CN111632362A - Body-building ring with motion mode detection - Google Patents

Abstract

The invention provides a body-building ring with motion mode detection, which comprises an elastic ring body; the sensor module is fixedly arranged on the elastic ring body; the outer shell is wrapped outside the sensor module; the BLE Bluetooth module is arranged inside the outer shell and is connected with the sensor module; and the sensor module and the BLE Bluetooth module are used for supplying power to the power module. Compared with the existing body-building ring, the body-building ring disclosed by the invention has more interestingness, intelligence and science and technology sense, can realize more and more complex functions when being used specifically, and can better meet the use requirements of people.

Description

Body-building ring with motion mode detection

[ technical field ] A method for producing a semiconductor device

The invention relates to a body-building ring, in particular to a body-building ring with motion mode detection.

[ background of the invention ]

With the continuous progress of science and technology, internet technology and artificial intelligence technology are rapidly emerging, and the intelligent trend of fitness equipment is increasingly obvious. As one of fitness equipment, the fitness ring has a simple exercise function which cannot meet the use requirements of people, namely the existing fitness ring has a single function and cannot meet the actual use requirements. Therefore, how to make the body-building ring more interesting, more intelligent and more scientific and technological becomes the problem which needs to be solved urgently.

[ summary of the invention ]

The invention aims to solve the technical problem of providing a body-building ring with motion mode detection, and solves the problem that the existing body-building ring is single in function and cannot meet the actual use requirement.

The invention is realized by the following steps: a fitness ring with motion pattern detection, the fitness ring comprising:

an elastic ring body;

the sensor module is fixedly arranged on the elastic ring body;

the outer shell is wrapped outside the sensor module;

the BLE Bluetooth module is arranged inside the outer shell and is connected with the sensor module;

and the sensor module and the BLE Bluetooth module are used for supplying power to the power module.

Further, the exercise ring further comprises:

the heart rate module is arranged inside the outer shell and is connected with the BLE Bluetooth module;

and the heart rate sensing device is fixedly arranged on the surface of the outer shell and is connected with the heart rate module.

Further, the heart rate sensing device is any one of a metal heart rate sensing sheet, an optical heart rate sensor and an infrared heart rate sensor.

Further, the exercise ring further comprises:

the vibration motor is arranged inside the outer shell and connected with the BLE Bluetooth module.

Further, the sensor module includes:

the geomagnetic sensor is connected with the BLE Bluetooth module;

the acceleration sensor is connected with the BLE Bluetooth module;

and the gyroscope is connected with the BLE Bluetooth module.

Further, the sensor module further includes:

the two ends of the aluminum alloy carrier are fixedly connected with the elastic ring body;

the half-bridge stress sensor is attached to the aluminum alloy carrier;

and the half-bridge stress sensor is connected with the BLE Bluetooth module through the differential amplification module.

The invention has the advantages that: the sensor module comprises a geomagnetic sensor, an acceleration sensor, a gyroscope and a half-bridge stress sensor, and can acquire various parameters such as azimuth, deformation, rotation angular velocity, heart rate and the like; meanwhile, the acquired parameter signals can be transmitted to other receiving equipment through the BLE Bluetooth module and used for controlling the relevant operation of other receiving equipment; therefore, compared with the existing body-building ring, the body-building ring disclosed by the invention has more interest, intelligence and science and technology sense, can realize more and more complex functions when being used specifically, and can better meet the use requirements of people.

[ description of the drawings ]

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a general block diagram of a fitness ring with motion pattern detection according to the present invention.

Fig. 2 is a schematic view of the internal structure of a body-building ring with motion pattern detection according to the present invention.

Description of reference numerals:

the system comprises a 100-fitness ring, a 1-elastic ring body, a 2-sensor module, a 21-geomagnetic sensor, a 22-acceleration sensor, a 23-gyroscope, a 24-aluminum alloy carrier, a 25-half-bridge stress sensor, a 26-differential amplification module, a 3-outer shell, a 4-BLE Bluetooth module, a 5-power module, a 6-heart rate module, a 7-heart rate sensing device and an 8-vibration motor.

[ detailed description ] embodiments

The embodiment of the invention provides the body-building ring with the motion mode detection function, solves the technical problems that the existing body-building ring is single in function and cannot meet the actual use requirements, achieves more interesting, intelligent and scientific senses, can realize more and more complex functions, and can better meet the technical effects of the use requirements of people.

In order to solve the above problems, the technical solution in the embodiments of the present invention has the following general idea: the sensor module and the heart rate module are integrated on the elastic ring body, the sensor module comprises a geomagnetic sensor, an acceleration sensor, a gyroscope and a half-bridge stress sensor, and acquisition of various parameters such as azimuth, deformation, rotation angular speed and heart rate can be realized; still set BLE bluetooth module simultaneously, can transmit the parameter signal who gathers to other receiving equipment to be used for controlling other receiving equipment's relevant operation.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

Referring to fig. 1 to 2, in accordance with a preferred embodiment of the exercise ring 100 with exercise mode detection of the present invention, the exercise ring 100 comprises:

an elastic ring body 1; the elastic ring body 1 can be made of elastic materials such as rubber;

the sensor module 2 is fixedly arranged on the elastic ring body 1, and the sensor module 2 is used for detecting the motion mode of a human body;

the outer shell 3 is wrapped on the outer side of the sensor module 2, the outer shell 3 can be made of plastic, and the outer shell 3 is used for protecting internal components;

the BLE Bluetooth module 4 is arranged inside the outer shell 3, and the BLE Bluetooth module 4 is connected with the sensor module 2; the BLE bluetooth module 4 is used for communicating with other receiving devices (not shown) so as to realize data transmission and remote control operation; in a specific implementation, the BLE bluetooth module 4 includes an MCU (not shown), and the BLE bluetooth module 4 may be implemented by a chip of model NRF 52832;

the power module 5 is arranged inside the outer shell 3, and the sensor module 2 and the BLE Bluetooth module 4 are both powered by the power module 5; the power module 5 is configured to provide power, and in specific implementation, the power module 5 may be implemented by using a chip of a model number ME4056, ME6209a33M3G, or ME6209a18M 3G.

In this embodiment, the exercise ring 100 further comprises:

the heart rate module 6 is arranged inside the outer shell 3, and the heart rate module 6 is connected with the BLE Bluetooth module 4; the heart rate module 6 is used for collecting heart rate signals of a user and transmitting the collected heart rate signals to other receiving equipment through the BLE Bluetooth module 4;

a heart rate induction element 7, heart rate induction element 7 set firmly in the surface of shell body 3, heart rate induction element 7 with heart rate module 6 is connected.

In a specific implementation, the heart rate sensing device 7 is any one of a metal heart rate sensing sheet, an optical heart rate sensor and an infrared heart rate sensor. When the heart rate sensing device 7 is a metal heart rate sensing sheet, the heart rate can be detected by contacting the skin (generally, a fingertip) of a user with metal in a manner of detecting bioelectricity of the user, and particularly, the heart rate can be detected by using a TM998 device; when the heart rate sensing device 7 is an optical heart rate sensor, the heart rate data of the user can be calculated by emitting the flickering light of the LED light source to the skin (generally, a fingertip) and reflecting the flickering light back through the skin tissue, and the heart rate sensing device can be implemented by, for example, a MAX30102 device; when the heart rate sensing device 7 is an infrared heart rate sensor, the heart rate data of the user is calculated by emitting the flickering light of the infrared light source to the skin and reflecting the flickering light back through the skin tissue, and the heart rate sensing device can be specifically realized by adopting an HKG-07B device. Meanwhile, the heart rate module 6 can also amplify the collected heart rate signals and perform other processing.

In this embodiment, the exercise ring 100 further comprises:

the vibration motor 8 is arranged inside the outer shell 3, and the vibration motor 8 is connected with the BLE Bluetooth module 4; the vibration motor 8 is used for realizing information feedback in a vibration mode, and in specific implementation, when other receiving devices return a triggering signal of response to the BLE bluetooth module 4, the BLE bluetooth module 4 may trigger the vibration motor 8 to vibrate so as to feed information back to a user.

In this embodiment, the sensor module 2 includes:

a geomagnetic sensor 21, wherein the geomagnetic sensor 21 is connected with the BLE bluetooth module 4; the geomagnetic sensor 21 is configured to perform azimuth determination by combining an earth magnetic field, and in specific implementation, the geomagnetic sensor 21 is a three-axis geomagnetic sensor and may be implemented by using a sensor of a type MMC 5983;

an acceleration sensor 22, wherein the acceleration sensor 22 is connected with the BLE bluetooth module 4; the acceleration sensor 22 is used for acquiring acceleration, and the acceleration sensor 22 is a three-axis acceleration sensor;

the gyroscope 23 is connected with the BLE bluetooth module 4, the gyroscope 23 is used for measuring the rotation angular velocity during deflection and inclination, and the gyroscope 23 is a three-axis gyroscope. In the implementation of the present invention, a six-axis processing component with a model number of MPU6050 may be used to simultaneously implement the functions of the acceleration sensor 22 and the gyroscope 23.

In this embodiment, the sensor module 2 further includes:

the two ends of the aluminum alloy carrier 24 are fixedly connected with the elastic ring body 1;

a half-bridge stress sensor 25, wherein the half-bridge stress sensor 25 is attached to the aluminum alloy carrier 24; the half-bridge stress sensor 25 is used for detecting the specific deformation degree of the elastic ring body 1;

the half-bridge stress sensor 25 is connected with the BLE Bluetooth module 4 through the differential amplification module 26; the differential amplification module 26 is configured to amplify and denoise deformation data acquired by the half-bridge stress sensor 25, and in specific implementation, the differential amplification module 26 may be implemented by using an amplifier of the model TLC27L 2C.

When the fitness ring works specifically, the detection of various human body motion modes can be realized, and the fitness ring specifically comprises but is not limited to the following various combination modes:

(1) when the elastic ring body 1 slightly rotates in any one of the four directions of front, back, left and right (no more than 45 degrees), the acceleration sensor 22 and the gyroscope 23 in the sensor module 2 can detect the rotating direction and estimate the rotating speed; the BLE bluetooth module 4 may transmit the direction signal detected by the acceleration sensor 22 and the gyroscope 23 to other receiving devices, and is configured to control up, down, left, and right operations (such as game operations) of the other receiving devices; the other receiving device may be, but not limited to, a personal computer, an Android device, an IOS device, etc.;

(2) when the elastic ring body 1 is horizontal to the ground, the geomagnetic sensor 21 and the acceleration sensor 22 in the sensor module 2 can detect a signal horizontal to the ground; the BLE bluetooth module 4 may transmit the signals detected by the geomagnetic sensor 21 and the acceleration sensor 22 and horizontal to the ground to other receiving devices, and is configured to control related operations of the other receiving devices;

when the elastic ring body 1 is vertical to the ground, the geomagnetic sensor 21 and the acceleration sensor 22 in the sensor module 2 can detect signals vertical to the ground; the BLE bluetooth module 4 may transmit the signals detected by the geomagnetic sensor 21 and the acceleration sensor 22, which are vertical to the ground, to other receiving devices, and may be configured to control related operations of the other receiving devices, such as a deletion operation;

(3) when a user squeezes the elastic ring body 1, the deformation of the elastic ring body 1 is transmitted to a half-bridge stress sensor 25 in the sensor module 2, and the half-bridge stress sensor 25 detects the specific deformation degree of the elastic ring body 1; the BLE bluetooth module 4 may transmit the specific deformation signal detected by the half-bridge stress sensor 25 to other receiving devices, and is configured to control related operations of the other receiving devices, such as a confirmation operation;

(4) when a user shakes the elastic ring body 1 up and down, or runs with the elastic ring body 1, the acceleration sensor 22 and the geomagnetic sensor 21 in the sensor module 2 can detect corresponding waveform changes; the BLE bluetooth module 4 may transmit the waveform change signal detected by the acceleration sensor 22 and the geomagnetic sensor 21 to other receiving devices, and is configured to control related operations of the other receiving devices;

(5) when a user clings a finger to the heart rate sensing device 7 (when the heart rate sensing device 7 is a metal heart rate sensing piece) or the heart rate sensing device 7 (when the heart rate sensing device 7 is an optical heart rate sensor or an infrared heart rate sensor) senses the finger of the user, the heart rate module 6 can acquire a heart rate signal of the user; the BLE Bluetooth module 4 can transmit the heart rate signal of the heart rate module 6 to other receiving equipment, and the other receiving equipment displays the heart rate;

(6) the BLE bluetooth module 4 may receive response trigger signals returned by other receiving devices, and trigger the vibration motor 8 to vibrate, so as to feed information back to the user.

In summary, the invention has the following advantages: the sensor module comprises a geomagnetic sensor, an acceleration sensor, a gyroscope and a half-bridge stress sensor, and can acquire various parameters such as azimuth, deformation, rotation angular velocity, heart rate and the like; meanwhile, the acquired parameter signals can be transmitted to other receiving equipment through the BLE Bluetooth module and used for controlling the relevant operation of other receiving equipment; therefore, compared with the existing body-building ring, the body-building ring disclosed by the invention has more interest, intelligence and science and technology sense, can realize more and more complex functions when being used specifically, and can better meet the use requirements of people.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (6)

1. A body-building ring with motion mode detection is characterized in that: the exercise ring comprises:

an elastic ring body;

the sensor module is fixedly arranged on the elastic ring body;

the outer shell is wrapped outside the sensor module;

the BLE Bluetooth module is arranged inside the outer shell and is connected with the sensor module;

and the sensor module and the BLE Bluetooth module are used for supplying power to the power module.

2. The exercise ring with motion pattern detection as recited in claim 1, wherein: the exercise ring further comprises:

the heart rate module is arranged inside the outer shell and is connected with the BLE Bluetooth module;

and the heart rate sensing device is fixedly arranged on the surface of the outer shell and is connected with the heart rate module.

3. The exercise ring with motion pattern detection as recited in claim 2, wherein: the heart rate sensing device is any one of a metal heart rate sensing sheet, an optical heart rate sensor and an infrared heart rate sensor.

4. The exercise ring with motion pattern detection as recited in claim 1, wherein: the exercise ring further comprises:

the vibration motor is arranged inside the outer shell and connected with the BLE Bluetooth module.

5. The exercise ring with motion pattern detection as recited in claim 1, wherein: the sensor module includes:

the geomagnetic sensor is connected with the BLE Bluetooth module;

the acceleration sensor is connected with the BLE Bluetooth module;

and the gyroscope is connected with the BLE Bluetooth module.

6. The exercise ring with motion pattern detection as recited in claim 5, wherein: the sensor module further includes:

the two ends of the aluminum alloy carrier are fixedly connected with the elastic ring body;

the half-bridge stress sensor is attached to the aluminum alloy carrier;

and the half-bridge stress sensor is connected with the BLE Bluetooth module through the differential amplification module.

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