TWI466701B - Intellectual healthy tread exercise training system and method using the same - Google Patents

Description

Intelligent health trail sports training system and method

The invention relates to an intelligent health trail sports training system and method, in particular to a sports training technique which can achieve rehabilitation, exercise and fitness purposes.

With the increasing popularity of sports and fitness, the sports equipment industry has followed vigorous development. Although the favorite sports equipment (such as exercise bikes, treadmills, weights, dancing machines and rowing machines) can be operated by users to achieve exercise and fitness, but these sports equipment cannot be based on users. The physical function conditions and the corresponding exercise prescriptions are issued, so the user can only exercise and exercise according to the opinions of himself or the physical coach, so it is difficult to achieve better exercise and rehabilitation effects, or even half the effort and futile.

In order to improve the above-mentioned shortcomings, the same industry has developed a patent case as shown below:

(1) Invention No. I350522 "Applying speech recognition and neural network based motion prescription diagnosis method and device", which is based on a plurality of voice data input by a user (such as age, sex, height, weight, softness, muscle) Appropriate, explosive, aerobic fitness and favorite sports items) to obtain a personal data set for speech recognition, and according to the personal data set corresponding to the physical fitness model, to determine the physical fitness level group Then, according to the fitness factor level group and using a pre-defined neural network model to obtain individual exercise prescription.

(2) New Type M374335 "Student fitness testing and exercise prescription production equipment The control module, the sensing module and the input and output module are included, and the sensing module senses the height, the weight of the user, the length of the sitting body, the number of sit-ups in one minute, and the standing distance. And the distance running time, the control module determines the level of the user's fitness according to the sensing result of the sensing module, and generates a sports prescription suitable for the user's fitness level.

Although the above patent predecessor can open a corresponding exercise prescription according to the user's physical function conditions, as a basis for exercise fitness or rehabilitation, thereby achieving the effect of strengthening the muscle tissue of the body, but the patents are There is no set of exercise prescription tracking and monitoring mechanism, so it is impossible to evaluate the effectiveness of exercise prescription implementation in a scientific way. As a result, there will be a certain gap between the exercise prescription training course and the user's exercise training. Therefore, it will be impossible. Effectively performing the exercise training course indicated by the exercise prescription, it is more difficult to achieve better exercise and rehabilitation effects. In addition, these patents cannot correct the exercise prescription according to the current state of the user's physical function. Therefore, it is more likely to cause muscle soreness or even inflammation due to excessive exercise training; or the lack of sports training results in exercise and fitness effects. Therefore, how to construct a tracking and monitoring mechanism that can judge whether the user's exercise or rehabilitation is actually implemented is a challenge that the technical practitioners in the related art are eager to solve and overcome.

In view of the above, the present invention is directed to the improvement of the missing defects caused by the absence of a set of exercise prescription tracking monitoring mechanism, and based on the motivation for improving the aforementioned deficiency, a research and development system having the performance of tracking and monitoring exercise prescriptions is developed. this invention.

The object of the present invention is to provide an improved structure for a conventional structure due to function The intelligent health trail sports training system and method for improving the missing, mainly through the implementation of the exercise prescription tracking monitoring function, to effectively implement the performance of the exercise prescription execution, and can be based on the user's physical function status or exercise state, etc. Factors to correct the exercise prescription, in order to avoid the lack of exercise training or lack of exercise training, in addition, the user is stepping on the foot to do the stepping exercise or rehabilitation, to strengthen the body and foot muscle tissue The part, in turn, achieves the effects of exercise and rehabilitation. The technical means adopted to achieve the above-mentioned effects is divided into a plurality of sash areas on the platform of the walking training machine, and a detector and a light emitting element are arranged in each sash area. The exercise prescription management module stores the user's moving exercise prescription. The exercise prescription input module can input an identification signal. The signal processing module generates a first control command signal corresponding to the stepping motion prescription according to the identification signal, thereby controlling the timing of the light emitting element to emit light, so that the user can use the foot according to the light emitted by the light emitting element. Stepping on the corresponding sash area, and the detector senses the user's pedaling state, and generates a sensing signal, and then the signal processing module determines whether the user's pedaling motion is valid, and can be used as a correction step Exercise prescriptions or the basis for further evaluation of the implementation of the movement.

壹. The technical concept of the present invention

The technical concept of the present invention is to integrate the technology-based health trail with the intelligent exercise prescription tracking and monitoring mechanism, so that when the user performs the step-by-step exercise, in addition to being guided by the exercise prescription, the exercise prescription can be evaluated. What is the result, as a basis for correcting exercise prescriptions. Moreover, the present invention can provide a motion prescription guided by a light source, and can integrate music and multimedia to obtain the best suitable exercise fitness model. The original, boring and healthy fitness has become a functional and interesting innovative self-health model, and can effectively enhance the sports health service content. On the other hand, it can be instantly connected through wireless radio frequency identification, touch screen, data transmission technology and exercise prescription tracking and monitoring mechanism for member identification, effect feedback and health care process recording, so that the physical function of member users can be The performance of exercise prescriptions can be tracked and monitored over the long term to adjust the most appropriate step-by-step exercise prescriptions.

贰. A specific embodiment of the present invention

Referring to FIG. 1 and FIG. 2, the present embodiment includes technical features such as a step-training machine 10, a motion prescription management module 20, a motion prescription input module 30, and a signal processing module 40. Furthermore, in order to facilitate the description of the specific contents of the technical features of the present invention and the achievement of the effects, the technical features are sequentially described as follows:

2.1 stepping training machine

Referring to FIG. 2, FIG. 3 and FIG. 6, the stepping training machine 10 includes a platform 11 which is divided into a plurality of sash areas 110 for stepping on, and each sash area 110 is provided with a Detector. The detector 12 and a light emitting element 13. The embodiment of the detector 12 can be a reflective component such as a reflective photodetector 12a, a microswitch or a load cell 12b. An armrest 14 is disposed on each of the two sides of the platform 11, and each of the sash regions 110 of the platform 11 is provided with a recess 15 for the detector 12 and the light emitting element 13 to be received, and then a plurality of forming frames are disposed on the platform 11. The pedal 110a of the compartment 110 and the pedal 110a may be transparent. The embodiment of the detector 12 shown in FIG. 6 may be an embodiment in which the reflective photodetector 12a and the load cell 12b are connected in series, and the detecting light source emitted by the reflective photodetector 12a is used. The foot is reflected and connected When received, a sense signal is generated; on the other hand, when the load meter 12b senses the gravity of the user's pedaling, another type of sensing signal is generated, when the two sensing signals are simultaneously generated. The signal processing module 40 determines that the action stepped by the user is effective, so as to prevent the user from being misjudged as being effective due to the inaccurate pedaling action.

2.2 Exercise Prescription Management Module

Please refer to the exercise prescription management module 20 shown in FIG. 1 and FIG. 2, which has a database 220 for storing personal data of each user, identification data that can be transmitted as an identification signal, and each user. Exclusive corresponding step-by-step exercise prescription. As for the production of the step-by-step exercise prescription, it is based on the user's physical function test data. Specifically, the physical function test data can be physical fitness data or physical health check data; or combined with physical fitness data and physical health check data. Specifically, the present invention can establish a set of neural network-like models in the exercise prescription management module 20, or establish a set of exercise prescription management software to convert the input physical fitness data and physical health examination data into corresponding Step-by-step exercise prescription. The step movement prescription referred to in the present invention may be converted into a text output; or implemented in a digitally encoded manner for the signal processing module 40 to interpret the identification and output a first control command signal corresponding to the step motion prescription. In turn, the step-up training machine 10 is controlled to make a light source guidance mode of a corresponding level.

Please refer to the motion prescription management module 20 shown in FIG. 2, which includes a web server 21, a database server 22 and an application server 23. The database server 22 can be used to create the above-mentioned database 220 for the remote user to access through a first computer. The network server is connected to the web server 21 for downloading the webpage data to the first computer 50 for performing the steps of logging in, making an appointment, querying the progress of the sports rehabilitation, and querying the occupation status of the equipment. In addition, the application server 23 is respectively coupled with at least one set of the second computer 51, a mobile phone 52, and a motion prescription input module 30 (such as a reader RFID), and the reader RFID can be controlled by the application server 23. The identification data and the step-by-step exercise prescription are written in the proximity card 53 (RFID) carried by the user. The second computer 51 can be operated by the member user or the training manager to enter the application server 23 to query the progress of the user performing the exercise prescription or to report the execution result record of the exercise prescription. The mobile phone 52 can be used by the training manager to report the progress of the exercise prescription execution or the execution result of the exercise prescription to the application server 23 as a prescription for changing the step movement exercise or opening the next stage of the exercise. Basis.

2.3 exercise prescription input module

Please refer to the exercise prescription input module 30 shown in Figures 1 and 2 for inputting an identification signal. The specific embodiment of the motion prescription input module 30 includes at least two sets of radio frequency identification modules 31, 32 (such as an RFID reader), and a radio frequency identification module 31 (the RFID is used to identify the user's proximity card 53 ( Whether the identification signal transmitted in the RFID is correct, for use as an access control, a moving motion prescription transmission, and a start-up training machine 10. The second radio frequency identification module 32 (RFID) can be set in the step-by-step training. The machine 10 is shown in Figures 3 and 4. In addition, as shown in Figures 2 to 4, the application server 23 can write and identify the proximity card 53 (RFID) through a radio frequency identification module 31 (RFID). Signal and step-by-step exercise prescription so that the user can pass the sensor The card 53 (RFID) transmits the identification signal and the step-by-step motion prescription to the second radio frequency identification module 32 (RFID), and when the second radio frequency identification module 32 (RFID) determines that the identification signal is correct, The stepping motion prescription in the proximity card 53 (RFID) is transmitted to the signal processing module 40 to perform corresponding control on the actuation mode of the stepping training machine 10.

2.4 signal processing module

Please refer to the signal processing module 40 shown in FIG. 1 to FIG. 4, which mainly generates a first control command signal corresponding to the moving motion prescription according to the identification signal, and controls the light emission by using the first control command signal. The timing at which the element 13 emits light allows the user to step on the corresponding sash area 110 with the foot according to the guidance of the light emitted by the light-emitting element 13. When the detector 12 senses the user's stepping state, at least one sensing signal is generated, and the signal processing module 40 includes a counting module 41. When the sensing signal generation time reaches a preset time, the signal processing module 40, determining that the user's pedal motion is effective to generate the second control command signal, and counting the number of times the second control command signal is generated by the counting module 41, and outputting the accumulated number of times to the motion prescription management module 20 The evaluation module 24 evaluates whether the step movement of the user's pedal is actually performed as a basis for changing the prescription of the step movement or the prescription of the step movement for the next stage, as shown in FIG. The evaluation module 24 can be a neural network model built on the database 220 or an evaluation management software. In addition, the signal processing module 40 further includes a prompting module 42. When the signal processing module 40 determines that the user's pedal is valid according to the sensing signal, the prompting module 42 is triggered by the second control command signal. In turn, an audio or light prompt signal is generated to prompt the user's foot The tread action is effective.

In addition, the present invention can set the signal processing module 40 in the motion prescription management module 20 according to actual needs, as shown in FIG. 5; or in the step-training machine 10, as shown in FIGS. As shown in FIG. 1 , the specific structure of the signal processing module 40 includes a signal processing circuit 44 , a microprocessor 43 and a driving circuit 45 . The signal processing circuit 44 is configured to perform signal conversion processing on each sensing signal of each detector 12. The microprocessor 43 generates a first control command signal corresponding to the step movement prescription according to the identification signal, and controls the timing of the light emitting element 13 to emit light by using the first control command signal, so that the user can follow the light emitting element 13 Under the guidance of the emitted light, the foot is stepped on the corresponding sash area 110. The driving circuit 45 can sequentially drive the lighting light emitting element 13 by being triggered by the first control command signal. When the microprocessor 43 determines that the sensing signal generation time reaches a preset time, the microprocessor 43 determines that the user's pedaling action is valid, and outputs a second control command signal, and counts by the counting module 41. The second control command signal is generated, and the accumulated number of times is output to the evaluation module 24 of the exercise prescription management module 20.

Participation. Specific operational implementation of the present invention

Referring to Figures 3 to 5, the sash area 110 of the present invention consisting of a plurality of pedals 110a allows the user to perform stepping exercise training for single and double foot stepping. When the user wants to perform the step-by-step exercise training, only the proximity card 53 is required to approach the two radio frequency identification modules 32 of the motion prescription input module 30, and the second radio frequency identification module 32 determines the identification in the proximity card 53. When the signal is correct, the moving motion prescription in the reading proximity card 53 is transmitted to the signal processing module 40 located on the stepping training machine 10, as shown in FIGS. The implementation of the architecture; or another implementation manner, the proximity card 53 is adjacent to one of the radio frequency identification modules 31 of the motion prescription input module 30, and the second radio frequency identification module 32 determines that the identification signal in the proximity card 53 is When it is correct, the request signal for transmitting the mobile exercise prescription is sent to the exercise prescription management module 20, and the exercise prescription management module 20 transmits the user-specific step motion prescription to a signal transmission module 60 (for example, the transmission interface RS). -232, transmission interface RS-485, transmission interface USB, wireless RF communication module, Bluetooth communication module, infrared communication module or mobile phone with wireless Internet access and web browsing function) to signal processing module 40 In the implementation architecture shown in Figure 5. Then, the signal processing module 40 outputs a first control command signal corresponding to the step movement prescription to control the timing of the light emitting element 13 to emit light, so that the user can guide the light according to the light emitted by the light emitting element 13. The foot is stepped on the corresponding sash area 110. When the detector 12 senses the user's stepping state to generate a sensing signal and the sensing signal generation time reaches a predetermined time, the signal processing module 40 determines that the user's pedaling motion is effective, and further And outputting a second control command signal, and counting the number of times the second control command signal is generated by the counting module 41, and outputting the accumulated count value to the evaluation module 24 of the motion prescription management module 20 through the signal transmission module 60. In order to evaluate whether the user's pedaling movement is actually performed, and to judge the effectiveness of the implementation of the stepping exercise prescription, as a basis for changing the prescription of the stepping exercise or opening the prescription for the next stage of the movement.

In addition, it should be noted that the signal processing module 40 of the present invention can illuminate only one sash area 110 or illuminate two or more sash areas 110 in a period of time. When a sash area 110 is illuminated during the time period, the user can only stand on one foot, by training Train the support of the single foot to strengthen the muscle tissue of the leg. When the two sash areas 110 are illuminated during this time period, the user can stand or squat on both feet. When the three or four sash areas 110 are illuminated during the time period, the user can press the other two sash areas 110 with one hand or both hands in order to strengthen the training four. Muscle tissue of the limb to achieve a holistic exercise rehabilitation. On the other hand, it must be noted that the user can follow the illuminated sash area 110 from the end of the platform 11 to move the foot. When the user reaches the other end of the platform 11, the moving movement of this stage can be completed. Training course.

Conclusion

Therefore, with the above-described structural arrangement, the present invention does have the following features:

1. The invention can track the monitoring function by the exercise prescription, thereby effectively implementing the performance of the exercise prescription, and correcting the exercise prescription according to the judgment of the user's physical function and the performance of the exercise prescription, thereby avoiding the exercise. Inadequate training or lack of exercise training. In addition, the user performs step-by-step exercise or rehabilitation with foot pedaling to strengthen the muscle tissue of the body and feet, thereby achieving exercise and rehabilitation. efficacy.

2. In addition to providing a light-guided exercise prescription, the present invention can integrate music and multimedia to obtain the best suitable exercise and fitness mode, so that the originally boring and healthy fitness becomes a functional and interesting innovative self-care mode. And can effectively strengthen the sports health service content. On the other hand, it can be instantly connected through radio frequency identification, touch screen, data transmission technology and exercise prescription tracking and monitoring mechanism for member identification, effect feedback and health care process recording, allowing users to function and exercise. At The performance of the party can be tracked and monitored for a long time to adjust the most appropriate step-by-step exercise prescription.

The above is only one of the possible embodiments of the present invention, and is not intended to limit the scope of the patents of the present invention, and the equivalent implementations of other changes according to the contents, features and spirits of the following claims are It should be included in the scope of the patent of the present invention. The invention is specifically defined in the structural features of the request item, is not found in the same kind of articles, and has practicality and progress, has met the requirements of the invention patent, and has filed an application according to law, and invites the bureau to approve the patent according to law to maintain the present invention. The legal rights of the applicant.

10‧‧‧shift training machine

11‧‧‧ platform

110‧‧‧Sash area

110a‧‧‧ pedal

12‧‧‧Detector

12a‧‧‧Reflective Light Detector

12b‧‧‧ load meter

13‧‧‧Light emitting elements

14‧‧‧Handrail

15‧‧‧ Groove

20‧‧‧Sports Prescription Management Module

21‧‧‧Web server

22‧‧‧Database Server

220‧‧‧Database

23‧‧‧Application Server

24‧‧‧Evaluation module

30‧‧‧Sports prescription input module

31, 32‧‧‧ Radio Frequency Identification Module

40‧‧‧Signal Processing Module

41‧‧‧Counting module

42‧‧‧Tips module

43‧‧‧Microprocessor

44‧‧‧Signal Processing Circuit

45‧‧‧Drive circuit

50‧‧‧First computer

51‧‧‧Second computer

52‧‧‧Mobile Phone

53‧‧‧Induction card

60‧‧‧Signal transmission module

1 is a functional block diagram of the basic architecture of the present invention.

2 is a schematic diagram of the implementation of a specific architecture of the present invention.

Figure 3 is a partial exploded view of the step-up training machine of the present invention.

Fig. 4 is a schematic view showing the operation of the stepping training machine of the present invention.

Fig. 5 is a schematic view showing another embodiment of the stepping exercise machine of the present invention.

Figure 6 is a partially enlarged perspective view of Figure 3.

12‧‧‧Detector

13‧‧‧Light emitting elements

20‧‧‧Sports Prescription Management Module

220‧‧‧Database

24‧‧‧Evaluation module

30‧‧‧Sports prescription input module

40‧‧‧Signal Processing Module

41‧‧‧Counting module

42‧‧‧Tips module

43‧‧‧Microprocessor

44‧‧‧Signal Processing Circuit

45‧‧‧Drive circuit

53‧‧‧Induction card

Claims (8)

An intelligent health trail sports training system, comprising: a stepping training machine, comprising: a platform, the platform is divided into a plurality of sash areas for stepping on, each of the sash area settings includes a detector and a light emitting component; a motion prescription management module for storing at least one mobile motion prescription of at least one user; and a sports prescription input module for inputting an identification signal, the stepping motion prescription is based on The body function detection data is selected from at least one of physical fitness data and physical health examination data; and a signal processing module is generated according to the identification signal The stepping exercise prescription corresponds to a first control command signal of the series, and the first control command signal controls the timing of the light emitting component to emit light, and the user steps on the foot according to the light emitted by the light emitting component The detector generates a sensing signal when the user senses the stepping state of the user, and the signal processing module is configured according to the sensing signal. Determining that the user's pedaling action is effective, the signal processing module includes a prompting module. When the signal processing module determines that the user's pedal is valid according to the sensing signal, the signal processing module generates A second control command signal is configured to control the prompt module to generate an audio or light alert signal to prompt the user's pedal motion to be valid. The smart health trail exercise training system of claim 1, wherein the exercise prescription management module has a database for storing the user's personal data, the identification data that can be transmitted as the identification signal, and The step-by-step exercise prescription. The smart health trail sports training system of claim 1, wherein the exercise prescription input module comprises at least one radio frequency identification module (RFID). The smart health trail sports training system of claim 1, wherein the signal processing module includes a counting module, and the signal processing module determines the user when the sensing signal is generated for a predetermined time. The pedal is valid, and the number of times the second control command signal is generated is counted by the counting module, and the accumulated value is output to an evaluation module to determine whether the step movement of the user's foot is accurate. Perform an assessment. An intelligent health trail sports training method, comprising: providing a sports prescription management module, a sports prescription input module, a signal processing module, and a stepping training machine as claimed in claim 1; The module stores at least one step movement prescription of at least one user, the step movement exercise prescription is based on the body function detection data of the user, and the body function detection data is selected from the physical fitness data and the physical health Detecting at least one of the data; inputting an identification signal to the exercise prescription input module; and interpreting the identification signal by the signal processing module, and generating a first series corresponding to the step movement exercise prescription according to the identification signal Controlling the command signal, and controlling the timing of the light emitting component to emit light by using the first control command signal, the user stepping on the corresponding sash area according to the guiding of the light emitted by the light emitting component, the detecting The sensor generates a sensing signal when the user is stepping on the pedaling state, and the signal processing module determines the user's pedaling motion according to the sensing signal. To be effective, the signal processing The module includes a prompting module. When the signal processing module determines that the user's pedal is valid according to the sensing signal, the signal processing module generates a second control command signal to control the generating of the prompting module. An audio or light alert signal is used to indicate that the user's foot motion is active. The smart health trail exercise training method according to claim 5, wherein the exercise prescription management module establishes a database, the database stores the user's personal data, the identification signal, and the step movement exercise prescription. The step-by-step exercise prescription is based on one of the user's physical function detection data, and the body function detection data is selected from at least one of physical fitness data and physical health examination data. The smart healthwalk exercise training method of claim 5, wherein the exercise prescription input module comprises a radio frequency identification module (RFID). The smart health trail sports training method of claim 5, wherein the signal processing module includes a prompting module, and when the signal processing module determines that the user's foot pedal is valid according to the sensing signal, The signal processing module generates a second control command signal to control the prompt module to generate an audio or light prompt signal to prompt the user's foot motion to be valid, when the sensing signal generates a preset time The signal processing module determines that the user's pedal is valid, and counts the number of times the second control command signal is generated by the counting module, and outputs the accumulated value to an evaluation module to Whether the user's pedal movement is actually performed for evaluation.