TWI400063B - Body fitness testing equipment and methods for measuring emissions indicators - Google Patents

Description

Fitness testing device and method for measuring degradation index

The invention provides a physical fitness testing device and a method for measuring degradation index, in particular to provide an integrated functional forward test, grip strength test, balance test, reaction test, muscle endurance test, mobility test, and integration. The game situation attracts the user to continuously receive the measured fitness device.

The aging society is a global trend, and people's life expectancy can be prolonged, but it can't stop the aging process. With age, people feel that the organs are gradually slow, the function is gradually reduced, the muscles are gradually weakening, the body function is deteriorating, and the chronic diseases are also come behind. Aging may begin with organ degradation, disease, lack of activity, and malnutrition, and may result in chronic and acute illness, osteoporosis, muscle weakness, and a fall in balance and fall. Once aging begins, it will die in a fast, progressive and perpetual form. According to research, the general public's degeneration from the age of 45 will gradually decline as the body ages. These degraded items include degeneration of the nervous system and degradation of bones, joints, and muscle systems. Degeneration of the nervous system: The nerve conduction velocity becomes slow after aging, and the feeling is often slower and the reaction time is prolonged. Degeneration of bones, joints, and muscle systems: joint pain or deformation or contracture caused by arthritis of the lower extremities or spine affects the biomechanics of the patient's gait, resulting in reduced gait stability and symmetry, which makes the patient fall easily. Because the total muscle mass and the number of muscle fibers in the elderly are significantly lower than those in the young, muscle atrophy is caused.

Some scholars have proposed five characteristics of functional degradation: three factors according to consumption, exhaust loss, low activity, slowness and Grip Strength. Grade, when more than three characteristics are met, indicating a decline (Frailty); consistent with one to two, indicating a pre-frailty; no degradation characteristics are met, indicating non-frailty. However, the definition of aging as Pre-Frailty, Frailty, and Non-Frailty is slightly rough. There are many ways to analyze aging in the literature. The following will introduce the statistics based on the aging indicators mentioned in the literature:

1. Slow action: This measure is intended to test the subject's mobility. Test the time required for the subject to walk back and forth 3 meters at the fastest speed. The subject can stand up and perform the measurement operation when he hears the system prompting the sound at the beginning. The subject must pass the 3 m return point and then return to the start of the sitting back to complete the operation. According to the study, between the ages of 60 and 69, the average male and female were 8 seconds in the slow-moving measure; the average male and female were 9 seconds between the ages of 70 and 79; the average male was 10 seconds between the ages of 80 and 89. The average female is 11 seconds. General clinical condition threshold setting If the height of the tester is less than 159 cm, the number of seconds spent walking back and forth shall not exceed 7 seconds. If the height is higher than 159 cm, the number of seconds spent walking shall not exceed 6 seconds.

2. Muscle weakness: According to the Ministry of Education's physical fitness guidance, muscle endurance refers to the time or repetition of continuous muscle exertion when the muscle maintains a certain muscle strength. Unlike muscle strength, muscle strength refers to a muscle group once. The maximum strength of use, and the training methods are also different, muscle endurance training must be continuous, with low-intensity training. According to the results of the study by scholars (Hruda, Hicks, & McCartney, 2003), the exercise group given the muscle training of the large muscles of the lower extremities had a better average change in the 30-second standing test than the control group without any training. It is known that the 30-second standing position is highly correlated with the lower limb muscle strength. Therefore, this study is aimed at the muscle weakness test to measure the lower limb muscle capacity of the subject, and the subject must be limited to 30 seconds. Within the clock, the movements of standing and sitting are completed as soon as possible, and after 30 seconds, the number of sitting stations completed during the measurement period is recorded.

3. Functional advancement: The purpose of this measurement is to test the balance of the subject. The functionality of the anterior bending of the measurement station. From the results of the study, the male subjects averaged 42.69 cm and the female subjects were 37.36 cm between the ages of 20 and 40. The male subjects averaged between 41 and 69 years old. At 37.61 cm, the female subject was 32.94 cm; between 70 and 87 years old, the male subject averaged 30.75 cm and the female subject was 28.67 cm. The extension distance decreases with age. The older the body, the worse the anterior bending function is. The average female measurement average is smaller than the male. The traditional measurement station has a forward bending instrument with a measurement range of 0 to 50. Centimeters.

4. Balance: The purpose of this measurement is to test the balance of the subject. The measurement method is divided into dynamic and static balance. The dynamic balance test method is to walk back eight steps and record the time spent. The static balance is measured by the closed eye and the open eye mask. The subject must stand on one foot until the feet touch the ground and record the balance time. According to the study, the average standing time of 67 to 68 years old was 1.45 seconds to 11.59 seconds, with an average of 6.57 seconds.

5. Reaction time: The purpose of this measurement index is to test the subject's response. According to the exercise physiology, the drop reaction is used as the reaction test. When the measurement method is preparation, the tester holds the upper end of the measuring ruler (or the reaction rod) so that the lower end of the measuring rule is flush with the hand of the subject. The tester flexed his elbow and prepared the palm with his thumb and index finger. When the tester drops the scale (or reaction rod) vertically, the subject responds quickly and clamps the scale (or reaction rod). The reaction distance is the upper end of the thumb holding the scale (or reaction rod). The distance of the drop.

6. Grip: This measurement is intended to test the subject's grip. The subject applied force on the grip and recorded its strength. According to the study, the average age of 54 years old, the average grip strength was 39.2 kg.

Nowadays, the measurement methods for the above-mentioned degenerative indicators are mostly carried out in hospitals and accompanied by professionals. The subjects cannot measure by themselves. After the measurement is completed, the testers analyze the results manually. Many times, the cost of medical resources and manpower is quite large. The traditional measurement method is also tedious and monotonous, so that the elderly do not want to continue to receive measurements, and thus can not get the appropriate exercise effect from the measurement.

Therefore, in view of the problems existing in the above-mentioned conventional structure, how to develop an innovative structure that is more ideal and practical, the consumers are eagerly awaiting, and the relevant industry must strive to develop the goal and direction of breakthrough.

In view of this, the inventor has been engaged in the manufacturing development and design experience of related products for many years. After detailed design and careful evaluation, the inventor has finally obtained the practical invention.

Nowadays, the measurement methods for the above-mentioned degenerative indicators are mostly carried out in hospitals and accompanied by professionals. The subjects cannot measure them by themselves. After the measurement is completed, the testers analyze the results manually, usually taking the test. Many times, the cost of medical resources and manpower is also quite large. The traditional measurement method is also tedious and monotonous, so that the elderly do not want to continue to receive measurements, and thus can not get the appropriate exercise effect from the measurement.

A method for detecting a fitness device and measuring a degradation index includes: a detection platform having a base, a seat and a measuring rod, the base extending upwardly to the seat, the base being provided There is a tread pad. When a user sits on the seat, the two feet can be placed on the tread pad. The seat is provided with a seat cushion. The seat cushion is provided with a pressure sensor 1 and a pressure is arranged in the seat cushion. a sensor rod 2; the measuring rod is vertically disposed at a corner of the base, and an armrest is connected to the middle portion, wherein the armrest is provided with a pressure sensor 3, and the user can hold the pressure sense of the armrest in one hand At three positions of the measuring device, the measuring rod is further provided with a pivoting structure at the middle portion, through which the middle end of the measuring rod can be bent to be parallel to the ground at the free end of the measuring rod, and the measuring rod is near the free end a transmissive plate that can be moved up and down to the measuring rod, and a distance sensor is disposed at the pivoting structure to sense a distance from a plate; a screen platform having a display screen; a control system, the control system and the pressure sensor, the pressure The second sensor, the distance sensor is connected to the display screen, and includes a degraded data collection module and a selection button group, and the degraded data collection module can receive the pressure sensor. The pressure change signal is transmitted from the third, and the reaction measurement data and the grip strength measurement data are obtained. The degraded data collection module can receive the signal from the distance sensor to obtain the user's height and functional forward measurement. Data, the degraded data collection module can receive the pressure change signal sent by the pressure sensor, and obtain the muscle endurance test data and the action force measurement data, and the degraded data collection module can receive the pressure sensor second pass The pressure change signal is obtained, and the balance test data and the user's weight are obtained. The degraded data collection module can obtain the user's height, weight, reaction, grip strength, functional foresight, muscular endurance, and action. The force and balance measurement data is displayed on the display screen, and the selection button group can select the degraded data collection module to collect height, weight, reaction force, grip strength, and functionality before , Muscular endurance, measurement data mobility with which one's sense of balance.

The physical fitness testing device and the method for measuring the degradation index of the invention integrate the measurement of all fitness related items (functional forward test, grip strength test, balance test, reaction test, muscle endurance test, mobility test) The elderly can stand on the platform to complete the measurement independently, and the invention is integrated into the game situation, so that the elderly can not feel monotonous when measuring, attracting the elderly to continue to receive measurements, and then obtaining appropriate exercise effects from the measurement.

The above-mentioned objects, structures and features of the present invention will be described in detail with reference to the preferred embodiments of the present invention. .

Referring to the first and second figures, the present invention provides a fitness testing device, comprising: a detecting platform (10) having a base (11) and a seat (12) And a measuring rod (13), the base (11) extends upwardly to the seat (12), and the base (11) is provided with a step (111), when a user sits on the seat (12) The footrest can be placed on the mat (111), and the seat (12) is provided with a seat cushion (121). The seat cushion (121) is provided with a pressure sensor 1 (1211), and the step mat (111) There is a pressure sensor 2 (1111); the measuring rod (13) is vertically disposed at a corner of the base (11), and an armrest (131) is connected to the middle portion, and the armrest (131) is provided with a a pressure sensor three (1311), the user can hold the pressure sensor three (1311) of the armrest (131) with one hand, and the measuring rod (13) further has a pivotal structure at the middle portion ( 132), through the pivotal structure (132), the middle end of the measuring rod (13) can be bent to be parallel to the ground at the free end of the measuring rod (13), and the measuring rod (13) is disposed at a near free end. The upper plate (133) of the measuring rod (13) can be moved up and down, and a sense of distance is provided at the pivoting structure (132) The device (134) can sense the distance from the board (133); a screen platform (20) having a display screen (21); a control system (30), the control system (30) and The pressure sensor one (1211), the pressure sensor two (1111), the pressure sensor three (1311), the distance sensor (134) are connected to the display screen (21), and include a degraded data collection module (31) and a selection button group (32), the degraded data collection module (31) can receive the pressure change signal from the pressure sensor three (1311) to obtain the reaction force measurement data. And the gripping force measurement module, the degraded data collection module (31) can receive the signal from the distance sensor (134) to obtain the user height and functional forward measurement data, and the degraded data collection module ( 31) receiving the pressure change signal transmitted by the pressure sensor 1 (1211) to obtain the muscle endurance test data and the action force measurement data, and the degraded data collection module (31) can receive the pressure sensor 2 (1111) The pressure change signal is transmitted to obtain the balance test data and the user's weight. The degraded data collection module (31) can obtain The user's height, weight, reaction, grip strength, functional forward, muscle endurance, mobility and balance measurement data are displayed on the display screen (21), and the selection button group (32) can select the degradation data. The collection module (31) collects measurement data of one of height, weight, responsiveness, grip strength, functional forehead, muscle endurance, mobility, and balance.

The control system (30) is connected to the pressure sensor 1 (1211), the pressure sensor 2 (1111), and the pressure sensor 3 (1311) using wireless transmission technologies such as RFID, ZigBee or Bluetooth. ), the distance sensor (134).

Please refer to the second and fourth figures, a method for measuring a functional extensional degradation index, which uses the above-mentioned physical fitness testing device to select the selection button group (32) to collect the degraded data collection module (31). Functional forward measurement data; the middle end of the measuring rod (13) is bent to be parallel to the ground at the free end of the measuring rod (13); a user stands beside the measuring rod (13) and adopts a standing posture The front bender pushes the resisting plate (133) toward the free end of the measuring rod (13); the distance sensor (134) senses the farthest distance from the resisting plate (133) and returns the signal to the degradation. The data collection module (31) is displayed on the display screen (21) to obtain functional forward measurement data.

Please refer to the second and eighth figures, a method for measuring a reaction degradation index, which uses the above-mentioned physical fitness testing device to select the degeneration data collection module (31) to collect reaction power. Measuring data; a user is placed at the pressure sensor 3 (1311) of the armrest (131); the degraded data collection module (31) drives the display screen (21) to display a ruler simulation screen, the use The pressure sensor three (1311) reacts to the drop sensor simulation screen, and the pressure sensor three (1311) pressure change signal is transmitted back to the degradation data collection module (31), and the display screen is displayed on the screen. (21) Display and obtain functional forward measurement data.

Please refer to the second and fifth figures, a method for measuring the grip strength degradation index, which uses the above-mentioned physical fitness detecting device to select the degeneration data collection module (31) to collect the grip strength test. Data; a user is placed at the pressure sensor three (1311) of the armrest (131); the user applies force to the pressure sensor three (1311), the pressure sensor three (1311) The pressure change signal is transmitted back to the degraded data collection module (31), and displayed on the display screen (21) to obtain grip strength measurement data.

Please refer to the first figure, the second figure and the sixth figure, a method for measuring the index of muscular endurance degradation, which uses the above-mentioned physical fitness testing device to select the degraded data collection module by the selection button group (32) (31) Collecting the muscle strength measurement data; a user sits on the seat cushion (121), and then performs the standing and sitting motion for 30 seconds, and the pressure sensor 1 (1211) continuously returns the pressure within 30 seconds. The change signal is sent to the degraded data collection module (31). The degraded data collection module (31) analyzes the pressure change signal to calculate the number of times the user is seated, and displays the display on the display screen (21).

Referring to FIG. 1 , FIG. 2 and FIG. 7 , a method for measuring a balance deterioration indicator is performed by using the above-mentioned physical fitness detecting device, and the selection button group (32) selects the degraded data collection module ( 31) collecting balance sense measurement data; a user standing on the mat (111) with one foot until the feet touch the ground, the pressure sensor 2 (1111) returns a pressure change signal to the degraded data collection module (31) The degraded data collection module (31) analyzes the pressure change signal to calculate the user balance time and displays it on the display screen (21).

Please refer to the first figure, the second figure and the third figure, a method for measuring the action force degradation index, which uses the above-mentioned physical fitness detecting device to select the degeneration data collection module (32) 31) collecting action force measurement data; placing the screen platform (20) three meters away from the detection platform (10); a user sitting on the seat cushion (121), the degraded data collection module (31) When the display screen (21) is displayed, the user stands up and walks to the detection platform (20), and the detection platform (20) folds back to sit on the seat cushion (121), and the pressure sensor 1 (1211) returns. The pressure change signal is sent to the degraded data collection module (31). The degraded data collection module (31) analyzes the pressure change signal to calculate the user round trip time and displays it on the display screen (21).

[Examples]

The physical fitness detecting device of the present invention is a platform for integrating detection devices, and it is expected that the traditional six tests are replaced by different games, and the exercise fitness function is brought in, thereby providing opportunities for elderly people to exercise.

Therefore, in the actual implementation of the physical fitness testing device of the present invention, the virtual character Jinbo (Kingbo) is the main character, and the concept of "Kingbo moves with everyone" is started. After measuring the degradation index, Jinbao provides the subject. The personalized combination of movements makes the detection and rehabilitation process more interesting, but it also does not lose the accuracy of the detection, so that the concept of detecting motion is fully presented. The game is mainly played in the concept of a playground. The game is played by the protagonist Campbell, and the user can select the game by himself. The six games designed are Jinbao stealing food, Jinbao stealing dinosaur eggs, Jinbao squeezed dumplings, Jinbao sitting balloons, Jinbao waterslides, Jinbao skydiving, corresponding to the three-meter round-trip mobile force test, functional forward test, grip strength test. The 30-second standing muscle endurance test, the balance sense test, and the reaction test of the drop rule reaction.

Referring to the first and second figures, the present invention integrates the testing equipment into the physical fitness testing device described above, and the physical structure is mainly divided into two main bodies, a detecting platform (10) and a screen platform (20), and the game and The equipment comparison is shown in Table 1.

The six test game instructions and design methods are as follows:

1. Three meters back and forth - Jinbao steals vegetables

Please refer to the first to third figures to design the three-meter back-and-forth test as the Jinbao stealing game. This game is first designed to detect the force data. To detect the action data in the game of the elderly, the team will be able to wrap around. The pressure sensitive device is placed inside the seat cushion (121), and the pressure of the sensor is different to detect whether the elderly person touches the seat cushion (121), thereby calculating the time difference of contacting the seat cushion (121). Therefore, when the seniors choose Jinbao to steal food from the menu, Jinbao will enter the house to steal food in a walking manner, and then return after stealing the food successfully. After the game is finished, the game starts. After the game starts, the seniors follow the instructions on the screen to walk forward to the front three meters mark, reach the three-meter mark, and then take the action of picking vegetables. Go back until you return to the seat and sit back on the cushion (121) again to complete the game flow. The control system (30) transmits the time of the three-meter walking of the elderly to a human physiological data database by using the wireless transmission technology of the internal wafer in the windable pressure sensitive device. After the game is completed, the control system (30) will determine whether the game is all completed. If the screen is not completed, it will return to the menu. The elderly can choose other games. If all six tests are completed, the control system (30) will use the computer. The display screen (21) produces a personalized exercise prescription. If the mobility function is detected to be poor, the elderly can use the Jinbao to steal vegetables for continuous rehabilitation.

2. Functional advancement - Jinbao steals dinosaur eggs

Please refer to the first, second and fourth figures to design the functional forward detection as the Jinbao stealing dinosaur egg game. This game is first designed to detect the balance force data. To detect the balance data in the game of the elderly, the team will super The sonic sensor is placed on the measuring rod (13), and the distance between the elderly person pushing the plate (133) is calculated by the ultrasonic wave, thereby obtaining the functional forward data. Therefore, when the elderly choose Jinbao to sneak dinosaur eggs from the menu, Jinbao will start the game after the screen description in the preliminary jumping position, and after the game starts, the seniors push forward according to the indication in the forward position. (133), if the board (133) reaches the standard, Jinbao can obtain the dinosaur egg. Conversely, if the standard distance cannot be pushed within the time, Jinbao cannot obtain the dinosaur egg, and the screen shows that the game has failed. After ending the game, the control system (30) will determine the outcome of the game and return to the main screen to select other games to play. If the six games are finished, the control system (30) will generate a personalized exercise prescription on the display screen (21) by computer. If the balance is detected to be poor, the elderly can use the Jinbao to steal dinosaur eggs for continuous rehabilitation.

3. Grip - Jinbao squeezed dumplings

Please refer to the first, second and fifth figures to design the grip detection as the Jinbao squeezed dumpling game. This game is first designed to detect the grip data. To detect the grip data in the game of the elderly, the team will set the retractable pressure sensor. In the right handrail (131), the value on the handrail (131) of the elderly person is obtained by the windable pressure sensitive device, thereby obtaining the grip strength test data. Therefore, when the senior citizen chooses Jinbao from the menu to squeeze the dumplings, the gold treasure in the picture is prepared in front of the dough. After the game starts, the elderly person holds the right handrail (131) according to the instructions on the screen to perform the force action. Jinbao will squeeze out the dumplings. The larger the force is, the larger the rice balls will be squeezed out. On the contrary, if the force cannot reach the standard value, the rice balls in the picture will be reduced according to the value. After the game is over, the control system (30) will determine the outcome of the game and return to the main screen to select other games to play. If the six games are finished, the control system (30) will generate a personalized exercise prescription on the screen by computer. If the grip strength is poor, the elderly can use the Jinbao squeezed dumplings for continuous rehabilitation.

4.30 seconds standing to sit - Campbell sitting balloon

Please refer to the first, second and sixth figures to design the 30-second standing test as the Campbell balloon game. This game is designed to detect the muscle endurance data. To detect the 30 seconds of standing in the game of the elderly, the team will The wraparound pressure sensor is placed inside the seat cushion (121), and the number of sitting times of the elderly person is obtained by the pressure change of the windable pressure sensitive device, thereby obtaining the data of standing for thirty seconds. Therefore, when the senior person chooses Jinbao to take the balloon from the menu, Jinbao stands on the stage and prepares to take the balloon. After the game starts, the elderly person follows the instructions on the screen to stand up and sit down. If the standing action is completed once, In the picture, Jinbao is sitting on a balloon. The more sitting times, the more the number of sitting balloons. Therefore, the muscular endurance data of the elderly is better. After the game is over, the control system (30) will determine the outcome of the game and return to the main screen to select other games to play. If the six games are finished, the control system (30) makes a result determination based on the game result and generates a personalized exercise prescription. If the poor endurance is detected, the elderly can use the balloon to perform a continuous rehabilitation exercise.

5. Balance - Jinbao Waterslide

Please refer to the first, second and seventh figures to design the balance force detection as the Jinbao waterslide game. This game is designed to detect the balance force data. To detect the single-legged data of the elderly in the game, the team will be able to feel around. The pressure device is placed inside the tread pad (111), and the pressure change of the windable pressure sensor is used to know whether the elderly person touches the ground with both feet, thereby calculating the time for the elderly person to stand on one foot to know the balance force data. Therefore, when the seniors choose the Jinbao waterslide from the menu, Jinbao stands on the water motorcycle and prepares to start. After the game starts, the seniors follow the instructions on the screen to perform a single-legged movement. The longer the one-legged standing time, the more the water-skiing motorcycle accelerates. The longer the time, until the elderly person touches the ground, the water motorcycle will fly out of the waterslide and begin to slide. The sliding distance depends on the length of the acceleration. Therefore, the older the elderly are standing on one foot, the farther the distance traveled by the watercraft, and the better the balance of the elderly. After the game is over, the control system (30) will determine the outcome of the game and return to the main screen to select other games to play. If the six games are finished, the control system (30) makes a result determination based on the game result and generates a personalized exercise prescription. If the balance is detected to be poor, elderly people can continue their rehabilitation exercise by using the Jinbao waterslide.

6. Responsiveness - Jinbao Skydiving

Please refer to the first, second and eighth figures to design the reaction detection as the Golden Treasure Skydiving game. This game is designed to detect the reaction data. To detect the measurement data of the elderly in the game, the team will be able to wrap around. The pressure sensitive device is placed inside the right handrail (131), and the pressure change of the windable pressure sensor is used to know whether the elderly person applies force to the handrail (131), thereby calculating the grasping time of the elderly person as the drop amount. Measuring data. Therefore, when the seniors choose Jinbao Skydiving from the menu, Jinbao is prepared on the plane. After the game starts, the seniors follow the on-screen instructions. After the prompt tone appears, Jinbao jumps off the plane, and the elderly must be in Jinbao. When passing the warning line, grasp the handrail (131) and let Jinbao open the parachute. If the time of opening the umbrella is correct, Jinbao will land smoothly, which means that the seniority's reaction test reaches the standard. On the other hand, if the time is wrong, Jinbao falls into the sea and the screen shows that the game has failed. After the game is over, the control system (30) will determine the outcome of the game and return to the main screen to select other games to play. If the six games are finished, the control system (30) makes a result determination based on the game result and generates a personalized exercise prescription. If the reaction is detected to be poor, elderly people can continue their rehabilitation exercise by using Campbell skydiving.

After the end of the six games, the control system (30) determines the results based on the results of the game and generates a personalized exercise prescription, and leads the elderly to perform a continuous rehabilitation game with Jinbao. The six games will be adjusted for different degradation situations. With the number of movements and frequency of exercise suitable for different ages, the elderly can make appropriate movements for their own degeneration. The control system (30) will also provide the exercise that the elderly can usually perform according to the results, so that the elderly can be Usually have the concept of correct exercise.

The whole process of the invention from the end of the detection to the correct movement is designed for the needs of the elderly, and is expected to achieve the purpose of assisting the elderly to successfully prevent aging, and also saves the time cost and medical cost wasted by the elderly to the hospital detection process, and The fitness center near the home completes the entire process, and cooperates with the hospital to monitor the personal physiological data of the elderly for a long time, and immediately remit it for use by professional medical personnel when needed.

The present invention has been described with reference to the preferred embodiments of the present invention. However, those skilled in the art can change and modify the present invention without departing from the spirit and scope of the invention. Such changes and modifications shall be covered in the scope defined by the following patent application.

(10). . . Detection platform

(11). . . Pedestal

(111). . . Mat

(1111). . . Pressure sensor II

(12). . . Seat

(121). . . cushion

(1211). . . Pressure sensor one

(13). . . Measuring rod

(131). . . armrest

(1311). . . Pressure sensor three

(132). . . Pivot structure

(133). . . Board

(134). . . Distance sensor

(20). . . Screen platform

(twenty one). . . Display screen

(30). . . Control System

(31). . . Degraded data collection module

(32). . . Select button group

First Figure: A perspective view of an embodiment of the present invention.

Second Figure: Functional block diagram of an embodiment of the present invention.

Third Figure: Schematic diagram of the state of measurement of the mobility of an embodiment of the present invention.

Fourth Figure: Schematic diagram of a functional forward measurement state of an embodiment of the present invention.

Fig. 5 is a schematic view showing the state of measurement of the grip force of an embodiment of the present invention.

Fig. 6 is a view showing the state of measurement of muscular endurance according to an embodiment of the present invention.

Seventh: A schematic diagram of a state of balance force measurement according to an embodiment of the present invention.

Figure 8 is a schematic view showing the state of the reaction force measurement of an embodiment of the present invention.

(10). . . Detection platform

(11). . . Pedestal

(111). . . Mat

(1111). . . Pressure sensor II

(12). . . Seat

(121). . . cushion

(1211). . . Pressure sensor one

(13). . . Measuring rod

(131). . . armrest

(1311). . . Pressure sensor three

(132). . . Pivot structure

(133). . . Board

(134). . . Distance sensor

(20). . . Screen platform

(twenty one). . . Display screen

(32). . . Select button group

Claims (10)

A physical fitness detecting device comprises: a detecting platform, the detecting platform has a base, a seat and a measuring rod, the base extends upwardly to the seat, the base is provided with a stepping pad, a user When sitting on the seat, the two feet can be placed on the step, the seat is provided with a seat cushion, and the seat cushion is provided with a pressure sensor 1 , and a pressure sensor 2 is disposed in the seat; The rod is vertically disposed at a corner of the base, and an armrest is connected to the middle portion. The armrest is provided with a pressure sensor 3, and the user can hold the pressure sensor at the three positions of the handrail. The rod further has a pivoting structure at the middle portion, through which the middle portion of the measuring rod is bent to be parallel to the ground at the free end of the measuring rod, and the measuring rod is disposed at a near free end to be movable up and down One of the measuring rods is abutted against the board, and a distance sensor is disposed at the pivoting structure to sense the distance from the board; a screen platform is provided with a display screen; a control system, the control System and the pressure sensor, the pressure sensor 2, the pressure sensor The distance sensor is connected to the display screen, and includes a degraded data collection module and a selection button group, and the degraded data collection module can receive the pressure change signal transmitted from the pressure sensor to obtain the pressure change signal. The reaction force measurement data and the grip strength measurement data, the degraded data collection module can receive the signal from the distance sensor, and obtain the user height and functional forward measurement data, and the degraded data collection module can receive The pressure sensor transmits a pressure change signal, and obtains the muscle endurance test data and the action force measurement data, and the degraded data collection module can receive the pressure change signal transmitted from the pressure sensor to obtain a sense of balance. Test data and the user's weight, the degraded data collection module can obtain the obtained height, weight, reaction, grip strength, functional forward, muscle endurance, mobility and balance measurement data of the user on the display The screen shows that the selection button group can select the degraded data collection module to collect height, weight, reaction, grip strength, functional advancement, muscle endurance, mobility and level. Sensing the amount of one of the sensing data. The physical fitness testing device of claim 1, wherein the control system is connected to the pressure sensor using an RFID wireless transmission technology, the pressure sensor 2, the pressure sensor 3, and The distance sensor. The physical fitness testing device according to claim 1, wherein the control system is connected to the pressure sensor using a ZigBee wireless transmission technology, the pressure sensor 2, the pressure sensor 3 and The distance sensor. The physical fitness detecting device according to claim 1, wherein the control system is connected to the pressure sensor by using a Bluetooth wireless transmission technology, the pressure sensor 2, the pressure sensor 3, and The distance sensor. A method for measuring a degradation index, which is a method for measuring a functional extensional degradation index using a physical fitness testing device as described in claim 1 of the patent application scope, and selecting the selection button group to select the degradation data collection module to collect Functional forward measurement data; the middle end of the measuring rod is bent to be parallel to the ground at the free end of the measuring rod; a user standing beside the measuring rod and adopting the forward bending of the standing posture to the board The measuring rod is freely pushed; the distance sensor senses the farthest distance from the board, and transmits the signal back to the degraded data collecting module, and displays the function on the display screen to obtain the functional forward measurement data. . A method for measuring a degradation index, which is a method for measuring a reaction degradation index using a physical fitness testing device according to claim 1 of the patent application scope, and selecting the degeneration data collection module to collect reaction power Measuring data; a user places one hand at the pressure sensor of the armrest; the degraded data collection module drives the display screen to display a drop scale simulation screen, and the user makes a pressure on the drop scale simulation screen. The sensor three reactions, the pressure sensor three pressure change signals are transmitted back to the degraded data collection module, and displayed on the display screen to obtain functional forward measurement data. A method for measuring a degradation index, which is a method for measuring a grip strength degradation index using a physical fitness testing device according to claim 1 of the patent application scope, and selecting the degeneration data collection module to collect a grip strength test Data; a user places one hand at the pressure sensor of the armrest; the user applies a force to the pressure sensor 3, and the pressure sensor three pressure change signals are transmitted back to the degraded data collection module. And on the display screen display, the grip strength measurement data is obtained. A method for measuring a deterioration index, which is a method for measuring a muscular endurance deterioration index using a physical fitness testing device according to claim 1 of the patent application scope, and selecting the degeneration data collection module to collect the muscular endurance Measuring data; a user sitting on the seat cushion and then performing the standing and sitting motion for 30 seconds, the pressure sensor continuously returns the pressure change signal to the degraded data collection module within 30 seconds, the degradation The data collection module analyzes the pressure change signal and calculates the number of times the user sits, and displays it on the display screen. A method for measuring a degradation index, which is a method for measuring a balance sense degradation indicator using a physical fitness detecting device according to claim 1 of the patent application scope, and selecting the degraded data collection module to collect a sense of balance Measuring data; a user standing on the mat until the feet touch the ground, the pressure sensor 2 returns a pressure change signal to the degraded data collection module, and the degraded data collection module analyzes the pressure change signal The user balance time is calculated and displayed on the display screen. A method for measuring a degradation index, which uses the physical fitness testing device described in claim 1 to measure a behavioral degradation index, and selects the selection button group to collect the action power. Measuring data; placing the screen platform three meters away from the detection platform; a user sitting on the seat cushion, the degraded data collection module starts up and walks to the detection platform when the display of the display screen begins, Returning the seat cushion to the seat cushion, the pressure sensor returns a pressure change signal to the degraded data collection module, and the degraded data collection module analyzes the pressure change signal to calculate the user round trip time, and The screen display is displayed.