KR200341544Y1 - Apparatus for testing a lighting - Google Patents

Abstract

The present invention relates to a mining experiment apparatus, and more particularly, to a solar fixed mining experiment apparatus in which the artificial sun is fixed.

Solar fixed mining experimental apparatus according to the present invention is a lamp is mounted at a constant height through a support connected to the base plate bent, the base plate is provided with a rotating shaft that is rotatable by a motor between the upper vertical stand, A main body portion having a lower center portion integrally fixed to the center of the rotating shaft and having a circular arc shaped bracket having a circular arc shape which is rotated forward and backward in association with the rotating shaft; Rotating shafts rotatable on the same axis are mounted on the front and rear upper and rear sides of the arc bracket, respectively, to protrude inward, and a motor is connected to the outer side of the rear rotating shaft, and the inner end of the front and rear rotating shaft rotates horizontally in association with the rear rotating shaft. It is characterized in that it consists of a rotating part is mounted to the structure fixing plate possible.

Description

Apparatus for testing a lighting

The present invention relates to a natural light experimental apparatus, and more particularly to a solar fixed light experimental apparatus in which the artificial sun is fixed.

Conventional heliodon is an experimental device for measuring natural light of a structure, and is operated separately from the case where it is installed inside an artificial perforation dome. The working principle of heliodone used in artificial optical experiments is based on three solar geometric variables: latitude, date, and time.

There are two main types of heliodone and its method of operation. First, the sun-fixed model that rotates and tilts the building model with respect to the fixed artificial sun to produce the desired solar azimuth and altitude corresponding to the desired evaluation season and time of day. Second, it places the building model on a fixed plate and then moves the artificial sun. It is classified as a fixed form.

In particular, solar-fixed heliodon has a smaller installation area than large fixed-type heliodon.

However, this solar-fixed heliodone is equipped with a plurality of gears to rotate the circular plate on which the structure is placed, and the structure is complicated, which causes a lot of time to produce.

In addition, in order to measure the indoor incident light of the structure installed on the circular plate, the inconvenience that the experimenter has to set the altitude and rotation of the structure with respect to the fixed artificial sun manually through manual operation occurred.

The present invention is devised to solve the above problems, the present invention is a simple structure and an object of the present invention is to provide a solar fixed light experimental apparatus that can easily manipulate the puncturing conditions for the sun.

1 is a perspective view of a mining experiment apparatus according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line A-A shown in FIG.

3 is a cross-sectional view taken along the line B-B shown in FIG.

4 is an operating state of the mining experimental apparatus according to an embodiment of the present invention,

Figure 4a is a view for explaining the operating state of the circular bracket,

4B is a view for explaining a rotation state of the structure fixing plate.

<Explanation of symbols for the main parts of the drawings>

1: main body

11 base plate 12 support 13 lamp

14: vertical stand

141: through hole 142: bracket

15: motor 16: rotating shaft

17: arc bracket

171,172: through ball 173: bracket

3: rotating part

31: rotating shaft

311: forward rotation axis 312: rear rotation axis

32: motor 33: structure fixing plate 34: handle

5: scale model

Solar fixed mining experimental apparatus according to an aspect of the present invention for achieving the above object is a rotating shaft to the inside of the main body and the circular arc bracket for rotating the half arc-shaped arc bracket for supporting the structure fixed plate by the motor drive back and forth. It consists of a rotating part for horizontally rotating the structure fixing plate connected through.

The main body according to an aspect of the present invention is a lamp is mounted at a constant height through a support that is bent to the base plate, the base plate is provided with a rotating shaft that is rotatable by a motor between the two vertical stands up, The center of the rotating shaft is provided with a circular arc bracket having a semi-circular shape that is fixed to the lower center integrally and rotates forward and backward in conjunction with the rotating shaft.

And the rotating part according to an aspect of the present invention is mounted on the front and rear sides of the circular bracket to be rotatably rotated on the same axis, respectively, protrude inward, the motor is connected to the outside of the rear rotation shaft, the inner end of the front and rear rotation shaft A structure fixing plate which is rotatable horizontally in association with the rear rotating shaft is mounted.

According to this aspect of the present invention, the solar fixed mining experiment apparatus according to the present invention is possible to perform the mining experiments on the structure through the motor and the rotating shafts connected to the respective motors, unlike the conventional heliodon consisting of a plurality of gears Not only is the configuration simple, it is also easy to manufacture, and in particular, the lighting conditions for the structure can be easily set through motor control.

According to an additional aspect of the present invention, the solar fixed mining experiment apparatus according to the present invention is characterized in that the handle is further provided on the outer side of the front rotating shaft by rotating the front rotating shaft through a manual operation to rotate the object.

According to this aspect of the present invention, the solar fixed mining experiment apparatus according to the present invention can operate the rotation of the artificial sun through a handle that can be operated manually as well as a motor, so that the experimenter more easily according to the experimental environment conditions Provides the convenience to operate.

These and further aspects of the present invention will become more apparent through the following preferred embodiments with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

1 is a perspective view of a mining experiment apparatus according to an embodiment of the present invention. 2 is a cross-sectional view taken along the line A-A shown in FIG. 1, and FIG. 3 is a cross-sectional view taken along the line B-B shown in FIG.

As shown in FIGS. 1 to 3, the solar fixed skylight experimental apparatus according to the present invention has a relative inclination of the structure fixing plate 33 with respect to the lamp 13, which is an artificial sun fixed to the base plate 11 by driving a motor. It consists of the main-body part 1 which sets an angle, and the rotating part 3 which rotates the to-be-structured board 33. As shown in FIG.

That is, the main body 1 has a lamp 13 mounted at a constant height through a support 12 bent to the base plate 11, and both vertical stands 14 are erected on the base plate 11 between the upper portions thereof. The rotating shaft 16 which is rotatable by the motor 15 is provided in the center, and the lower center is integrally fixed to the center of the rotating shaft 16 and the semi-circular circular arc bracket which is rotated forward and backward in conjunction with the rotating shaft 16 ( 17) is provided.

Accordingly, the semi-circular arc shaped bracket 17 constituting the main body rotates forward and backward in association with the rotating shaft 16 rotated by the motor 15, and the structure fixing plate 33 through the front and rear rotating shafts 311 and 312 to be described later. Support both ends. That is, the circular arc bracket 17 according to the present invention is formed with a through hole 171 in the lower center. In addition, the through shaft 171 is rotatably inserted into the through hole 171 to the through hole 141 formed on both vertical stands 14. At this time, one side of the rotating shaft 16 is mounted on one side of the vertical stand through the bracket 142, the motor 15 driven according to the drive signal input from the outside.

When the motor rotates according to such a configuration, the rotating shaft connected to the motor rotates according to the driving direction of the motor. As the rotary shaft is rotated in this manner, an arc bracket fixed integrally with the rotary shaft rotates on the axis of the rotary shaft.

In an exemplary embodiment of the present invention, the lamp 13, which is an artificial sun installed at a constant height through the support 12 installed to protrude from the base plate 11, uses a halogen lamp having a high linearity and a small diffusivity. It is advantageous.

On the other hand, the rotating part 3 rotates the structure fixing plate to measure the amount of sunshine injected into the structure from the sun according to the change of time, ie, the rotation of the earth, and fixed in a fixed position in the solar fixed heliodon according to the present invention. Rotate the structure holding plate relative to the artificial sun.

Accordingly, in the preferred embodiment of the present invention, the rotating part 3 is mounted on the front and rear sides of the circular bracket 17 so that the rotating shafts 31 rotatable on the same axis are protruded inward, respectively, of the rear rotating shaft 312. The motor 32 is connected to the outer side, and the structure fixing plate 33 which is rotatable horizontally in conjunction with the rear rotating shaft 312 is mounted at the inner ends of the front and rear rotary shafts 311 and 312.

That is, in the preferred embodiment of the present invention, the rotating part 3 has a through hole 172 in which the front and rear rotation shafts 311 and 312 are rotatably inserted and fixed on the front and rear sides of the arc bracket 17. Accordingly, the front and rear rotation shafts 311 and 312 are inserted into and fixed to the through holes 172 of the circular arc bracket. At this time, in the preferred embodiment of the present invention, the outer end of the rear rotary shaft 312 is connected to the motor 32 supported by the bracket 173 mounted on the rear upper portion of the circular arc bracket, the front and rear rotary shafts (311, 312) At the inner end, the structure fixing plate 33 on which the reduced model 5 of the structure is installed is fixed integrally.

According to such a configuration, the structure fixing plate is interlocked with the rear rotating shaft which is rotated according to the driving of the motor and rotates around the front and rear rotating shafts located on the same shaft center.

On the other hand, in a preferred embodiment of the present invention, it is preferable to install a video camera or a CCD sensor for local imaging inside the scale model 5 mounted on the structure fixing plate 33. Because by installing a video camera or CCD sensor inside the structure, it is possible to more easily and accurately analyze the effect of the indoor injection on the structure through the visual image of the shadows and indoor light from the sun and light.

In this case, the mining experiment apparatus according to the present invention further includes various peripheral devices such as a model scope or a computer image generator. Accordingly, by providing the actual image through the video image using the computer connected to the experimental apparatus and the image photographed by the above-described camera, it is possible to maximize the effectiveness of the use of heliodon.

In another embodiment of the present invention, a handle for rotating the structure fixing plate 33 by rotating the front rotating shaft 311 through the manual operation as shown in FIG. 1 outside the front rotating shaft 311 constituting the rotating part ( 34) is further provided. Accordingly, the structure fixing plate 33 integrally fixed to the inside of the front rotary shaft 311 is rotated in conjunction with the front rotary shaft 311 rotated by the handle 34.

Therefore, the mining experiment apparatus according to this aspect of the present invention can not only more accurately set the rotation of the structure with respect to the artificial sun through the motor, but also can manipulate the rotation of the front axis of rotation through the handle, thus experimenting according to the experimental environment conditions. It provides convenience that can operate the mining experiment device more easily by the self.

Hereinafter, with reference to Figure 4 will be described the operating state of the mining experimental apparatus according to the present invention.

As shown in FIGS. 2 to 4, when the motor 15 mounted on one side of the vertical stand 14 of the main body is driven according to an external driving signal, the rotation shaft 16 connected to the motor 15 rotates. Done. Thereby, the circular arc bracket 17 which the lower center is integrally fixed to the center of this rotating shaft 16 rotates. For example, when the rotating shaft 16 is rotated counterclockwise, the front of the circular bracket 17 is lowered down and the rear is raised. As a result, the arc bracket 17 is inclined at a predetermined angle with respect to the lamp 13 fixed to the support 12. As a result, the scaled-out model 5 provided on the upper part of the structure fixing plate 33 is inclined at a predetermined angle with respect to the lamp 13 which is an artificial sun.

And the rotating part according to a preferred embodiment of the present invention rotates the handle 34 is connected to the front or rear rotary shafts (311, 312) or when the motor 32 is driven integrally inside the front and rear rotary shafts (311, 312) The fixed structure fixing plate 33 is rotated.

Therefore, the solar fixed mining experimental apparatus according to the present invention can change and set the solar altitude of the structure with respect to the artificial sun through a rotating shaft connected to a motor mounted on the main body and an arc bracket interlocked with the rotating shaft, and a motor or a handle connected to the front and rear rotating shafts. By rotating the structure fixing plate through, it is possible to effectively measure the indoor incident light for the structure by setting the light conditions in the natural light state.

As described above, the solar fixed mining experiment apparatus according to the present invention enables the mining experiment on the structure through the motor and the rotating shafts connected to the respective motors, unlike the conventional heliodon consisting of a plurality of gears, the configuration of which is simple. In addition, it can be easily manufactured, and in particular, in the experiment, the lighting conditions for the structure can be easily set through motor control.

In addition, since the rotation of the artificial sun can be manipulated through a handle that can be operated manually as well as a motor, it provides convenience for the experimenter to easily operate the mining experiment device according to the experimental environment conditions.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many different and obvious modifications are possible without departing from the scope of the present invention from this description. Therefore, the scope of the present invention should be interpreted by the utility model claims described to include many such modifications.

Claims (2)

The lamp 13 is mounted at a constant height through a support 12 bent and connected to the base plate 11, and both vertical stands 14 are erected on the base plate 11 to be connected to the motor 15 between the upper portions thereof. A rotating shaft 16 rotatable is provided, and at the center of the rotating shaft 16, a lower center is integrally fixed and a semi-circular arc shaped bracket 17 is interlocked with the rotating shaft 16 to rotate back and forth. A main body portion 1; Rotating shafts 31 rotatable on the same axis are mounted on the front and rear upper sides of the circular bracket 17 so as to protrude inward, and the motor 32 is connected to the outside of the rear rotating shaft 312, and the front and rear rotating shafts ( 311, 312, the inner end of the rotating unit 3 is mounted to the structure fixing plate 33 which is rotatable horizontally in conjunction with the rear rotating shaft (312); Solar fixed mining experimental apparatus, characterized in that consisting of. The method of claim 1, Solar fixed light mining experiment apparatus, characterized in that the outer side of the front rotation shaft 311 is further provided with a handle 34 for rotating the front object fixed plate 33 by rotating the front rotation shaft 311 through a manual operation.