KR101649127B1 - a geometry glove, hand frame and measuring method using them - Google Patents

Abstract

The present invention relates to a glove, which is mounted on a user's hand and includes a finger portion surrounding at least one finger, a palm surface surrounding the palm, and a back surface surrounding the palm of the hand, A weight measurement sensor for measuring the weight of the object placed on the palm surface and a measurement sensor for measuring the length measured by the length measurement sensor and the weight measurement sensor, And an arithmetic unit for calculating the length and the weight as a basis.

Description

A geometry glove, a hand frame, and a measuring method using the same,

The present invention relates to a geometry glove, a hand frame, and a measuring method using the same. More particularly, the present invention relates to a geometry glove and a hand frame capable of easily measuring the length, weight, Weight, and angle of the test piece.

The geometry glove in the present invention refers to a device capable of measuring the length, weight, and angle of an object to be measured while wearing a glove-shaped instrument.

In the case of the prior art, there has been an inconvenience in that a separate measuring device must be provided for each measurement object in order to measure length, weight, and angle.

In particular, it can be seen that there are various needs for easy measurement in the field of construction where various institutional structures are necessary, in the construction field where various lengths and angles of the materials are required, in the field of real estate where various products or agricultural and marine products are required to be measured in length and weight.

In addition, in the case of the conventional measuring instrument, there is a limit in transforming or converting the measured value, and there is a limitation in data transmission and sharing to an external display device or the like.

Meanwhile, Korean Patent No. 10-0571428 discloses a patent prior art related to the present invention, but discloses a function of tracking the movement of the arm and the hand, but does not describe the specific measurement method and the technical content of the measurement object There is a difference in point.

In order to solve the above-described problems, the present invention can easily perform various measurements such as length, angle, and weight with a single device, intuitively provide the measured information to the user, and further, And to provide a geometry glove for sharing data with a digital device and a measurement method using the same.

According to an aspect of the present invention, there is provided a glove including a finger portion surrounding at least one finger, a palm surface surrounding the palm, and a back surface surrounding the palm of the hand, A length measuring sensor positioned at an end of the finger portion and measuring the length of the object by the movement of the finger portion end, a weight measuring sensor positioned at the palm surface and measuring the weight of the object placed on the palm surface, And an operation unit for calculating the length and the weight based on the measured value measured by the weight measuring sensor.

The display unit further includes a display unit positioned on the back of the hand and indicating the length or weight value derived from the operation unit.

According to another aspect of the present invention, the length measuring sensor includes an optical sensor, wherein the optical sensor includes a light emitting unit for emitting light toward an object and a light receiving unit for sensing light reflected from the object, And the moving direction and the moving distance of the optical sensor are measured based on the change of light.

The weight measuring sensor may include a pressure sensor having a predetermined area, which measures a pressure applied to the surface of the pressure sensor, and the calculating unit calculates a weight by summing the pressure measured by the pressure sensor .

The present invention has the effect of easily performing various measurements such as length, angle, weight and the like with one device, and particularly, it has a shape of gloves, thereby maximizing ease of use.

In addition, the measured information is intuitively provided to a user through a display unit, and data can be shared with various external digital devices through a transmitter supporting wired / wireless communication.

FIG. 1 is a plan view showing a top surface of a geometric glove according to an embodiment of the present invention, and FIG. 2 is a bottom view showing a bottom surface of a geometric glove.
FIG. 3 is an enlarged view of FIG. 2, which corresponds to an excerpt of an extended protruding length measuring sensor according to an embodiment of the present invention.
4 is a conceptual diagram showing a pressure sensor arrangement according to an embodiment of the present invention.
FIG. 5 is an enlarged view of FIG. 2B, which corresponds to an excerpt of an angle detection sensor according to an embodiment of the present invention.
6 is a flowchart illustrating a length measuring method according to an embodiment of the present invention.
7 is a flowchart illustrating a method of measuring pressure according to an embodiment of the present invention.
8 is a flowchart illustrating an angle measurement method according to an embodiment of the present invention.
9 and 10 correspond to a conceptual diagram illustrating a length measurement method according to an embodiment of the present invention.
11 is an excerpt of a display unit to which a calculation function according to an embodiment of the present invention is applied.
12 is a conceptual diagram illustrating a transmission function according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The geometric glove according to the present invention corresponds to a tool for measuring the length, weight, and angle of an object by wearing the glove in the user's hand as if wearing gloves.

FIG. 1 is a plan view showing a top surface of a geometric glove according to an embodiment of the present invention, and FIG. 2 is a bottom view showing a bottom surface of a geometric glove.

As shown in FIGS. 1 and 2, the geometry glove according to the present invention basically includes a finger portion that fits a finger, a palm surface that fits the palm, and a palm surface that surrounds the palm of the hand. Here, the finger portion may be formed to enclose only a part of the fingers.

More specifically, as shown in FIG. 2, a length measuring sensor 10 is disposed at an end of the finger portion and measures the length of the object by the movement of the end portion of the finger portion. The length measuring sensor 10 is placed on the palm surface, And a weight measuring sensor 20 for measuring the weight of the object to be measured.

The apparatus may further include an operation unit for calculating the length and the weight based on the measured values measured by the length measuring sensor 10 and the weight measuring sensor 20.

As shown in FIG. 1, the display unit 40 may further include a display unit 40, which is located on the back of the hand and displays the length or weight value derived from the operation unit.

More specifically, it may be considered that the length measuring sensor 10 is made up of the optical sensor 11. In this case, the optical sensor 11 includes a light emitting unit that emits light toward an object and a light receiving unit that detects light reflected from the object, and the arithmetic unit is configured to calculate, based on a change in light sensed by the light receiving unit The moving direction and the moving distance of the optical sensor 11 are measured.

The light receiving unit senses a change in light of several tens to hundreds of times per second and transmits the sensed signal to the operation unit. The operation unit compares the pattern of the light sensed previously and the sensed pattern to derive the movement direction and movement distance of the pattern do.

3, the length measuring sensor 10 may be provided on the extended portion 12 extending from the end of the finger portion to improve the proximity to the measurement object.

Further, it is desirable to further include an operation button 50 for controlling on / off of the length measuring sensor 10. The actuating button 50 can be used to clarify the measuring time point and the ending point of the object to be measured by pressing the actuating button 50 at the time of measuring the length on the surface of the object and pressing the actuating button 50 again at the ending point have. The installation position is provided on the side surface of the index finger portion facing the thumb portion as shown in Figs. 1 and 2, which is advantageous in terms of ease of use.

Meanwhile, the length sensor 10, in particular, the light sensor 11, recognizes the time point of the length measurement when the distance is more than a certain distance from the object, and may recognize the end point when the distance is more than a certain distance . In this case, it can be used together with the operation button 50, and it is possible to form the measurement point by bringing the end of the finger near the object to be measured, even if the operation button 50 is not mounted or activated, The measurement end point can be formed by separating the end portion of the net plug.

In addition, it is unnecessary to recognize the start point and the end point, which is a form in which the forward and the end points of the object are open at the measurement point of the object, and the end point of the finger is moved from one side toward the rear side of the end point to naturally form the point and the end point .

The length measuring sensor 10 may be an acceleration sensor. In this case, the motion acceleration according to the movement of the acceleration sensor is measured, and the operation unit derives the motion velocity and the movement distance of the acceleration sensor based on the motion acceleration.

The weight measuring sensor 20 preferably includes a pressure sensor 21 having a predetermined area. The pressure sensor 21 measures the pressure applied to the surface, and the calculating unit adds the measured pressure value to the pressure sensor 21 to derive the weight. As shown in FIG. 2, the pressure sensor 21 includes a first pressure sensor 21a, a second pressure sensor 21b, and a third pressure sensor 21c. Do.

More specifically, the first pressure sensor 21a is positioned at the upper center portion of the palm surface, the second pressure sensor 21b is positioned at the lower left of the palm surface, and the third pressure sensor 21c And is located at the lower right side of the palm surface, which is divided by considering the distribution and movement direction of the main muscles of the hand when the glove is bent according to the movement of the user's hand.

As a simpler embodiment, it is also conceivable to provide one pressure sensor 21 at each of the upper and lower portions of the palm surface as shown in FIG.

The pressure sensor 21 performs pressure measurement several times or more at least three times in a state in which the object is lifted to reduce the measurement error, processes the minimum and maximum values of the pressure values measured by the calculation unit as noise, It may be considered to derive the average value of the remaining values. The measurement of the pressure in the above-mentioned plural times is determined according to the setting, for example, it is preferable to have a period of 0.1 second to 3 seconds.

On the other hand, the finger portion includes a thumb portion and a forefinger portion, and an angle sensor 30 may be included between the thumb portion and the index finger portion. The angle sensor may include a warp sensor or potentiometer 31 as shown in FIG.

The bending sensor and the potentiometer 31 have a characteristic that the resistance value changes in proportion to the refraction angle of the sensor, and the angle between the thumb and index finger portions can be measured using the resistance.

Therefore, it is preferable that the angle measurement sensor 30 is linear and has one end extending from the side surface of the index finger portion facing the thumb portion and the other end leading to the side surface of the thumb portion facing the index finger portion It is preferable for measurement.

1 and 11, the display unit 40 includes a liquid crystal panel 41 and includes at least one button unit 42 in the periphery of the liquid crystal panel 41 .

The first button 42a included in the button unit 42 functions to select one of a length measurement mode, a weight measurement mode, and an angle measurement mode.

11, the display unit 40 includes a calculator input button at a lower portion of the liquid crystal panel 41 to perform arithmetic operation, thereby calculating the measured length, weight, and angle values directly There are advantages to apply. Meanwhile, it may be considered that the second button 42b included in the button unit 42 performs a function of selecting a measurement mode / calculator mode.

The positions and shapes of the first button 42a to the third button 42c shown in FIGS. 1 and 11 are arbitrarily shown for the sake of understanding, and the positions and shapes of the first button 42a to the third button 42c may be variously adopted .

As shown in FIG. 12, the apparatus may further include a transmitter for transmitting the length, weight, and angle values derived from the operation unit to an external device through at least one of a cable, a WiFi, and a Bluetooth. Here, the external device refers to a computer, a smart phone, various display devices, a data storage, and the like, and includes not only a display device for displaying the length, weight, and angle values but also a data storage for simply storing the display device.

In addition, the operation unit stores data in various formats such as an Excel spreadsheet and transmits the data to the external device, thereby increasing the versatility of the device.

The operation unit may convert various units of length, weight, and angle. The units may be switched using a third button 42c provided around the liquid crystal panel 41 of the display unit 40. [

Hereinafter, the present invention will be described in terms of a measurement method with reference to FIGS. 6 to 8. FIG. A description overlapping with the above description will be omitted.

6 is a flowchart illustrating a length measurement method according to an embodiment of the present invention.

The length measuring method according to the present invention basically corresponds to the length measuring method using the above-described geometric glove.

Specifically, an optical sensor measuring step of moving the end portion of the finger portion provided with the optical sensor 11 as the length measurement sensor 10 by a length to be measured by approaching an object to be measured, And a length display step of displaying the length value on the liquid crystal panel 41 positioned on the back side of the display unit.

7 is a view illustrating a method for measuring a weight using a geometric glove according to the present invention. Specifically, an object is placed on the upper surface of the palm surface provided with the pressure sensor 21, and the pressure of the pressure sensor 21 is measured A weight calculating step of calculating a weight of the object based on the value measured in the pressure sensor measuring step and a display weight display step of displaying the weight value on the agreement panel positioned on the back surface of the display unit, Basically.

8 shows a method of measuring the angle using the geometric glove. Two methods of considering the left-hand flow chart using the angle measurement sensor 30 and the right-hand flow chart using the length measurement sensor 10 can be considered.

First, when the angle measurement sensor 30 is used, the angle measurement sensor 30, which is composed of a bending sensor or a potentiometer 31 provided between the thumb and the index finger, An angle calculating step of calculating an angle of an object on the basis of the measured value measured in the angle sensor measuring step and a calculating angle calculating step of calculating an angle of an object located on the back surface And a display section length display step of displaying the display section length on the liquid crystal panel 41.

When the length measuring sensor 10 is used, the end of the finger portion provided with the optical sensor 11 as the length measuring sensor 10 is approached to an object to be measured, (3 times) for measuring the length of each side by moving each side along three imaginary three sides including one side connecting the two sides included in the optical sensor and one side connecting the end points of the two sides, (3) calculating the length of each of the three sides based on the measured values of the three sides, and calculating the length of the three sides measured in the length calculating step An angle calculation step, and a display part angle display step of displaying the angle value on the liquid crystal panel 41 positioned on the back surface of the hand.

In this case, the optical sensor measurement step (3 times) and the operation unit length calculation step (3 times) may be alternately performed once. The optical sensor measurement step is performed three times in succession, and the measured values are accumulated It is also conceivable to carry out the arithmetic operation length calculation step three times in succession.

Figs. 9 and 10 correspond to a conceptual diagram for explaining an angle measurement method using the above-described length measurement sensor 10. Fig. Hereinafter, an angle measurement method using the length measurement sensor 10 will be described in more detail with reference to FIGS. 9 and 10. FIG.

First, in Fig. 9, it is assumed that the angle of the object to be measured is?.

Any two sides forming the < RTI ID = 0.0 > [theta] < / RTI > are assumed to measure the angle of the measurement object. In Fig. 9, sides AB and sides BC correspond to the two sides. The point A and the point C may be assumed to be any position if the angle between the side AB and the side BC corresponds to?.

The position of the point A may be formed at various positions on the line AB and the extension line, and the position of the point C may be formed at various positions on the line and extension of the side BC. The length of the side AC varies corresponding to the positional change of the point A and the point C, so that the measurement result is not affected.

Specifically, the value of? Is derived through the following equations (1) and (2).

For convenience, the length of the side AB is referred to as "c", the length of the side BC is referred to as "a", the length of the side AC is referred to as "b""

[Equation 1]

cos? = (a ² + c ² - b ² ) / (2ac)

&Quot; (2) "

? = cos? ¹ ((a ² + c ² - b ² ) / (2ac))

Although the geometry glove according to the present invention has been described in the above, it can be seen that it includes not only the glove of the present invention but also the geometry hand frame mounted on the user's hand in the form of a frame.

In the case of a hand frame, most of the functions and configurations are the same, and instead of a glove, a shape of a frame (a combination of a plurality of frames) mounted on the hand is adopted.

Therefore, it is assumed that the geometric hand frame according to the present invention includes a finger portion which is mounted on the user's hand in the form of a hand frame, along which the frame extends along at least one finger, and a palm portion which is located on the palm of the hand.

In addition, it is basically the same as the geometry glove in that a length measuring sensor is provided which is located at the end of the finger and measures the length of the object by the movement of the end of the finger. On the other hand, in the case of the palm surface, the palm portion is formed as a frame without forming a surface, and includes a weight measuring sensor positioned on the palm portion and measuring the weight of the object placed on the palm portion. In the hand side of the glove, it is preferable that the hand frame is formed as a frame, not a face, so it is called as a back of a hand. The display unit may be mounted on the handgrip as in the case of the glove.

That is, all of the above-described configurations applied to the geometry glove can be applied as the geometry hand frame within the scope of replacing the glove with a frame.

Unless defined otherwise, all terms used herein, including technical or scientific terms, shall have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. In addition, terms used in the present invention should not be construed as ideal or overly formal in the sense of the present invention unless explicitly defined.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: Length measuring sensor
11: Optical sensor (or acceleration sensor)
12: Extension
20: Weighing sensor
21, 21 ': Pressure sensor
21a: first pressure sensor
21b: second pressure sensor
21c: third pressure sensor
30: Angle measuring sensor
31: bending sensor or potentiometer
40:
41: liquid crystal panel
42: button portion
43: Calculation
42a: first button
42b: the second button
42c: Third button
43: Calculator input button
50: Operation button
100: Top surface of the geometry glove
200: The bottom of the geometry glove

Claims (21)

1. A glove comprising: a finger portion that is attached to a user's hand and wraps at least one finger; a palm surface that surrounds the palm; and a back surface that surrounds the palm of the hand,
A length measuring sensor positioned at an end of the finger portion and measuring the length of the object by the movement of the finger portion end;
A weight measuring sensor positioned on the palm surface and measuring the weight of an object placed on the palm surface; And
And a calculator for calculating length and weight based on measured values measured by the length measuring sensor and the weight measuring sensor.
The method according to claim 1,
And a display unit which is located on the back of the hand and displays a length or weight value derived from the calculating unit.
The method according to claim 1,
The length measuring sensor includes:
Wherein the optical sensor includes a light emitting unit for emitting light toward an object and a light receiving unit for sensing light reflected from the object.
The method of claim 3,
Wherein the calculation unit measures the moving direction and the moving distance of the optical sensor based on a change in the light sensed by the light receiving unit.
The method according to claim 1,
The length measuring sensor includes:
Wherein the acceleration sensor measures an acceleration of movement of the acceleration sensor according to movement of the acceleration sensor,
Wherein the operation unit derives a moving speed and a moving distance of the acceleration sensor based on the motion acceleration.
The method according to claim 1,
The weight measuring sensor includes:
A pressure sensor having a predetermined area, wherein the pressure applied to the surface of the pressure sensor is measured,
Wherein the calculation unit calculates the weight by summing the pressure values measured by the pressure sensor.
The method according to claim 6,
Wherein the pressure sensor includes a first pressure sensor, a second pressure sensor, and a third pressure sensor,
Wherein the first pressure sensor is located at an upper center portion of the palm surface,
The second pressure sensor is located at the lower left of the palm surface,
And the third pressure sensor is located at a lower right portion of the palm surface.
The method according to claim 1,
Wherein the finger portion includes a thumb and a forefinger,
And an angle measurement sensor comprising a bending sensor or a potentiometer between the thumb and the index finger,
Wherein the angle measuring sensor is linear and has one end extending from the side surface of the index finger portion facing the thumb portion and the other end leading to a side surface of the thumb portion facing the index finger portion, And an angle between the finger portions is measured.
The method according to claim 1,
The length measuring sensor includes:
Wherein the extension portion is provided at an extension portion of a predetermined length at the end portion of the finger portion to improve the proximity to the measurement object.
The method according to claim 1,
And a time / end point button for controlling on / off of the length measuring sensor.
11. The method of claim 10,
Wherein the length measuring sensor recognizes the point of time when the object is positioned closer to the object by a predetermined distance or more and recognizes the end point when the object is separated from the object by a predetermined distance or more.
The method according to claim 1,
The operation unit,
Wherein an angle of an object is measured by deriving an internal angle of a triangle formed by the three length measurement values based on three length measurement values measured three times in the length measurement sensor.
3. The method of claim 2,
The display unit includes a liquid crystal panel, and includes at least one button unit in the periphery of the liquid crystal panel,
Wherein the first button included in the button unit performs a function of selecting one of a length measurement mode, a weight measurement mode, and an angle measurement mode.
14. The method of claim 13,
The display unit includes:
And a calculator input button at a lower portion of the liquid crystal panel, wherein the calculator performs arithmetic operation.
14. The method of claim 13,
Wherein the button unit comprises two or more buttons,
And the second button included in the button unit performs a function of selecting a measurement mode / calculator mode.
The method according to claim 1,
And a transmitter for transmitting the length or the weight value derived from the operation unit to an external device through at least one of a wire, a Wi-Fi, and a Bluetooth.
1. A length measuring method using a geometric glove mounted on a user's hand and including at least one fingers surrounding one or more fingers, a palm surface surrounding the palm, and a back surface surrounding the palm of the hand,
An optical sensor measuring step of moving the end of the finger portion provided with the optical sensor as a length measuring sensor by a length to be measured by approaching an object to be measured;
Calculating a length of an object based on the measurement value measured in the optical sensor measurement step; And
And displaying the length value on a display unit positioned on the back surface of the display unit.
1. A method of measuring weight using a geometric glove comprising a finger portion which is mounted on a user's hand and which fills at least one finger, a palm surface surrounding the palm, and a back surface surrounding the hand,
A pressure sensor measurement step of placing an object on the upper surface of the palm surface provided with the pressure sensor and measuring the pressure of the pressure sensor;
Calculating a weight of the object based on the value measured in the pressure sensor measuring step; And
And displaying the weight value on a display unit positioned on the back surface of the display unit.
A method of measuring an angle using a geometric glove, the finger being mounted on a user's hand and including at least one finger, a palm surface surrounding the palm, and a back surface surrounding the palm of the hand,
An angle sensor measuring step of measuring an angle of an object using an angle between the thumb and the index finger through an angle measuring sensor comprising a bending sensor or a potentiometer provided between the thumb and the index finger;
Calculating an angle of an object based on the measurement value measured in the angle sensor measurement step; And
And displaying the angle value on a display unit positioned on the back surface of the display unit.
A method of measuring an angle using a geometric glove, the finger being mounted on a user's hand and including at least one finger, a palm surface surrounding the palm, and a back surface surrounding the palm of the hand,
Wherein the optical sensor is provided with an optical sensor as a length measuring sensor, and an imaginary three-dimensional image including two sides including an angle at which an end portion of the finger portion is to be measured by approaching an object to be measured and connecting the end points of the two sides, A light sensor measurement step (3 times) for measuring the length of each side by moving along the sides;
Calculating a length of each of the three sides based on a value measured in the optical sensor measuring step (3 times);
An arithmetic operation step of deriving the angle of the interiors based on the lengths of the three sides measured in the arithmetic unit length calculation step;
And displaying the angle value on a display unit positioned on the back surface of the display unit.
A hand frame comprising: a finger portion mounted on a user's hand in the form of a frame, the frame extending along at least one finger; and a palm portion positioned on the palm of the hand,
A length measuring sensor positioned at an end of the finger portion and measuring the length of the object by the movement of the finger portion end;
A weight measuring sensor positioned on the palm and measuring the weight of the object placed on the palm; And
And a calculator for calculating a length and a weight based on the measured values measured by the length measuring sensor and the weight measuring sensor.

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