period is a default setting of the wearable massage apparatus or a setting of the wearable massage apparatus by the user.

In an alternative embodiment, the first gear shift command is a first gear shift command, and the second gear is higher than the first gear by one gear.

As an optional implementation, the apparatus further comprises:

As an optional implementation manner, the second determining module is configured to:

the third determining module is to:

As an optional implementation, the apparatus further comprises:

As an optional implementation manner, if the time interval between the second upshift command and the first upshift command is less than or equal to the preset time threshold, the apparatus further includes:

As an optional implementation, the apparatus further comprises:

the fifth output module is used for controlling the massage equipment to output in a fourth gear if the second gear shifting gear is two or more gears; the fourth gear is one higher than the second gear.

As an optional implementation, the apparatus further comprises:

Referring to fig. 7, fig. 7 is a schematic structural diagram of another gear output control device according to an embodiment of the present application. As shown in fig. 7, the gear output control device 700 may include: at least one processor 701, at least one network interface 705, a user interface 704, memory 702, at least one communication bus 703, and scroll keys 706.

The communication bus 703 may be used for implementing connection communication of the above components.

The user interface 704 may include buttons, and the optional user interface may include a standard wired interface, a wireless interface, among others.

The network interface 705 may optionally include a bluetooth module, an NFC module, a Wi-Fi module, or the like.

Processor 701 may include one or more processing cores, among other things. Processor 701 interfaces with various components within overall range output control device 700 using various interfaces and wires to perform various functions and process data of range output control device 700 by executing or executing instructions, programs, code sets, or instruction sets stored in memory 702, as well as invoking data stored in memory 702. Optionally, the processor 701 may be implemented in at least one hardware form of DSP, FPGA, or PLA. The processor 701 may integrate one or a combination of several of a CPU, GPU, modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content required to be displayed by the display screen; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 701, and may be implemented by a single chip.

The memory 702 may include a RAM and a ROM. Optionally, the memory 702 includes a non-transitory computer-readable medium. The memory 702 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 702 may include a program storage area and a data storage area, wherein the program storage area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the above-described method embodiments, and the like; the storage data area may store data and the like referred to in the above respective method embodiments. The memory 702 may optionally be at least one memory device located remotely from the processor 701. As shown in fig. 7, the memory 702, which is one type of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a gear output control application program.

Specifically, processor 701 may be configured to invoke a range output control application program stored in memory 702 and specifically perform the following operations:

the processor 701 determines a first gear shifting position according to the first gear shifting instruction, and executes:

acquiring types of M sub-instructions;

a first gear shift is determined based on the type of the M sub-commands.

As an alternative embodiment, processor 701 determines the first gear shifting stage based on the type of M sub-commands, and performs:

As an alternative implementation, the processor 701 further performs:

determining a gear reduction gear according to the gear reduction instruction;

determining a target gear according to the third gear and the downshift gear;

and controlling the wearable massage equipment to output in a target gear.

As an alternative embodiment, the processor 701 determines the downshift according to the downshift instruction, and executes:

As an alternative embodiment, after the processor 701 controls the wearable massage apparatus to output in the second gear, the following steps are further performed:

receiving a second gear-up instruction input through a roller button;

As an alternative implementation manner, if the time interval between the second upshift instruction and the first upshift instruction is less than or equal to the preset time threshold, the processor 701 further performs:

As an alternative implementation, the processor 701 further performs:

if the second gear shifting gear is two or more, controlling the wearable massage equipment to output in a fourth gear; the fourth gear and the second gear are adjacent upshift gears.

As an alternative embodiment, after the processor 701 controls the wearable massage apparatus to output in the fourth gear, the following steps are further performed:

Embodiments of the present application also provide a computer-readable storage medium, which stores instructions that, when executed on a computer or a processor, cause the computer or the processor to perform one or more steps of the embodiments shown in fig. 3 or fig. 4 or fig. 5. The respective constituent modules of the wearable massage apparatus described above, if implemented in the form of software functional units and sold or used as independent products, may be stored in the computer-readable storage medium.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the application to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in or transmitted over a computer-readable storage medium. The computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center by wire (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)), or wirelessly (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., Digital Versatile Disk (DVD)), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. And the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks. The technical features in the present examples and embodiments may be arbitrarily combined without conflict.

The above-described embodiments are merely preferred embodiments of the present application, and are not intended to limit the scope of the present application, and various modifications and improvements made to the technical solutions of the present application by those skilled in the art without departing from the design spirit of the present application should fall within the protection scope defined by the claims of the present application.

Claims

1. A gear output control method is applied to a wearable massage device, the wearable massage device comprises a roller button, and the roller button is used for adjusting massage gears, and the method comprises the following steps:

receiving a first gear shifting command input through the roller button under the condition that the wearable massage equipment outputs a first gear;

2. The method according to claim 1, wherein the first shift instruction comprises M sub-instructions, M being a positive integer greater than or equal to 2;

3. The method of claim 2, wherein the sub-command is of the type upshift or downshift command;

the determining a first gear shifting position according to the first gear shifting command comprises the following steps:

obtaining the types of M sub-instructions;

determining a first gear shift based on the type of the M sub-commands.

4. The method of claim 3, wherein said determining a first shift gear based on the types of said M said sub-commands comprises:

offsetting the same number of the upshift sub-instructions and the downshift sub-instructions, and determining the types and the number of the remaining sub-instructions;

5. The method of claim 2, wherein the preset duration is a default setting of the wearable massage apparatus or a user setting at the wearable massage apparatus.

6. The method of claim 1, wherein the first gear shift command is a first upshift command and the second gear is one gear higher than the first gear.

7. The method of claim 6, further comprising:

receiving a downshift instruction input through the roller button if the wearable massage device is output in a third gear;

determining a gear reduction gear according to the gear reduction instruction;

determining a target gear according to the third gear and the downshift gear;

controlling the wearable massage device to output in the target gear.

8. The method of claim 7,

the determining a downshift gear according to the downshift instruction comprises:

acquiring the number of downshift sub-instructions corresponding to the downshift instructions to obtain the downshift gears;

the determining a target gear according to the third gear and the downshift gear comprises:

9. The method of claim 6, wherein after the controlling the wearable massage device to output in the second gear, the method further comprises:

receiving a second gear-up instruction input through the roller button;

and if the time interval between the second gear-up instruction and the first gear-up instruction is less than or equal to a preset time threshold, controlling the wearable massage equipment to continuously output in the second gear.

10. The method of claim 9, wherein if the time interval between the second upshift command and the first upshift command is less than or equal to a predetermined time threshold, the method further comprises:

11. The method of claim 9, further comprising:

12. The method of claim 11, wherein after the controlling the wearable massage device to output in the fourth gear, the method further comprises:

13. A gear output control device characterized by comprising:

the first receiving module is used for receiving a first gear shifting instruction input through the roller button under the condition that the wearable massage equipment outputs a first gear;

the first output module is used for controlling the wearable massage equipment to output in a second gear if the first gear shifting gear is two or more gears; the second gear and the first gear are adjacent gears.

14. A gear output control device is characterized by comprising a processor and a memory;

the processor is connected with the memory;

the memory for storing executable program code;

the processor runs a program corresponding to the executable program code by reading the executable program code stored in the memory for performing the method of any one of claims 1-12.

15. A wearable massage apparatus, comprising: a roller button for adjusting a massage shift position and the shift position output control device according to claim 14.

16. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the method according to any one of claims 1-12.