KR200168896Y1 - Device for measuring a radius of curvature - Google Patents

Abstract

The present invention relates to a device that can easily measure the radius of curvature of the object to be curvature, and more particularly to a radius of curvature measuring device that can be accurately measured while forming a simple structure without generating a measurement error.

The present invention has a probe that can be moved up and down, the dial gauge that the vertical displacement of the probe is output to the outside; And, integrally mounted on the back of the dial gauge, both ends are formed bent to the lower side, respectively, the lower end is formed at the same level as the lower end of the probe, and fixed to be located at the same distance to the probe, respectively It provides a curvature radius measuring apparatus comprising a frame.

According to the present invention, it has a simple configuration, which is convenient for the operator to carry, and can easily measure the radius of curvature in any industrial field, machine manufacturing factory, and the like. You can get it. In addition, since the change in the radius of curvature can be measured, it is possible to find out a portion where the exact radius of curvature does not come out.

Description

Curvature radius measuring device {DEVICE FOR MEASURING A RADIUS OF CURVATURE}

The present invention relates to a device that can easily measure the radius of curvature of the object to be curvature, and more particularly to a radius of curvature measuring device that can be accurately measured while forming a simple structure without generating a measurement error.

In general, in order to measure the radius of curvature of the object under curvature, conventionally, a method of measuring the radius of curvature of the object and the length of the arc of the object to be measured and calculating the radius of curvature with the value is most commonly used. However, this method generates a measurement error when measuring the length of the arc and the length of the string, and as a result, it is difficult to measure the exact length to be measured, and only the approximate average length can be measured.

In addition, if the curvature is not constant along the length of the object to be measured, and an irregular curvature is formed, one arc length and chord length may be objects of completely different shapes, and accurate measurement becomes more difficult.

The present invention is to solve the conventional problems as described above, the object is to provide a radius of curvature measuring device that can measure the curvature accurately while forming a simple structure without generating a measurement error.

1 is a block diagram of a curvature radius measuring device according to the present invention;

2 is an explanatory view showing the operating principle of the curvature radius measuring device according to the present invention;

3 is a configuration diagram showing another modified example of the curvature radius measuring apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

1 ..... Curvature Radius 5 ..... Probe

10 .... Dial Gauge 20 .... Frame

22a, 22b ... Bend 35 .... Roller

40 .... Measurement

The present invention to achieve the above object,

An apparatus for measuring a radius of curvature of an object to be measured, the apparatus comprising: a dial gauge having a probe movable up and down, the vertical displacement of the probe being output to the outside; And, integrally mounted on the back of the dial gauge, both ends are formed bent to the lower side, respectively, the lower end is formed at the same level as the lower end of the probe, and fixed to be located at the same distance to the probe, respectively By providing a curvature radius measuring device characterized in that it comprises a frame.

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

Curvature radius measuring device according to the present invention is a device that can easily measure the curvature with respect to a series of objects to be curvature. This can be used in the case of measuring the exact radius of curvature of the material having the curvature at various sites, it is easy and accurate to measure the curvature when measuring the curvature, such as the manufacture of a mechanical device having the curvature.

If the radius of curvature measuring device 1 of the present invention can know the exact position of three points on the surface of the object having the curvature, it can draw a circle passing through the three points, it can also find the radius of the circle. Using this principle, it is possible to calculate the radius of curvature by using a fixed two-point and a measured displacement known in the center by placing a displacement measuring instrument that can measure vertical displacement in a fixed frame.

The present invention, as shown in Figure 1, has a probe (5) that can be moved up and down, and has a dial gauge (10) which is a displacement measuring device in which the vertical displacement of the probe (5) is output to the outside. And, having a frame 20 integrally mounted on the back of the dial gauge 10, the frame 20, both ends of the lower end forms a bent portion (22a, 22b), respectively, both lower end portions It is formed at the same level as the lower end of the probe (5), it is fixed to be located at the same distance with the probe (5), respectively.

The measuring principle of the present invention configured as described above will be described in more detail with reference to FIG. 2. As shown in FIG. 2, when the length of the string is a, and the vertical displacement measured using the dial gauge 10, which is a displacement measuring device, is b, the radius of curvature r of the string can be obtained by the following equation development. Can be.

sinθ = a / 2r to r = a / 2sinθ

r-rcosθ = b, substituting Equation 1 into Equation 2,

a (1-cosθ) / 2sinθ = b from 2b / a = (1-cosθ) / sinθ, and assuming sinθ = u, 2b / a = (1-√ (1-u ² )) / u, from (1-√ (1-u ² )) = 2bu / a is obtained.

And, from the equation (2),

√ (1-u²) = 1-2bu / a, from 1-u²= 1-4bu / a + (2b / a)²u²

Therefore, ｛1+ (2b / a) ² ｝ u ² -4bu / a = 0,

From this u = 4b / a ｛1+ (2b / a) ² ｝

Therefore, r = a / 2sinθ = a / 2u = a ² ｛1+ (2b / a) ² ｝ / 8b.

Therefore, by using the above Equations 1 to 3, the radius of curvature r can be measured as the length a and the displacement b of the string. In this case, the length a of the string is a value known in advance as the distance between both ends of the frame 20, b is a value that can be measured as the vertical displacement of the probe 5 of the dial gauge 10, the dial When the scale of the gauge 10 is output as the length of the radius of curvature, the curvature of the string can be easily measured.

On the other hand, Figure 3 shows another embodiment of the present invention. The modified embodiment of the present invention shown in FIG. 3 is provided with rotary rollers 35 at both ends of the frame 20 and at the bottom of the probe 5 of the dial gauge 10, respectively. The curvature of the object 40 can be measured continuously while moving the string to be measured.

If the radius of curvature measuring device of the present invention is used, it is possible to accurately measure not only an average value but also each other curvature as a whole. When the side operator places the frame 20 on the measurement object 40, a dial gauge ( The probe 5 located at the center of 10) is raised to measure the displacement b, as shown by the dashed lines in FIGS. 1 and 3, and this measurement result corresponds to the scale 10a of the dial gauge 10. The curvature value of the part is indicated.

The dial gauge, which is a displacement measuring mechanism in the above, is conventional, but only a scale part is converted to display a curvature value directly, and thus a detailed description thereof will be omitted.

In addition, as described above, the subject innovation 40 may be measured by attaching rollers 35 at both ends of the frame 20 and the dial gauge 10 in contact with the object to be measured as illustrated in FIG. 3. By moving along the arc of), the change in the radius of curvature of the entire arc length can be measured.

The present invention can adjust the accuracy by changing the size of the fixed frame 20, it can be used in various ways depending on the size or importance of the target object 40.

According to the present invention as described above, by having a simple configuration, the operator is convenient to carry, can easily measure the radius of curvature in any industrial site, machine manufacturing factory, etc., by adjusting the size of the frame 20 Pre-fabrication allows for accurate measurement. In addition, since the change in the radius of curvature can be measured, it is possible to find out a portion where the exact radius of curvature does not come out.

Claims (2)

An apparatus for measuring the radius of curvature of an object to be measured, comprising: a dial gauge (10) having a probe (5) movable up and down, wherein a vertical displacement of the probe (5) is output to the outside; And, integrally mounted on the back of the dial gauge 10, both ends of the lower end to form the bent portion (22a, 22b), respectively, the lower end of the both ends are formed at the same level as the lower end of the probe (5) On the other hand, the radius of curvature measuring device, characterized in that it comprises a frame (20) which is fixed to be positioned at the same distance from the probe (5), respectively. The device of claim 1, wherein a rotating roller (35) is provided at both ends of the frame (20) and at the bottom of the probe (5) of the dial gauge (10).