KR880003547Y1 - Measuring height - Google Patents

Abstract

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Description

Solar altitude meter

1 is a perspective view of the present invention.

2 is a cross-sectional view of the angle measuring unit assembled state of the present invention.

3 is an enlarged perspective view of a part of the indicator plate in the angle measuring unit.

4 is a cross-sectional view of the present invention.

Figure 5 is an embodiment of the present invention, Figure 5 (a) is a view illustrating the angle measurement of the sun, Figure 5 (b) is a view illustrating the measurement state according to the direction of the sun.

* Explanation of symbols for main parts of the drawings

1a, 2 angular scale 3: length scale

4: left base 5: circular arc surface

10: angle measuring unit 11: fixed plate

13: adjusting knob 14: indicator

15: projection hole 20: direction measuring unit

21: indicator rod 22: level

23: compass 30: solar altitude meter

The present invention is an easy-to-use structure, it is easy to measure the altitude of the sun, and relates to the solar altitude kite to inspire learning efficiency and motivation.

The measurement of the sun altitude is a process for notifying the changing state by measuring the change in the position of the sun according to the season or the time of the day.

However, the measuring method described above was to measure the altitude of the sun as the angle at that time by measuring the center of the protractor at the end of the shadow and the end of the bar at an arbitrary line by aligning the center of the protractor at the end of the shadow that is made upright on the ground. .

However, since the measuring instrument is a state student, it is very difficult to connect the center of the protractor and the tip of the bar by an arbitrary line, so it is not easy to measure the solar altitude.

Since this inconvenience is not interesting to the measurement process, the students' learning efficiency naturally decreased, and in order to induce the measurement process more specifically, the operation of the sun together with the altitude of the sun It was required to be able to measure the length, and the direction of the compass and the leveler and the indicator bar on the upper part of the base where the leveling base was adjusted to allow more efficient learning by obtaining the result of the measurement as the operation state. The angle measuring part is composed of the indicator plate that the measuring part and the projection hole are rotated on the fixed plate, and the length measuring part is formed in the direction measuring part, and the angle measuring part is inscribed in the angle measuring part to accurately measure the length and angle of the altitude according to the position of the sun. Learning effect by operation of solar altitude to measure and measure To to inspire and efficiency.

This will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention, in which the support hole 25 capable of adjusting the horizontal is configured in the front of the base 4 having a bottom surface, which constitutes a direction measuring unit 20 capable of measuring the direction of the sun. The altitude measuring unit 30 is configured by the angle measuring unit 10 to measure the angle of the sun, the direction measuring unit 20 is a conventional compass 23, the leveler 22 and the indicator bar 21 Consisting of them are installed sequentially to the center line (4a) position formed on the base 4 and the length bar (3) in units of cm is stamped at the position of the indicator rod 21.

The angle measuring unit 10 of the sun consists of a pointing plate 14 having a projection hole 15 formed in the center, a fixed plate 11 for holding it, and an arcuate surface 5 of a pedestal 4 and a pointing plate 14. Consists of adjusting knob 13, etc. to adjust the angle scale (2) to the circular arc surface (5) is configured to be imprinted.

The fixing plate 11 is made of a transparent body to increase the observability, the indicator plate 14 is made of an opaque body to facilitate the measurement from the outside.

In addition, in the transparent body, the angle scale body 1 was imprinted or formed by screen printing or printing printing so that the rotation angle could be easily confirmed.

In order to hold the indicator plate 14 on which the projection hole 15 is formed on the fixed plate 11, the protrusion 14a is formed on the left and right sides of the indicator plate 14 as shown in FIG. 12) in order to prevent free rotation of the indicator plate 14 to be connected to the adjustment knob 13, so that the rubber ring 16 is fitted to the protrusion 14a.

The present invention having such a configuration measures the altitude of the sun as the support plate 14 rotates between the fixed plates 11 as shown in FIGS. 2 and 4.

That is, in order to measure the altitude of the sun, as shown in FIG. 5 (a), the sun altitude measuring device 30 is placed in the direction of the sun, and the support port 25 is adjusted to check the horizontal state with the leveler 22, and then the fifth (b). After adjusting the position of the measuring instrument so that the shadow on the indicator rod 21 coincides with the length scale (3), and adjusting the compass plate 23 so that the compass direction indicates the north-south direction, the position of the sun to be measured is It is measured accurately.

At this time, the shadow of the indicator rod 21 by the sunlight is easily measured by the engraved length scale (3), in the process to measure the altitude of the sun, the shadow of the indicator rod as shown in the fifth (a) When the adjusting knob 13 is rotated in a state coinciding with the length scale, the shadow of the indicator plate 14 gradually increases as the angle of the sun approaches.

When the shadow becomes the darkest on the arc surface 5 of the base 4, the position coincides with the angle of the sun. At this time, the projection hole 15 of the indicator plate 14 appears as the space on the arc surface 5 as the shadow space. When the chair reads the angular scale 2 where the shadow of the indicator plate 14 is located, the altitude of the sun is measured.

The altitude of the sun measured through the above-described process can be easily measured even in the stationary plate 11. In the darkest state, the inclination angle of the indicator plate 14 is a characteristic of the transparent body of the stationary plate 11. Angle is measured.

The measurement value is the same as the angle indicated by the shadow on the angular scale (2) of the circular arc surface (5), the measurement state at this time is possible to observe from the left and right sides and the upper side of the altitude measuring instrument 30 It is easy for the practitioner to measure.

As described above, the present invention can measure the altitude of the sun at the same time and compare the length, as well as measure the shadow in the direction of the indicator panel, which can improve the practical effect as well as the shadow by sunlight Since the tilt on the indicator board is provided on the fixed plate of the transparent body, anyone can easily measure the altitude of the sun.

This process provides the effect of inducing the practitioners' interest in observation to significantly improve the learning efficiency. The simple structure provides the effect of efficiently performing the altitude measurement of the sun.

Claims (1)

In the pedestal 4 formed by the bottom of the base 25 is adjusted up and down as a screw, the direction consisting of the compass plate 23, the leveler 22 and the indicator bar 21 in front of the b-shaped pedestal (4) The indicator plate 14 constituting the measurement unit 20 and forming the projection hole 15 at the rear side of the angle measuring unit 10 is locked by the adjustment knob 13 of the fixed plate 11 made of a transparent body. Forming a solar altitude measuring device 30 in the configuration, the length scale (3) is stamped at the position of the indicator bar 21 of the direction measuring unit 20, and the arc surface (5) and the fixed plate (11) of the angle measuring unit (10) Solar altitude measuring device configured to stamp angle scales (1a) and (2).