KR101037924B1 - A seat and reach measuring apparatus - Google Patents

Abstract

PURPOSE: A sit and reach measuring apparatus is provided to calculate the sit and reach measuring value by precisely calculating the movement distance of a measuring plate and a measuring block through a deformation pulse. CONSTITUTION: A box type main body(110) has a guide hole in the upper center thereof. A measuring plate(170) is installed to move forward and backward along the guide hole of the box type main body. A measuring device is connected to the measuring plate and measures the movement distance of the measuring plate. A control unit(190) calculates the sit and reach value measured by the measuring device. A display panel(210) displays the sit and reach value through an output signal from the control unit.

Description

Left seat flexion measuring device {a Seat and Reach Measuring Apparatus}

The present invention relates to a device for measuring left vertebrae, and more particularly, to more precisely measure left vertebrae through deformation pulses generated from guide iron cores, moving magnets, and stator magnets.

The left forearm to which the present invention relates is referred to as "sit down and bend forward," to evaluate the flexibility of the body through the degree of bending of the waist.

When measuring the left vertebrae, with the hips attached to the floor, sit straight with both knees straight, put the soles of the feet on the vertical plane, and bend the upper body so that the fingertips passing through the vertical plane are positioned as far as possible in front of the vertical plane. The length from the vertical plane to the fingertips passing through the vertical plane is measured.

The left vertebra is similar to the body vertebra, which is referred to as "standing bent forward," but because the subject uses a method of bending the upper body downward by standing upright, it is difficult for the subject to take a posture straight in the measurement process, and fall down sideways or forward Compared to the body oyster which can cause a safety accident, the subject can measure the flexibility of the body safely.

On the other hand, in the prior art, the device for measuring the left front flexion is mainly used in the form of a simple plate in which a vertical plate is installed in front of the mat and a measuring rod is installed in the center of the upper end of the vertical plate.

The conventional left forearm measuring device is that when the subject is sitting on the mat and the fingertips extend toward the measuring rod, a separate measuring party will check the left forearm measurement visually through the scale of the measuring bar. It was not only very troublesome to approach the measurement bar and check the scale of the measurement bar, but also could not obtain accurate measurement values.

The guide bar is installed on the vertical plate, and the moving sensor plate with the built-in control unit is installed on the guide bar. When the subject pushes the moving sensor plate with his fingertips, the measured value is displayed numerically on the display provided on the outer surface of the moving sensor plate. A device for measuring left flexion is proposed.

According to another conventional left bend measuring device, the distance at which the subject moves the moving sensor plate is calculated by the control unit and displayed as a number through the display unit. It is easy to check, but the configuration of the mobile sensor plate is complicated, making the production difficult, as well as the movement of the mobile sensor plate was unstable, there was a problem that often causes a measurement error.

The present invention has been devised in view of the above-described conventional situation, and its purpose is to make it easier to measure the left buckling and to display the left buckling measurement value more precisely without fear of malfunction. It is to provide an oyster measuring device.

Another object of the present invention is to provide a device for measuring left buckling, which enables the management of subjects' left buckling measurement data efficiently.

The left forearm measuring device of the present invention for achieving the above object is a ham body formed with a guide hole in the front center of the upper end; A measuring tube installed at an inner center of the box body; An induction iron core installed inside the measuring tube; A fixed magnet installed at an outer circumferential rear portion of the measuring tube; A measuring block installed on the measuring tube so as to be movable in the front and rear directions; A moving magnet installed inside the measuring block; A measuring plate having a measuring contact portion protruding to the outside of the mold main body at an upper portion thereof, and a measuring block connecting portion connected to the measuring block through the guide hole at a lower portion thereof; A spring installed on an outer circumference of the measuring tube to elastically support the measuring block and the measuring plate; A control unit installed at an inner rear of the main body and calculating a moving distance of a measurement block by a pulse signal transmitted from the guide iron core; And a display panel mounted on an upper end of the box body and displaying a measured value through an output signal from the control unit.

In the left prevection measuring apparatus of the present invention, the control unit includes a signal conversion unit for converting the analog signal transmitted from the guide iron core into a digital signal; A control unit for sending an induction pulse to an induction iron core and calculating a left bent measurement value according to a signal transmitted from a signal conversion unit; And an output unit configured to transmit the left bend measurement value signal calculated by the controller to the display panel.

The device for measuring left bend of the present invention may be further provided with a wired communication module or a wireless communication module connected to the control unit and transmitting the left bend measurement data to a PC. The device may be installed on the display panel. It may further include a camera to enable the collection of information.

According to the device for measuring left buckling according to the present invention, since the moving distance between the measuring plate and the measuring block can be precisely calculated by using a strain pulse, the measurement of the left buckling can be obtained, as well as obtaining a more accurate measurement of the left buckling. The concerned person and the examinee can easily check the left bend measurement value, and thus, the effect of greatly improving the reliability and the merchandise of the left bend measuring device can be obtained.

1 is a perspective view of a storage state of one embodiment of the present invention
2 is a side view of a use state of the embodiment
3 is a longitudinal sectional view showing main parts of the embodiment;
4 is a block diagram of a control unit of the embodiment;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, specific technical contents of the present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

1 shows a perspective view of a storage state of one embodiment of the invention, FIG. 2 shows a side view of the use state of the embodiment, FIG. 3 shows a principal longitudinal sectional view of the embodiment, and FIG. The control unit block diagram of the embodiment is shown.

As shown in Figures 1 to 4, the left bend measuring device 100 of the present invention
A main body 110 having a guide hole 111 formed at the front center of the upper end thereof;
A measuring plate 170 installed to be movable in the front-rear direction along the guide hole 111 of the main body 110;
Measuring means connected to the measuring plate 170 and measuring a moving distance of the measuring plate 170;
A control unit (190) installed inside the warp main body (110) for calculating a left bent value measured by the measuring means;
And a display panel 210 installed at an upper end of the shaped body 110 to display a left bent value through an output signal from the control unit 190.

The measuring means in the left bend measuring device 100 of the present invention
A measuring tube 120 installed at an inner center of the ham body 110;
An induction iron core 130 installed in the measuring tube 120;
A fixed magnet 140 installed at an outer circumferential rear portion of the measuring tube 120;
A measurement block 150 connected to the measurement plate 170 and installed in the measurement tube 120 so as to be movable in the front and rear directions;
It is composed of; a moving magnet 160 installed in the measurement block 150.

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The control unit 190 in the left bend measuring device 100 of the present invention includes a signal conversion unit 191 for converting an analog signal transmitted from the guide core 130 into a digital signal; A control unit 192 which sends an induction pulse to the induction iron core 130 and calculates a left bend measurement value according to the signal transmitted from the signal conversion unit 191; And an output unit 193 for transmitting the left-precursor measurement value signal calculated by the controller 192 to the display panel 210.
In addition, the left forearm measuring apparatus 100 of the present invention is installed on the outer periphery of the measuring tube 120, the measuring block 150 and the measuring plate 170 to support the spring 180 to measure the left after the measuring block ( 150 and the measurement plate 170 are configured to return to the original position.

Meanwhile, the device for measuring left buckling 100 of the present invention further includes a wired communication module 310 or a wireless communication module 320 that is connected to the control unit 190 and transmits the left buckling measurement data to the PC 330. The camera 340 may be installed on the front of the display panel 210 to collect photo information and video information of the examinee.

Reference numeral 220 in the drawing is a mat.

In the device for measuring left buckling according to the present invention configured as described above, the measuring block 150 and the measuring plate 170 elastically supported by the spring 180 are positioned at the front side of the ham body 110, and FIG. As shown in FIG. 2, when the subject sits in front of the main body 110, straightens both knees, and pushes the measurement plate 170 with the fingertips while bending the upper body while attaching both soles to the front of the main body 110, the measuring plate 170. ) And the measurement block 170 is moved to the rear side of the body main body 110, at which time the moving distance of the measurement block 170 is displayed through the display panel 210 installed on the top of the body main body 110 and measured Personnel and subjects will be able to easily check the left bend measurement.

In the left front fold measuring device 100 of the present invention, when the induction pulse is sent from the control unit 190 to the induction iron core 130 installed inside the measurement tube 120, the part and the measurement block in which the stationary magnet 140 is installed. Deformation pulses by magnetic fields are generated at the positions where the moving magnets 160 embedded in the 150 are located, respectively, and control analog signals of the deformation pulses generated at the positions of the stator magnets 140 and the moving magnets 160. The signal conversion unit 191 of the unit 190 is digitized and sent to the control unit 192, and the control unit 192 calculates the distance between both strain pulses and sends it to the output unit 193, the output unit ( In operation 193, the left bend measurement value signal is transmitted to the display panel 210, and the display panel 210 displays the left bend measurement value according to the left bend measurement value signal sent from the output unit 193.

On the other hand, in the device for measuring the left bend of the present invention 100 is connected to the control unit 190 and wired communication module 310 or wireless communication module 320 for transmitting the left bent measurement data to the PC 330; In this case, since the left buckling measurement data can be transmitted to the PC 330, the left buckling measurement values of the examinees can be efficiently managed.

And a camera 340 installed at the front of the display panel 210 to collect the photographic information and the video information of the examinee. Photo information with the measured value can be stored in the PC (330).

The present invention described above is not limited to the above description, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be obvious to you.

100: left bend measuring device
110: the main body of the ship
111: guide hole
120: measuring tube
130: guide iron core
140: stator magnet
150: measuring block
160: moving magnet
170: measuring plate
171measurement contact
172: measuring block connection
180: spring
190: control unit
191: signal conversion unit
192: control unit
193: output unit
210: display panel
220: matte
310: wired communication module
320: wireless communication module
330: PC
340 camera

Claims (4)

A main body 110 having a guide hole 111 formed at the front center of the upper end thereof;
A measuring plate 170 installed to be movable in the front-rear direction along the guide hole 111 of the main body 110;
Measuring means connected to the measuring plate 170 and measuring a moving distance of the measuring plate 170;
A control unit (190) installed inside the warp main body (110) for calculating a left bent value measured by the measuring means;
A display panel 210 installed at an upper end of the shaped body 110 to display a left bent value through an output signal from the control unit 190;
In the left fore bend measuring device,
The measuring means,
A measuring tube 120 installed at an inner center of the ham body 110;
An induction iron core 130 installed in the measuring tube 120;
A fixed magnet 140 installed at an outer circumferential rear portion of the measuring tube 120;
A measurement block 150 connected to the measurement plate 170 and installed in the measurement tube 120 so as to be movable in the front and rear directions;
Consists of; the moving magnet 160 is installed in the measurement block 150,
The control unit 190,
A signal converter 191 for converting an analog signal transmitted from the induction core 130 into a digital signal; A control unit 192 which sends an induction pulse to the induction iron core 130 and calculates a left bend measurement value according to the signal transmitted from the signal conversion unit 191; And an output unit 193 for transmitting the left-precursor measurement value signal calculated by the controller 192 to the display panel 210.
A spring 180 for elastically supporting the measuring block 150 and the measuring plate 170 is installed on the outer circumference of the measuring tube 120 to return the measuring block 150 and the measuring plate 170 to their original positions after the left bend measurement. Left bend measuring device, characterized in that.
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