CN110236510A - A fully automatic intelligent sports training system - Google Patents

Abstract

The invention relates to a fully automatic intelligent sports training system. A single-chip processor is fixedly installed in the connecting frame, a depth displacement sensing device connected with the single-chip processor is arranged on the base, and a sensor for processing with the single-chip processor is arranged at the bottom of the top cover. Infrared non-contact monitoring device connected to the device, a visual plane displacement display device connected to the single-chip processor is installed on the inner side of the connecting frame, and a power line is installed at the bottom of the connecting frame; it overcomes the equipment intelligence that traditional sports training relies on For defects with a low degree of automation, planar displacement and depth displacement sensing are used, combined with infrared heart rate data collection, and the data is integrated into the display to achieve visual display. Real-time monitoring and data monitoring are realized during the training process, and the training effect is obtained. Reasonable monitoring and monitoring; customer service has overcome the defects of some wearable training monitoring equipment currently on the market. It has a wide range of data collection, a wide range of use, strong monitoring means, and a wide range of applications. It has realized comprehensive monitoring means and methods, which is helpful for the efficient development of physical training.

Description

A fully automatic intelligent sports training system

technical field

The invention relates to the field of sports, in particular to a fully automatic intelligent sports training system.

Background technique

Physical training refers to the sports activities that people choose according to their physical needs, use various sports methods, and combine natural forces and hygiene measures to develop their bodies, improve their health, strengthen their physique, adjust their spirits, enrich their cultural life and control their spare time. . Physical training is the main form of mass sports activities. It plays an important role in promoting the growth and development of the human body, cultivating a healthy body, improving the working ability of the body, eliminating fatigue, regulating emotions, preventing and curing diseases, prolonging life and even improving the physique of the entire nation. The form and content of physical training are flexible and diverse, and can be exercised alone or in groups. The content is extremely rich and can be divided into: fitness sports, bodybuilding sports, recreational sports, combat sports, medical and corrective sports, etc. The determination of training content and methods and the whole process should be targeted, tailored to individual conditions, step by step, persistent, appropriate load, etc.

At present, traditional sports training relies on equipment with a low degree of intelligence. When users use these traditional equipment for training, they rely on subjectivity to implement training, and the effect of their training has not been reasonably monitored and monitored. Although there are some wearable training monitoring devices on the market, their monitoring range is narrow, the monitoring means are very limited, the monitoring data is limited to some data, and it is not suitable for the detection of most training items, and the application range is not wide. Lack of systematic and comprehensive monitoring means and methods, these defects restrict the efficient development of sports training.

Therefore, to provide a fully automatic intelligent training machine with simple structure, convenient operation, high work efficiency, high degree of automation, wide application range, obvious exercise visualization effect, comprehensive monitoring data, high technology content, high degree of intelligence, and simple and easy-to-operate training method The sports training system has broad market prospect.

Contents of the invention

Aiming at the deficiencies of the prior art, the present invention provides a training method with simple structure, convenient operation, high work efficiency, high degree of automation, wide application range, obvious exercise visualization effect, comprehensive monitoring data, high technological content, and high degree of intelligence. A simple and easy-to-operate fully automatic intelligent sports training system is used to overcome the defects in the prior art.

The technical solution of the present invention is achieved in the following way: a fully automatic intelligent sports training system includes a base, a top cover connected to the base through a connecting frame, a single-chip processor is fixedly installed in the connecting frame, and a There is a depth displacement sensing device connected to the single-chip processor, an infrared non-contact monitoring device connected to the single-chip processor is arranged at the bottom of the top cover, and a visualization plane connected to the single-chip processor is arranged on the inner side of the connecting frame The displacement display device is provided with a power cord at the bottom of the connecting frame.

The infrared non-contact monitoring device includes an infrared array emitting board fixedly installed at the center of the bottom of the top cover, an infrared emitter and an infrared receiver are fixedly installed on the infrared array emitting board, the power cord is connected with the infrared emitter, and the infrared emitter The receiver is connected with the infrared signal collector installed in the connecting frame through wires, the infrared signal collector is connected with the signal amplifier installed in the connecting frame through wires, and the signal amplifier is connected with the signal filter installed in the connecting frame through wires The signal filter is connected with the single-chip processor through wires.

The described visualized plane displacement display device includes a display screen fixedly installed on the inside of the connecting frame, a plane displacement camera is installed above the display screen, and the plane displacement camera is connected with a plane displacement signal receiver installed in the connecting frame through wires, and the display The screen and the plane displacement signal receiver are connected with the single-chip processor through wires.

The depth displacement sensing device includes an electronic displacement array board fixedly installed on the base, an electronic displacement sensor is fixedly installed in the electronic displacement array board, and the electronic displacement sensor connects with the electronic displacement signal receiver installed in the connecting frame through wires. The electronic displacement signal receiver is connected with the electronic displacement signal processing installed in the connection frame through the wire, and the electronic displacement signal processing is connected with the single-chip processor through the wire.

The connecting frame is an arc-shaped hollow cavity structure, and a first fixing plate and a second fixing plate are vertically arranged in the connecting frame, and the single-chip processor is fixedly installed on the second fixing plate between the first fixing plate and the second fixing plate. on the side wall of the mounting plate.

The shape and size of the base and the top cover are the same, the base is a rectangular hollow plate structure, and the base and the top cover are arranged in parallel on the same side of the connecting frame.

The top of the infrared array emitting board is fixedly installed with an infrared array emitting board substrate, the top of the infrared array emitting board substrate is fixedly installed with an infrared array emitting board substrate support seat, and the top of the infrared array emitting board substrate support seat is connected to the inner top of the top cover. The bottom surface of the infrared transmitter and the infrared receiver are fixedly connected, and the emitting angle and receiving angle of the infrared transmitter and infrared receiver correspond to each other.

The bottom of the electronic displacement array board is fixedly installed with an electronic displacement array board substrate, the bottom of the electronic displacement array board substrate is fixedly installed with an electronic displacement array board substrate support seat, and the bottom of the electronic displacement array board substrate support seat is fixed to the inner bottom surface of the base connect.

The present invention has the following positive effects: firstly, the product is simple in structure and easy to operate, which overcomes the defect of low intelligence of the traditional sports training equipment, adopts plane displacement and depth displacement sensing, cooperates with infrared heart rate data collection, The data is centrally integrated into the display to achieve visual display, real-time monitoring and data monitoring are realized during the training process, and the training effect is reasonably monitored and monitored; customer service solves the defects of some wearable training monitoring equipment on the market at present, and collects The data range is wide, the use range is wide, the monitoring means is strong, and the application range is wide, which realizes comprehensive monitoring means and monitoring methods, and is conducive to the efficient development of sports training.

Description of drawings

Fig. 1 is a structural schematic diagram of the present invention.

FIG. 2 is a schematic side view of the structure of FIG. 1 of the present invention.

Fig. 3 is a schematic diagram of the internal structure of Fig. 1 of the present invention.

Fig. 4 is one of the schematic structural diagrams of the present invention.

Fig. 5 is the second schematic diagram of the principle structure of the present invention.

Fig. 6 is a schematic bottom view of the structure of the infrared array emitting board of the present invention.

Detailed ways

As shown in Figures 1, 2, 3, 4, 5, and 6, a fully automatic intelligent sports training system includes a base 1, a top cover 2 connected to the base 1 through a connecting frame 3, and the inside of the connecting frame 3 A single-chip processor 21 is fixedly installed, the base 1 is provided with a depth displacement sensing device connected to the single-chip processor 21, and the bottom of the top cover 2 is provided with an infrared non-contact monitoring device connected to the single-chip processor 21, A visual plane displacement display device connected to the single-chip processor 21 is arranged inside the connecting frame 3 , and a power cord 4 is arranged at the bottom of the connecting frame 3 .

The infrared non-contact monitoring device includes an infrared array emitting board 5 fixedly installed at the bottom center of the top cover 2, an infrared emitter 23 and an infrared receiver 24 are fixedly installed on the infrared array emitting board 5, and the power cord 4 is connected to the infrared array emitting board 5. Transmitter 23 is connected, and infrared receiver 24 is connected with the infrared signal collector 15 that is installed in the connection frame 3 by wire, and infrared signal collector 15 is connected with the signal amplifier 16 that is installed in the connection frame 3 by wire, and signal The amplifier 16 is connected with the signal filter 17 installed in the connecting frame 3 through wires, and the signal filter 17 is connected with the single-chip processor 21 through wires. Described visual plane displacement display device comprises the display screen 7 that is fixedly installed on the inside of connecting frame 3, and the top of display screen 7 is equipped with plane displacement camera 8, and plane displacement camera 8 is installed in the plane displacement signal in connecting frame 3 by wire. The receiver 20 is connected, and the display screen 7 and the plane displacement signal receiver 20 are connected with the single-chip processor 21 through wires. The described depth displacement sensing device comprises an electronic displacement array plate 6 fixedly installed on the base 1, an electronic displacement sensor 22 is fixedly installed in the electronic displacement array plate 6, and the electronic displacement sensor 22 is installed in the connecting frame 3 through wires. The electronic displacement signal receiver 19 is connected, and the electronic displacement signal receiver 19 is connected with the electronic displacement signal processing 18 installed in the connecting frame 3 by wires, and the electronic displacement signal processing 18 is connected with the single-chip processor 21 by wires.

The connecting frame 3 is an arc-shaped hollow cavity structure, and the first fixing plate 13 and the second fixing plate 14 are vertically arranged in the connecting frame 3, and the single-chip processor 21 is fixedly installed on the first fixing plate 13 and the second fixing plate. On the side wall of the second fixed plate 14 between the plates 14. The shape and size of the base 1 and the top cover 2 are the same, the base 1 is a rectangular hollow plate structure, and the base 1 and the top cover 2 are arranged in parallel on the same side of the connecting frame 3 .

The top of the infrared array emission plate 5 is fixedly installed with an infrared array emission plate substrate 9, the top of the infrared array emission plate substrate 9 is fixedly installed with an infrared array emission plate substrate support seat 10, and the top of the infrared array emission plate substrate support seat 10 It is fixedly connected with the bottom surface of the inner top of the top cover 2, and the emitting angle and receiving angle of the infrared emitter 23 and the infrared receiver 24 correspond to each other. The bottom of the electronic displacement array board 6 is fixedly equipped with an electronic displacement array board substrate 11, the bottom of the electronic displacement array board substrate 11 is fixedly installed with an electronic displacement array board substrate support seat 12, and the bottom of the electronic displacement array board substrate support seat 12 It is fixedly connected with the inner bottom surface of the base 1.

The specific operation of this system is as follows. After the user turns on the power, he stands on the electronic displacement array board 6, and the longitudinal displacement generated is collected by the electronic displacement array board 6, and transmitted to the electronic displacement sensor 22, and then transmitted to the electronic displacement sensor 22 through the electronic displacement sensor 22. The signal receiver 19 is then transmitted to the electronic displacement signal processing 18 through the electronic displacement signal receiver 19, and is displayed on the display screen 7 after being processed by the single-chip processor 21. At the same time, the plane displacement camera 8 collects plane somatosensory displacement information, and displays it on the display screen 7 after being processed by the single-chip processor 21 . Infrared transmitter 23 emits infrared signals, and infrared receiver 24 receives the signals and transmits them to infrared signal collector 15 to be connected, and infrared signal collector 15 transmits signals to signal amplifier 16 and signal filter 17 and processes and uses them by single-chip processor 21 The patient's heart rate and breathing information data are displayed on the display screen 7 after processing.

Claims (8)

1. A fully automatic intelligent sports training system, comprising a base (1), a top cover (2) connected to the base (1) through a connecting frame (3), characterized in that: the connecting frame (3) A single-chip processor (21) is fixedly installed, and a depth displacement sensing device connected to the single-chip processor (21) is arranged on the base (1), and a device connected to the single-chip processor (21) is arranged at the bottom of the top cover (2). ) connected to the infrared non-contact monitoring device, a visual plane displacement display device connected to the single-chip processor (21) is arranged on the inner side of the connecting frame (3), and a power line (4) is arranged on the bottom of the connecting frame (3) ). 2. The fully automatic intelligent sports training system according to claim 1 is characterized in that: the infrared non-contact monitoring device includes an infrared array emitting board (5) fixedly installed at the center of the bottom of the top cover (2). An infrared emitter (23) and an infrared receiver (24) are fixedly installed on the array emitting board (5), the power cord (4) is connected with the infrared emitter (23), and the infrared receiver (24) is installed on the The infrared signal collector (15) in the connecting frame (3) is connected, and the infrared signal collecting device (15) is connected with the signal amplifier (16) installed in the connecting frame (3) through a wire, and the signal amplifier (16) passes through The wires are connected to the signal filter (17) installed in the connecting frame (3), and the signal filter (17) is connected to the single-chip processor (21) through the wires. 3. The fully automatic intelligent sports training system according to claim 1, characterized in that: the visual plane displacement display device includes a display screen (7) fixedly installed on the inside of the connecting frame (3), and the display screen (7) A plane displacement camera (8) is installed above, and the plane displacement camera (8) is connected with the plane displacement signal receiver (20) installed in the connecting frame (3) through wires, and the display screen (7) and the plane displacement signal receiver (20) is connected with single-chip processor (21) by wire. 4. The fully automatic intelligent sports training system according to claim 1, characterized in that: the depth displacement sensing device includes an electronic displacement array board (6) fixedly installed on the base (1), and the electronic displacement array board (6) (6) An electronic displacement sensor (22) is fixedly installed inside, and the electronic displacement sensor (22) is connected with the electronic displacement signal receiver (19) installed in the connecting frame (3) through wires, and the electronic displacement signal receiver (19) ) is connected to the electronic displacement signal processing (18) installed in the connecting frame (3) through wires, and the electronic displacement signal processing (18) is connected to the single-chip processor (21) through wires. 5. The fully automatic intelligent sports training system according to claim 1, 2, 3 or 4 is characterized in that: the connecting frame (3) is an arc-shaped hollow cavity structure, and is vertically arranged in the connecting frame (3) There are a first fixed plate (13) and a second fixed plate (14), and the single-chip processor (21) is fixedly installed on the second fixed plate (14) between the first fixed plate (13) and the second fixed plate (14). ) on the side wall. 6. The fully automatic intelligent sports training system according to claim 1, characterized in that: the shape and size of the base (1) and the top cover (2) are the same, and the base (1) is a rectangular hollow plate structure, The base (1) and the top cover (2) are arranged in parallel on the same side of the connecting frame (3). 7. The fully automatic intelligent sports training system according to claim 2 is characterized in that: the infrared array emitting board substrate (9) is fixedly installed on the top of the infrared array emitting board (5), and the infrared array emitting board substrate (9 ) is fixedly installed with an infrared array emitting board substrate support seat (10), the top of the infrared array emitting board substrate support seat (10) is fixedly connected to the bottom surface of the inner top of the top cover (2), and the infrared emitter (23) and the infrared The emission angle and reception angle of the receiver (24) correspond to each other. 8. The fully automatic intelligent sports training system according to claim 4 is characterized in that: the bottom of the electronic displacement array board (6) is fixedly installed with the electronic displacement array board substrate (11), the electronic displacement array board substrate (11 ) is fixedly installed with an electronic displacement array board substrate support seat (12), and the bottom of the electronic displacement array board substrate support seat (12) is fixedly connected to the inner bottom surface of the base (1).