KR20080107338A

KR20080107338A - Hourly reach the underwater as the intensity of solar radiation apply automatic control led aquarium lights

Info

Publication number: KR20080107338A
Application number: KR1020080113210A
Authority: KR
Inventors: 송경용
Original assignee: 송경용
Priority date: 2008-11-14
Filing date: 2008-11-14
Publication date: 2008-12-10

Abstract

The present invention is implemented by applying the changes in the daily underwater light quantity of natural light sunlight, which is the optimal lighting by using LED, the next-generation lighting device with eco-friendly, economical and light output control characteristics to the aquarium tank lighting.

First, to this end, the present invention is to investigate the change in the amount of sunlight hourly during the day of the underwater life of tropical creatures to create a daily change table of solar light intensity based on this, and then the DC current controls the light output of the LED Realize the automatic light control tank by utilizing the characteristic

Second, by additionally applying a manual light amount control switch to implement a separate light amount according to the various types of plants and water tank environment.

Description

Fully reach the underwater as the Intensity of Solar Radiation apply automatic control LED aquarium lights}

The present invention investigates the change in the amount of sunlight hourly during the day of the underwater life of tropical aquatic life to create a table of changes in the amount of solar light underwater hourly based on this, using the characteristics of direct current control the light output of the LED The present invention also relates to a method of implementing a light quantity automatic control tank and the like so as to additionally adjust the amount of light according to various types of plants and tank environments by additionally applying a manual light quantity control switch.

In general, underwater environment of natural ecosystem generates sunlight reflected on the surface of the water due to the angle of incidence of sunlight, and even though the amount of sunlight reaching the water with time varies greatly during the day, the conventional lighting lamp illuminates the same amount of light throughout the day. In this way, the natural and inefficient lighting of the tank environment that emphasizes naturalness is achieved. This causes unnecessary power wastage, and by irradiating excessive amount of light, it causes moss generation called the biggest enemy of the tank.

Existing aquarium lighting lamps emit unnatural and inefficient lighting by illuminating the same amount of light throughout the day, unlike sunlight in natural ecosystems, causing unnecessary power wastage and moss, the largest enemy in the tank, by irradiating excessive amounts of light. It is causing. In addition, aquatic organisms could not provide natural ecological natural environment due to unnatural lighting environment. The reason for this is that existing lighting is virtually impossible to control the amount of light (light output), and according to various aquarium conditions, lighting is also impossible without the addition of new equipment.

The present invention is to investigate the change in the amount of sunlight hourly during the day of the underwater life of tropical underwater creatures to create a table of changes in the amount of solar light underwater by time, based on the characteristics of the direct current control the light output of the LED light automatically By implementing the control tank, the LED light is used to change the amount of sunlight in the water of the natural ecosystem. In addition, by utilizing the light output control characteristics of the LED, it is possible to additionally adjust the amount of light according to the various aquarium environment of his own, it is possible to economically and easily implement the ideal lighting environment without the addition of new equipment.

The present invention is to implement the change in the amount of sunlight in the water of the natural ecosystem as an aquarium light lamp using the LED as it can provide a light environment close to nature to underwater creatures. In addition, it is possible to expect economic effects by not irradiating the same amount of light all day, as in the conventional lighting, and can also prevent damage from moss, the biggest problem of the tank caused by excessive light. At the same time, by applying a separate manual light control device, it is easy to cope with various aquarium environments, thereby increasing the economic effect.

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

FIG. 1 is a table of daily hourly solar light change in tropical water. As illustrated in FIG. 2, light at a time when the angle of incidence of the sun is small is influenced by water reflection, refraction, absorption, and surrounding components. Due to their lack of light, the amount of light required for aquatic organisms, including photosynthesis, is limited to about four hours from 10 am to 2 pm. With this in mind, using the LED's light output control characteristics, a tank with a function to automatically adjust the amount of light based on the data value of FIG. 1 is implemented. The lights are turned on at sunrise, and at noon, they focus on the amount of light actually needed by the creatures in the tank, and then turn off the lights at sunset, resulting in unnatural, inefficient, and inefficient costs Many problems with aquarium lighting can be solved. In addition, by applying the manual light control device in addition to the above-described automatic light control device, it is possible to multiply various economic benefits by allowing the light amount to be selectively adjusted according to various aquarium environments.

When the manual light control device is additionally applied to the automatic light control device, when the desired light amount is selected in the manual light control device, the data value of FIG. 1 is calculated as a percentage based on the value so that the automatic light control device is automatically adjusted. By selecting the amount of light required by the self, the amount of light is automatically adjusted according to the degree of change in the amount of solar light underwater in the natural ecosystem.

As a method of controlling the light output of the LED, the amount of light can be controlled by adjusting the amount of the direct current using the characteristic that the direct current controls the light output of the LED. In addition, the LED can be turned on or off quickly by using a method called a pulse width module. The pulse width module method is to adjust the luminous flux of the LED by adjusting the interval of pulses or the time between pulses.

1 is a daily hourly change in the amount of solar light underwater.

2 is an incident situation of underwater sunlight in the natural world.

Claims

A method of realizing the change in the amount of sunlight in the water during the day in the aquarium lighting by using the automatic light control tank light using LED.

A method of applying a manual light control device to an aquarium tank lamp using LEDs.

If you select the desired amount of light from the manual light control device, the data value of FIG. 1 is calculated as a percentage based on the value, and the automatic light control device automatically adjusts it. Applied to automatically adjust the amount of light according to the degree of change.