KR20090132661A - A sunbeam-boiler - Google Patents

Abstract

PURPOSE: A sunlight boiler is provided to prevent high temperature energy within a sunlight integrated heater from being emitted to the atmosphere. CONSTITUTION: A sunlight boiler comprises a sunlight integrated heater(100), a sunlight black hole(110), a sun light reflection mirror(120), and a convex lens(200). The convex lens continuously integrates sunlight within the sunlight integrated heater through the sunlight black hole. The integrated sunlight is reflected inside the sunlight integrated heater and could not go out of the sunlight integrated heater. The integrated sunlight continuously increases the temperature in the sunlight integrated heater. A heating pipe(300) is formed within the sunlight integrated heater. A user could produce hot water by passing cold water through the heating pipe.

Description

Solar boiler {A Sunbeam-Boiler}

The present invention relates to the boiler art for heating water using various fuels.

The present invention relates to the technical field of the boiler using the solar energy as an infinite clean energy, the gas boiler using conventional city gas as fuel or the oil boiler using oil as fuel is expensive fossil fuel itself and There are economic and environmental disadvantages such as emissions.

In the solar boiler of the present invention, the memory of the childhood of collecting black light with convex lenses and burning black paper,

A solar integrated heater is first provided, a solar black hole is provided in the upper center of the solar integrated heater, and an inner wall of the solar integrated heater is provided with a mirror-like solar reflector, and is convex on the solar integrated heater. A lens is provided such that the convex lens collects sunlight into a solar focal spot and integrates it through the solar black hole into the solar integrated heater, whereby the integrated sunlight is reflected in the solar collector by the solar reflector. Violently continues to reflect, but again the solar light never goes out of the heat. The present invention relates to a solar boiler technology for producing hot water by providing a heating tube in the solar integrated heater and passing cold water into the heating tube in order to use the solar energy integrated in the solar integrated heater.

As described above, the gas boiler using conventional city gas or the oil boiler using oil is expensive fossil fuel itself, and also has economic and environmental disadvantages such as carbon dioxide emission.

In the solar boiler of the present invention, by using the unlimited clean energy of sunlight as a free fuel and using a relatively inexpensive and common convex lens and a mirror, the solar light is integrated to boil water to produce hot water and produce hot water. The challenge is to replace oil boilers.

In order to solve the above problems, it is to invent a boiler that uses solar light, which is infinitely clean energy, as a free fuel, and uses relatively convex lenses and mirrors to boil water to produce hot water by integrating sunlight. .

Hereinafter, with reference to the accompanying drawings a preferred specific embodiment of the solar boiler according to the present invention will be described in detail.

In FIG. 1, as an example of the solar boiler of the present invention in FIG. 1, a solar integrated heater 100 is first provided, and a solar black hole 110 is provided at an upper center of the solar integrated heater 100. The inner wall of the solar integrated heater 100 is provided with a mirror-like solar reflector 120 (hatched portion), and the convex lens 200 is provided on the solar integrated heater 100 to provide the convex lens. When the solar cell 200 collects sunlight into the solar focus 210 and integrates the solar light into the solar integrated heater 100 through the solar black hole 110, the integrated sunlight 220 may reflect the solar reflector ( 120 only continues to reflect violently in the solar integrated heater 100 and does not go out of the solar integrated heater 100 again. Since the lower diameter of the solar black hole 110 is very slightly larger than the fine diameter of the solar focal point 210, some of the integrated solar rays 220 are incidentally directed toward the solar black hole 110. Even though the light is reflected, the solar light does not go out through the solar black hole 110 through the solar black hole 110 by the sunlight that is integrated through the solar focus 210 and then again into the solar heat collector 100. It just comes in. That is, similar to the concept of the existing space black hole, even though the solar light continuously enters and integrates into the solar integrated heater 100 through the solar black hole 110, the solar integrated heater 100 does not exit the solar integrated heater 100. It is the most important technical idea of the present invention to continuously raise the temperature in the solar integrated heater 100 using the principle. In order to use the high temperature energy, that is, the solar energy in the solar integrated heater 100, the heating tube 300 is provided in the solar integrated heater 100 and the cold water 310 is passed into the heating tube 300. To produce hot water (320). Here, the convex lens 200 does not have to be circular, as in the common sense, and may be a square, rectangular, or even trapezoidal one-way convex glass plate. Therefore, the solar black hole 110 does not need to be circular like common sense, but may also have a slot shape that is long and thin. In addition, the heating tube 300 may be winding like a spring to widen the heating area as much as possible. And when the sunlight is too weak it would be better to block the solar black hole (110). In addition, it is of course desirable to provide a heat insulating material 130 on the back of the solar reflector 120 of the solar integrated heater 100 to prevent the high temperature energy in the solar integrated heater 100 to the maximum as possible.

Meanwhile, when the solar cell is provided in the solar integrated heater 100, the solar cell absorbed and reflected by the solar cell is repeatedly reflected to the solar cell through the solar reflector 120 to repeat the process. It will be able to maximize the power generation efficiency.

[effect]

As described in detail above, in the solar boiler of the present invention, solar light is used as a free fuel using infinite clean energy, and it is relatively inexpensive and uses a common convex lens and a mirror to boil water to boil water. Production has the economical and environmentally friendly effect of replacing conventional gas or oil boilers.

The technical idea of the solar boiler of the present invention has been described above with the accompanying drawings, but this is only illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

1 is a side view showing a solar boiler according to the present invention.

Explanation of symbols on the main parts of the drawings

100: solar integrated heater

110: solar black hole 120: solar reflector

130: insulation

200: convex lens

210: solar focus 220: integrated sunlight

300: heating tube

310: cold water 320: hot water

Claims (2)

Solar integrated heater is provided, A solar black hole is provided on the solar integrated heater, The inner wall of the solar integrated heater is provided with a solar reflector, A convex lens is provided on the solar integrated heater, When the convex lens collects sunlight into a solar focal spot and continuously integrates the solar light through the solar black hole into the solar integrated heater, The continuously integrated sunlight continuously increases only the reflection in the solar integrated heater by the solar reflector and does not go out of the solar integrated heater, thereby continuously increasing the temperature in the solar integrated heater, A heating tube is provided in the solar integrated heater to use high temperature solar energy that is continuously integrated and raised in the solar integrated heater, Solar boiler characterized in that for producing hot water by passing the cold water into the heating tube. The method of claim 1, The solar boiler characterized in that to provide a solar cell in the solar integrated heater to maximize the efficiency of the solar cell.

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