JPH05115460A - Measuring instrument for distribution of foot pressure of the like - Google Patents

Abstract

PURPOSE:To analyze force in the complicated directions in the measuring instrument for distribution of foot pressure, etc. CONSTITUTION:This measuring instrument is provided with a pressure receiving part 4 made of a synthetic resin provided in a frame 1, many pressure receiving bar bodies 22 arranged vertically and horizontally leaving a prescribed interval from the pressure receiving part 4, the pressure receiving surface 23 of a roughly flat shape formed on the upper face of the pressure receiving bar body 22, the cylindrical opening surface 24 formed on the lower end of the pressure receiving bar body 22, a steel ball 25 engaged partially to the cylindrical opening surface 24 from below and a sliding means which can slide the steel ball 25 freely in all the forward/backward and left/right directions together with the pressure receiving body 22. Also, this measuring instrument consists of an epoxy rubber plate 27 which is provided below the steel ball 25 and upper surface of which is coated with a reflecting paint 26, acryl plates 28, 29 of two layers provided on its lower part, a polarizing plate 30 provided between the acryl plates 28, 29, an inclined mirror 31 provided below the polarizing plate 30, and a light source 32 provided in front of the inclined mirror 31.

Description

Detailed Description of the Invention [Industrial applications]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus capable of measuring not only foot pressure but also a wide range of body pressure distribution.

[0002]

2. Description of the Related Art In the field of rehabilitation or sports, a device for partially measuring body pressure for treatment or improvement is known. In the known device, as shown in FIG. 1, a large number of steel balls c are vertically and horizontally arranged at predetermined intervals on a lower surface side of a pressure receiving plate a on which a body is placed via a large number of washers b. The group is brought into contact with the surface of the epoxy rubber plate d whose surface is coated with the reflective coating material e, two layers of acrylic plates f and g are provided on the lower surface side of the epoxy rubber plate d, and the reflection is inclined at 45 degrees at the lower position. The mirror h is placed and the light source i is arranged in front of the reflecting mirror h.

[0003]

The above-mentioned known device, when mounted on the pressure receiving plate a, partially pushes the steel balls c downward to partially push the reflective paint e on the surface of the epoxy rubber plate d. Since the light reaching the reflective paint e from the light source i via the reflecting mirror h has a striped pattern, it can be used for analysis in the field of rehabilitation and sports. Since all directions were limited to the vertical direction, there was a problem that the analysis of force in complicated directions was not possible and was insufficient. That is, for example, in a walking state, as shown in FIG. 2, the force of the Pn direction and the force of the Pt direction, that is, the resultant force P acts. Can not. Therefore, the resultant force P should be understood by distorting the striped pattern (see the striped pattern in FIG. 2). Since this distortion stripe pattern also changes in various ways, if statistics are taken from the change, a failure that is different from the normal one should be known. However, in the conventionally known ones, the force of Pt is completely ignored, and only the magnitude of the force of Pn is used. Therefore, the striped pattern is also displayed only as concentric circles, and there is no depth. The analysis was insufficient.

[0004]

According to the present invention, therefore, the pressure receiving portion 4 made of synthetic resin provided on the frame 1 and a large number of the pressure receiving portion 4 are arranged vertically and horizontally at a predetermined interval. The pressure receiving rod body 22, a substantially flat pressure receiving surface 23 formed on the upper surface of the pressure receiving rod body 22, a cylindrical opening surface 24 formed at the lower end of the pressure receiving rod body 22, and the cylindrical opening surface 24. A steel ball 25 partially engaged with the steel ball 25 from below, a sliding means capable of freely sliding the steel ball 25 together with the pressure-receiving rod body 22 in all front, rear, left, and right directions; Reflective paint 26 on top
Epoxy rubber plate 27 coated with, two-layer acrylic plates 28 and 29 provided thereunder, and the acrylic plates 28 and 29
A distribution measuring device for foot pressure and the like is composed of a polarizing plate 30 provided therebetween, a tilting mirror 31 provided below the polarizing plate 30, and a light source 32 provided in front of the tilting mirror 31.

[0005]

An embodiment of the present invention will be described with reference to the drawings.
Reference numeral 1 is a frame, 2 is a fitting chamber of a pressure receiving portion formed in the frame 1, and 3 is a horizontal shelf projecting into the fitting chamber 2. At the upper position in the fitting chamber 2, a pressure receiving portion 4 formed of an acrylic plate and composed of three upper and lower plates is fitted from above.
That is, 5 is an acrylic upper plate. As shown in FIG. 4, perfect circular through holes 6 are arranged vertically and horizontally, and one through hole 8 of the set screw 7 is provided at the center of the four through holes 6. Form. Reference numeral 9 is a recess for preventing the head of the set screw 7 from protruding from the acrylic upper plate 5. The four circumferences of the acrylic upper plate 5 become a vertical wall 10 integrated with the acrylic upper plate 5, and the lower end of the vertical wall 10 is placed on the horizontal shelf 3 to fit the acrylic upper plate 5 into the fitting chamber 2. To combine.

Reference numeral 11 denotes an acrylic lower plate, and the acrylic lower plate 11 may be integrated with the vertical wall 10. However, if the acrylic lower plate 11 is also integrally formed with the vertical wall 10, it is troublesome to manufacture, and the vertical wall is later formed. The method of fixing to 10 is preferable. The planar shape of the acrylic lower plate 11 is almost the same as that of the acrylic upper plate 5, but the one corresponding to the concave portion 9 in FIG. 4 is not provided. A through hole 12 having the same diameter as the round through hole 6 of FIG.
And a through hole 13 having the same diameter as the through hole 8 in FIG. 4 is formed.
The set screw 7 projects downward from the through hole 13 as shown in FIG. 7 and is fixed by the nut 14, but the acrylic upper plate 5
Unlike the top surface of the nut, the nut 14 is the acrylic lower plate 11
Even if it sticks out further, it does not interfere and does not matter in one direction, so something like the recess 9 in FIG. 4 is not provided.

Reference numeral 15 denotes an acrylic middle plate. The acrylic middle plate 15 is formed with a through hole 16 which is concentric with the through hole 6 of the acrylic upper plate 5 but has a diameter much larger than that of the through hole 6. To do. The size of the through hole 16 is formed as large as possible in view of the margin for forming the partition wall 17 between the through hole 16 and the adjacent through hole 16. Further, at the center of the four through holes 16, one through hole 18 through which the set screw 7 passes is formed.

In each through hole 16 of the middle acrylic plate 15, the through hole 6 of the upper acrylic plate 5 and the through hole 1 of the lower acrylic plate 11 are provided.
Sliding members 19 (FIG. 7), which are larger than 2, but smaller than the through holes 16, are slidably inserted into the through holes 16 so that they can play. Since the sliding body 19 needs to slide smoothly in the through hole 16, although not shown, ball bearings may be inserted in both upper and lower surfaces of the sliding body 19. There is a through hole 20 at the center of the sliding body 19,
A vertical holding cylinder 21 is inserted into the through hole 20 to connect the both. Although the upper end of the vertical holding cylinder 21 is illustrated so as to coincide with the upper surface of the acrylic upper plate 5, if it is a little, it does not matter if it projects above the acrylic upper plate 5 in one direction, and it is recessed from the acrylic upper plate 5. It doesn't matter if it is out. The lower end of the vertical holding cylinder 21 is illustrated so as to coincide with the lower surface of the acrylic lower plate 11, but in this case as well, if the acrylic lower plate 1 is small,
It does not matter if it sticks out more than 1, acrylic lower plate 11
It does not matter if it is more recessed.

Pressure receiving rods 22 are inserted into the vertical holding cylinders 21, respectively. The upper end of the pressure receiving rod 22 is the vertical holding cylinder 21.
It is protruding upwards and expands like a trumpet,
It is closed to form the pressure receiving surface 23. The lower end of the pressure receiving rod 22 is formed in a cylindrical opening surface 24, and a part of the upper part of the steel ball 25 is fitted into each cylindrical opening surface 24 from below. Since the outer diameter of the steel ball 25 is slightly larger than the inner diameter of the tubular opening surface 24, it does not submerge in the tubular opening surface 24.

Below the steel ball 25, a reflective paint 26 is provided on the upper surface.
An epoxy rubber plate 27 coated with is provided, and two layers of acrylic plates 28 and 29 are provided below the epoxy rubber plate 27.
A polarizing plate 30 is provided between the two, and the tilting mirror 3 is provided below the polarizing plate 30.
1 (FIG. 1) and a light source 32 (FIG. 1) are provided in front of it. The structure from the reflective paint 26 to the light source 32 is the same as a known one.

In the above-mentioned structure, the stripe pattern (photoelastic stripe) 33 showing the pressure distribution can be recorded in the video camera, so that it can be directly observed with the naked eye by displaying it on the receiver. Computer analysis can also be performed by using the image processing.

[0012]

[Operation] Next, the operation will be described. Since the present invention has the above-described configuration, when a plurality of pressure-receiving rods 22, which are arranged in a line on the pressure-receiving surface 23, are placed in a walking state or a running state, each pressure-receiving surface 23 is pressed separately. Receive pressure. In this case, the pressure receiving rod body 22 of the present invention is fitted in the vertical holding cylinder 21, the steel ball 25 is engaged with the lower end of the pressure receiving rod body 22, and the vertical holding cylinder 21 is a circular circular sliding body. Since the sliding body 19 is fixed in the center of 19 and is fitted in the through hole 16 of a perfect circle larger than the sliding body 19 formed on the acrylic intermediate plate 15, each of the sliding body 19 is in a walking state or a running state. The pressure receiving rod 22 moves in a plane in the resultant force P direction together with the sliding body 19, and the epoxy rubber plate 27 coated with the reflective paint 26 and the two-layer acrylic plates 28 and 29 provided below the epoxy rubber plate 27.
And the polarizing plate 30 between the acrylic plates 28 and 29, the tilting mirror 31 provided below the polarizing plate 30, and the light source 32 provided in front of the tilting mirror 31, the striped pattern as shown in FIG. Three
Make 3. Therefore, if the striped pattern 33 indicating the obtained pressure distribution is recorded on a video camera and is displayed on a receiver for visual observation, or if image processing is performed by using a computer, analysis of rehabilitation or sports is performed conventionally. You can investigate the causes that cannot be done by the ones. The direction and magnitude of the three-dimensional force (inclination angle and magnitude of resultant force P) among the forces exerted by the foot pressure and the like on the floor surface (pressure receiving plate) are
As shown in FIG. 2, the contact points between the steel balls 25 and the epoxy rubber plate 27 and the primary stripes (the outermost stripes, the secondary stripes toward the inside,
When the linear distance in the spreading direction of the tertiary stripes, in which the primary stripes appear darkest) is x and the linear distance in the opposite direction is y, it can be easily obtained by y / x (see FIG. 14).

[0013]

The above-mentioned known device, when mounted on the pressure receiving plate a, partially pushes the steel balls c downward to partially push the reflection paint e on the surface of the epoxy rubber plate d. Since the light reaching the reflective coating material e from i through the reflecting mirror h has a striped pattern, it can be used for analysis in the field of rehabilitation and sports, but the moving direction of the steel balls c group in the known device is Since all of them were limited to the vertical direction, it was not possible to analyze the forces in complicated directions, which was insufficient.

However, according to the present invention, the pressure receiving portion 4 made of synthetic resin is provided on the frame 1, and the pressure receiving rods 22 are arranged in the vertical and horizontal directions at predetermined intervals with respect to the pressure receiving portion 4.
A substantially flat pressure receiving surface 23 formed on the upper surface of the pressure receiving rod body 22, a cylindrical opening surface 24 formed at the lower end of the pressure receiving rod body 22, and a part of the cylindrical opening surface 24 from below. A steel ball 25 to be engaged, a sliding means capable of freely sliding the steel ball 25 together with the pressure-receiving rod body 22 in all front, rear, left and right directions, and a reflective paint 26 on the upper surface provided below the steel ball 25. The applied epoxy rubber plate 27, the two-layer acrylic plates 28 and 29 provided below it, the polarizing plate 30 provided between the acrylic plates 28 and 29, and the tilt mirror 31 provided below the polarizing plate 30. ,
Since this is a device for measuring the distribution of foot pressure and the like, which comprises a light source 32 provided in front of the tilting mirror 31, when the user takes a walking or running posture on the pressure receiving surface 23 of the pressure receiving rod 22, the pressure receiving rod is The steel ball 25 fitted to 22 can slide in the resultant force P direction together with the pressure receiving rod 22 to obtain a striped pattern 33 as shown in FIG. 2, which can be analyzed as shown in FIG. Due to
It has the effect of being able to treat rehabilitation or sports exercise more effectively.

[Brief description of drawings]

FIG. 1 is a known example diagram.

FIG. 2 is a striped pattern diagram of a walking state.

FIG. 3 is a vertical sectional side view of the present invention.

FIG. 4 is a plan view of an acrylic upper plate.

FIG. 5 is a plan view of an acrylic middle plate.

FIG. 6 is a plan view of an acrylic lower plate.

FIG. 7 is a sectional view taken along line AA.

FIG. 8 is a sectional view of a sliding body.

FIG. 9 is a sectional view of a pressure receiving rod body.

FIG. 10 is a sectional view of a vertical holding cylinder.

FIG. 11 is a sliding state diagram of a steel ball and a pressure receiving rod in a walking state.

FIG. 12 is a plan view showing a sliding state of the pressure receiving rod in a walking state.

FIG. 13 is a diagram showing the relationship between the magnitude of foot pressure, the three-dimensional inclination angle, and various parameters.

[Explanation of symbols]

1 ... Square frame, 2 ... Fitting chamber, 3 ... Horizontal shelf, 4 ... Pressure receiving part,
5 ... Acrylic upper plate, 6 ... Through hole, 7 ... Set screw, 8 ... Through hole, 9 ... Recess, 10 ... Vertical wall, 11 ... Acrylic lower plate, 1
2 ... Through hole, 13 ... Through hole, 14 ... Nut, 15 ... Acrylic middle plate, 16 ... Through hole, 17 ... Partition wall, 18 ... Through hole, 19 ...
Sliding body, 20 ... Through hole, 21 ... Vertical holding cylinder, 22 ... Pressure receiving rod body, 23 ... Pressure receiving surface, 24 ... Cylindrical opening surface, 25 ... Steel ball, 2
6 ... Reflective paint, 27 ... Epoxy rubber plate, 28, 29 ... Acrylic plate, 30 ... Polarizing plate, 31 ... Inclined mirror, 32 ... Light source,
33 ... Striped pattern.

Claims (1)

[Claims] 1. A pressure receiving portion 4 made of a synthetic resin provided on a frame 1, a plurality of pressure receiving rods 22 arranged vertically and horizontally with a predetermined distance from the pressure receiving portion 4, and the pressure receiving rod. 22, a substantially flat pressure receiving surface 23 formed on the upper surface, a cylindrical opening surface 24 formed at the lower end of the pressure receiving rod body 22, and a steel part of which is engaged with the cylindrical opening surface 24 from below. A ball 25, a sliding means for freely sliding the steel ball 25 together with the pressure-receiving rod body 22 in all front, rear, left, and right directions, and an epoxy rubber plate having an upper surface provided below the steel ball 25 with a reflective paint 26 applied thereto. 27,
Two layers of acrylic plates 28 and 29 provided below the polarizing plate 30, a polarizing plate 30 provided between the acrylic plates 28 and 29, a tilting mirror 31 provided below the polarizing plate 30, and a front side of the tilting mirror 31. A device for measuring distribution of foot pressure and the like, which comprises a light source 32 provided in