KR200205063Y1 - Clinometer Auxiliary Measuring Instrument - Google Patents

Abstract

The present invention relates to an auxiliary measuring device devised for the purpose of enabling measurement of a narrow and thin layered surface and line structure, which has been difficult to measure with a conventional clinometer.

The present invention is a clinometer in the state coupled to the rod (2) and the shaft (4) at the bottom of the rod to be coupled to the lower body (1) of the clinometer (a) to achieve the above object A ground sphere (3) having a measurement reference plane coinciding with the side surface (1a) and the bottom surface (1b) of the measurement reference plane, and the inclination angle measurement scale (5) formed in the rotating part of the ground sphere is coupled to the clinometer Clinometer's auxiliary measuring instrument is newly presented.

Various measurement values, such as the inclination direction inclination of a narrow area which were not possible conventionally with the said structure, can be measured easily.

Description

Clinometer Auxiliary Measuring Instrument

The present invention measures the dip direction, strike, angle of dip, trend, plunge, etc. of the strata and line structures to understand the physical characteristics of rocks. The present invention relates to a clinometer used in the present invention, and more particularly, to an auxiliary measuring device that is attached to an existing clinometer to measure these values easily and accurately in a small layer surface and line structure.

The clinometer consists of a bubble tube and compass attached to the body, a reflector attached to the body so that it can be folded, and an inclination angle measurement scale for measuring the angle between the reflector and the body. dip direction dip angle, strike, etc., and the plunge (punge), pitch (pitch), trend (trand), etc. necessary to determine the line structure (line).

Such clinometer is measured by using a compass in the state of maintaining the horizontal level by the bubble tube, by measuring the inclination direction and inclination using the bottom surface of the main body and the reflector bottom, using the bottom line It is designed to measure the direction and inclination angle of the plunge or trend.It is manufactured to a certain size (normally 8x5x2cm size) to minimize the measurement error value due to the compass. In this state, these values are measured.

Therefore, the surface and line structures of the clinometer measurable rock are limited by the minimum length of the body side (approximately 5 cm), which is almost impossible to measure if the rock with complex structure or the part to be measured is deeply embedded in the rock. There was a problem.

In addition, conventional Clino Meta displays the scale of the compass in 0-90 ° units for each bearing, and shows the azimuth display method (for example, N 60。 W, etc.). There was a problem that caused many errors.

In other words, because the inclination direction appears in only one direction, a measurement error cannot be made. However, the inclination along the main direction must always be in error because the two directions (180 ° difference) must be distinguished.

The present invention can obtain accurate measured values in irregular and small layered and linear structures, and can also measure internal surface and linear structures of recessed parts, and display measured values at 360 ° in addition to the azimuth display scale on the compass. The purpose is to make it possible.

To this end, the present invention constitutes a rod to be coupled to the bottom of the main body of the clinometer, and cuts both sides at the bottom of the rod to form a flat portion, and combines a grounding hole rotating in the range of 180 ° about the axis, 360 ° clockwise and counterclockwise with the auxiliary measuring instrument with the tilt angle measurement scale on the flat surface and the azimuth angle display scale of the clinometer's compass. A new clinometer auxiliary measuring instrument with a 360 ° omnidirectional marking scale is presented.

1 is a block diagram of the subject innovation

Figure 2a is a side view showing a combined state of the present invention

Figure 2b is another embodiment of the present invention

3 is a plan view of the clinometer according to the present invention

Figure 4a is an enlarged view of the configuration of each measuring unit according to the present invention

Figure 4b is a configuration diagram of the angle measuring unit of the conventional clinometer

5 is a measurement item diagram of the rock according to the present invention

6a and 6b is a state diagram used to measure the small plunge using the auxiliary measuring device according to the present invention

* Name of major code

a.clinometer b.secondary measuring instrument

1.Clinometer body 1a.Side 1b.Bottom 1c.Compass

1d.Azimuth display scale 1e.Tilt angle measuring hand 1f.Tilt angle measurement scale

Rod 2a Screw 2b Flat 2c Shaft

3.earth 3a.plane 3b.wing 3c.shaft

4.Axis 5.Slope angle measurement 5a.Baseline 5b.Scale

6.360。 All-round indication scale

The present invention is a side (1a) which is a measurement reference plane of the clinometer in the state coupled to the rod (2) and the shaft (4) at the bottom of the rod to be coupled to the lower body (1) of the clinometer (a) ) And a grounding sphere (3) having a measurement reference plane coinciding with the bottom surface (1b), and an inclination angle measurement scale (5) formed in the rotating part of the grounding sphere, so that it can be used while being coupled to the clinometer. Have

Each figure is represented as a basic embodiment of the above configuration, the auxiliary measuring device (b) according to the present invention is a rod (2), the grounding sphere (3) and the shaft (4) for coupling the rod and the grounding sphere and the rod and grounding sphere It consists of the inclination-angle measurement scale 5 formed around the axis.

The rod (2) forms a screw (2a) at the upper end so that it can be attached to the lower end of the clinometer body (1), the other end is cut off both sides to form a flat portion (2b) and penetrates the right and left sides in the center To use a non-magnetic metal, plastic or carbon material in the structure formed with a shaft hole (2c), the length / diameter and the shape of the rod is not limited to that can be added and decreased as needed.

For example, as shown in Fig. 2a, in joining the rod and the clinometer main body, a groove 1g into which the rod can be inserted is formed at the bottom of the main body, and a fold opening 7 is formed at the end of the rod to integrally form the main body. It can be fixed or to form a fixture in the bottom of the body to secure the rod.

The grounding sphere (3) acts as a reduced reference plane that is precisely parallel to the side and bottom planes, which are the reference planes of the clinometer when it is coupled to the clinometer by a rod. It penetrates the rectangular planar body 3a which maintains the surface parallel to the bottom surface 1b and the side surface 1a of the clinometer body 1, the wing 3b which protrudes left and right from the upper part of the plane body, and a left and right wing | wing. It consists of the shaft hole 3c.

The size of the flat body constituting the grounding tool is preferably determined in proportion to the diameter of the rod, and is approximately sized so that each side of the flat body circumscribes the rod.

Ground plate 3 and rod 2 are combined by inserting the shaft 4 into the shaft hole after the flat part 2b of the rod is tightly inserted between the two wings of the grounding sphere, and the grounding sphere rotates in the range of 180 ° with respect to the rod. Arc shape centering on the shaft hole 2c in the flat portion 2b of the lower end as shown in FIG. 2b to increase the adhesiveness at the coupling portion of the rod and the ground hole, and to facilitate smooth and accurate rotation. To form the jaw groove (2b ') and the guard (guard; 3b') having an upper end portion of the wing (arc) can be configured to rotate in the state that the guard is inserted into the jaw groove.

The inclination angle measurement scale 5 is composed of a reference line 5a engraved on the upper center portion of the left and right wings 3b and a scale 5b engraved about an axis on both flat portions of the rod.

The scale 5b is a reference line 5a engraved on the grounding vane 3b in a state in which the grounding bottom and the bottom of the main body of the clinometer are aligned in parallel when the rod 2 is coupled to the bottom of the clinometer. The inclined angle measurement scale in the range of 90 ° is indicated on both flat portions 2b of the rod so as to be symmetrical about 0 °.

If you want to measure the normal rock by the above configuration, remove the auxiliary measuring instrument and measure in the same way as before, and measure the small irregular and recessed part that is difficult to hold the measurement reference plane with the clinometer. By measuring the base and the bottom surface and the side of the grounding sphere after the combination can be measured in these areas that were not possible conventionally.

4A and 4B show the clockwise direction outward of the azimuth display scale 1d of the previously formed compass 1c so that the measured value can be easily displayed in 360 ° omnidirectional display when using the auxiliary measuring apparatus of the above-described configuration. The 360 ° omnidirectional indication scale (6) and the 360 ° omnidirectional indication scale shown in the counterclockwise direction are also presented.

The 360 ° omni-directional display scale 6 has an effect that a beginner or a student who has a weak azimuth display concept can easily measure and easily record various measured values.

At this time, the recording in the inclination direction is indicated by 3 unit number (ie, 015。 if 15。 and 007。 if 7。) to prevent confusion with the slope indicated by 2 unit numbers.

Referring to the specific use state of the present invention by the above 5 to 6b as follows.

Fig. 5 shows a method of measuring strike / incline and inclination / incline, in which the scale of the compass needle pointing to the north pole is usually placed horizontally against the side of the clinometer against the natural rock. Reading will tell you the strike.

In the case of a small measuring surface that cannot reach the side of the clinometer, you can obtain the same strike value by combining the auxiliary measuring sphere and reading the azimuth point pointed by the compass with the side of the ground sphere facing the strike. (5) shall be maintained at 0 °. For this purpose, a separate fixing means may be added to the joint of the rod and the grounding tool.

Inclined direction / inclined angle is measured with the tilt angle measuring needle (1e) formed on the clinometer's compass with the side of the clinometer on the inclined surface, or the bottom surface of the reflector on the inclined surface with the clinometer horizontally Can be obtained by reading the inclination angle measurement scale (1f), if the measuring surface is small, as shown in Figs. 6a, 6b by combining the auxiliary measuring device to the bottom surface of the grounding sphere while the clinometer is kept horizontal The direction of inclination can be easily measured by reading the direction of inclination in the direction of clinometer and reading the degree of inclination by the scale indicated by the ground line indicator.

The present invention extends the bottom and side of the clinometer, which is the reference plane for measurement, to the grounding sphere by using a grounding hole coupled to the rod and the inclined slope on a narrow or narrow slope that cannot be measured by a conventional clinometer. In order to realize the technical idea to easily measure the measured value, such as the coupling structure of the rod and the grounding sphere, the structure of the grounding sphere, the material, etc. can be modified in various forms. It is only intended to limit the present invention.

In the figure, reference numeral 10 denotes a stopper for fixing the guide of the compass, 12 is a bubble tube for horizontal maintenance, 13 is a reflector, 14 is a mirror formed on the reflector, 15 is a bottom of the clinometer for coupling rods Screw grooves formed on the surface, 16 indicates the measurement object, A indicates the horizontal plane, B indicates the inclined plane, N, W, E, and S indicates the direction, Strike indicates the main direction, dip direction indicates the inclination direction, and dip angle indicates The slope is displayed.

As described above, the present invention is capable of measuring small surface structures, line structures, and depressions that cannot be measured by a conventional clinometer, and anyone can easily read angles and make errors by a ruler that displays 360 ° omnidirectional. Has the effect of eliminating.

Claims (2)

Rod (2) which can be coupled to the lower part of the main body (1) of the clinometer (a), the side (1a) which is the measurement reference plane of the clinometer in the state coupled by the shaft (4) at the bottom of the rod and The grounding sphere (3) having a measurement reference plane coinciding with the bottom surface (1b), and the inclination angle measurement scale (5) formed on the rotating part of the grounding sphere is characterized in that it can be used in the state coupled to the clinometer Clinometer auxiliary measuring instrument. The 360 degree omni-directional display scale 6 indicated clockwise to the outside of the azimuth display scale 1d of the compass 1c previously formed on the clinometer, and the 360 degree omnidirectional display scale indicated in the counterclockwise direction. Auxiliary measuring instrument of the clinometer, characterized in that formed.