CN117482475A - Receiver, respiratory training aid system, method and medium - Google Patents

Abstract

The invention provides a receiver, a respiratory training aid system, a method and a medium, wherein the receiver is used for contacting a user, and the receiver comprises: the device comprises a receiving main control module and a vibration module connected with the receiving main control module, wherein the receiving main control module is used for receiving first input information and controlling the vibration module to vibrate according to preset frequency based on the first input information; wherein the first input information is transmitted by user input and/or by a transmitter. In this way, the user may be aided in training by means of touch.

Description

Receiver, respiratory training aid system, method and medium

Technical Field

The invention relates to the technical field of respiratory training, in particular to a receiver, a respiratory training auxiliary system, a respiratory training auxiliary method and a medium.

Background

With the progress of the living standard of people, demands for activities capable of relaxing spirit such as meditation, yoga, deep sleep, etc. have greatly increased, and thus demands for auxiliary equipment have also greatly increased.

Auxiliary devices currently on the market include white noise players, small night light products, and the like. But the current product function singleness often can only solve the problem in the aspect of sound or light, broadcast the music promptly, adjust light, perhaps music light uses simultaneously, because the user is breathing when adjusting, need listen simultaneously to guide music to the correspondence of focus breathing frequency simultaneously, very easily lead to unable control rhythm to the beginner, perhaps breathe the frequency confusion, the user through using ordinary bluetooth speaker, white noise player can't get into meditation's state or yoga relax, state of degree of depth sleep.

Disclosure of Invention

An objective of the present invention is to provide a receiver, a respiratory training assisting system, a method and a medium for solving the above-mentioned problems.

Embodiments of the invention may be implemented as follows:

in a first aspect, the present invention provides a receiver for making contact with a user, the receiver comprising: a receiving main control module and a vibration module connected with the receiving main control module,

the receiving main control module is used for receiving first input information and controlling the vibration module to vibrate according to preset frequency based on the first input information;

wherein the first input information is transmitted by user input and/or by a transmitter.

In an optional embodiment, the receiver further includes a first speaker and a first light module connected with the receiving master control module;

the receiving main control module is also used for controlling the first loudspeaker to play preset music and controlling the first light module to emit preset light based on the first input information.

In an alternative embodiment, the receiver further includes a first battery pack and a first audio module connected to the receiving master control module;

the first battery pack is used for supplying power to the receiver;

the first audio module is used for storing and/or decoding audio information.

In an alternative embodiment, the receiver further includes a first input module and/or a first communication module connected to the receiving main control module;

the first input module is used for receiving the first input information of a user; and/or

The first communication module is used for being in communication connection with the transmitter and receiving first input information sent by the transmitter.

In a second aspect, the present application provides a respiratory training aid system comprising at least one receiver as described above and a transmitter as described above;

the transmitter comprises a transmitting main control module and a second communication module connected with the transmitting main control module;

the transmitting control module is used for controlling the second communication module to send the first input information to the receiver;

wherein the first input information includes at least vibration information;

the receiving main control module is used for controlling the vibration module to vibrate according to preset frequency based on the vibration information.

In an alternative embodiment of the present invention,

the transmitting main control module is used for receiving second input information;

the transmitting main control module is used for determining the first input information based on the second input information; and/or

The transmitter further comprises a second loudspeaker and a second light module which are connected with the transmitting main control module, and the transmitting main control module is further used for controlling the second loudspeaker to play preset music and controlling the second light module to emit preset light based on the second input information;

the second input information is input by a user and/or sent by an external terminal.

In an alternative embodiment of the present invention,

the transmitter further comprises a second input module and/or a third communication module which are connected with the transmitting main control module;

the third input module is used for receiving the second input information of the user; and/or

The third communication module is used for being in communication connection with the external terminal and receiving second input information sent by the external terminal.

In an alternative embodiment, the second input information includes audio information, and the transmitting main control module is configured to determine the first input information based on the second input information, including:

the transmitter main control module is used for determining lamplight information based on the audio information;

the transmitter main control module is used for calculating the BPM value of the audio information;

the transmitting main control module is used for determining vibration information as a stop signal when the BPM value is not in a first preset range, and taking the vibration information, the lamplight information and/or the audio information as first input information;

and the transmitting main control module is used for selecting adaptive vibration information from a preset vibration information base based on the BPM value when the BPM value is in a first preset range, and taking the adaptive vibration information, the lamplight information and/or the audio information as first input information.

In a third aspect, the present application provides a respiratory training assistance method, where the respiratory training assistance method is applied to the receiver described above, and the receiver includes a vibration module, and the method includes:

acquiring first input information;

controlling the vibration module to vibrate according to a preset frequency based on the first input information;

wherein the first input information is transmitted by user input and/or by a transmitter.

In a third aspect, the present application provides a respiratory training assistance method, where the respiratory training assistance method is applied to the respiratory training assistance system described above, and the respiratory training assistance system includes at least one receiver, where the receiver includes a vibration module, and where the respiratory training assistance system further includes a transmitter;

the transmitter transmits first input information to the receiver, so that the receiver controls the vibration module to vibrate according to preset frequency based on the first input information;

wherein the first input information includes at least vibration information.

In an alternative embodiment, the transmitter further comprises a second speaker and a second light module, the method further comprising:

the transmitter receives second input information;

the transmitter determining the first input information based on the second input information; and/or

The transmitter controls the second loudspeaker to play preset music and controls the second light module to emit preset light based on the second input information;

the second input information is input by a user and/or sent by an external terminal.

In an alternative embodiment, the second input information includes audio information, and the transmitter determines the first input information based on the second input information, including:

the transmitter determining light information based on the audio information;

the transmitter calculates a BPM value of the audio information;

if the BPM value is not in the first preset range, the transmitter determines that the vibration information is a stop signal, and takes the vibration information and the lamplight information as first input information;

and if the BPM value is in a first preset range, the transmitter selects adaptive vibration information from a preset vibration information base based on the BPM value, and takes the adaptive vibration information and the lamplight information as first input information.

In a fifth aspect, the present invention provides a readable storage medium having stored thereon a computer program, characterized in that the computer program, when executed by a processor, implements the respiratory training assistance method according to the first aspect.

The receiver, the respiratory training auxiliary system, the respiratory training auxiliary method and the medium provided by the invention are characterized in that the vibration module is arranged in the receiver, and the vibration module is controlled to vibrate according to the preset frequency. After 2-3 cycles of respiratory training, the user can gradually transition from sound to focus on own body perception according to slight vibration prompt of the receiver held on the hand, and complete whole respiratory frequency adjustment, so that the brain focuses on the perception of the body. The user can better help meditation, yoga and sleep breathing focus on body perception to explore and find the perception potential of the body, and the brain can enter deep rest, so that the user can be helped to train by providing touch sense.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block schematic diagram of a first embodiment of a receiver provided by the present invention;

fig. 2 is a block schematic diagram of a second embodiment of a receiver provided by the present invention;

FIG. 3 is a block schematic diagram of a first embodiment of a respiratory training aid system provided by the present invention;

FIG. 4 is a block schematic diagram of a first embodiment of a transmitter provided by the present invention;

FIG. 5 is a schematic flow chart diagram of a first embodiment of a respiratory training assistance method of an embodiment of the present invention;

FIG. 6 is a schematic flow chart diagram of a second embodiment of a respiratory training assistance method of an embodiment of the present invention;

FIG. 7 is a schematic flow chart diagram of a third embodiment of a respiratory training assistance method of an embodiment of the present invention;

fig. 8 is a schematic flow chart of the substeps of step S32 in fig. 7.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be noted that, if the terms "upper", "lower", "inner", "outer", and the like indicate an azimuth or a positional relationship based on the azimuth or the positional relationship shown in the drawings, or the azimuth or the positional relationship in which the inventive product is conventionally put in use, it is merely for convenience of describing the present invention and simplifying the description, and it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus it should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, if any, are used merely for distinguishing between descriptions and not for indicating or implying a relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

Referring to fig. 1, fig. 1 provides a receiver 10, where the receiver 10 may be particularly useful for contact with a user, such as being held in a hand of a user, or being placed on the skin of the user's head or chest, etc., without limitation.

The shape of the receiver 10 may be a sphere, a cube, a flat plate, or other shapes.

In alternative embodiments, the receiver 10 may also be in the form of a strap that may be tied to the user's hand or foot, without limitation.

Optionally, the receiver 10 includes a receiving main control module 110 and a vibration module 120, where the receiving main control module 110 is connected to the vibration module 120.

Optionally, the receiving main control module 110 may be specifically configured to receive the first input information, and may control the vibration module 120 to vibrate according to a preset frequency based on the first input information.

Alternatively, the vibration module 120 may specifically include a linear motor or a rotor motor, and may drive part or all of the receiver 10 to vibrate when vibrating.

Alternatively, the rotor motor may be a yaw motor or a coreless motor, which is not limited herein. Alternatively, the linear motor may be a transverse linear motor, a longitudinal linear motor, or the like.

Optionally, the vibration frequency may correspond to a common breathing rhythm, such as breathing rhythms of inhalation, breath holding, exhalation, and the like, which may be different seconds from common 5/5,4/7/8,4/6,4/5/3,4/3/2, and the like.

Similarly, the vibration frequency may be constant-speed vibration with a fixed frequency or variable-speed vibration with a variable frequency, which is not limited herein.

Optionally, the first input information is transmitted by user input and/or by a transmitter.

As in an alternative embodiment, the first input information is entered by a user.

Specifically, the receiver 10 may further include a memory, which stores different vibration frequency information, so that a user can directly operate the receiver 10 to select corresponding vibration frequency information as a preset frequency, and control the vibration module 120 to vibrate based on the preset frequency.

As in an alternative embodiment, the first input information is transmitted by a transmitter.

Specifically, the receiver 10 may further include a memory storing different vibration frequency information, and then the transmitter transmits the code representing the different vibration frequency information as the first input information to the receiver 10, so that the receiving main control module 110 of the receiver 10 may select the corresponding vibration frequency information as a preset frequency based on the code, and control the vibration module 120 to vibrate based on the preset frequency.

Alternatively, the transmitter may include a memory, which stores different vibration frequency information, and then the transmitter transmits the vibration frequency information to be transmitted as the first input information to the receiver 10, so that the receiving master control module 110 of the receiver 10 may use the vibration frequency information as a preset frequency, and control the vibration module 120 to vibrate based on the preset frequency.

Alternatively, in the prior art, either the hearing perception alone or the light perception alone, or the acousto-optic perception alone is used. That is, the user can only listen to the guiding voice of the coach from the sound box to train, the user can adjust the breathing rhythm and frequency through the guiding of the sound or the light, after the guiding sound is closed, the beginner user can tend to be distracted because the breathing and the guiding voice cannot be synchronized and begins to pay attention to the breathing rhythm of the beginner user, but if the sound or the light is directly opened, part of the users can not completely enter into deep states of meditation, yoga or sleep because of being disturbed, so that the user can be helped to train by providing a touch sense.

In this application, the vibration module 120 is set in the receiver 10, and the vibration module 120 is controlled to vibrate according to a preset frequency. After 2-3 cycles of respiratory training, the user can gradually transition from sound to focus on own body perception according to slight vibration prompts of the receiver 10 held on the hand, and complete the whole respiratory frequency adjustment, so that the brain focuses on the perception of the body. The utility model can better help meditation, yoga and sleep breathing users focus on body perception, so as to explore and find the perception potential of the body and let the brain enter deep rest.

As shown in fig. 2, the receiver 10 may further include a first speaker 130 and a first light module 140. The first speaker 130 and the first light module 140 are connected to the receiving master control module 110.

The receiving main control module 110 is further configured to control the first speaker 130 to play preset music and control the first light module 140 to emit preset light based on the first input information.

Similar to the above, the first input information is sent by user input or by a transmitter. The audio information and the light information may be stored in the memory of the receiver 10 or may be stored in the memory of the transmitter, which is not limited herein.

The memory can be Nor-Flash or TF card, SD card and other electronic memory medium without limitation.

The first input information may include audio information and light information, or may be corresponding codes of the audio information and the light information, or may be direct operation information of a user, which is not limited herein.

As shown in fig. 2, the receiver 10 may further include a first battery pack 150 and a first audio module 160, where the first battery pack 150 and the first audio module 160 are both connected to the receiving main control module 110, and the first battery pack 150 is used for supplying power to the receiver 10, specifically to the electronic components in the receiver 10 such as the receiving main control module 110, the vibration module 120, the first speaker 130, and the first light module 140.

The first audio module 160 may then be used to store and/or decode audio information in particular.

As shown in fig. 2, the receiver 10 further includes a first input module 170 and/or a first communication module 180 connected to the receiving master module 110.

In an alternative embodiment, the first input module 170 is configured to receive first input information of a user, and the first input module 170 may be a button/touch screen/touch button, etc., which is not limited herein.

Optionally, the first communication module 180 is configured to be communicatively connected to the transmitter, and is configured to receive the first input information sent by the transmitter. The first communication module 180 may be a bluetooth, 3G/4G/5G, zigbee, lora, wifi, 2.4G wireless communication module, etc., which are not limited herein.

In other embodiments, the first communication module 180 may also be a wired communication, which is not limited herein.

As shown in fig. 3, the present application also provides a respiratory training aid system 30, which meditation system 30 comprises at least one receiver 10 of any of the above-mentioned embodiments and the above-mentioned emitter 20.

Alternatively, there may be one transmitter 20 for one receiver 10.

In other embodiments, one transmitter 20 may correspond to a plurality of receivers 10, which is not limited herein, and the plurality may specifically be two, three, or other numbers, i.e. one transmitter 20 is responsible for transmitting the first input information to the plurality of receivers 10.

As shown in fig. 4, the transmitter 20 includes a transmitting main control module 210 and a second communication module 220 connected with the transmitting main control module 210.

Optionally, the transmission control module 210 is configured to control the second communication module 220 to send the first input information to the receiver 10, and may specifically be sent to the receiving master control module 110 of the receiver 10.

The first input information may include at least vibration information.

The receiving main control module 110 is configured to control the vibration module 120 to vibrate according to a preset frequency based on the vibration information.

Alternatively, the vibration information may be a code of vibration frequency information or vibration frequency information.

In an alternative embodiment, the transmitting master control module 210 is further configured to receive the second input information, and the transmitting master control module 210 is configured to determine the first input information based on the second input information.

In other embodiments, the transmitter 20 may further include a second speaker 230 and a second light module 240 connected to the transmitting main control module 210, and the transmitting main control module 210 may be further configured to control the second speaker 230 to play preset music and control the second light module 240 to emit preset light based on the second input information.

The second input information is input by a user and/or sent by an external terminal.

In an alternative embodiment, the external terminal may be a mobile terminal such as a mobile phone, an ipa, or a PC terminal such as a computer, which is not limited herein.

As shown in fig. 4, the transmitter 20 includes a second input module 250 and/or a third communication module 260 connected to the transmitting master module 210.

Optionally, the second input module 250 is configured to receive second input information of the user.

Alternatively, the second input module 250 may be, but not limited to, a button/touch screen/touch button, etc., similar to the first input module 170.

Optionally, the third communication module 260 is configured to be in communication connection with an external terminal, and is configured to receive second input information sent by the external terminal. And the third communication module 260 and the second communication module 220 may be a unified module.

In an alternative embodiment, the second input information may include audio information, and the transmitting main control module 210 determines the first input information based on the second input information, which may specifically include:

the transmitter master control module 210 is configured to determine light information based on the audio information, and optionally, the transmitter master control module 210 determines light information based on the audio information.

The transmitter master control module 210 is also used to calculate BPM (Beat Per Minute) values for audio information.

The BPM value of a typical person refers to heart rate, and the normal range of heart rate varies with age, sex, etc., and generally, the normal range of heart rate in a normal adult resting state is 60 to 100 times per minute, infant heart rate is faster, generally more than 100 times per minute, and elderly heart rate is slower, possibly less than 60 times per minute, but generally more than 40 times per minute.

And the transmitting main control module 210 is configured to determine that the vibration information is a stop signal when the BPM value is not within the first preset range, and take the vibration information, the light information and/or the audio information as the first input information. I.e. the first input information comprises vibration information, and the first input information further comprises at least one of light information and audio information. The vibration information may be a stop signal, i.e. after the receiver 10 receives, the vibration module 120 does not need to be started. The receiver 10 specifically receives the main control module 110 and can control the first speaker 130 and/or the first light module 140 to play preset music or emit preset light based on the light information and/or the audio information.

Therefore, the transmitting main control module 210 is configured to select the adaptive vibration information from the preset vibration information base based on the BPM value when the BPM value is within the first preset range, and take the adaptive vibration information, the lamplight information and/or the audio information as the first input information.

Vibration information, light information and/or audio information are used as the first input information. I.e. the first input information comprises vibration information, and the first input information further comprises at least one of light information and audio information. The vibration information may be adaptive vibration information, that is, after the receiver 10 receives, the vibration module 120 is controlled according to the adaptive vibration information. The receiver 10 specifically receives the main control module 110 and can control the first speaker 130 and/or the first light module 140 to play preset music or emit preset light based on the light information and/or the audio information.

In an alternative embodiment, the first preset range may specifically relate to a normal heartbeat of the user, such as specifically 60-100 beats/min.

If the BPM value is 110 or 59, it is difficult for the user to quickly enter the meditation state if vibration is performed because it is not adapted to the heartbeat of the user.

If the BPM value is 80, the user easily has the same sense if vibrating, and quickly enters the meditation state, as it is adapted to the heartbeat of the user.

In an alternative embodiment, the light information and the audio information may be off information, that is, the receiver 10 only turns on the vibration module 220. The transmitter 20 controls the second speaker 230 to play the preset music and controls the second light module 240 to emit the preset light.

As shown in fig. 5, an embodiment of the present invention provides a respiratory training assistance method, which is applied to the receiver 10 of any one of the above, and the receiver includes a vibration module 120, and the method includes:

s11, acquiring first input information.

First input information is acquired, wherein the first input information is transmitted through user input and/or through a transmitter.

S12, controlling the vibration module to vibrate according to a preset frequency based on the first input information.

The specific processes and steps are described in detail above and are not described in detail here.

As shown in fig. 6, an embodiment of the present invention provides a respiratory training assistance method, which is applied to the respiratory training assistance system described in any one of the above, and the respiratory training assistance system includes at least one receiver 10 and a transmitter 20, and the receiver includes a vibration module 120, and the method includes:

and S21, the transmitter transmits the first input information to the receiver so that the receiver controls the vibration module to vibrate according to a preset frequency based on the vibration information.

Alternatively, the transmitter 20 may transmit the first input information to the receiver 10, so that the receiver 10 may control the vibration module to vibrate at a preset frequency based on the first input information.

Wherein the first input information includes at least vibration information.

Referring to fig. 7, fig. 7 provides a respiratory training assisting method, and the transmitter 30 further includes a second speaker 230 and a second light module 240. The method further comprises the steps of:

s31, the transmitter receives second input information;

i.e. the transmitter is also arranged to receive the second input information.

S32, the transmitter determines the first input information based on the second input information; and/or the transmitter controls the second loudspeaker to play preset music and controls the second light module to emit preset light based on the second input information.

Alternatively, the transmitter 10 may determine the first input information based on the second input information.

In another embodiment, the transmitter 10 may further control the second speaker 230 to play the preset music and control the second light module 240 to emit the preset light based on the second input information.

The second input information is input by a user and/or sent by an external terminal.

Referring to fig. 8, fig. 8 is a schematic flow chart of the substeps of "the transmitter determines the first input information based on the second input information" in step S32 in fig. 7, which specifically includes the following steps:

s321, the transmitter determines lamplight information based on the audio information;

firstly, determining lamplight information based on the audio information by the transmitter;

s322, the transmitter calculates a BPM value of the audio information;

subsequently, the transmitter calculates a BPM value for the audio information;

and S323, if the BPM value is not in the first preset range, the transmitter determines that the vibration information is a stop signal, and takes the vibration information and the lamplight information as first input information.

And if the BPM value is not in the first preset range, the transmitter determines the vibration information as a stop signal and takes the vibration information and the lamplight information as first input information.

S324, if the BPM value is within a first preset range, the transmitter selects adaptive vibration information from a preset vibration information base based on the BPM value, and takes the adaptive vibration information and the lamplight information as first input information.

And if the BPM value is within a first preset range, the transmitter selects adaptive vibration information from a preset vibration information base based on the BPM value, and takes the adaptive vibration information and the lamplight information as first input information.

The details and steps of the method are described in the above embodiments, and are not repeated here.

In the above embodiment, by providing a receiver, a respiratory training assisting system, a method and a medium, aiming at the characteristics that breath needs to be regulated and physical perceptibility needs to be improved, such as meditation, yoga, deep sleep and the like, vibration with frequency can be realized by arranging the vibration module 220 on the receiver 10, so that the user realizes perception through touch, and trains to form muscle memory of the body, thereby solving the problem that after meditation, yoga and sleep respiratory training guiding sound disappear, the frequency and speed of breathing are controlled, so as to help the human body to enter meditation, yoga or deep sleep, and deep relaxation of the brain is realized.

And further, after receiving the third input information, the transmitter 20 processes the audio information in the receiver and generates the first input information, the transmitter 20 sends the first input information to the receiver 10, and after receiving the first input information, the receiver 10 performs intentional adjustment such as expiration, inspiration, breath holding and the like according to the current audio information by slightly, jerkily or stopping regular vibration, guiding sound or environmental sound in combination with vibration sent by the receiver 10. So that the user can feel the corresponding vibration by holding the receiver 10 on the palm or other parts of the body, and the user does not need to divide the mind any more to exhale, and the reading seconds of inhaling are counted.

The invention also provides a control device of the respiratory training auxiliary System, and each functional module in the control device of the respiratory training auxiliary System provided by the embodiment of the invention can be stored in a memory in the form of software or Firmware (Firmware) or solidified in an Operating System (OS) of the respiratory training auxiliary equipment and can be executed by a processor in the respiratory training auxiliary equipment. Meanwhile, data, codes of programs, and the like required for executing the above-described modules may be stored in the memory.

Embodiments of the present invention also provide a readable storage medium having stored thereon a computer program which, when executed by a processor, implements a respiratory training assistance method as in any one of the preceding embodiments. The computer readable storage medium may be, but is not limited to, a usb disk, a removable hard disk, ROM, RAM, PROM, EPROM, EEPROM, a magnetic disk, or an optical disk, etc. various media capable of storing program codes.

In summary, by providing a receiver, a respiratory training assisting system, a method and a medium, aiming at the characteristics that breath needs to be regulated and physical perceptibility needs to be improved, such as meditation, yoga, deep sleep and the like, vibration module 220 is arranged on receiver 10 so as to realize vibration with frequency, and a user realizes perception through touch, trains muscle memory of a formed body, thereby solving the problem that after meditation, yoga and sleep respiratory training guiding sound disappear, the frequency and speed of breathing are controlled so as to help a human body to enter meditation, yoga or deep sleep and deep relaxation of brain.

And further, after receiving the third input information, the transmitter 20 processes the audio information in the receiver and generates the first input information, the transmitter 20 sends the first input information to the receiver 10, and after receiving the first input information, the receiver 10 performs intentional adjustment such as expiration, inspiration, breath holding and the like according to the current audio information by slightly, jerkily or stopping regular vibration, guiding sound or environmental sound in combination with vibration sent by the receiver 10. So that the user can feel the corresponding vibration by holding the receiver 10 on the palm or other parts of the body, and the user does not need to divide the mind any more to exhale, and the reading seconds of inhaling are counted.

The present invention is not limited to the above embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (13)

1. A receiver for making contact with a user, the receiver comprising: a receiving main control module and a vibration module connected with the receiving main control module,

the receiving main control module is used for receiving first input information and controlling the vibration module to vibrate according to preset frequency based on the first input information;

wherein the first input information is transmitted by user input and/or by a transmitter.

2. The receiver of claim 1, further comprising a first speaker and a first light module in communication with the receiving master module;

the receiving main control module is also used for controlling the first loudspeaker to play preset music and controlling the first light module to emit preset light based on the first input information.

3. The receiver of claim 2, further comprising a first battery pack and a first audio module connected to the receiving master module;

the first battery pack is used for supplying power to the receiver;

the first audio module is used for storing and/or decoding audio information.

4. The receiver according to claim 1, further comprising a first input module and/or a first communication module connected to the receiving master module;

the first input module is used for receiving the first input information of a user; and/or

The first communication module is used for being in communication connection with the transmitter and receiving first input information sent by the transmitter.

5. A respiratory training aid system, comprising the receiver of any one of claims 1-4 and the transmitter of claim 1;

the transmitter comprises a transmitting main control module and a second communication module connected with the transmitting main control module;

the transmitting control module is used for controlling the second communication module to send the first input information to the receiver;

wherein the first input information includes at least vibration information;

the receiving main control module is used for controlling the vibration module to vibrate according to preset frequency based on the vibration information.

6. The respiratory training aid system of claim 5,

the transmitting main control module is used for receiving second input information;

the transmitting main control module is used for determining the first input information based on the second input information; and/or

The transmitter further comprises a second loudspeaker and a second light module which are connected with the transmitting main control module, and the transmitting main control module is further used for controlling the second loudspeaker to play preset music and controlling the second light module to emit preset light based on the second input information;

the second input information is input by a user and/or sent by an external terminal.

7. The respiratory training aid system of claim 6,

the transmitter further comprises a second input module and/or a third communication module which are connected with the transmitting main control module;

the third input module is used for receiving the second input information of the user; and/or

The third communication module is used for being in communication connection with the external terminal and receiving second input information sent by the external terminal.

8. The respiratory training aid system according to claim 6, wherein the second input information comprises audio information, the transmit master control module for determining the first input information based on the second input information, comprising:

the transmitter main control module is used for determining lamplight information based on the audio information;

the transmitter main control module is used for calculating the BPM value of the audio information;

the transmitting main control module is used for determining vibration information as a stop signal when the BPM value is not in a first preset range, and taking the vibration information, the lamplight information and/or the audio information as first input information;

and the transmitting main control module is used for selecting adaptive vibration information from a preset vibration information base based on the BPM value when the BPM value is in a first preset range, and taking the adaptive vibration information, the lamplight information and/or the audio information as first input information.

9. A method of respiratory training assistance, wherein the method of respiratory training assistance is applied to the receiver of any one of claims 1-4, the receiver comprising a vibration module, the method comprising:

acquiring first input information;

controlling the vibration module to vibrate according to a preset frequency based on the first input information;

wherein the first input information is transmitted by user input and/or by a transmitter.

10. A method of respiratory training assistance, characterized in that the respiratory training assistance method is applied in a respiratory training assistance system according to any one of claims 5-8, the respiratory training assistance system comprising at least one receiver, the receiver comprising a vibration module, the respiratory training assistance system further comprising a transmitter;

the transmitter transmits first input information to the receiver, so that the receiver controls the vibration module to vibrate according to preset frequency based on the first input information;

wherein the first input information includes at least vibration information.

11. The respiratory training aid method of claim 10, wherein the transmitter further comprises a second speaker and a second light module, the method further comprising:

the transmitter receives second input information;

the transmitter determining the first input information based on the second input information; and/or

The transmitter controls the second loudspeaker to play preset music and controls the second light module to emit preset light based on the second input information;

the second input information is input by a user and/or sent by an external terminal.

12. The respiratory training assistance method of claim 11, wherein the second input information comprises audio information, the transmitter determining the first input information based on the second input information, comprising:

the transmitter determining light information based on the audio information;

the transmitter calculates a BPM value of the audio information;

if the BPM value is not in the first preset range, the transmitter determines that the vibration information is a stop signal, and takes the vibration information and the lamplight information as first input information;

and if the BPM value is in a first preset range, the transmitter selects adaptive vibration information from a preset vibration information base based on the BPM value, and takes the adaptive vibration information and the lamplight information as first input information.

13. A readable storage medium having stored thereon a computer program, which when executed by a processor implements a respiratory training assistance method according to any one of claims 1-8.