KR0130506Y1 - Clinometer - Google Patents

Abstract

A measuring device for measuring the inclination angle at the same time as the inclined direction measurement of the arm joint surface (C).

The device consists of a perimeter measuring means (1a) and a tilt measuring means (1b) coupled by a hinge shaft (2) so that they can be folded and unfolded. A longitudinal arrow (5) indicated in a direction parallel to (C) and an orthogonal arrow (6) orthogonal to the longitudinal arrow (5) and indicated in a direction in which the compass (53) chops its center; A compass (7,8) of the compass (53) pointing when the longitudinal arrow (5) of the strike measuring means (1a) coincides with the inclination direction with respect to the arm joint surface is provided around (2). The inclination direction is measured with (), and at the same time, the inclination measuring means (1b) is unfolded and brought into close contact with the joint surface (C) so that the goniometer 4 displays the inclination angle.

Description

Measuring device of DIP DIRECTION and DIP angle of arm joint surface

1 is a perspective view showing a measuring device according to the present invention.

Figure 2 is an exploded perspective view showing a tilt angle measuring unit of the present invention.

Figure 3 is a plan view of the configuration of the measuring device according to the present invention from the top and bottom.

Figure 4 is a side view showing a measuring device according to the present invention.

5 is a perspective view showing an example of the angle measurement by the measuring device of the present invention.

6 is a view for explaining a measurement example of the arm joint surface according to the present invention,

a) and b) are figures which show the measurement example of a joint surface in a correct inclination.

c) and d) are the figures which show the measurement example of the joint surface of reverse inclination.

7 is a perspective view showing the correlation between the sloping direction, inclination direction and inclination of the rock joint surface of the present invention,

a) is a figure which shows the measurement example of an obtuse joint surface.

b) is a figure which shows the measurement example of an acute angle joint surface.

8 is a plan view showing a general criminometer.

9 is a view for explaining the inclination direction and the inclination angle of the arm joint surface,

a) shows the inclination angle of the arm joint surface;

b) shows the inclination direction of the arm joint surface.

* Explanation of symbols for main parts of the drawings

1: Main body 1a: Peripheral measuring means

1b: inclination measuring means 2: hinge axis

3: 0 ° C point 4: goniometer

5: longitudinal arrow 6: orthogonal arrow

7: Arctic magnetic needle 8: Antarctic magnetic needle

9: defense system 53: compass

The present invention relates to a device for measuring the inclination direction and the inclination angle of the arm joint surface easily improved to simultaneously measure the periphery (or inclination direction) and the inclination angle of the joint surface distributed on the rock.

In case of construction of facilities by excavating rock in civil engineering such as rock slope or tunnel excavation, stability problem of excavation slope is raised.

The most important factors in examining stability problems of rock excavation slopes are the orientation of the line (hereafter referred to as the main direction) and the angle between the sea level and the joint surface (hereinafter referred to as the inclination angle) that the innumerably developed joint surface contacts the virtual sea surface.

In other words, even rock slopes composed of homogeneous rocks, the fracture surface and stability of rock slopes are changed by the periphery and inclination of joints developed and distributed within the rock slopes. Since the type of support varies, considering the economic feasibility and constructability of the civil engineering site, measuring the perimeter and inclination of the joint surface of the rock is a very important issue.

For the same purpose, the strike is also referred to as DIP DIRECTION, which means the angle that the plane perpendicular to the joint surface makes with the north direction, and the strike and the tilt direction are orthogonal to each other. Therefore, the main direction of rock joint can be expressed in the inclined direction.

Clinometer, a conventional arm joint measuring device, has a compass 53 capable of maintaining equilibrium by vertical and horizontal systems 51 and 52, as shown in FIG. 8, and a compass for displaying a bearing on the compass 53. In addition, the inclination indicating needle 54 which shows the inclination angle is provided. The needle can be temporarily fixed by the stop button 55.

The clinometer of this configuration measures the strike and the needle according to the orientation of the compass needle's needle while the equilibrium is maintained through the vertical level (51, 52) with respect to the inclined portion of the rock, that is, the joint surface. After temporarily holding the stop button 55, the position of the clinometer is changed again, and the inclination angle is measured by standing perpendicular to the measured perimeter.

An example of actual measurement will be described with reference to FIGS. 9 a) and b), and the inclination direction is 150 ° SE when the circumference of the same joint surface is N60E.

The angle of inclination is measured by the attitude change of the clinometer after the perimeter measurement, and the inclination is 45 ° NW 45 ° SE.

However, as described above, since the compass 53 and the inclination indicating needle 54 are integrally formed, there is a hassle to measure the inclination and then the inclination angle again. In the process of moving vertically, there is a problem in that the reference line of the measurement is ambiguous, so that accurate measurement of the inclination angle is difficult.

This is because the vertical and horizontal systems 51 and 52 are used only for the perimeter measurement and have no relation to the inclination angle measurement.

In addition, if the joint surface (C) to be measured is located above the eye height of the operator, the measurement is impossible. Therefore, it is necessary to increase the eye height of the operator by constructing a scaffold or the like on a rugged terrain. And risks cannot be excluded.

Accordingly, an object of the present invention is to solve the above problems, by measuring the inclination direction (or strike) and the inclination angle of the rock at a time to facilitate the measurement work, and also to improve the accuracy according to the measurement To provide a measuring device of the inclination direction and the inclination angle of.

Another object of the present invention is to provide an apparatus for measuring the inclination direction and the inclination angle of the arm joint surface, which can be easily measured even if the joint surface to be measured is located higher than the line of sight of the measurer.

The measuring device according to the present invention is a device that can easily measure the inclined direction instead of the main direction, and after the measuring device is in close contact with the joint surface without consciousness of the orientation, the inclination direction of the joint surface and the direction indication arrow of the measuring apparatus, that is, the azimuth angle 0 If the ℃ coincides, the angle indicated by the North Pole needle is measured, and if it does not match, the inclination direction of the joint surface is measured by reading the angle of the South Pole needle. have.

As described above, the configuration characteristics of the measuring device of the present invention that can measure the inclination direction and the angle of inclination are as follows.

1) A compass with a direction arrow parallel to the joint surface and a direction arrow indicated by the direction the joint surface is facing, ie perpendicular to the joint surface and coincident with the 0 ° point of the azimuth.

2) An angle meter with an angle of 0 to 90 ° for measuring the angle of inclination of the joint surface including both acute and obtuse angles.

3) A measuring device made of a transparent body that can be recognized through the bottom of the measuring device in order to enable measurement of the joint surface above the eye height of the measuring device.

4) Vertical, level gauge filled with luminous liquid for measurement in the dark.

In addition, the characteristics of the measuring device according to the present invention are as follows.

1) If the direction indication arrow orthogonal to the joint surface is in the direction that the joint surface is facing, that is, the direction of inclination coincides, the azimuth point indicated by the north pole needle will be inclined direction. do.

2) The angle of inclination of the joint surface can be read directly as β ° by the goniometer.

3) Perimeter is calculated based on the measured inclination direction and inclination angle.

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

1 is a perspective view showing a measuring device according to the present invention, the main body 1, the vertical, horizontal gauges 51, 52 and the compass 53 is installed, part of which is the main measuring means 1a, and the rest The part is comprised by the inclination measuring means 1b which also serves as a cover.

The aforesaid perimeter measuring means 1a and the inclination measuring means 1b are coupled to the hinge axis 2, and thus the device of the present invention can be folded around the hinge axis 2 and used as a notebook. As shown with reference to FIG. 2, at the end of the inclination measuring means 1b, the goniometer 4 which displays the inclination angle of the joint surface corresponding to the 0 ° point 3 displayed on the side of the perimeter measuring means 1a. Is formed.

On the upper surface of the perimeter measuring means 1a, a longitudinal arrow 5 is displayed parallel to the long side, and orthogonal arrows perpendicular to the longitudinal arrow 5 are crossed across the middle third of the compass 53. 6) is displayed. The orthogonal arrow 6 is indicated to point at an angle of 0 ° of the compass 53. Therefore, when the direction of the arm joint surface coincides with the orthogonal arrow 6, the azimuth point indicated by the north pole needle 7 becomes inclined direction. In the opposite case, the azimuth angle indicated by the Antarctic magnetic needle 8 becomes the inclined direction.

In addition, other orientations can be easily recognized through the orientation system 9.

On the other hand, in the main body 1, as shown in FIG. 3, the remaining part b except the edge a is made into a transparent body.

As shown in FIG. 4, the angle measurement of the arm joint surface displays 180 ° when the inclination measuring means 1b is unfolded as wide as possible from the perimeter measuring means 1a.

Therefore, as shown in FIG. 5, the inclination measuring means 1b is unfolded from the solid line marking position to the one-dot dashed line marking position as shown in FIG. Through the angle of the arm joint surface is measured.

Referring to the operation and effect of the present invention as described above, as shown in FIG. 6, the measurer moves the perimeter measuring means 1a of the measuring device to the inclined surface C, that is, the joint surface C, of the longitudinal arrow 5. ) And parallel to the inclined surface (C) by opening the inclination measuring means (1b), but the direction of inclination in the state in which the perimeter measuring means (1a) is adjusted to maintain the equilibrium through the vertical, horizontal gauges (51, 52) This is measured.

In this case, the inclinometer 4 displays the inclination angle in a state in which the inclination measuring means 1b is in close contact with the joint surface C and simultaneously measures the inclination direction (or strike) and the inclination angle in one measurement operation. Will be.

That is, since the inclination angle can be measured at the same time as the inclination direction (or strike) measurement, the measurement operation is easier than in the case of separately measuring the strike and the slope.

In addition, the conventional measuring device Clinometer is not easy to measure when located in a high joint surface to be measured, the present invention is measured by the transparent body (b) except the edge (a) of the perfume measuring means (1a) The longitudinal arrow 5, the orthogonal arrow 6, and the magnetic needles 7 and 8 can also be observed at the bottom of the device, so that the joint surface of a high place can be safely and easily measured without the help of a scaffold or the like.

As described above, the present invention forms a unit for measuring the inclination measuring unit 1a and the inclination measuring unit 1b, and simultaneously measures the inclination angle by one measurement operation when measuring the inclination direction (or the strike). There is an advantage that the measurement operation of C) becomes easy.

Fig. 9 measured by the conventional crimometer shown in Fig. 8 is N60E, measured at an inclination angle of 45 ° NW or 45 ° SE. Depending on the direction it is directed, it is measured at 150 ° or 330 ° and at the same time the tilt angle is measured at 45 °.

Thus, the relationship between the strike and the tilt and the tilt direction measured by the measuring device of the present invention and the conventional crinometer can be described as a contrast table below.

Claims (1)

A clinometer with a level, a vertical and a compass arranged in one body, the body being connected to the hinge axis so that it can be folded and unfolded with respect to the reference plane so that when it is unfolded its angle can be measured with a goniometer marked around the hinge axis. In the above, the goniometer (4) formed around the hinge axis (2) is arranged to be able to measure the angle in a direction parallel to the orthogonal arrow (6) of the compass (53) and the orthogonal arrow (6). ) Is a measuring device of the inclination direction and the inclination angle of the arm joint surface, characterized in that it is displayed in a direction orthogonal to the longitudinal arrow (5) displayed on the upper surface of the perimeter measuring means (1a).