CN214965590U - Physical function state monitoring device - Google Patents

Abstract

The invention discloses a body function state monitoring device, which belongs to the field of sports index monitoring and comprises the following components: the balance measuring instrument is in a cross bar shape and comprises two grabbing parts for measuring state data of a person to be detected when the person moves by a preset action; the pressure distribution tracker further comprises: the force measuring pad is divided into a plurality of force measuring areas; the pressure sensors are respectively arranged in the force measuring area; and the plurality of camera devices are respectively arranged in the peripheral area of the pressure distribution tracker and aligned with the pressure distribution tracker. The technical scheme of the invention has the beneficial effects that: the physical quality and the athletic ability of a person to be detected are measured systematically, and possible injury risks are analyzed, so that the action correction of daily training is guided, and injuries are reduced.

Description

Physical function state monitoring device

Technical Field

The invention relates to the field of sports index monitoring, in particular to a body function state monitoring device.

Background

The training injury refers to the injury of bone joints, muscle tendons, soft tissues or organs which occurs when the training is performed, and the chronic injury of the motion system is caused. Pain is usually the major manifestation, with a long course and a tendency to relapse. The main causes of training injuries include: the action is not mastered, and action disorder and deformation are easy to occur; the training intensity is high; the protection consciousness is poor, the protection measures are not implemented to the real places, and the training instruments and the barriers are not firmly placed, so that accidents are caused; the training arrangement is unscientific, the method of the training organizer is single, the demonstration action is not standard, and the preparation activity is insufficient or has no pertinence; poor psychological quality, excessive stress and fear, and insufficient psychological preparation before training, which all can cause the occurrence of training injury; for patients who have serious training injuries and need operations, no effective training method for rehabilitation treatment exists after the operations; to training the wounded for the light wound, and do not need to carry out the training personnel of operation treatment, urgent need design a health function state monitoring devices, can monitor training personnel's each item functional state data comprehensively to reset reasonable training scheme, reduce training intensity, through reasonable effectual rehabilitation recovery health.

Disclosure of Invention

The invention aims to provide a body function state monitoring device, which guides action correction and training in the future by systematically measuring basic physical quality and athletic ability of a person to be detected and reasonably evaluating possible injury risks.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

the invention provides a body function state monitoring device, comprising:

the balance measuring instrument is in a cross bar shape and comprises two grabbing parts and is used for measuring state data of a person to be detected when the person moves in a preset action, wherein the state data comprises acceleration, an inclination angle, impact force, vibration amplitude and a rotation angle;

a pressure distribution tracker, the pressure distribution tracker comprising a plurality of force measurement zones for measuring a pressure exerted on the pressure distribution tracker when the person to be detected moves with the predetermined movement, the pressure distribution tracker further comprising:

the force measuring pad is divided into a plurality of force measuring areas;

the pressure sensors are respectively arranged in the force measuring area;

and the plurality of camera devices are respectively arranged in the peripheral area of the pressure distribution tracker and are aligned with the pressure distribution tracker.

Preferably, the balance gauge comprises an inertial sensor.

Preferably, a distance measuring belt is respectively arranged at the central position of the pressure distribution tracker in the X-axis direction and the Y-axis direction.

Preferably, the side edges of the pressure distribution tracker are respectively provided with a clamping groove at a preset distance;

one of the gripping portions of the balance measuring instrument is fixedly mounted in the slot.

Preferably, the method further comprises the following steps:

the analysis device is connected with the balance measuring instrument through a wireless communication device and is used for analyzing the risks possibly existing when the person to be detected moves according to the state data;

and the human-computer interaction device is respectively connected with the pressure distribution tracker, the camera device and the analysis device and is used for displaying the pressure value measured by the pressure distribution tracker, the video shot by the camera device and the analysis result obtained by the analysis device through the human-computer interaction device.

Preferably, the human-computer interaction device is connected with the analysis device through a wire.

Preferably, the human-computer interaction device is in wired connection with the analysis device through a USB port and/or an HDMI port.

Preferably, each camera device is connected to the human-computer interaction device through a universal serial bus.

Preferably, the wireless communication device includes at least one of a bluetooth device and a WIFI device.

Preferably, each of the cameras is disposed in a surrounding area of the pressure distribution tracker through a retractable bracket.

The technical scheme of the invention has the beneficial effects that:

the balance measuring instrument and the pressure distribution tracker are used for systematically measuring the physical quality and the movement capacity of a person to be detected and analyzing possible injury risks, so that the daily training action correction is guided, and the injury is reduced.

Drawings

Fig. 1 is a schematic structural view of a body function state monitoring device according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

The invention provides a body function state monitoring device, belonging to the field of sports index monitoring, as shown in figure 1, comprising:

the balance measuring instrument 1 is in a cross bar shape and comprises two grasping parts and is used for measuring state data of a person to be detected when the person moves in a preset action, wherein the state data comprises acceleration, an inclination angle, impact force, vibration amplitude and a rotation angle;

a pressure distribution tracker 2, the pressure distribution tracker 2 comprising a plurality of force measuring areas, such as force measuring area a, force measuring area B, force measuring area C, force measuring area D, for measuring a pressure exerted on the pressure distribution tracker 2 by a person to be detected moving with a predetermined movement, the pressure distribution tracker 2 further comprising:

the force measuring pad is divided into a plurality of force measuring areas;

the pressure sensors are respectively arranged in the force measuring area;

the plurality of imaging devices 3 are respectively provided in the peripheral area of the pressure distribution tracker 2 and aligned with the pressure distribution tracker 2.

Specifically, this technical scheme includes balance measuring instrument 1, pressure distribution tracker 2 and a plurality of camera device 3, waits to detect the personnel and when predetermineeing the action test, through the balanced index of the personnel of waiting to detect of above-mentioned device measurement to and the pressure that produces during the motion, and shoot through camera device 3 and wait to detect the overall process that personnel carried out the action of predetermineeing, carry out systemic measurement to its physique physical stamina through the measuring health function state.

In a preferred embodiment, the inertial sensor may be located at an intermediate position of the balance measuring machine 1.

In a preferred embodiment, the pressure distribution tracker 2 is provided with a distance measuring band 21 at the center position in the X-axis and Y-axis directions, respectively.

In a preferred embodiment, the sides of the pressure distribution tracker 2 are respectively provided with a slot at a predetermined distance;

one of the grip portions of the balance measuring instrument 1 is fixedly mounted in the card slot.

In a preferred embodiment, the method further comprises:

the analysis device 4 is connected with the balance measuring instrument 1 through a wireless communication device and is used for analyzing the risks possibly existing when the person to be detected moves according to the state data;

and the human-computer interaction device 55 is respectively connected with the pressure distribution tracker 2, the camera device 3 and the analysis device 4, and is used for displaying the pressure value measured by the pressure distribution tracker 2, the video shot by the camera device 3 and the analysis result obtained by the analysis device 4 through the human-computer interaction device 5.

Specifically, the analysis device 4 can perform basic analysis processing, output a simple report even without a network, and display the test data in the human-computer interaction device 5, and the physical fitness report output by the analysis device 4.

In a preferred embodiment, the human-computer interaction means 5 are connected to the analysis means 4 by a wire.

In a preferred embodiment, the human-computer interaction device 5 is connected to the analysis device 4 by a wire through a USB port and/or an HDMI port.

In a preferred embodiment, each camera 3 is connected to the human-computer interaction device 5 through a Universal Serial Bus (USB).

In a preferred embodiment, the wireless communication device includes at least one of a bluetooth device and a WIFI device.

In a preferred embodiment, each camera 3 is arranged in the area around the pressure distribution tracker 2 by means of a telescopic support.

Specifically, the camera device 3 is erected right in front of and on the side of the person to be detected during testing through a telescopic bracket.

In the preferred embodiment, the physical and physical performance assessment index includes, but is not limited to, activity, balance, functionality, stability, explosive force, coordination, cardiopulmonary function, etc.

The body function state of the person to be detected is tested by adopting the following seven sets of simple and easy-to-operate preset actions:

preset action one, standing swivel

The feet of a person to be detected stand on different areas of the force measuring pad respectively, the legs are closed, the two hands grasp the grasping parts of the balance measuring instrument 1 respectively and place the two grasping parts on two shoulders, so that the balance measuring instrument 1 is parallel to the ground, the lower half body is kept still, the upper half body is kept upright and rotates to the left side and the right side slowly and respectively for three times, the upper half body does not roll or bend and stretch forwards and backwards in the turning process, the turning amplitude of the person to be detected is tested, the flexibility of the hip joint and the shoulder joint can be known through a preset action, and the injury risk possibly existing in special training such as crawling, climbing, throwing and the like is evaluated through the flexibility.

Presetting a second action: standing with feet in front and back positions

The body of a person to be detected keeps upright, one foot is in front, the other foot is behind, the heel of the front foot is tightly attached to the toe of the back foot and stands in a straight line, the balance measuring instrument 1 is placed on two shoulders, the balance measuring instrument 1 is made to be parallel to the ground, the two hands grasp the grasping part of the balance measuring instrument, the distance from the grasping position of the two hands to the middle position of the balance measuring instrument 1 is the same, the elbow is perpendicular to the balance measuring instrument 1, the eyes are closed, the standing action of the front and back positions of the two feet is kept for 30 seconds, the number of times of losing balance of the person to be detected and the amplitude of shaking are tested, a second preset action is free of any visual reference object, only the body balance can be kept by means of brain vestibule organs and muscle memory of the whole body, and the body is controlled.

Presetting action three: squatting deeply over head

Standing a person to be detected on different areas of the force measuring pad, separating two feet, enabling the distance between the two feet to be slightly larger than the width of two shoulders, grasping the grasping part of the balance measuring instrument 1 by two hands, enabling the grasping position to be the same as the distance between the middle position of the balance measuring instrument 1, enabling the elbow to be vertical to the balance measuring instrument 1, enabling the arm to be extended upwards, enabling the balance measuring instrument 1 to exceed the top of the head, slowly squatting to the limit, keeping the heel close to the ground in an effort, lifting the head and raising the chest, keeping the balance measuring instrument 1 above the top of the head, continuously squatting for 3 times, to measure the mobility of the shoulder joint, the orientation of the knee joint and the tiptoe of the person to be detected is consistent, the squatting amplitude, the trunk control capability and the knee joint exceeds the tiptoe, and evaluating the bilateral symmetrical functional mobility of hip, knee and ankle joints of the person to be detected and the bilateral symmetrical functional mobility of thoracic vertebra and shoulders through a third preset action.

The preset action four: single-leg squat

One leg of a person to be detected stands in one force measuring area of the force measuring pad, the other leg of the person to be detected is lifted backwards until the lower leg and the ground are parallel, the toe and the ground are 90 degrees, the two arms are naturally extended forwards, the person slowly squats to the limit, the face of the person faces forwards, the head of the person is raised and the chest of the person is raised, the balance measuring instrument 1 is fixed in a clamping groove on the same side of the foot which lands on the ground, in the process of squating or rising, if the person to be detected cannot control the body balance, the force can be used for the balance measuring instrument 1, the left leg and the right leg respectively perform 1 single-leg squating action, so as to test whether the orientations of the knee joint and the toe are consistent, the squating amplitude, the trunk side tilting angle, the trunk rotating angle, the trunk forward tilting angle and the left and right side squating amplitudes are different, and further evaluate whether the joints of the person to be detected are stable, the strength of the muscles and the control capability of the upper limbs.

A preset action five: standing double-foot longitudinal jumping

The method comprises the steps that a person to be detected stands on different areas of a force measuring pad, two feet are separated, the distance between the two feet is the same as the width of two shoulders, a balance measuring instrument 1 is placed on the two shoulders, the knee is kicked to the ground fully after being bent downwards to a proper angle, the knee is extended, the person jumps to the upper side of the original place, in the jumping process, the balance measuring instrument 1 is kept parallel to the ground, one-time preset action five is executed, the jumping height and landing buffering capacity are measured, in the landing buffering stage, the sequence of whether the directions of the knee joint and the toe are consistent, whether the knee joint exceeds the toe and whether the hip and knee joint are buckled is evaluated through the actual performance of the preset action five, whether the landing skill is mastered, and the possible injury risk when the person jumps in the training process is predicted.

Presetting action six: two feet cross jump

A person to be detected stands on a certain force measuring area of the force measuring pad, the distance between two feet is slightly smaller than the width of two shoulders, two arms naturally droop, the force measuring area sequentially jumps clockwise on the force measuring pad, then jumps anticlockwise and returns to the original standing force measuring area, jumping actions are kept coherent as much as possible in the process, the body faces the right front, the completion time and the time difference of the clockwise jumping and the anticlockwise as well as the swing amplitude of the trunk during jumping are measured, and the coordination capability and the body control capability of the upper limb joint and the lower limb joint of the person to be detected are evaluated.

A preset action seven: both hands push forward quickly

Standing the two feet of the person to be detected, enabling the distance between the two feet to be the same as the widths of the two shoulders, enabling the body to be upright, enabling the two hands to grasp the grasping portion of the balance measuring instrument 1, enabling the grasping position of the two hands to be the same as the widths of the two shoulders, pushing the balance measuring instrument 1 forwards to enable the arms of the two hands to be parallel to the ground, executing a preset action for seven for 1 minute, measuring the number of times of pushing forwards, the total power, the average power, the power attenuation and the speed descending trend, and evaluating the anaerobic explosive force endurance of the person to be detected.

The technical scheme of the invention has the beneficial effects that:

the balance measuring instrument and the pressure distribution tracker are used for systematically measuring the physical quality and the movement capacity of a person to be detected and analyzing possible injury risks, so that the daily training action correction is guided, and the injury is reduced.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A body function state monitoring device, comprising:

the balance measuring instrument is in a cross bar shape and comprises two grabbing parts and is used for measuring state data of a person to be detected when the person moves in a preset action, wherein the state data comprises acceleration, an inclination angle, impact force, vibration amplitude and a rotation angle;

a pressure distribution tracker, the pressure distribution tracker comprising a plurality of force measurement zones for measuring a pressure exerted on the pressure distribution tracker when the person to be detected moves with the predetermined movement, the pressure distribution tracker further comprising:

the force measuring pad is divided into a plurality of force measuring areas;

the pressure sensors are respectively arranged in the force measuring area;

and the plurality of camera devices are respectively arranged in the peripheral area of the pressure distribution tracker and are aligned with the pressure distribution tracker.

2. The physical state of function monitoring device of claim 1, wherein the balance gauge comprises an inertial sensor.

3. The physical function state monitoring device according to claim 1, wherein a distance measuring band is provided at each of the X-axis and Y-axis central positions of the pressure distribution tracker.

4. The physical state monitoring device of claim 1, wherein the pressure distribution tracker has a slot on each side thereof spaced apart by a predetermined distance;

one of the gripping portions of the balance measuring instrument is fixedly mounted in the slot.

5. The physical state of function monitoring device of claim 1, further comprising:

the analysis device is connected with the balance measuring instrument through a wireless communication device and is used for analyzing the risks possibly existing when the person to be detected moves according to the state data;

and the human-computer interaction device is respectively connected with the pressure distribution tracker, the camera device and the analysis device and is used for displaying the pressure value measured by the pressure distribution tracker, the video shot by the camera device and the analysis result obtained by the analysis device through the human-computer interaction device.

6. The physical state of function monitoring device of claim 5, wherein the human interaction device is connected to the analysis device by a wire.

7. The body function state monitoring device according to claim 5, wherein the human-machine interaction device is connected to the analysis device by a wired connection via a USB port and/or an HDMI port.

8. The apparatus according to claim 5, wherein each of said cameras is connected to said human-computer interaction device via a universal serial bus.

9. The physical state of function monitoring device of claim 5, wherein the wireless communication device comprises at least one of a Bluetooth device and a WIFI device.

10. The physical state of function monitoring device of claim 1, wherein each of said cameras is mounted to the area surrounding said pressure distribution tracker by a retractable stand.

Images