JP2003190121A - Weighing machine for confirming distortion of the spine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a measuring instrument which can confirm the distortion of a skeleton caused by the distortion of the spine at a glance, is extremely inexpensive in comparison with an X-ray facility, does not require a license, or the like, for measurements and can be easily used. <P>SOLUTION: A foot position is provided to become a standard to put on the foot at a suitable position on each of measuring parts by using a plurality of measures for measuring weight, and a distance between left and right foot positions is defined approximately as the breadth of the shoulders of a person to be measured. <P>COPYRIGHT: (C)2003,JPO

Description

Description: BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to a weight scale for detecting a body balance when performing chiropractic treatment. 2. Description of the Related Art Conventionally, when performing chiropractic treatment, the skeleton, especially the spine (vertebral column), is caused by heredity, illness, injury, occupation and overwork, exercise, nutritional balance, and lifestyle such as sleep. ), A therapist visually detects the imbalance in the skeleton (hereinafter referred to as “strain of the spine”) caused by the deviation, and restores the imbalance in the skeleton to recover abnormal physical condition. Therefore, it was necessary to quickly discover spinal distortion and make adjustments such as a meeting with the patient about treatment, but the patient himself was not aware of the spinal distortion, which made the explanation difficult. . [0003] For this reason, radiography is used as a visible method for a patient. However, in a treatment institution without an X-ray facility, cooperation with a hospital or the like having an X-ray facility must be obtained, and a patient, a therapist, etc. The time, economic burden, mental burden, etc. of the people were greatly immeasurable.
In addition, X-ray photography requires the qualification of an X-ray technician, and is not an act that a general therapist can easily perform. [0004] Therefore, the problem to be solved by the present invention is that the distortion of the skeleton caused by the distortion of the spine can be confirmed at a glance, and it is extremely inexpensive as compared with the X-ray equipment. Another object of the present invention is to provide a weight scale that does not require a qualification for measurement and can be used easily. According to the present invention, a plurality of measuring instruments for measuring the weight are used, and a foot position is provided as a guide for putting a foot on an appropriate position of each of the measuring units. That is, the distance between the left and right of the part position is set to be approximately the shoulder width of the person to be measured. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below. A plurality of measuring instruments 1 and 1 are provided with positions 2 and 2 serving as a guide for putting a foot on an upper plate A of the measuring instruments 1 and 1. At this time, it is preferable that the distance B from the right foot position 2 to the left foot position 2 is substantially the same as the distance (length) of the shoulder width of the person to be measured. , Measurement display sections 4 and 4 for displaying the respective sections are formed. [0007] The foot position 2, provided on the plurality of measuring instruments 1, 1,
It is desirable that the distance 2 is maintained at substantially the same distance as the measured shoulder width of the person. Therefore, the measuring instruments 1, 1
It is also possible to connect to the side surface of the device through a connecting portion C and fix it with fixtures D and D. A first embodiment of the present invention will be described below with reference to the drawings. The left measuring instrument 1 and the right measuring instrument 1 are constituted by the shape and structure of an object. 1 is a perspective view showing the measuring instrument 1 on the left side. Therefore, in FIG. 1, a foot position 2 is provided as a guide to put a foot on an appropriate position of the upper surface plate A of each measuring instrument 1, and the foot position 2 is affixed with a seal or painted. It is preferable to provide an opening 3 in front of the foot position 2 and to provide a measurement display section 4 for displaying the numerical value of the measurement of the measuring instrument 1. FIG. 1 shows just one example of the present invention.
Each of the measuring instruments 1 can be formed large and the foot position 2 can be formed to have a size such that the foot can be completely placed on the upper surface of the measuring instrument 1, but this is not shown. Therefore,
According to FIG. 1, it is also possible to provide an auxiliary portion 5 near the rear end of the upper surface plate A. Even if the auxiliary portion 5 is formed in a bolt shape in order to adjust the distance between the floor surface and the upper surface plate A to expand and contract. Good. in this case,
It is preferable to provide an elastic body 6 at the end of the auxiliary portion 5 in order to compensate for the instability of the upper plate A going up and down when the upper plate A is weighed. The elastic body 6 desirably has a hardness that does not hinder the measurement. Further, although not shown, the back surface of the measuring instrument 1 may be provided with a non-slip. With the above structure, the measuring instruments 1 and 2 are arranged so that the shoulder width of the patient or the like for measuring the strain Y caused by the displacement of the spine H and the distance B between the foot positions 2 and 2 are substantially the same.
1 are arranged side by side on the floor or the like, and if necessary, the numerical values of the measuring and displaying sections 4 of the measuring instruments 1 and 1 are adjusted so that the left and right coincide with each other. Therefore, for example, after adjusting the left and right measurement display units 4 and 4 to 0 scales, a patient or the like who measures the strain Y of the spine H,
When the weight is measured while standing upright at the foot positions 2 and 2, in the case of the normal spine H, the center G1 of the body V coincides with the center G of the foot positions 2 and 2, as shown in FIG. At this time, since the right and left feet of the person being measured by the measuring instruments 1 and 1 are open to the width of the shoulders, the knees and thighs of both feet have an inverted V-shape starting from the pelvis (hip). It is in a state of tension. Therefore, the center (substantially the pelvis) of the measured human body V is necessarily located at the inverted V-shaped apex X, and the weight is concentrated on the apex X, and the inverted V-shaped ends are located from the apex X. Are distributed on average to the left foot T and the right foot U. For this reason, the measurement display units 4, 4 provided in the left and right measuring instruments 1, 1
Are the same, and as a result, the display of the measurement display units 4 and 4 can accurately read that the vertebral column H has no distortion Y and the balance of the skeleton is normal. Therefore, the therapist can perform an appropriate treatment after confirming the numerical values displayed on the measurement display sections 4 and 4, and by measuring the patient again after treatment, the change can be confirmed with the patient. Communication with the patient can be kept extremely good. Further, when the strain Y of the spine H is small, it can be easily corrected by a simple stretching exercise, and can be used for prevention of the strain Y of the spine H.
Also, if the person to be measured intentionally attempts to change the numerical values of the left and right measurement display sections 4 and 4 for some reason, the upper body of the body V may be greatly warped, or one of the left and right knees may be bent. Since it is necessary to perform an action such as bending, the body shape becomes unnatural, and a therapist who can stand the measurement can be found very easily. When the spine H is distorted, when the left foot T and the right foot U are open as shown in FIG.
And the position of the vertex X is shifted, and the body V is greatly inclined to the R side,
The weight is large on the R side and small on the L side, and the numerical values of the weight displayed on the measurement display units 4 and 4 are displayed on the R side with a large value and the L side with a small value. It becomes clear that. Therefore, the spine H
The skeletal strain caused by the strain Y can be confirmed at a glance, and the weight scale for checking the vertebral column of the present invention, which is composed of two weight scales, compared to the X-ray equipment, is cost-effective. Can be provided at a very low cost, and a weighing scale capable of easily measuring the distortion of the spinal column H can be provided without requiring a qualification or the like even when measuring. FIG. 2 is a perspective view showing a second embodiment of the present invention, in which a plurality of measuring instruments 1 such as a weighing scale 1 are internally housed, and an appropriately sized case-shaped upper plate A is provided with an opening-shaped foot. Part position 2,
2 is provided. The foot positions 2, 2 may be provided at the shoulder width of the person whose weight is to be measured or at a distance B approximate to the shoulder width. Further, it is desirable that the foot positions 2 and 2 have a size such that the foot of the person whose weight is to be measured can enter without difficulty. A plurality of measuring instruments 1, 1 are provided on the lower surface of the upper surface plate A.
It is preferable that the measurement appropriate position is provided directly below the opening 3, and the measurement display units 4, 4 (scales) are provided immediately below the openings 3, 3. With the above-described structure, the weight of the left and right sides of the center of the distance B is measured and displayed by inserting the feet of the person to be measured, that is, the patient to be subjected to chiropractic treatment, into the foot positions 2 and 2. These are displayed in the sections 4 and 4.
At this time, when the spinal cords H of the patient are vertically aligned as shown in FIG. 5, the weight of the patient is equally applied to the left and right around the center G of the distance B, and the display units 4 and 4 have the same numerical values respectively. Is displayed. When the spine H of the patient is distorted Y (FIG. 6), the center G1 of the patient's body is inclined to the R side with respect to the center G of the left foot T and the right foot U. Therefore, the weight is applied to the inclining direction R side, and the numerical values displayed on the display units 4 and 4 are small on the L side, large on the R side, different from right to left, and the skeleton generated by the distortion Y of the spine H. Can be easily and clearly detected by anyone. Furthermore, the measuring devices 1 and 1 can be provided at a low price that is incomparable with radiographs and the like by using an existing weight scale, and it is not necessary to obtain a qualification or the like even when using. FIG. 3 is a perspective view showing a third embodiment of the present invention, in which a plurality of measuring instruments 1 and 1 are separately arranged on the right and left sides, upper plates A and A are formed in a case shape, and foot positions 2 and 2 are defined. You may draw a footprint. In order to maintain the predetermined distance B, the upper plates A, A are fixed with fixtures D, D via connecting tools C provided with long openings F, F, and the distance B can be adjusted. Can be. In this case, a bolt or the like can be used as the fixing tool D, and the same operation and effect as those of the other embodiments can be obtained. FIG. 4 is a perspective view showing a fourth embodiment of the present invention. It is also possible to provide the measurement display units 4 and 4 at a position away from the upper plate A, so that the measurement display unit can be used for a patient to be measured. 4, 4
Can be visually checked, and the same operation and effect as those of the other embodiments can be obtained. According to the above-described structure, the distortion of the balance of the skeleton caused by the distortion of the vertebral column is displayed on the measuring instrument display unit, and can be confirmed at a glance, and is much more remarkable than the X-ray. It is possible to provide a weight scale that can be provided at a low cost and that can be easily measured and confirmed by anyone without requiring a qualification such as an X-ray technician even when measuring. [0019]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a first embodiment of the present invention. FIG. 2 is a perspective view showing a second embodiment of the present invention. FIG. 3 is a perspective view showing a third embodiment of the present invention. FIG. 4 is a perspective view showing a fourth embodiment of the present invention. FIG. 5 is a rear view for reference showing a normal state of the spine. FIG. 6 is a reference rear view showing the body in a state in which the spine is distorted. [Description of Signs] 1 Measurement device 2 Foot position 3 Opening 4 Measurement display unit 5 Auxiliary unit 6 Elastic body A Top plate B Distance C Connector D Fixture F Opening G Center G1 Center V of body V Spine S Spine Bend L left R right T left foot U right foot V body X vertex Y distortion

Claims (1)

Claims: 1. A plurality of measuring devices for measuring weight are provided, and a foot position is provided as a guide for putting a foot on an appropriate position of each of a measuring unit. A weight scale for confirming the displacement of the skeleton, characterized in that the distance between the right is the approximate shoulder width of the person to be measured.