Detailed Description
In order to make those skilled in the art better understand the technical solution of the present application, the method and system for verifying information by using a neck massager provided by the present invention are further described in detail below with reference to the accompanying drawings and the detailed description.
The application provides a neck massage appearance, can adjust the laminating degree of neck massage appearance and user's neck to improve user's travelling comfort. Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a neck massager according to the present application. The neck massager 100 may include a massager body 11, a massage assembly 12, an air bag assembly 13, a first pressure detecting assembly 14, and a control circuit 15.
The massage apparatus body 11 can be used for being clamped on the neck of a user, and the massage component 12, the air bag component 13, the first pressure detection component 14 and the control circuit 15 can be respectively arranged on the massage apparatus body 11. Wherein the first pressure detecting assembly 14 may be used to detect a first pressure value between the airbag assembly 13 and the neck of the user.
The control circuit 15 may be further coupled to the massage assembly 12, the air bag assembly 13, and the first pressure detecting assembly 14, respectively, and may be configured to adjust the size of the air bag in the air bag assembly 13 when the first pressure value exceeds a preset range, so that the adjusted first pressure value is within the preset range.
Specifically, the massager body 11 may include two handles 111 and a connecting arm 112, and the two handles 111 may be fixed to both sides of the connecting arm 112. The connecting arm 112 and the two handles 111 can simultaneously clamp the neck of the user, so that the wearing reliability of the neck massager 100 is ensured. In some embodiments, to accommodate different neck sizes, the connecting arms 112 may also be resilient arms to accommodate the curves of various necks.
The massage assembly 12 may be disposed on the connecting arm 112, and when the neck massager 100 is an electromagnetic massager, the massage assembly 12 may include an electrode assembly located between the two handles and an electric pulse generator that transmits pulse current to the nervous system and blood vessels under the skin through electrode pads in the electrode assembly, thereby achieving a massage effect.
In other embodiments, the neck massager 100 may also be an infrared massager, a vibration massager, etc., and the massage assembly 12 may be configured as a different assembly corresponding to the infrared massager, the vibration massager, etc., as will be understood by those skilled in the art, and will not be described herein again.
The airbag module 13 may be provided on both the handles 111, and the first pressure detecting module 14 may be provided on the airbag of the airbag module 13. The first pressure sensing assembly 14 may be a pressure sensor for measuring a first pressure value of the bladder and the sides of the user's neck.
When the control circuit 15 judges that the first pressure value is larger than the maximum value of the preset range, the neck of the user is clamped by the neck massager 100 too tightly, the control circuit 15 can deflate the air bag, the size of the air bag is reduced, the first pressure values of the air bag and the two sides of the neck of the user are reduced, and the neck massager 100 can relax the clamping of the neck of the user when the first pressure value is within the preset range; judge at control circuit 15 that first pressure value is less than the minimum of predetermineeing the scope, neck massage appearance 100 centre gripping user's neck is too loose this moment, and control circuit 15 can inflate the gasbag, and the gasbag size grow, and the gasbag also grows with the first pressure value of user's neck both sides thereupon for first pressure value is in predetermineeing the within range, and neck massage appearance 100 can realize the fixed to user's neck.
In other embodiments, the first pressure detecting assembly 14 may be disposed at other locations of the neck massager 100 that are in contact with the user, such as the two handles 111, the connecting arm 112, the massage assembly 12, and the like.
In this embodiment, the neck massager is provided with an air bag assembly and a first pressure detection assembly, the control circuit can adjust the size of an air bag in the air bag assembly when the first pressure value exceeds a preset range, and the control circuit deflates the air bag when judging that the first pressure value is larger than the maximum value of the preset range; and when the control circuit judges that the first pressure value is smaller than the minimum value of the preset range, the control circuit inflates the air bag. By the method, the neck massager can control the attaching degree of the neck massager to the user through the air bag assembly, the neck massager is prevented from being attached to the user too tightly or too loosely, and the comfort degree of the user is improved.
Referring to fig. 2, fig. 2 is a schematic structural view of another embodiment of the neck massager of the present application. The same parts of this embodiment as those of the above embodiment will not be described herein again. In this embodiment, the neck massager 100 may further include a second pressure detecting assembly 16. A second pressure sensing assembly 16 may be coupled to the control circuit 15, the second pressure sensing assembly 16 may be used to sense a second pressure value of the massage assembly 12 and the back neck of the user. The control circuit 15 may also be configured to inflate or deflate the airbag such that the first pressure value and the second pressure value are both within a predetermined range.
The neck massager 100 in this embodiment includes a first pressure detecting assembly 14 and a second pressure detecting assembly 16, and the second pressure detecting assembly 16 may be a pressure sensor. Wherein the first pressure detecting component 14 can be disposed on the air bag component 13, the second pressure detecting component 16 can be disposed on the massage component 12, and the neck massage apparatus 100 can obtain pressures between a plurality of positions and a user, so as to adjust the size of the air bag, so that the first pressure detecting component 14 and the second pressure detecting component 16 are both in a preset range to adapt to different neck curves, thereby improving the comfort of the user.
Referring to fig. 3, fig. 3 is a schematic structural view of another embodiment of the neck massager of the present application. The same parts of this embodiment as those of the above embodiment will not be described herein again. In this embodiment, the neck massager 100 may further include a buzzer 17 and an instruction generating module 18, and the buzzer 17 and the instruction generating module 18 may be disposed on the massager body 11. Alternatively, the buzzer 17 and the instruction generating module 18 may also be integrated in the control circuit 15.
When the control circuit 15 determines that the first pressure value exceeds the preset range, the control circuit 15 may control the buzzer 17 to sound to remind the user. In addition, the instruction generating module 18 can be used for obtaining user instructions, and the control circuit 15 can be used for controlling the size of the air bag in the air bag module 13 according to the user instructions. The user instruction may be a voice instruction or a touch instruction.
For example, when the control circuit 15 determines that the first pressure value exceeds the preset range, the control circuit 15 may control the buzzer 17 to sound to remind the user, which is not the best wearing condition of the neck massager 100, and the user may feel that the neck massager 100 is clamped too tightly, causing discomfort to the user; or the user may feel that the neck massager 100 is clamped too loosely, affecting the massage effect. Therefore, the neck massage apparatus 100 that determines this condition may alert the user by a beep, so that the user may adjust the fit condition of the neck massage apparatus 100 and then perform a massage. After the user is reminded, the size of the air bag can be manually adjusted, so that the fitting degree of the neck massage instrument 100 and the neck of the user can be adjusted, and the user can correctly wear the neck massage instrument 100. Specifically, the user may input a user command by voice or by touching a button, so that the control circuit 15 adjusts the size of the airbag in the airbag module 13 according to the user command.
In this embodiment, when the control circuit 15 determines that the first pressure value exceeds the preset range, the size of the air bag may be manually adjusted, so that the neck massager 100 fits the neck curve of the user. Optionally, the control circuit 15 may further have a memory function, and when the user uses the neck massage apparatus 100 next time, the control circuit 15 may automatically adjust the size of the air bag to the size of the air bag used last time, so as to save the time for adjustment in the middle.
Furthermore, in some embodiments, the neck massager 100 may further include a wireless communication module, which may be configured to connect with the smart device and transmit the detected first pressure value to the smart device; and, the wireless communication module may also receive a user command sent by the smart device, so that the control circuit 15 controls the size of the airbag in the airbag module 13 according to the user control command.
The smart device may be a smart phone, smart tablet, computer, personal notebook, or the like. Neck massager 100 passes through wireless communication module and establishes the back with the smart machine, can send the pressure numerical value that detects to the smart machine, and the smart machine can be on display screen visual display pressure numerical value to the user looks over. In addition, the user may also send a user command through the smart device to cause the neck massager 100 to adjust the size of the airbag according to the user command. The user command may be to adjust the current size of the airbag to a larger size or to adjust the size of the airbag to a specific value.
Based on the neck massager, the application also provides a method for adjusting the fitting condition of the neck massager, please refer to fig. 4, and fig. 4 is a schematic flow chart of an embodiment of the method for adjusting the fitting condition of the neck massager. In this embodiment, the method specifically includes the following steps:
s41: a first pressure value between the neck massager and the neck of the user is detected.
The neck massager 100 can be clamped on the neck of the user to realize fixation, and when the neck massager 100 is worn correctly, the neck massager 100 executes the massage work. When the neck massager 100 is worn improperly, such as when the neck massager 100 is worn too tightly or worn too loosely, the neck massager 100 may not perform a massage work. The neck massager 100 can determine whether the neck massager 100 is worn correctly by detecting the pressure between the neck massager 100 and the user.
When the neck massager 100 is worn too tightly, the pressure between the neck massager 100 and the neck of the user is too large, and when the neck massager 100 is worn too small, the pressure between the neck massager 100 and the neck of the user is too small. Therefore, a first pressure value between the neck massager 100 and the neck of the user can be detected, and whether the neck massager 100 is worn correctly by the user can be known by judging the first pressure value.
S42: and judging whether the first pressure value exceeds a preset range.
The neck massager 100 may determine whether the first pressure value exceeds a preset range, and the preset range may be a pressure range of the neck massager 100 to the user when the user correctly wears the neck massager 100. If the neck massager 100 determines that the first pressure value does not exceed the preset range, the neck massager 100 fits the neck size of the user at the moment, discomfort cannot be caused to the user, and the massage effect cannot be influenced, so that the neck massager 100 can normally perform massage operation.
If the neck massager 100 determines that the first pressure value exceeds the predetermined range, the neck massager 100 is not worn correctly, and the pressure of the neck massager 100 on the user needs to be adjusted, so the process may proceed to step S43.
S43: the size of the air bag on the neck massager 100 is adjusted so that the adjusted first pressure value is within a preset range.
The neck massager 100 may adjust the size of the air bag on the neck massager 100 such that the adjusted first pressure value is within a preset range. For example, the neck massager 100 may detect first pressure values of both sides of the air bag of the neck massager 100 and the neck of the user, and if the first pressure value is determined to be greater than the maximum value of the preset range, the air bag is deflated, the size of the air bag is reduced, the first pressure value caused by the neck massager 100 to the user is also reduced, so that the adjusted first pressure value may be located in the preset range. Or, if the first pressure value is smaller than the minimum value of the preset range, the air bag is inflated, the size of the air bag is increased, the first pressure value caused by the neck massager 100 to the user is also increased, and therefore the adjusted first pressure value can be located in the preset range.
In this embodiment, a first pressure value of the neck massager 100 on the neck of the user may be detected, so as to determine whether the user correctly wears the neck massager 100. When neck massager 100 wore incorrectly, first pressure value can surpass the predetermined range, consequently, neck massager 100 can be through the size of adjusting the gasbag to make first pressure value be in the predetermined range all the time, thereby make the user can correctly wear neck massager 100, improve user's comfort level.
Referring to fig. 5, fig. 5 is a schematic flow chart of another embodiment of a method for adjusting a fitting condition of a neck massager 100 according to the present application. The same parts in this embodiment as those in the above embodiments are not described herein again. Specifically, the steps of this embodiment may include:
s51: first pressure values of the air bag of the neck massager and two sides of the neck of the user and second pressure values of the massage assembly of the neck massager and the back neck of the user are detected.
The neck massager 100 may detect a first pressure value of the air bladder of the neck massager 100 and both sides of the user's neck and a second pressure value of the massage assembly 12 of the neck massager 100 and the user's back neck. In this embodiment, pressure values between a plurality of users and the neck massager 100 can be set, so that whether the user wears the neck massager 100 correctly or not can be better reflected.
The massage assembly 12 of the neck massager 100 conforms to the back neck of the user so that a second pressure value between the massage assembly 12 and the back neck of the user can be detected; the air bags of the neck massager 100 are attached to both sides of the user's neck, and thus the first pressure values of the air bags and both sides of the user's neck can be detected. In other embodiments, pressure values between other components of the neck massager 100 and the user may also be detected.
S52: and judging whether the first pressure value and the second pressure value exceed a preset range.
The neck massager 100 can judge whether the first pressure value and the second pressure value exceed a preset range, and if not, the neck massager 100 is worn correctly, and then the massage operation can be normally executed; if so, the neck massager 100 may be worn too loosely or too tightly, and the process may proceed to step S53.
S53: and adjusting the size of the air bag on the neck massager so that the adjusted first pressure value and the adjusted second pressure value are within a preset range.
The neck massager 100 may adjust the size of the air bag such that the adjusted first and second pressure values are both within a preset range. When the neck massager 100 detects that the first pressure value and the second pressure value exceed the preset range, the first pressure value and the second pressure value can be both located in the preset range by adjusting the size of the air bag.
In some embodiments, it may happen that the first pressure value is within the preset range and the second pressure value is outside the preset range, or that the first pressure value is outside the preset range and the second pressure value is within the preset range, that is, a part of the pressure value data is outside the preset range, and at this time, the size of the air bag on the neck massager 100 may be adjusted to make all the pressure value data within the preset range.
In this embodiment, the neck massager 100 may obtain a first pressure value and a second pressure value of the neck massager 100 to the user, and determine whether the size of the airbag needs to be adjusted according to the first pressure value and the second pressure value, so that the user is in a comfortable state when wearing the neck massager 100, and the use feeling of the user is improved; by acquiring two pressure values, the pressure of the neck massage instrument 100 on different parts of the neck of the user can be known in various aspects, so that the neck curve of the user can be better fitted without being too tight or too loose.
Referring to fig. 6, fig. 6 is a schematic flow chart of a method for adjusting the fitting condition of the neck massager 100 according to another embodiment of the present application. The same parts in this embodiment as those in the above embodiments are not described herein again. The method of the embodiment specifically comprises the following steps:
s61: a first pressure value between the neck massager and the neck of the user is detected.
S62: and judging whether the first pressure value exceeds a preset range.
The neck massager 100 can judge whether the first pressure value exceeds a preset range, and if not, the massage operation is normally executed; if so, the process may proceed to step S63.
S63: a beep is made to alert the user.
In this embodiment, when the neck massager 100 determines that the first pressure value exceeds the preset range, the neck massager 100 may sound to remind the user that the neck massager 100 is not worn correctly. The sounding reminding mode can be various, for example, the sounding reminding mode can be automatically stopped after the sounding, and the sounding reminding mode can not be stopped until the first pressure value is in the preset range. In other embodiments, the neck massager 100 may also alert the user by regular vibrations while ringing.
S64: and acquiring a user instruction, and adjusting the size of the air bag according to the user instruction.
After the user is informed of the prompt, the neck massager 100 can acquire the user instruction by inputting the user instruction, and adjust the size of the air bag according to the user instruction, so that the first pressure value is within the preset range. Specifically, the user may input the user instruction by voice or by touching a button on the neck massager 100. In some embodiments, the user may also input user instructions via a smart phone, which in turn is sent to the neck massager 100 via the user instructions. In the above manner, the neck massager 100 can acquire the user instruction.
In this embodiment, the neck massager 100 can adjust the size of the air bag by obtaining the user instruction, that is, the user can manually control the size of the air bag, so that the neck massager 100 can be worn according to the requirements of the user.
In addition, in some embodiments, the neck massager 100 may further establish a connection with the smart device and send the first pressure value to the smart device, and the smart device may display the first pressure value on the display screen, so that the user can know the pressure generated by the neck massager on the user at the time. Alternatively, the neck massager 100 may receive a user instruction sent by the smart device, and control the size of the air bag in the bag assembly 13 according to the user instruction, that is, the user may adjust the size of the air bag of the neck massager 100 through the smart device, so as to control the tightness of the neck massager 100.
Based on the adjusting method for the fitting condition of the neck massager, the application also provides a mobile device. Referring to fig. 7, fig. 7 is a schematic structural diagram of a mobile device according to an embodiment of the present application. In this embodiment, program data 71 may be stored in mobile device 700, and when executed, program data 71 may implement the method described above. The steps and principles thereof have been described in detail in the above detection method, and are not described herein again.
It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. In addition, for convenience of description, only a part of structures related to the present application, not all of the structures, are shown in the drawings. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein without making a creative effort fall within the scope of protection of the present application.
The terms "first", "second", etc. in this application are used to distinguish between different objects and not to describe 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.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.