KR200247099Y1 - Solar Simulation Sysem - Google Patents

Abstract

The present invention relates to an apparatus for reproducing solar light, and in particular, a plurality of light sources installed on an upper side of a vehicle to emit solar light toward a vehicle body, and a plurality of distance sensing sensors for sensing a distance between the respective light sources and the vehicle body. And a sun light reproducing apparatus including a control means for controlling the amount of solar radiation of the light source in proportion to the distance between the light source and the vehicle body according to the detection result of the distance sensor so that the same amount of solar radiation is provided to all parts of the vehicle body. The same amount of insolation is provided to all parts of the car's body so that the same test conditions as in the actual thermal degradation test are obtained.

Description

Daylight Reproducing Device {Solar Simulation Sysem}

The present invention relates to a device for reproducing solar light, and in particular, a plurality of distance detection sensors for detecting a distance between each solar lamp and a vehicle body installed in a solar test chamber are included in the detection result of the distance detection sensor. Accordingly, the present invention relates to a solar light reproducing apparatus for controlling solar light of the solar lamp in proportion to the distance between the solar lamp and the vehicle body.

In general, as shown in Figure 1, the vehicle is subjected to a thermal test to measure how much damage of the vehicle body 1 under sunlight.

In order to perform the thermal degradation test of the vehicle body 1 described above, a solar light reproducing apparatus having the same test conditions as the test conditions under actual sunlight is used.

2 is a configuration diagram schematically showing a sun light reproduction apparatus according to the prior art.

Referring to FIG. 2, the solar light reproducing apparatus according to the related art is mounted on a lamp mounting table 10 mounted on the ceiling of the solar irradiation test room so as to be located above the vehicle, and mounted on a lower surface of the lamp mounting table 10 to cover the vehicle body 1. It comprises a plurality of solar lamps 11 that emit sunlight toward.

Here, the solar lamp 11 is a special halogen lamp that reproduces the sunlight similarly, usually about 900 to 1600 on the lower surface of the lamp mounting table 10 according to the size of the solar irradiation chamber.

In the conventional solar light reproducing apparatus configured as described above, when the vehicle is loaded in the solar test chamber, the respective solar lamps 11 operate to emit the sunlight toward the vehicle body 1.

However, the above-described prior art solar light reproducing apparatus has a height of each part of the vehicle body 1 since the distance between the bottom surface of the solar test chamber on which the vehicle is placed and the solar lamp 11 is only about 4 to 5 m. The difference in the amount of insolation is severe.

That is, in the case of a thermal test under actual sunlight, since the distance between the ground on which the vehicle is placed and the sun is very far, a uniform solar radiation acts near the ground so that there is no difference in solar radiation according to the height of each part of the vehicle body 1. However, in the artificially constructed solar irradiation laboratory, since the distance between the solar lamp 11 and the vehicle body 1 is too close, the solar radiation amount of the solar lamp 11 acts locally according to the height of each part of the vehicle body 1. Depending on the height of the vehicle body 1, there is a difference in the amount of insolation of about 100 to 300 W / m 2.

As described above, since the prior art solar light reproducing apparatus creates a test condition different from that of the actual thermal degradation test, the thermal degradation result of the vehicle body 1 appears completely different from the actual one, resulting in a problem of unreliable test results. there was.

The present invention has been made to solve the above problems, and provided with a plurality of distance detection sensors for detecting the distance between each light source and the vehicle body installed in the solar injector and according to the detection result of the distance sensor By providing the same amount of solar radiation to all parts of the vehicle body by controlling the irradiation light of the light source in proportion to the distance between the vehicle body to provide the same sunlight reproducing apparatus to obtain the same test conditions as the thermal degradation test under actual sunlight. There is a purpose.

1 is a view showing a state in which the vehicle is exposed to the actual sunlight,

2 is a configuration diagram schematically showing a sunray reproduction apparatus according to the prior art,

3 is a configuration diagram schematically showing the sunlight reproducing apparatus according to the present invention.

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

51: body 60: lamp mounting

61: solar lamp 63: distance sensor

70: control means 71: distance information processor

73: control computer 75: sunlight controller

Features of the solar light reproducing apparatus according to the present invention for achieving the above object is a plurality of solar lamps are installed at a predetermined interval on the lower surface of the lamp mounting to be installed on the ceiling to emit sunlight toward the vehicle body, and the lamp mounting And a plurality of distance detection sensors mounted on the bottom surface of the vehicle to detect the distance between each solar lamp and the vehicle body, and proportional to the distance between the light source and the vehicle body according to the detection result of the distance sensor so that the same amount of solar radiation is provided to all parts of the body. A control computer for outputting a sun light control signal according to a signal applied from the distance sensor so as to control the sun light of the light source, and controlling the power of each solar lamp according to the sun light control signal of the control computer It characterized in that it comprises a control means consisting of a solar tube controller. In addition, an additional feature of the present invention is, A respective distance sensor is an ultrasonic sensor for detecting the distance between the light source and the vehicle body using ultrasound.

The present invention configured as described above controls the solar light of the light source in proportion to the distance between each light source and the vehicle body, so that the same amount of solar radiation is provided to all parts of the vehicle body, so that the same test conditions as the thermal degradation test under actual sunlight are achieved. There is an advantage that is obtained and the reliability of the test results is ensured.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a block diagram showing a sun light reproduction apparatus according to the present invention.

Referring to FIG. 3, the solar light reproducing apparatus according to the present invention is mounted on the ceiling of the solar irradiation chamber so as to be located on the upper side of the vehicle, and is mounted on the lower surface of the lamp mounting base 60 to provide the vehicle body 1. A plurality of solar lamps 61 for emitting sunlight toward and a plurality of distance detecting sensors mounted on the lower surface of the lamp mounting 60 to sense the distance between each solar lamp 61 and the vehicle body 51 ( 63 and the solar lamp in proportion to the distance between the solar lamp 61 and the vehicle body 51 according to the detection result of the distance sensor 63 so that the same amount of solar radiation is provided to all parts of the vehicle body 51 of the vehicle. And control means 70 for controlling the sunlight of the light.

Here, the solar lamp 61 is a special halogen lamp that reproduces the sunlight similarly, usually about 900 to 1600 on the lower surface of the lamp mounting table 60 according to the size of the solar irradiation chamber.

In addition, each of the distance detecting sensor 63 is an ultrasonic sensor for detecting the distance between the solar lamp 61 and the vehicle body 51 using ultrasonic waves.

In addition, the control means 70 processes the detection result of each distance detection sensor 63 to calculate the distance between the solar lamp 61 and the vehicle body 51 and coordinates with the distance information processor 71; And a control computer 73 for outputting a sun light control signal to control the sun light of each of the solar lamps 61 according to the processing result of the distance information processor 71, and one of the control computer 73. It is comprised by the sun light controller 75 which controls the electric power of each said solar lamp 61 according to a light control signal.

Operation of the solar light reproduction apparatus according to the present invention configured as described above is as follows.

First, each distance detection sensor 63 installed on the upper side of the vehicle operates to detect the distance between each solar lamp 61 and the vehicle body 51. At this time, the distance sensor 63 emits the ultrasonic wave toward the vehicle body 51 and then receives the ultrasonic wave reflected from the vehicle body 51 again using the ultrasonic wave to the solar lamp 61 and the vehicle body ( 51) Detect the distance between.

Subsequently, the distance information processor 71 which receives the detection result of each of the distance detection sensors 63 operates to calculate the distance between the solar lamp 61 and the vehicle body 51 and then coordinates it. do.

Subsequently, the control computer 73 receiving the processing result of the distance information processor 71 receives one of the solar lamps 61 in proportion to the distance between the solar lamp 61 and the vehicle body 51. Outputs the sunlight control signal so that the projection is controlled. The solar light controller 75 receiving the solar light control signal of the control computer 73 controls the power of each of the solar lamps 61 so that the same amount of solar radiation is provided to all parts of the vehicle body 51.

That is, the same test as the thermal test carried out under actual sunlight, so that the same solar radiation is provided through the power control of the solar lamp 61 as described above, even in areas of considerable height difference such as the roof portion and the bumper portion of the vehicle body 51. Allow the condition to be obtained.

In the above, the target value of the solar radiation amount provided to the vehicle body 51 of the vehicle is a value input to the control computer 73 by the user.

The solar light reproducing apparatus according to the present invention constructed and operated as described above includes a plurality of distance detecting sensors 63 for detecting a distance between each solar lamp 61 and the vehicle body 51 installed in the solar irradiation test chamber. Thereafter, according to the detection result of the distance detecting sensor 63, the solar light of the solar lamp 61 is controlled in proportion to the distance between the solar lamp 61 and the vehicle body 51. The same amount of solar radiation is provided so that the same test conditions as in the actual thermal degradation test are obtained, and the reliability of the test results is ensured.

In addition, the present invention controls the power of the solar lamp 61 to control the solar light of the solar lamp 61, so unnecessary power consumption of the solar lamp 61 is prevented, so that the burnout of the solar lamp 61 is prevented. At the same time, there is a side effect of reducing power consumption.

Claims (2)

A plurality of solar lamps installed on the lower surface of the lamp mount mounted on the ceiling at regular intervals and emitting sunlight toward the vehicle body; A plurality of distance detection sensors mounted on a lower surface of the lamp mount to detect a distance between each solar lamp and the vehicle body; According to the detection result of the distance sensor so that the same amount of solar radiation is provided to all parts of the vehicle body, the solar light control signal is applied according to a signal applied from the distance sensor to control the sunlight of the light source in proportion to the distance between the light source and the vehicle body. And a control means for outputting, and a control means comprising a solar tube controller for controlling the power of each solar lamp according to the solar light control signal of the control computer. The method of claim 1, Each of the above-described distance sensor is an ultrasonic sensor for detecting the distance between the light source and the vehicle body using the ultrasonic wave.