CN111450510A - Running technology science and technology evaluation system - Google Patents

Abstract

The invention discloses a PRT (running technical technology) evaluation system, which is a universal and real-time running technology evaluation system and comprises a running basic technology variable data input module, a running technology variable data conversion module, a running technical achievement operation module, a running technical achievement generation module and a display module. The running technical achievement can be obtained by inputting a part of running basic technical variable data (such as the landing time, the flight time, the leg length and the weight of the runner) to calculate and obtain other running technical variable data, namely, the running technical analysis can be carried out on the runner according to the obtained running basic technical variable data, the running advanced technical variable data and the running technical achievement, and a new running technical assessment system is established. The invention has the following benefits: innovative running technique evaluation, real-time correction of running technique, and innovative training technology application of running (such as running machine, portable device, running shoe insole, etc.).

Description

Running technology science and technology evaluation system

Technical Field

The present invention relates to an evaluation system, and more particularly to a running technology scientific evaluation system.

Background

From 2008, taiwan is in a brisk and prosperous road running activity, which not only drives the people to move and move, but also promotes the running population rapidly, and further brings about the rise of running economy.

On the premise of training the running technology, basic physical ability is needed, but long runners only focus on cardiopulmonary endurance training, but neglect running technology training, and for excellent runners, the running technology is the most effective progress factor, and the running technology further comprises running technology changes.

The significance of the running technical variants is described as follows:

the stride frequency (spm) refers to the number of steps per unit time while running, and the faster the running speed, the higher the optimal stride frequency.

Stride (m) refers to the distance between the feet while running, with the faster the running speed, the greater the stride.

The landing time (sec) refers to the time it takes for the foot to cushion, support from landing to leaving the ground during running, the shorter the landing time for the better runner.

The flight time (sec) refers to the time during running from leaving the ground to landing the foot in the air on the other foot, the better the runner, the longer the flight time.

The touchdown index (%) means "touchdown time divided by (touchdown time plus flight time)", and the lower the touchdown index, the better the running economy.

The stride angle (stride) is a tangential angle of the foot from the ground during running, and the stride angle of an excellent long distance runner is large.

The vertical stiffness (kN/m) refers to the elastic coefficient of the maximum ground reaction force (Fmax) and the vertical displacement (max/Δ y) of the body gravity center during running, and the larger the vertical stiffness, the better the running economy.

The leg stiffness (kN/m) refers to the elastic coefficient of the maximum ground reaction force (Fmax) and the vertical displacement (Δ L) of the leg length (Fmax/. L) during running, and the larger the leg stiffness is, the better the running economy is.

The step frequency, the stride length, the landing time and the flight time are also called running basic technical variables, and the landing index, the stride length angle, the vertical hardness and the leg hardness are also called running advanced technical variables.

At present, no device or system is disclosed in the market, which can make the runner obtain the running basic technical variable (step frequency, stride, landing time, flight time) data, the running advanced technical variable (landing index, stride angle, vertical hardness, leg hardness) data and the running technical score in real time, easily and conveniently, and cannot modify the running technology of the runner and improve the running score of the runner.

Therefore, the inventor of the present invention has come to the present invention through numerous practical tests and experiments based on the practical experience of product design and development over the years.

Disclosure of Invention

The invention aims to provide a running technology scientific and technological evaluation system which can be provided for a runner to conveniently evaluate and correct the running technology, so that the runner can effectively progress the running score.

To achieve the above object, a running technology science and technology evaluation system comprises:

a running basic technology variable data input module, which detects the runner by any one of the treadmill, the carrying device and the sensing device to obtain a part of running basic technology variable values of the runner;

a running technology variable data conversion module connected with the running basic technology variable data input module for obtaining and converting the partial running basic technology variable values to obtain other running basic technology variable values and running step technology variable values;

a running technical score calculation module connected with the running technical variable data conversion module and used for obtaining and calculating a running basic technical variable value and a running advanced technical variable value;

a running technical score generating module connected with the running technical score calculating module and used for generating the running technical score of the runner;

and the display module is connected with the running technical score generation module and is used for displaying the running technical score of the runner.

Furthermore, the running basic technology variable data input module, the running technology variable data conversion module, the running technology score calculation module and the running technology score generation module are combined with any one of a running machine, a carrying device and an induction device.

Further, the carrying device is any one of a mobile phone and a wearable device.

Further, the sensing device is any one of an insole sensing device and a shoe sensing device.

Furthermore, a part of the running basic technology variable values obtained by the running basic technology variable data input module are the touchdown time and the flight time of the runner.

Furthermore, the running technology variable data conversion module converts to obtain other running basic technology variable values of step frequency and step length, and the obtained running step technology variable values are landing index, step length angle, vertical hardness and leg hardness.

Furthermore, the running technical variable data conversion module is connected with a running speed input module for inputting the running speed.

Furthermore, the running technical variable data conversion module is connected with a leg length and weight data input module for inputting the leg length and weight of the runner.

Further, the display module is a display screen of any one of the treadmill and the carrying device.

Furthermore, the running technology scientific and technological evaluation system is a server platform and provides a website and a webpage for the runner to input various data so as to analyze the running technology.

By adopting the system, a runner can obtain running technical variable data in real time, easily and conveniently in running training, or can obtain other running technical variable data by inputting a part of running basic technical variable data (such as the landing time, the flight time, the leg length and the weight of the runner) to calculate, and further can obtain running technical scores, namely, the runner can carry out running technical analysis according to the obtained running basic technical variable data, the running progress technical variable data and the running technical scores, a new system for running technical evaluation is established, namely, the runner can refer to various running technical variable data and running technical scores displayed by the display module, and generally, the runner can immediately understand where the running technology needs to be corrected by seeing the data and the scores, so that the running technology can be conveniently corrected, namely, the running average speed (m/s) is corrected, Stride frequency (stride), stride length (stride length), contact time (contact time), flight time (air time), fall index (duty factor), stride angle (stride angle), vertical stiffness (vertical stiffness), and leg stiffness (leg stiffness). Therefore, the running technology of the runner can be greatly improved, and the running score is further effectively improved.

In conclusion, the benefits of the invention are: innovative running technique evaluation, real-time correction of running technique, and innovative training technology application of running (such as running machine, portable device, running shoe insole, etc.).

The following detailed description is given by way of example only, with reference to the accompanying drawings.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a schematic view of an embodiment of the present invention showing a technical and scientific assessment system for running combined with a treadmill;

FIG. 3 is a block diagram of an embodiment of a running technology scientific and technological assessment system in combination with a carrier;

FIG. 4 illustrates an embodiment of the present invention of a running technology scientific evaluation system in combination with an insole sensing device;

FIG. 5 is an embodiment of the present invention showing the use of a running technology scientific assessment system in combination with a shoe sensing device.

Description of the symbols:

running technology science and technology evaluation system 1 running basic technology variable data input module 10

Running technical variable data conversion module 20 running technical achievement calculation module 30

Running technical score generation module 40 and technical analysis module 41

Output module 42 display module 50

Running speed input module 60 leg length and weight data input module 70

Treadmill 80 carrying device 90

Insole sensing device 91 shoe sensing device 92.

Detailed Description

Referring to fig. 1 to 3, the running technical evaluation system 1 of the present invention performs running technical analysis according to two types of running technical variations, and the detailed classification is as follows:

1. running basic technology change: running average speed (m/s), step frequency (step rate), step length (step length), landing time (contact time), flight time (air time).

2. The running advanced technology is changed as follows: touchdown index (duty factor), stride angle (stride angle), vertical stiffness (vertical stiffness), and leg stiffness (leg stiffness).

Namely, the running technical and scientific evaluation system 1 of the invention can automatically calculate and obtain other technical variables by utilizing a part of running basic technical variables such as landing time, flight time, leg length, weight and the like of a runner.

The running technical science and technology evaluation system 1 comprises a running basic technical variable data input module 10, a running technical variable data conversion module 20, a running technical score operation module 30, a running technical score generation module 40 and a display module 50. As will be explained in detail below:

the running basic technical variable data input module 10 detects a runner by any one of the treadmill 80, the carrying device 90 and the sensing device to obtain a part of the running basic technical variable value of the runner.

The running skill variation data conversion module 20 is connected to the running basic skill variation data input module 10 for obtaining and converting a part of the running basic skill variation values to obtain other running basic skill variation values, such as step frequency, stride, and running progress skill variation values, such as landing index, stride angle, vertical stiffness, and leg stiffness.

The above-mentioned scaling can be generally obtained by a general algorithm.

The running technical achievement calculation module 30 is connected to the running technical variable data conversion module 20 for obtaining and calculating the running basic technical variable value and the running advanced technical variable value.

The running skill score generating module 40 is connected to the running skill score calculating module 30 for generating the running skill score of the runner.

The display module 50 is connected to the running skill score generating module 40 for displaying the running skill score of the runner.

In an embodiment, the running technical and scientific evaluation system 1 of the present invention can be a server platform providing a website and a web page for the runner to input various data for running technical analysis.

In one embodiment, the running basic technical variable data input module 10, the running technical variable data conversion module 20, the running technical result calculation module 30, and the running technical result generation module 40 are combined with any one of a treadmill 80, a carrying device 90, and a sensing device.

In one embodiment, the carrying device 90 is any one of a mobile phone, a watch, a bracelet, and a wearable device.

In one embodiment, the sensing device is any one of a shoe pad sensing device 91 and a shoe sensing device 92.

In one embodiment, a portion of the running basic technical variable values obtained by the running basic technical variable data input module 10 are the landing time and the flight time of the runner.

In one embodiment, the running skill variation data conversion module 20 converts the other running basic skill variation values into a step frequency and a step length, and the obtained running step skill variation values are a landing index, a step length angle, a vertical stiffness and a leg stiffness.

In one embodiment, the running skill variation data conversion module 20 is connected to a running speed input module 60 for inputting the running speed.

In one embodiment, the running skill variation data conversion module 20 is connected to a leg length and weight data input module 70 for inputting the leg length and weight of the runner.

In one embodiment, the display module 50 is a display screen of any one of the treadmill 80 and the portable device 90.

In one embodiment, the running skill score generating module 40 is further connected to a technical analysis module 41, and the technical analysis module 41 is connected to the display module 50 and an output module 42.

Accordingly, the invention can analyze the display data in real time by the technical analysis module 41 and provide the runner with a running technology for correcting in time. In addition, the output module 42 can output running technical analysis data files, which can allow the user to access past activity data for use by other sensing devices or other supporting software.

That is, the runner can refer to the various running skill variation data and the running skill score displayed by the display module 50, and usually, the runner generally sees the data and the score can immediately understand where the running skill needs to be corrected, so as to provide the runner with a timely correction of the running skill, that is, the running average speed (m/s), the step rate (step length), the step length (step length), the landing time (contact time), the flight time (air time), the landing index (duty factor), the step angle (stride angle), the vertical stiffness (vertical stiffness), and the leg stiffness (leg stiffness).

The technical analysis module 41 analyzes the display data in real time, which means that the technical variation data of running and the score of the technical score of running displayed by the display module 50 can be further generated with corresponding characters or graphs to explain the significance represented by the technical variation data of running and the score of the technical score of running in additional detail.

The above description is provided for each component and its composition of the present invention, and the following description is provided for the use embodiments, features and benefits of the present invention:

referring to fig. 1 and fig. 2, an embodiment of the running technical technology assessment system 1 of the present invention is combined with a treadmill 80:

the running technical and scientific evaluation system 1 of the present invention can be wirelessly connected or directly combined with the running machine 80.

1. The weight (KG) and the leg length (M) of the runner are input through the leg length and weight data input module 70.

2. By means of the running speed input module 60, the runner optionally selects a running speed for technical analysis. As shown in FIG. 2, the display module 50 has buttons (UP, DOWN) for inputting running speed (m/s) to the running technical science and technology evaluation system 1 of the present invention.

3. The landing time and the flight time of the runner are detected by the treadmill 80.

The acquisition of the grounding time and the flight time of the runner can shoot the grounding and flight states of the lower limbs of the runner through a high-speed camera, and then the flight time and the grounding time of the runner are calculated through KWON 3D analysis (technical analysis software) of a computer after shooting.

4. The tread time and the flight time of the runner are input by the tread basic technology variable data input module 10, and the tread frequency, the stride, the tread index, the stride angle, the vertical hardness and the leg hardness are obtained by the conversion of the tread basic technology variable data conversion module 20.

5. The running technical achievement operation module 30 settles the running technical achievement.

6. Running technical achievements of the runner are generated by the running technical achievement generating module 40 and displayed by the display module 50 to be fed back to the runner.

The application mode of the embodiment is as follows:

the analysis data can be obtained by the treadmill 80 and displayed on the screen of the treadmill 80 for technical analysis and real-time display for feedback to the runner.

Referring to fig. 1 and fig. 3, an embodiment of the running technology evaluation system 1 of the present invention is combined with a carrying device 90:

the running technical science and technology evaluation system 1 can be wirelessly connected or directly combined with the carrying device 90.

The carrying device 90 may be any one of a mobile phone, a watch, a bracelet, and a wearable device.

1. The weight (KG) and the leg length (M) of the runner are input through the leg length and weight data input module 70.

2. By means of the running speed input module 60, the runner optionally selects a running speed for technical analysis.

3. The landing time and the flight time of the runner are detected by the carrying device 90.

4. The running basic technology variable data input module 10 is used for inputting the landing time and the flight time of the runner, and the running basic technology variable data conversion module 20 is used for converting the landing time and the flight time into the step frequency, the landing index, the stride angle, the vertical hardness and the leg hardness.

5. The running technical achievement operation module 30 settles the running technical achievement.

6. Running technical achievements of the runner are generated by the running technical achievement generating module 40 and displayed by the display module 50 to be fed back to the runner.

The application mode of the embodiment is as follows:

carrying device 90 (like cell-phone, bracelet, wrist-watch and other wearing devices) can obtain the analysis data, and the APP immediate check that can connect shows for carry out technical analysis, analysis can independently be stored on carrying device 90, reads the demonstration immediately or postpones on cell-phone App, wrist-watch, bracelet and other carrying devices.

Referring to fig. 1 and 4, the running technology science and technology evaluation system 1 of the present invention is combined with an embodiment of the insole sensing device 91:

the running technical science and technology evaluation system 1 can be wirelessly connected or directly combined with the insole induction device 91.

1. The weight (KG) and the leg length (M) of the runner are input through the leg length and weight data input module 70.

2. By means of the running speed input module 60, the runner optionally selects a running speed for technical analysis.

3. The floor time and the flight time of the runner are detected by the insole induction device 91.

4. The running basic technology variable data input module 10 is used for inputting the landing time and the flight time of the runner, and the running basic technology variable data conversion module 20 is used for converting the landing time and the flight time into the step frequency, the landing index, the stride angle, the vertical hardness and the leg hardness.

5. The running technical achievement operation module 30 settles the running technical achievement.

6. Running technical achievements of the runner are generated by the running technical achievement generating module 40 and displayed by the display module 50 to be fed back to the runner.

The application mode of the embodiment is as follows:

the insole sensing device 91 can obtain the analysis data for technical analysis, and can also be connected to the APP or the bracelet for real-time detection and display (as the carrying device 90 in fig. 4). In addition, the analysis can be independently stored on the insole induction device 91, and can be read and displayed on a mobile phone App, a watch and a bracelet in real time or in a delayed mode.

Referring to fig. 1 and 5, the running technology scientific and technological evaluation system 1 of the present invention is combined with an embodiment of a shoe sensing device 92:

the running technical science and technology evaluation system 1 can be wirelessly connected or directly combined with the shoe sensing device 92.

1. The weight (KG) and the leg length (M) of the runner are input through the leg length and weight data input module 70.

2. By means of the running speed input module 60, the runner optionally selects a running speed for technical analysis.

3. The time to land and the time to empty of the runner are detected by the shoe sensing device 92.

4. The running basic technology variable data input module 10 is used for inputting the landing time and the flight time of the runner, and the running basic technology variable data conversion module 20 is used for converting the landing time and the flight time into the step frequency, the landing index, the stride angle, the vertical hardness and the leg hardness.

5. The running technical achievement operation module 30 settles the running technical achievement.

6. Running technical achievements of the runner are generated by the running technical achievement generating module 40 and displayed by the display module 50 to be fed back to the runner.

The application mode of the embodiment is as follows:

the shoe sensing device 92 can obtain the analysis data for technical analysis, and can also be connected to the APP or the bracelet for real-time detection and display (as the carrying device 90 in fig. 5). In addition, the analysis can be stored independently on the shoe sensing device 92, and can be read and displayed on the mobile phone App, the watch and the bracelet in real time or in a delayed manner.

The embodiments described above are merely for illustrative purposes and should not be construed as limiting the present invention, i.e., all the various modifications and variations that fall within the scope of the appended claims are intended to be embraced therein.

Claims (10)

1. A running technology science and technology evaluation system is characterized by comprising:

a running basic technology variable data input module, which detects the runner by any one of the treadmill, the carrying device and the sensing device to obtain a part of running basic technology variable values of the runner;

a running technology variable data conversion module connected with the running basic technology variable data input module for obtaining and converting the partial running basic technology variable values to obtain other running basic technology variable values and running step technology variable values;

a running technical score calculation module connected with the running technical variable data conversion module and used for obtaining and calculating a running basic technical variable value and a running advanced technical variable value;

a running technical score generating module connected with the running technical score calculating module and used for generating the running technical score of the runner;

and the display module is connected with the running technical score generation module and is used for displaying the running technical score of the runner.

2. The system of claim 1, wherein the running basic technical variable data input module, the running technical variable data conversion module, the running technical achievement calculation module, and the running technical achievement generation module are integrated with any one of a treadmill, a portable device, and a sensing device.

3. The system of claim 1, wherein the carrying device is one of a mobile phone and a wearable device.

4. A running technical science and technology evaluation system as claimed in claim 1 wherein the sensing device is any one of a shoe pad sensing device and a shoe sensing device.

5. The system of claim 1, wherein the running skill based assessment data input module obtains a portion of the running skill based assessment values as the time to land and the time to empty of the runner.

6. A running technical science and technology evaluation system as claimed in claim 1 wherein the running technical variable data conversion module converts to obtain other running basic technical variable values of step frequency, step length and the obtained running step technical variable values of landing index, step length angle, vertical stiffness and leg stiffness.

7. The system of claim 1, wherein the running skill variation data conversion module is connected to a running speed input module for inputting the running speed.

8. The system of claim 1, wherein the running skill variation data conversion module is connected to a leg length and weight data input module for inputting the leg length and weight of the runner.

9. The system of claim 1, wherein the display module is a display screen of any one of a treadmill and a portable device.

10. The system of claim 1, wherein the system is a server platform providing a website and web pages for a runner to input various data for running technical analysis.

Images