KR101848493B1 - Apparatus for measuring body balance - Google Patents

Abstract

The present invention relates to a body balance measuring instrument, comprising: a foot measuring frame; A foot portion which is inclined inside the foot measuring frame; A base plate provided with a rectangular opening and provided on an upper portion of the foot measuring frame; A transparent plate provided on the rectangular opening; A foot measuring transparent plate provided on an upper surface of the transparent plate; A skeletal displacement measurement frame having a pair of strut members provided at both ends of the front surface of the base plate and main and sub connecting members provided across the top of the strut members; A main vertical yarn connected to a center portion of the main connecting member and the base plate; A vertical member provided on a front surface of the strut members; A horizontal member provided on a front surface of the upper and lower sub connecting members; A horizontal yarn adjuster provided to expose the vertical to the upper and lower sub connecting members; A vertical knob adjusting sliding block arranged to expose the horizontal self-aligning member to the upper sub connecting member; A sub vertical yarn connecting the vertical knob adjusting sliding block and the lower sub connecting member; An LED lamp provided inside the foot measuring frame; And a controller for controlling the LED lamp. Therefore, it is possible to simultaneously measure the foot inspection, the degree of spinal instrumentation, and the degree of skeletal displacement, as well as provide a simple configuration and convenience in use.

Description

Apparatus for measuring body balance [0001]

The present invention relates to a body balance measuring instrument capable of simultaneously measuring a foot test, a spine level, and a skeletal displacement degree.

As shown in FIG. 4, the utility model No. 0365794 (registration date: Oct. 15, 2004, design name: system for measuring the footprint and skeletal displacement) is used to calculate the weight transmitted through each of the left and right feet of the subject A foot measuring unit for measuring a foot shape of the left and right feet; An upper body measuring unit which is provided at a predetermined distance from an upper surface of the foot measuring unit and includes a panel having a horizontal reference line and a vertical reference line orthogonal to each other and providing a curved state of the hip joint vertebrae of the subject; And a connecting part hinged to the foot measuring part to rotate within a predetermined rotation angle and at least one sliding guide being formed at the other end so that the upper body measuring part is slidably fastened to the foot measuring part, A body weight measuring unit for measuring a body weight transmitted through the left and right feet of the subject and outputting a first body weight value and a second body weight value corresponding to the respective feet; An operation unit for calculating a difference value between the first weight value and the second weight value; A weight output unit outputting the calculated difference value; And a reflector that is positioned at a lower end of the upper surface of the foot measurement unit and provides a bottom shape of the left and right feet of the subject, wherein a region where the left and right feet of the subject are located, And the foot measuring unit measures a body weight transmitted through each of the left and right feet of the subject and outputs a first body weight value and a second body weight value corresponding to each foot Weight measuring part; An operation unit for calculating a difference value between the first weight value and the second weight value; A weight output unit outputting the calculated difference value; And a photographing unit positioned at a lower end of the upper surface of the foot measuring unit for photographing and outputting the bottom shape of the left and right feet of the subject, and a photographing unit for measuring the foot and skeletal displacement.

This conventional technique is based on the fact that the displacement of the foot supporting the human body causes a problem in the movement system as well as the spinal system to induce various diseases, so that the displacement of the left and right weights and the degeneracy of the hip joint spine (lumbar, thoracic, By measuring both sides of the foot, it is possible to calibrate the foot point of the foot pressure more accurately and to distribute the weight of the weight on the left and right foot without any deviation, thereby enabling more effective correction and treatment, The state of the testee can be easily grasped, but there is a fundamental problem that it is difficult to actually apply it as expensive electric and electronic equipment.

An object of the present invention is to provide a body balance measuring instrument capable of simultaneously measuring a foot test, a spinal instrument, and a skeletal displacement.

It is an object of the present invention to provide a foot measuring instrument having a hollow box-shaped measuring instrument body having a double-sided side plate, a rear plate and a bottom plate coupled to each other and a plurality of anti-slip pads provided on a lower surface edge of the measuring instrument body; A foot portion which is inclined inside the measuring instrument body; A base plate provided with a rectangular opening having a stepped surface and provided at an upper end of the measuring instrument body; A transparent plate placed on a stepped surface of the rectangular opening; A foot measuring transparent plate provided on an upper surface of the transparent plate; A main connecting member provided across the upper ends of the supporting members, and a connecting member disposed at a lower portion of the main connecting member, A frame displacement measuring frame having upper and lower sub connecting members spaced apart from each other; A main vertical yarn connected to a center portion of the main connecting member and the base plate; A vertical member provided on each of the front surfaces of the strut members; A horizontal member provided on the front surface of the upper and lower sub connecting members, respectively; A horizontal yarn adjuster provided for each of the upper and lower sub connecting members so that the vertical yarn is exposed; A pair of vertical knob adjusting sliding blocks arranged to be exposed to the horizontal sub-connecting member so as to be symmetrical with respect to the vertical yarn; And a lower vertical portion connected to the vertical knob adjusting sliding block and having a lower end wound on the lower sub connecting member; A plurality of LED lamps provided on inner surfaces of both side plates of the foot measuring frame; And a controller provided on the foot measuring frame to control the LED lamp, wherein the horizontal knob adjuster has a top surface and a bottom surface opened so as to be able to move up and down along the strut member, A pair of sliding blocks having a hollow structure with a front surface cut out to expose a vertical self, a fixed adjusting screw screwed into the fixing hole, a pair of horizontal four fixing members provided on the incised front surface of the sliding block, And a pair of horizontal yarns each having one end connected to both ends of the compression spring and the other end connected to the horizontal fixing member.

Preferably, the measuring instrument body of the present invention further comprises a plurality of first grooves formed at equal intervals on the front surface of the rear plate, and a plurality of second grooves formed at equal intervals on the upper surface of the bottom plate, Is inserted into the first groove and the lower end is inserted into the second groove.

Preferably, the strut member of the present invention is further provided with a guide rail in the form of a V-shaped groove in the vertical direction on its outer side, and the sliding block is guided along the guide rail of the strut member, And a protruding guide is further provided on the side surface.

Preferably, the apparatus further includes a weight sensor provided under the foot frame of the present invention and controlled by the controller, further comprising a vertical leveler provided on the upper surface of each of the strut members .

Preferably, there are provided a wire fixing step provided on the central back surface of the strut members in a bar shape according to the present invention, respectively; A support column provided at each end of the upper surface of the base plate and having a key groove formed in the periphery thereof and having an open upper portion; a lower end portion having a through hole formed therein inserted into the open upper portion of the support column; A wire winding machine having a wound-up column in the shape of a bar formed therein, a winding column rotating member having a lower end inserted into the square fitting hole, a key groove inserted in the keyway and the through-hole to fix the winding column to the support column; And one end portion is wound around the periphery of the winding column and the other end portion is fixed to the wire fixing end.

As described above, the present invention can simultaneously measure the foot examination, vertebrae degree, and skeletal displacement, and also provides a simple configuration and convenience in use.

1 is a perspective view showing a body balance measuring instrument according to the present invention.
2 is a cross-sectional view of Fig.
3 is a perspective view showing the wire holding means of the present invention.
4 is an exploded perspective view showing the wire winding machine of the present invention.
5 is a side view of a footprint and skeletal system displacement measurement system according to the prior art.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 to 3, a body balance measuring instrument 100 according to the present invention includes a foot measuring frame 10, a pedicle 20, a base plate 30, a transparent plate 40, 45, a skeletal displacement measuring frame 50, a horizontal yarn adjuster 60, a vertical yarn adjusting sliding block 70, a wire fixing end 80, a wire winder 90, a vertical RLV, (RLH), vertical yarn (THH), horizontal yarn (THV), weight sensor (WS), LED lamp (LED), vertical leveler (VL) and controller (CB).

The foot measuring instrument frame 10 has a box-shaped measuring instrument body 11 having a hollow structure with both side plates, a rear plate and a bottom plate joined to each other and a plurality of anti-slip pads 13 provided at the lower surface edge of the measuring instrument body 11 consist of.

Here, the meter body 11 has a plurality of first grooves 15V at equal intervals on the front surface of the back plate, and a plurality of second grooves 15H are formed at equal intervals on the upper surface of the bottom plate. The first and second long grooves 15V and 15H of the measuring instrument body 11 are provided so that the pedal diameter 20 to be described later is inclined.

The pedals 20 are mounted on the inside of the measuring instrument body 11 in an inclined manner. More specifically, the pedestal 20 is inserted into the first and second grooves 15V and 15H at an upper end and a lower end, respectively, and is inclined. Here, in order to adjust the inclination of the pedicle 20, the pedestal 20 may be removed, and the upper and lower ends may be inserted into the grooves 15V and 15H corresponding to the desired angle.

The base plate 30 is provided at the upper end of the measuring instrument body 11 and has a rectangular opening (not numbered) having a stepped surface (not shown). Here, the base plate 30 is preferably made of iron or a non-ferrous metal material.

Further, the base plate 30 further includes a vertical thread fixing end 31 having a through hole 31h at the center of the front upper end.

The transparent plate 40 is seated on the stepped surface of the rectangular opening of the base plate 30. Here, the transparent plate 40 may be made of tempered glass or a transparent synthetic resin material.

The foot measurement transparent plate 45 is seated on the upper surface of the transparent plate 40. The foot measuring transparent plate 45 has a grid line LO printed on its upper surface or lower surface and a foot pattern FF for guiding a subject's foot is printed inside the grid line LO .

It is to be noted in advance that the grid line LO and the foot pattern FF of the foot measuring transparent plate 45 can be printed on the upper surface or the lower surface of the transparent plate 40, unlike the present embodiment.

In the present embodiment, the foot measuring transparent plate 45 is separately constructed because the foot measuring transparent plate 45 is rotated 90 °, 180 °, or 270 ° and placed on the transparent plate 40, It is possible to measure the displacement of the desired skeleton without any other device or mechanism if it is placed on the foot measurement transparent plate 45 so as to match the FF.

The skeletal displacement measurement frame 50 includes a pair of strut members 51 each having a bent lower end provided at both ends of the upper surface of the front surface of the base plate 30 and a main connecting member 51 provided across the upper ends of the strut members 51 53 and upper and lower sub connecting members 55 disposed below the main connecting member 53 and spaced apart from each other to connect the strut members 51 to each other.

Here, the skeletal displacement measuring frame 50 is preferably made of steel or non-ferrous metal.

The columnar member 51 is formed with a guide rail 51v in the form of a V-shaped groove in a direction perpendicular to the outer surface thereof.

Further, the main connecting member 53 further includes a vertical thread fixing end 57 having a through hole 57h formed at a central portion thereof.

Both ends of the main vertical yarn THV are inserted into the through holes 57h of the vertical fixing end 57 of the main connecting member 53 and the through holes 31h of the vertical fixing end 31 of the base plate 30 And is inserted and fixed.

The horizontal yarn adjuster 60 has upper and lower surfaces opened so as to be able to ascend and descend along the respective strut members 51, a fastening hole 61h is formed on one side thereof, and a front surface RLV A pair of sliding blocks 61 having the cut hollow structure, a fixing adjusting screw 62 screwed to the fastening hole 61h, and a pair of horizontal And a pair of horizontal yarns THH connected at one end thereof to both ends and connected at the other end to the horizontal fixture 63, have.

The sliding block 61 is further provided with a protrusion guide 61a on one inner side surface thereof so as to be guided along the guide rail 51v of the strut member 51. [

The horizontal knob 60 of the present embodiment provides the sliding blocks 61 to the pair of strut members 51 and the sliding blocks 61 are fixed to the strut members 51 so that the horizontal yarn THH can be held horizontally. Here, the height of the horizontal yarn THH, which is horizontally adjusted to a predetermined height by the sliding block 61, can be selectively or arbitrarily changed depending on the measurement method or the subject.

Although the horizontal yarn adjuster 60 of the present embodiment is shown and described as being limited to two, it is not limited to this, and it is disclosed in advance that more than two horizontal yarn adjusting devices 60 can be modified.

The vertical knob adjustment sliding block 70 has a hollow structure with both sides opened to allow the upper sub connecting member 55 to slide right and left and a front surface is opened so as to expose the horizontal RLH. Here, the vertical warp adjusting sliding blocks 70 are arranged at left and right symmetrical positions with reference to the main vertical yarn (THV).

The sub-vertical yarns (THVs) are connected at the upper end to the lower portion of the vertical yarn adjusting sliding block 70 and at the lower end to the lower sub-linking member 55. Here, it is preferable that the weight of the sub-vertical yarns (THVs) is weighed at the lower end and the medals are wound around the sub-linking member 55 at the lower back.

The vertical level machines VL are provided on the upper front surface of the strut member 51, respectively. Here, the vertical leveling unit VL is a measuring unit that can visually discriminate the degree of inclination according to the movement of air bubbles existing in the liquid, and the measuring unit is similar to a known part, and detailed description or explanation thereof will be omitted do. Although the vertical leveling unit VL of the present embodiment is described as being limited to the water droplet leveling unit, the present invention is not limited to this, and it is disclosed in advance that a digital leveling unit can be used.

The wire fixing ends 80 are provided on the central back surface of the strut member 51 one by one in the shape of a bar. Here, the wire fixing end 80 is formed with a groove in its periphery so that the wire W can be easily wound and fixed.

The wire take-up machine 90 includes support columns 91 provided at both ends of the upper surface of the base plate 30 and having a key groove 91kh formed in the periphery of the tube shape having an opened upper portion and a through hole 93h A winding column 93 in the form of a bar having a lower end portion formed therein inserted into an open upper portion of the support column 91 and having a square engaging hole 93h formed at the upper end thereof and a winding column rotation And a fixing key 97 which is inserted into the key groove 91kh and the through hole 93h to fix the winding column 93 to the support column 91. [

One end of the wire W is wound around the periphery of the winding column 93 and the other end is fixed to the wire fixing end 80. Therefore, when the columnar member 51 is identified by the vertical leveling unit VL as being not perpendicular to the base plate 30 but inclined, after removing the fixed key 97, the take-up column rotating member 97 The wire W is wound or unwound from the winding column 93 so that the strut member 51 is perpendicular to the base plate 30 and then the fixing key 97 is inserted into the key groove 91kh and the through hole 93h ).

A plurality of LED lamps (LEDs) are provided on the inner surface of both side plates of the foot measuring frame 10.

The weight sensor WS is provided at the lower portion of the foot measuring instrument frame 10.

The controller CB is provided on the back surface of the foot measuring frame 10, and a power switch and a display panel are added. Here, the controller CB can display the weight value of the subject sensed by the weight sensor WS on the display panel.

Accordingly, the controller CB removes the LED lamp (LED) and the weight detection sensor (WS).

The body balance measuring instrument 100 having such a configuration determines whether a part of the foot is flat or not, through the side flap 20 when the examinee is placed on the foot measuring transparent plate 50, There is a characteristic that it is possible to judge whether there is a normal or abnormal state at a time.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: Foot measuring instrument frame 20:
30: base plate 40: transparent plate
50: foot measurement transparent plate 60: horizontal yarn adjuster
70: Vertical adjustment slide block
80: wire fixing end 90: wire winding machine
100: Body balance meter

Claims (5)

A foot measuring frame body having a hollow box shape measuring instrument body coupled to both side plates, a rear plate and a bottom plate, and a plurality of anti-slip pads provided on a lower surface edge of the measuring instrument body;
A foot portion which is inclined inside the measuring instrument body;
A base plate provided with a rectangular opening having a stepped surface and provided at an upper end of the measuring instrument body;
A transparent plate placed on a stepped surface of the rectangular opening;
A foot measuring transparent plate provided on an upper surface of the transparent plate;
A main connecting member provided across the upper ends of the supporting members, and a connecting member disposed at a lower portion of the main connecting member, A frame displacement measuring frame having upper and lower sub connecting members spaced apart from each other;
A main vertical yarn connected to a center portion of the main connecting member and the base plate;
A vertical member provided on each of the front surfaces of the strut members;
A horizontal member provided on the front surface of the upper and lower sub connecting members, respectively;
A horizontal yarn adjuster provided for each of the upper and lower sub connecting members so that the vertical yarn is exposed;
A pair of vertical knob adjusting sliding blocks arranged to be exposed to the horizontal sub-connecting member so as to be symmetrical with respect to the vertical yarn;
And a lower vertical portion connected to the vertical knob adjusting sliding block and having a lower end wound on the lower sub connecting member;
A plurality of LED lamps provided on inner surfaces of both side plates of the foot measuring frame;
And a controller provided in the foot measuring frame to control the LED lamp,
The horizontal knob adjuster includes a pair of sliding blocks having a hollow structure with a front side opened so that upper and lower surfaces are opened to allow the vertical member to move up and down along the strut member, A pair of horizontal thread fasteners provided on the cut-out front surface of the sliding block, a compression spring, and one end of each of the compression spring and one end of the compression spring, And the other end has a pair of horizontal yarns connected to the horizontal fixture,
A wire fixing step provided on the central back surface of the strut members in a bar shape, respectively; A support column provided at each end of the upper surface of the base plate and having a key groove formed in the periphery thereof and having an open upper portion, a lower end portion formed with a through hole inserted into the open upper portion of the support column, A wire winding machine having a wound-up column in the shape of a bar formed therein, a winding column rotating member having a lower end inserted into the square fitting hole, a key groove inserted in the keyway and the through-hole to fix the winding column to the support column; Wherein one end portion is wound on the peripheral portion of the winding column and the other end portion is further fixed to the wire fixing end.
The method according to claim 1,
The meter body further includes a plurality of first grooves formed at regular intervals on the front surface of the back plate and a plurality of second grooves formed at equal intervals on the upper surface of the bottom plate, And the lower end portion is inserted into the second groove.
The method according to claim 1,
The strut member further includes a guide rail in the form of a V-shaped groove in a vertical direction on the outer side thereof. The sliding block further includes a protrusion guide on one inner side surface so as to be guided along the guide rail of the strut member Wherein the body balance measuring unit measures the body balance.
The method according to claim 1,
Further comprising a weight detecting sensor provided under the foot measuring frame and controlled by the controller, wherein the weight measuring sensor further comprises a vertical leveler provided on the upper front surface of the strut members.
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