CN214344200U - Human body limb movement and instrument movement simulated sound motion capability enhancing device - Google Patents

Abstract

The utility model discloses a human body limb movement and instrument movement simulation sound enhancement motion capability device, which comprises a sensor module and a processing sound production module, wherein the sensor module is used for collecting and transmitting limb movement amplitude track signals and/or instrument movement amplitude track signals to the processing sound production module; and the processing sound production module is used for receiving and analyzing the limb movement amplitude signal and/or the instrument movement amplitude track signal, and extracting and producing music or sound effect corresponding to the signals. The utility model can automatically identify the current exercise type of the user and automatically play the music and/or sound effect matched with the exercise type and the exercise frequency; just the utility model discloses a sensor module can install alone on the limbs of motion or the apparatus, compares in the current form of using mobile terminal to place on one's body as the sensor purely, and its motion type discernment is undoubtedly more accurate and professional.

Description

Human body limb movement and instrument movement simulated sound motion capability enhancing device

Technical Field

The utility model relates to a human body limb movement and apparatus motion simulation sound reinforcing motion ability device belongs to the motion auxiliary device field.

Background

With the social progress, the living standard of people is improved, the work is busy, the food is rich, and the amount of exercise is reduced, so that the health of people is threatened. People can participate in sports for physical health, and people can encounter various difficulties during sports, such as irregular or even incomplete movements caused by the increase of difficulty of movements during the process of dancing or martial arts. According to the above-mentioned problem, design a human limbs motion simulation music scheme, according to limbs motion amplitude and apparatus motion amplitude at human limbs motion and exercise apparatus motion amplitude, use the utility model discloses simulate corresponding audio and music, the people ears listen to the music in real time when the motion, are showing and are improving human limbs motion ability.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a human body limb motion and apparatus motion simulation sound reinforcing motion ability device, the utility model discloses according to limb motion range and operation apparatus motion range, sensor module takes notes limb motion range and apparatus motion range orbit signal, and sensor module sends the orbit signal wireless and wired transmission to computer circuit arrangement, and computer terminal circuit arrangement simulates corresponding sound, and when people's limb motion health and operation exercise apparatus, the people's ear listens to the sound of people's own limb motion and apparatus motion orbit simulation in real time, is showing the device that improves human motion ability.

The utility model discloses a following technical scheme realizes: a device for simulating sound and enhancing athletic ability of human limb movement and instrument movement comprises a sensor module and a processing sound production module, wherein,

the sensor module is used for collecting and transmitting limb movement amplitude track signals and/or instrument movement amplitude track signals to the processing sound production module;

and the processing sound production module is used for receiving and analyzing the limb movement amplitude track signal and/or the instrument movement amplitude track signal, and extracting and producing music or sound effect corresponding to the signals.

Furthermore, the sensor module comprises one of an acceleration sensor, a displacement sensor, a gyroscope sensor, a magnetometer sensor, an attitude sensor, a first power supply and a signal transmitter, the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor are all connected with the signal transmitter, the first power supply supplies power to the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor, the attitude sensor and the signal transmitter, and at least one of the speed sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor works.

Furthermore, handle sound production module and include signal receiver, central processing unit, memory, sound player, tangible display screen and second power, signal receiver, memory, sound player and tangible display screen all with central processing unit connects, the second power to signal receiver, central processing unit, memory, sound player and tangible display screen power supply.

Further, the sensor module is wirelessly connected with the processing sound production module.

Further, the sensor module is arranged on the limb and is a bandage type sensor.

Furthermore, the sensor module is arranged on the instrument and is a patch type sensor or a built-in type sensor.

Furthermore, the processing sound production module is a mobile terminal, an intelligent wearable device, a notebook computer terminal or a desktop computer terminal.

Further, the sensor module further comprises a vibration sensor for generating amplitude information of the limb/instrument.

Furthermore, the processing sound production module comprises a signal receiver, a central processing unit, a memory, a sound player, a key controller, a display screen and a second power supply, wherein the signal receiver, the memory, the sound player and the key controller are all connected with the central processing unit, and the second power supply supplies power to the signal receiver, the central processing unit, the memory, the sound player and the key controller.

Further, the key controller is used for a user to send an operation instruction to the central processing unit; the display screen is used for being controlled by the central processing unit and displaying the motion data according to the motion data display information.

The beneficial effects of the utility model reside in that: the utility model provides a device for enhancing the athletic ability of the simulated sound of the body limb movement and the instrument movement, which can automatically identify the type of the current exercise of a user and automatically play the matched music and/or sound effect according to the type of the exercise and the exercise frequency; just the utility model discloses a sensor module can install alone on the limbs of motion or the apparatus, compares in the current form of using mobile terminal to place on one's body as the sensor purely, and its motion type discernment is undoubtedly more accurate and professional.

Drawings

FIG. 1 is a schematic diagram of a system structure of a device for simulating human body limb movement and instrument movement to enhance exercise capacity, wherein a sensor module and a processing generation module are not integrated into a whole;

FIG. 2 is a schematic diagram of the system structure of the device for simulating the sound and enhancing the exercise capacity of the body limb exercise and the apparatus exercise according to the present invention, wherein the sensor module and the processing generation module are integrated;

FIG. 3 is a schematic diagram of another system structure of the device for simulating human body limb movement and instrument movement to enhance exercise capacity of the present invention when the sensor module and the processing generation module are integrated;

fig. 4 is a flow chart of an operation method of the device for simulating the sound to enhance the exercise capacity of the human body limb exercise and the instrument exercise based on the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides an embodiment of a device for simulating sounds to enhance exercise capacity of human body limb movements and instrument movements, comprising a sensor module and a processing sound module, wherein,

the sensor module is used for collecting and transmitting limb movement amplitude track signals and/or instrument movement amplitude track signals to the processing sound production module;

and the processing sound production module is used for receiving and analyzing the limb movement amplitude track signal and/or the instrument movement amplitude track signal, and extracting and producing music or sound effect corresponding to the signals.

Specifically, the utility model discloses a human body limb motion and apparatus motion simulation sound reinforcing motion ability's device can measure user's limbs or each item motion parameter who uses the apparatus through sensor module all-round to carry out the analysis through handling sound production module, judge the motion type, and then send corresponding music and effect. And when carrying out the limbs motion, can with the utility model discloses a device is tie up and is tied up on one's body, also perhaps inserts one's shoulder or shoulder in the pocket, and when carrying out the apparatus exercise, sensor module then can install on the apparatus, is more convenient for like this handle the sound production module and accurately discern current motion type. Use the utility model discloses can show the limb movement ability that improves the user, show the motion of reinforcing wushu and dance and the ability of performing. The user uses for a long time the utility model discloses, can temper the coordination ability of hand and brain ear, the user can be given through the touch-sensitive screen in handling the sound production module the utility model discloses the setting parameter sets up corresponding music.

In the operation of reality, sensor module and processing sound production module can be the branch put, also can arrange in an organic whole, like some mobile terminal (cell-phone, panel computer, bracelet, removal notebook computer terminal etc.), sensor module and processing generate the module all can directly use each hardware in the above-mentioned mobile terminal, then through processing generate the module through the mobile terminal from the audio output mouth (including wired audio output, wireless audio output is like bluetooth, WIFI etc.) of taking with audio signal transmission to mobile terminal built-in, external audio player on or in the earphone.

Referring to fig. 1, in this preferred embodiment, the sensor module includes an acceleration sensor, a displacement sensor, a gyroscope sensor, a magnetometer sensor, an attitude sensor, a first power supply and a signal transmitter, the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor are all connected to the signal transmitter, the first power supply supplies power to the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor, the attitude sensor and the signal transmitter, and at least one of the speed sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor operates.

Specifically, in the actual use process, only one sensor in the sensors can work, two sensors can work in combination, or three or more sensors work simultaneously, and so on, namely, a plurality of sensors can be combined and matched at will to work simultaneously so as to be suitable for different working environments.

In the preferred embodiment of this section of the invention,

an acceleration sensor for generating acceleration information of the limb/instrument;

a displacement sensor for generating displacement information of the limb/instrument;

a gyroscope sensor for generating angular velocity information of the limb/instrument;

a magnetometer sensor for generating directional standard information;

a gesture sensor for generating three-dimensional gesture orientation information of the limb/instrument;

and the signal transmitter is used for receiving and transmitting information generated by the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor.

Specifically, the utility model discloses a multiple sensor can accurately measure the movement track and the dynamics of limbs or apparatus. In this embodiment, the sensors in the sensor module do not necessarily function simultaneously, and may be operated one, two or more simultaneously, depending on the type of motion identified, to reduce the excess energy consumption and extend the endurance time of the device.

Referring to fig. 1-2, in the present preferred embodiment, the processing sound generation module includes a signal receiver, a central processing unit, a memory, a sound player, a touch-enabled display screen, and a second power supply, wherein the signal receiver, the memory, the sound player, and the touch-enabled display screen are all connected to the central processing unit, and the second power supply supplies power to the signal receiver, the central processing unit, the memory, the sound player, and the touch-enabled display screen.

In some preferred embodiments, the first power source and the second power source are batteries, wired power sources, or wireless power sources.

Specifically, the power supply is a battery or a wired power supply, and the power supply can be determined according to the field environment. If the indoor movement has long duration, small movement amplitude and no need of large degree of freedom, a wired power supply or a battery can be selected. If the degree of freedom is large or outdoor movement is performed, the battery power supply is undoubtedly better.

In the preferred embodiment of this part, the signal receiver is used for receiving the information sent by the sensor module and sending the information to the central processing unit;

the central processing unit is used for receiving and processing the information from the signal receiver, extracting corresponding sound effect/music data from the memory according to the processing result and sending the sound effect/music data to the sound player;

the central processing unit is also used for generating motion data display information according to the processing result and sending the motion data display information to the touchable display screen;

the central processing unit is also used for receiving and processing an operation instruction from the touchable display screen;

the memorizer, is used for storing the orbit data of multiple movement amplitude, and the sound effect/music data matched with multiple movements;

the sound player is used for receiving and playing the sound effect/music data sent by the central processing unit;

and the touchable display screen is used for displaying the motion data according to the motion data display information and sending an operation instruction to the central processing unit.

Specifically, in this embodiment, a large amount of motion amplitude trajectory data are stored in the memory, and are stored in different categories according to the unknown motion types, each motion and various motion amplitude trajectory data in each motion have respective numbers, and similarly, the sound effects and music in the sound effect/music database in the memory are also stored in different categories according to different motion types, and are also provided with numbers, and the motion type database and the sound effect/music database are mapped correspondingly, so that the traversal and retrieval of the central processing unit are facilitated. And the utility model discloses a memory can read and write, and the user can carry out the calibration of current motion type and the rewrite of corresponding music/audio according to tangible display screen, establishes the motion discernment that is suitable for the user's custom and the broadcast of music/audio.

Referring to fig. 1, in the preferred embodiment of this section, the sensor module is wired to the processing and sound generating module.

In the preferred embodiment of this section, the sensor module and the processing and sound generating module are integrated in the same device.

Specifically, in this embodiment, refer to fig. 2 and show, this device can directly adopt cell-phone, panel computer, intelligent bracelet or other mobile terminal as the utility model discloses a carrier utilizes in the above-mentioned carrier self-contained the utility model discloses required each component utilizes the utility model discloses an operation method can realize the technical effect of the utility model. This applies to movements of the limb itself, in particular large movements of the whole body, since these do not have any particular requirements as to the position of the sensor module. Referring to fig. 2, when the sensor module and the processing sound module are integrated in the same device, the same power source can be used, and the signal transmitter in the sensor module and the signal receiver in the processing sound module can be eliminated, so as to simplify the device structure.

In the preferred embodiment of this part, the sensor module is wirelessly connected with the processing sound production module.

In the preferred embodiment of this section, the sensor module is mounted on the limb as a strap-on sensor.

In the preferred embodiment of the present part, the sensor module is mounted on the instrument and is a patch sensor or a built-in sensor.

Specifically, in this embodiment, the sensor module and the processing sound module of the device are separated, which is suitable for only local movement in the limbs of the human body or for training of instruments. The sensor module is arranged on the moving limb or instrument for information collection, so that the processing sound production module can more accurately identify the type and the movement frequency of the current movement.

In the preferred embodiment of this section, the processing sound module is a mobile terminal.

In this preferred embodiment, the mobile terminal includes a mobile phone, a tablet computer or a notebook computer, and the smart wearable device includes a bracelet.

In the preferred embodiment of this section, the processing sound module is a computer terminal.

Referring to fig. 1-3, in the presently preferred embodiment, the sensor module further includes a shock sensor for generating amplitude information of the limb/instrument.

Referring to fig. 3, in this preferred embodiment, the processing sound generation module includes a signal receiver, a central processing unit, a memory, a sound player, a key controller, a display screen, and a second power supply, where the signal receiver, the memory, the sound player, and the key controller are all connected to the central processing unit, and the second power supply supplies power to the signal receiver, the central processing unit, the memory, the sound player, and the key controller.

In the preferred embodiment of this section, the key controller is used for the user to send the operation instruction to the central processing unit; the display screen is used for being controlled by the central processing unit and displaying the motion data according to the motion data display information.

The utility model also provides an embodiment of a human body limb movement and apparatus motion simulation sound enhanced athletic ability device operation method, is applied to foretell human body limb movement and apparatus motion simulation sound enhanced athletic ability device, and the operation method includes following step:

s100: after the movement starts, the sensor module generates a limb movement amplitude track signal and/or an instrument movement amplitude track signal and sends the movement amplitude track signal to the processing and sound production module;

s200: the central processing unit in the processing sound production module is matched with all motion amplitude trajectory data in the memory one by one according to the motion amplitude trajectory signals, and the current motion type of the user is determined according to the most approximate motion amplitude trajectory data;

s300: the central processing unit extracts music and/or sound effects corresponding to the movement type from the memory according to the determined movement type and sends the music and/or sound effects to the sound player;

s400: the sound player plays music and/or sound effects corresponding to the type of motion.

Referring to fig. 4, in this preferred embodiment, S300 includes the following steps:

s310: the central processing unit calculates the motion frequency of the current user;

s320: the central processing unit synchronizes the playing frequency of the sound effect corresponding to the motion type with the calculated motion frequency of the user;

s330: and the central processing unit sends a sound effect playing signal to the sound player according to the processed sound effect playing frequency.

Specifically, because some sports are repeated and regular, the movement period is constant, and if the sound effect rhythm sent by the sound player is not matched with the movement rhythm, the user is seriously disturbed. Therefore, in this case, once the motion type is determined, and the motion type is a repetitive and regular motion, the central processing unit needs to determine the current motion frequency according to the signal transmitted from the sensor module, and further adjust the sound frequency of the simulated sound effect to make the frequencies of the two consistent. In step S100, if so

Referring to fig. 4, in this preferred embodiment, the following steps are further included between S300 and S400:

s340: judging whether the current motion type is changed or not by the central processing unit, if so, returning to S200; otherwise, the previously set music and/or sound effect data is continuously sent to the sound player.

Specifically, in this embodiment, the utility model discloses an operation method supports real-time dynamic change music or audio. In reality, a series of movements made by the user may involve many different movements, and the movement changes without interruption. Therefore, the processor module needs to send detection data in real time, correspondingly, the central processing unit needs to detect in real time to detect whether the current movement is changed compared with the previous movement, and if the current movement is changed, the currently used music or sound effect needs to be replaced in time to be matched with the new movement type.

Claims (9)

1. A device for simulating sound and enhancing athletic ability of human limb movement and instrument movement is characterized by comprising a sensor module and a processing sound production module, wherein,

the sensor module is used for collecting and transmitting limb movement amplitude track signals and/or instrument movement amplitude track signals to the processing sound production module;

the processing sound production module is used for receiving and analyzing the limb movement amplitude track signal and/or the instrument movement amplitude track signal, extracting and producing music or sound effect corresponding to the signals,

the sensor module comprises an acceleration sensor, a displacement sensor, a gyroscope sensor, a magnetometer sensor, an attitude sensor, a first power supply and a signal transmitter, wherein the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor are all connected with the signal transmitter, the first power supply supplies power to the acceleration sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor, the attitude sensor and the signal transmitter, and at least one sensor in the speed sensor, the displacement sensor, the gyroscope sensor, the magnetometer sensor and the attitude sensor works.

2. The device for simulating the sounds for enhancing the athletic ability of the human body limb movements and the apparatus movements as claimed in claim 1, wherein the processing sound generation module comprises a signal receiver, a central processing unit, a memory, a sound player, a touch display screen and a second power supply, the signal receiver, the memory, the sound player and the touch display screen are all connected with the central processing unit, and the second power supply supplies power to the signal receiver, the central processing unit, the memory, the sound player and the touch display screen.

3. The device for simulating the sounds for enhancing the athletic ability of the human body limbs and instruments according to claim 1, wherein the sensor module is wirelessly connected with the processing sound generation module.

4. The device for simulating the sounds for enhancing the exercise capacity of limbs and instruments of a human body as claimed in claim 3, wherein said sensor module is installed on the limbs and is a bandage type sensor.

5. The device for simulating the sounds for enhancing the exercise capacity of the human body limb exercise and the instrument exercise as claimed in claim 3, wherein the sensor module is mounted on the instrument and is a patch type sensor or a built-in type sensor.

6. The device for simulating the sounds for enhancing the exercise capacity of the human body limb motions and the instrument motions as claimed in claim 3, wherein the processing and sounding module is a mobile terminal, an intelligent wearable device, a notebook computer terminal or a desktop computer terminal.

7. The device of claim 3, wherein the sensor module further comprises a vibration sensor for generating amplitude information of the limb/device.

8. The device for simulating the sounds for enhancing the exercise capacity of the limbs and the instruments of the human body according to claim 1, wherein the processing sound generation module comprises a signal receiver, a central processing unit, a memory, a sound player, a key controller, a display screen and a second power supply, the signal receiver, the memory, the sound player and the key controller are all connected with the central processing unit, and the second power supply supplies power to the signal receiver, the central processing unit, the memory, the sound player and the key controller.

9. The device for simulating the sounds for enhancing the exercise capacity of the human body limb movements and the instruments according to claim 8, wherein the key controller is used for a user to send an operation instruction to the central processing unit; the display screen is used for being controlled by the central processing unit and displaying the motion data according to the motion data display information.

Images