CN216021064U - Balance sense and muscle strength measuring device - Google Patents

Abstract

The present invention relates to a device for measuring balance and muscle strength, which is used for a subject to automatically measure balance and muscle strength, it comprises a pressure distribution sensing pad and a computer, wherein the pressure distribution sensing pad is provided with a signal processing element connected with the computer and a pressure sensor array for generating pressure distribution sensing information when being stepped by the testee, the signal processing element is hidden in the pressure distribution sensing pad, and the computer is provided with a display screen, the display screen displays an operation picture for displaying that the tested person needs to stand on the pressure sensor array by standing on the tiptoe with the left foot, the right foot, both feet, both front and back feet and both feet standing on the tiptoe to respectively generate the pressure distribution sensing information, the signal processing element transmits the pressure distribution sensing information of the pressure distribution sensing pad to the computer, the computer is used for evaluating the balance sense and the muscle strength of the testee according to the plurality of pressure distribution sensing information.

Description

Balance sense and muscle strength measuring device

Technical Field

The present invention relates to human motion measurement, and more particularly to a device for measuring balance and muscle strength.

Background

Balance sense and muscle strength are two important indexes in human body movement, and once the balance sense is lacked, the risk of falling is easy to occur, and the muscle strength is an important key for continuous movement and maintaining the balance sense. In the prior art, whether the balance and muscle strength of a subject reach the level index is measured, whether the subject can complete the designated exercise actions such as standing on both feet for a period of time, standing on one foot (left foot and right foot) for a period of time, and putting the tip of the foot on both feet for a period of time is observed, while the observer observes and evaluates the completion degree of the subject and calculates the duration time by using a code table, and finally scores the results with time such as incomplete, poor, common, good, and good, etc., and finally makes a decision according to the scores.

However, in the actual measurement process, the duration of the subject, such as seconds, cannot reflect whether the subject is finished easily or is barely finished, so the final result may be distorted and not truly correct the balance of the subject.

On the other hand, in the prior art, the detection needs to be performed by an observer, and the detection needs to be performed by a testee and the observer to reserve time, which is time-consuming and high in cost, so that the testee obviously has problems in movement and is willing to perform, and the effect of early detection and early treatment cannot be achieved.

SUMMERY OF THE UTILITY MODEL

Accordingly, the present invention is directed to a device for measuring balance and muscle strength, which can be used by a subject to test the balance and muscle strength by himself/herself, and which can objectively reflect the actual balance and muscle strength of the subject by using a computer and a pressure distribution sensing pad and their related functions.

To achieve the above object, the present invention provides a balance sense and muscle strength measuring device for a subject to automatically detect balance sense and muscle strength, which comprises a computer and a pressure distribution sensing pad. The computer is provided with a display screen which displays an operation picture. The pressure distribution sensing mat is provided with a signal processing element and a pressure sensor array, the signal processing element is connected with the computer, the pressure sensor array is used for the testee to tread to generate pressure distribution sensing information, the signal processing element is hidden in the pressure distribution sensing mat, the operation picture is used for displaying that the testee needs to stand on the pressure sensor array by a left foot, a right foot, two feet, front and back of the two feet and two feet standing on the tiptoe to respectively generate the pressure distribution sensing information, and no additional observer is needed. The signal processing element is used for transmitting the pressure distribution sensing information of the pressure distribution sensing pad to the computer, and the computer is used for calculating the gravity center offset according to the pressure distribution sensing information so as to automatically evaluate the balance sense and the muscle strength. The pressure sensor array is provided with two pedal areas for the testee to step on, and the operation picture is provided with a pedal pressure display area for instantly displaying the pressure distribution of the testee stepping on the pressure sensor array, a motion reference picture display area for guiding the testee, and a text description display area for guiding the testee.

In an embodiment of the utility model, the computer is selected from any one of a smart phone and a personal computer.

In an embodiment of the present invention, the computer is selected from any one of a tablet computer and a notebook computer.

As described above, the present invention obtains the multiple pieces of pressure distribution sensing information generated when the subject stands on the pressure sensor array with the left foot, the right foot, the both feet, the front and back of the both feet and the toes standing on the toes, and allows the computer to estimate the calculation of the center of gravity offset of the subject according to the multiple pieces of pressure distribution sensing information, thereby estimating the balance and muscle strength.

Drawings

FIG. 1 is a schematic view of the external structure of the present invention;

FIG. 2 is a schematic representation of the use of the present invention;

FIGS. 3A to 3D are schematic views of operation screens according to the present invention.

Detailed Description

The technical content, characteristics and effects of the utility model will be more clearly shown in the following detailed description of the preferred embodiments with reference to the accompanying drawings.

Referring to fig. 1 and 2, the present invention provides a balance sensing and muscle strength measuring device for a subject 10 to perform self-operation to detect and evaluate balance sensing and muscle strength, which includes a computer 20 and a pressure distribution sensing pad 30. The computer 20 may be any one selected from a smart phone, a tablet computer, a notebook computer and a personal computer, as shown in fig. 1, for illustrating the tablet computer, and the computer 20 is used by a subject 10 for self-operation to detect the balance and muscle strength of the subject 10.

The computer 20 runs a control software, and the computer 20 has a display screen 21, and the control software displays an operation screen 22 on the display screen 21.

The pressure distribution sensing mat 30 has a signal processing device 31 and a pressure sensor array 32, the signal processing device 31 is connected to the computer 20, the signal processing device 31 can be connected to the computer 20 by a wire (not shown) or the signal processing device 31 can be connected to the computer 20 by wireless connection technology, the pressure sensor array 32 is provided for the subject 10 to step on to generate a pressure distribution sensing information, and the signal processing device 31 is hidden in the pressure distribution sensing mat 30.

Referring to fig. 2, fig. 3A, fig. 3B, fig. 3C and fig. 3D, the operation screen 22 is used to instruct the subject 10 to stand on the pressure sensor array 32 with the left foot, the right foot, both feet and both feet standing on the toes to generate the pressure distribution sensing information, in one embodiment, the pressure sensor array 32 has two foot-stepping areas 321, and the two foot-stepping areas 321 are used for the subject 10 to step on. In one embodiment, the operation screen 22 has a pedal pressure display area 221, the pedal pressure display area 221 displays the pressure distribution of the subject 10 stepping on the pressure sensor array 32 in real time to provide the reference of the subject 10, and the control software automatically determines whether the subject 10 performs the correct action, and starts to calculate data to generate the pressure distribution sensing information after the subject 10 performs the correct action.

In addition, the operation screen 22 has a motion reference map display area 222, and the motion reference map display area 222 can display reference motions to guide the subject 10 to perform the same motions, for example, as shown in fig. 3A, indicating that the subject 10 stands on the pressure sensor array 32 with both feet; as shown in fig. 3B, the subject 10 is indicated to stand on the pressure sensor array 32 with his left foot; as shown in fig. 3C, the subject 10 is indicated to stand on the pressure sensor array 32 with his right foot; as shown in fig. 3D, the subject 10 is instructed to stand on the pressure sensor array 32 with tiptoe standing on both feet. In addition, the operation screen 22 has a text description display area 223, and the text description display area 223 guides the subject 10 which actions need to be taken to correctly generate the pressure distribution sensing information.

After the pressure distribution sensing information of the subject 10 is measured and generated, the pressure distribution sensing pad 30 transmits the pressure distribution sensing information to the computer 20 through the signal processing element 31, so that the computer 20 calculates the center of gravity offset of the subject 10 according to the pressure distribution sensing information, and further evaluates the balance and muscle strength of the subject 10.

As described above, the present invention has the following advantages over the prior art:

1. the pressure distribution sensing mat obtains a plurality of pieces of pressure distribution sensing information generated by the pressure sensor array when the subject stands on the left foot, the right foot, the both feet, the front foot, the back foot and the both feet tiptoe respectively, the computer automatically calculates the gravity center offset of the subject according to the plurality of pieces of pressure distribution sensing information, and further automatically evaluates the balance sense and the muscle force of the subject, so that the absence of subjective judgment of assisting measurement by an observer cannot exist, and the balance sense and the muscle force of the subject are really reflected.

2. On the operation picture, the arrangement of the pedal pressure display area, the action reference picture display area and the text description display area assists and indicates the testee to make correct action, and automatically detects whether the action is correct or not so as to correctly obtain the pressure distribution sensing information.

Claims (3)

1. A balance feeling and muscle strength measuring device for a subject to automatically detect balance feeling and muscle strength, the balance feeling and muscle strength measuring device comprising:

the computer is provided with a display screen which displays an operation picture; and

a pressure distribution sensing mat, wherein the pressure distribution sensing mat has a signal processing element connected with the computer and a pressure sensor array for the testee to tread to generate pressure distribution sensing information, the signal processing element is hidden in the pressure distribution sensing mat, the operation picture is used for displaying that the testee needs to stand on the pressure sensor array by a left foot, a right foot, two feet, front and back feet and two feet standing on tiptoes to respectively generate the pressure distribution sensing information, the signal processing element is used for transmitting the pressure distribution sensing information of the pressure distribution sensing mat to the computer, and the computer is used for calculating the gravity center offset according to the pressure distribution sensing information to automatically generate the evaluation of balance sense and muscle force;

the pressure sensor array is provided with two pedal areas for the testee to step on, and the operation picture is provided with a pedal pressure display area for instantly displaying the pressure distribution of the testee stepping on the pressure sensor array, a motion reference picture display area for guiding the testee, and a text description display area for guiding the testee.

2. The device for measuring balance and muscular strength of claim 1, wherein the computer is selected from a smart phone and a personal computer.

3. The apparatus of claim 1, wherein the computer is one selected from a tablet computer and a notebook computer.

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