KR20010046561A - Collecting and utilizing of solar light - Google Patents

Abstract

PURPOSE: A solar light collecting and utilizing device is provided to increase the heat collection efficiency by mounting a light transmission surface in a sealed space and face a sealed body to the sun by the operation of a motor rotation part and a temperature sensing and control part. CONSTITUTION: A solar light collecting and utilizing device includes a main body(10) having a sealed vacuum part as a light transmission part, a tube(40) mounted on a part in which light is concentrated by a convex lens(30) and a convex lens function part mounted on the vacuum part, or a concave reflection mirror(20) mounted inside the light transmission part, connection gas, liquid, vacuum connected to the tube directly or via an auxiliary storage tank(70) for storing water and vacuum heat, a vacuum motor pump or a motor pump(90) for circulating the heat of the storage tank via a heating/cooling device, and a temperature change sensing and control part(100) for controlling temperature, wherein the main body is moving toward the sun according to the operation a motor rotation part(60) and the temperature sensing and control part.

Description

Temperature using device using solar heat {.}

The solar and temperature utilizing apparatus of the present invention uses solar heat. The solar heat using apparatus is a convex lens 30 and a convex lens function unit 31 in a sealed, vacuum unit 11 which is a light transmitting surface installed on one surface of an enclosed space of the body 10. Or ascending by the principle of concentrating the light by installing the tube 40 on the concentrating part of the light using the concave reflector 20 inside the light transmitting surface or by vacuuming the interior of the light. The temperature of the pipe 40, the connecting gas 42, the liquid 43, and the vacuum 41 can be directly connected, or an auxiliary storage tank 70 can be installed for the iron sludge type, water 300, and vacuum heat. To store the heat and use the circulating temperature of the vacuum motor pump and the motor pump (90) device, and to control the temperature change by sensing and controlling the temperature change through the cooling and heating device (400) as the temperature assistance. In addition, in view of the light transmitting surface installed on one surface of the space enclosed by the reflector 200 The addition to give a sealing body in accordance with the movement of the sun motor rotation part 60 and the sensor and control unit 100 towards the sun

The condenser lens and convex lens function on the light transmitting surface installed in one of the enclosed spaces of the solar using device body 10 or the light concentrating part using the concave reflector inside the light transmitting surface are used. By installing or vacuuming the inside, the temperature rises by the principle of light concentration.

Circulation and storage of water in soil-colored copper pipes in confined spaces

Therefore, the main object of the present invention is the solar temperature using device is a convex lens 30 in the sealed, vacuum portion 11 which is a light transmitting surface installed on one surface of the sealed space of the solar heat using device body 10 to prevent air flow and Concentration principle of light using concave reflector 20 inside the light condensing lens function 31 processed in the plane or the light transmitting surface and the tube 40 is installed in the light concentrating part or vacuum inside the 41) using the connection temperature of the pipe 40 directly to the rising temperature by the principle of the concentration of light, or by installing the auxiliary storage tank 70 to circulate the storage heat to the vacuum motor pump, motor pump (90) device The use of temperature also controls the temperature change by providing a sense of temperature change and control unit 100 through the cooling and heating device 400 with the aid of temperature. In addition, the light transmitting surface installed on one surface of the space enclosed by the reflector 200 is used. It adds heat effects in the light of the sun's movement Emitter rotating portion 60 and the sensor and control unit 100, a closed body that is to face the sun, depending on the service device.

1 is an illustrative perspective view according to the invention

a. Illustration of connecting the separation pipe between the body and the heat storage tank

b. Illustration of the combination of the body and the heat storage tank

c. shows the separation of the pipes connecting the heat storage tank and the pipes in the body and the extension of each pipe

Illustration

Figure d is a cross-sectional illustration of Figure c.

2 is an illustrative perspective view of the present invention.

a.The degree of heat and low temperature of the vacuum and light except the lens, lens function, and reflector

Connect pipe 40 to the storage tank and pipe 40 to the storage tank

Sectional view

b.Vacuum and light concentrators and heat storage tanks except lens, lens function, reflector

Use the water (300) to connect the pipe (40) to the storage tank and open the pipe (40) to the storage tank

Sectional view

c. The degree depends on the convex lens, convex lens function, and the concentration of the vacuum and light excluding the reflector.

The temperature of the gas (42), the liquid (43), and the vacuum (41) of the pipe (40) is set at an elevated temperature.

Auxiliary storage tank (70) with affixed connection and pipe (40) filled with water (300)

Illustrates the use of extension pipes connected to the heat tank 70 filled with water 300

Combined body and heat storage tank

Figure 3 is an exemplary perspective view installed inside the sealed, vacuum portion 11 and the interior of the light transmitting surface of Figure-2

book

a, airtight, vacuum part 11, tube partial front example of the convex lens 30 installation

Perspective view (visibility and invisibility of the rear view may be due to the nature of the lens

Claim and discussion distance exclusion)

b, airtight, vacuum part 11, tube part front surface of the convex lens function part 31 installation

Illustrative perspective view (because the invisibility of the rear view may be due to the nature of the lens

Technology claims, discussion distance exclusion)

c, airtight sealing surface, through the tube inside the vacuum unit 11 or installed on the back of the tube

Concave reflector perspective

4 is an exemplary perspective view installed inside the hermetic seal, the vacuum part 11 and the interior of the light transmitting surface;

a, perspective view of the partial frontal view of the tube when the convex lens 30 is installed (visible and invisible to the rear)

May be due to the nature of the lens.

b, an example perspective view of the frontal part of the tube when the convex lens function unit 31 is installed;

c, concave plate installed on the back of the tube installed inside the vacuum unit 11, which is a light transmitting surface

Spectacle perspective

5 is a convex lens 30, a convex lens function, a concave reflector, and a tube installed therein.

As an illustrative perspective view

a, a view illustrating a tube installed at a light gathering part when the convex lens 30 is installed

b, example of installation of convex lens function part 31 installed in the light gathering section

c, a pipe example installed through the concave reflector 20 installed in the light gathering perspective view

d, pipe installed in front of the concave reflector (20) light gathering perspective view

Fig. 6 is a plan view of the convex lens 30, the convex lens function section 31, and a side view of Fig. 5 as a perspective view.

a.convex lens 30 b.convex lens function section 31

7 is an illustrative perspective view according to the invention

a.An illustration of a tube through circular concave reflector

b. Illustration of a circular concave reflector groove for the passage of a tube

c. is an illustration of a circular concave reflector

d. An illustration of an internal triangular reflector that may be used internally

e. Fig. is a perspective view of a reflector for reflecting light from outside the body

Explanation of symbols on the main parts of the drawings

10 ... body using solar heat 11 ... sealed, vacuum 20 ... concave reflector 30 ... convex lens 31 ... convex lens function 40 ... tube 41 ... vacuum, 42 .. Liquid 50 ... Connection tube 60 ... Motor rotation 70 ... Tank 80 ... Valve with electromagnet 90 ... 100 ... Sense 200 ... Reflector 300 ... Water

Preferred embodiments of solar and temperature utilizing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a convex lens 30 and a convex lens function in a sealed, vacuum part 11 which is a light transmitting surface installed on one surface of the solar space using body 10 in order to achieve the above object. Principle of light concentrating by installing a tube 40 on the light concentrating part or using a vacuum 41 inside the light 31 using the concave reflector 20 inside the part 31 or the light transmitting surface. By using the pipe 40, the temperature of the connecting gas 42, the liquid 43, the vacuum 41 is directly connected to the elevated temperature, or by installing the auxiliary storage tank 70, water 300, vacuum, iron The heat is stored as sludge type, heat storage material, etc., and the stored heat is used as the vacuum motor pump and the motor pump (90) device to use the circulating temperature. 100 to control the temperature change and also the light transmitting surface installed on one surface of the space enclosed by the reflector 200 In view is characterized in that in addition the effect of heat gives a sealing body in accordance with the movement of the sun motor rotation part 60 and the sensor and control unit 100 towards the sun providing an apparatus. Figure 1a is connected to the tube and the body and the heat storage tank during the movement of the sun the motor rotating part 60 to move the tube when the solar thermal device body 10 is directed to the sun according to the sensor and control unit 100 Separation example showing the clearance b. The pipe connecting the body and the heat storage tank when the movement of the sun when the motor rotating part 60 is the sensor and control unit 100 according to the solar device when the body 10 is facing the sun. Example of the combination of the body and the heat storage tank showing the margin to move the tube c. Figure b. Condensation of the light transmission surface installed on one side of the closed space of the body 10, the vacuum portion 11 and the concentration of light Pipe 40 is installed in the part or the inside of the vacuum (41) to raise the temperature by the principle of light concentration, the tube 40 is connected to the temperature of the gas 42, the liquid 43, the vacuum 41 Water (300), vacuum, iron sludge in auxiliary storage tank (70) with direct extension connection and pipe (40) filled with water (300) Equation, extending the pipe connecting the heat storage object heat to the tank 70, combined with the body and the heat storage tank illustrating the use of connection

When using the principle of concentrating light using the convex lens 30 and the convex lens function part 31 or the concave reflector 20 inside the light transmitting surface, the airtight sealing surface of the solar heat, and the vacuum part 11, High by using the tube 40 or the inside of the vacuum (41) by using the elevated temperature by the principle of light concentration, or by using a direct connection to the connecting pipe (40) or by installing the auxiliary storage tank (70) Water (300), vacuum, iron sludge type, heat storage, and the like to store heat, the heat stored in the vacuum motor pump, motor pump 90 device using the circulation temperature and the temperature of the cooling and heating device (400) The temperature change is sensed and the control unit 100 is placed to control the temperature change. In addition, the heat effect is added to the light transmitting surface installed on one surface of the space enclosed by the reflector 200. The motor rotating unit 60 and The body sealed by the sensor and control unit 100 It directing characterized in that the chair by installing a device to obtain the amount of heat

Claims (3)

Convex lens 30 and convex lens function unit 31 or concave reflector inside the light transmitting surface, which is a light transmitting surface installed on one surface of the solar space using body 10, the convex lens 30 and the convex lens function part 31 or the light transmitting surface. The tube 40 is connected to the tube 40 at an elevated temperature based on the principle of light concentrating by installing the tube 40 at the concentrated portion of the light using the principle of concentrating light. ), The liquid 43, the vacuum (41) using the temperature of the direct connection or by installing the auxiliary storage tank 70 to store the heat to the water (300), vacuum, iron sludge type, heat storage object, etc. In order to control the temperature change by using the circulating temperature using the vacuum motor pump and the motor pump (90) device, the temperature change is sensed through the cooling and heating device (400) and the control unit (100). ) It adds heat effect in light of the light transmitting surface installed on one side of enclosed space. A sealing body according to the rotary part 60 and the sensor and control unit 100 towards the sun characterized in that it provides an apparatus. Figure 1a is connected to the tube and the body and the heat storage tank during the movement of the sun the motor rotating part 60 to move the tube when the solar thermal device body 10 is directed to the sun according to the sensor and control unit 100 Separation example showing the clearance b. The pipe connecting the body and the heat storage tank when the movement of the sun when the motor rotating part 60 is the sensor and control unit 100 according to the solar device when the body 10 is facing the sun. Example of the combination of the body and the heat storage tank showing the margin to move the tube c. Figure b. Condensation of the light transmission surface installed on one side of the closed space of the body 10, the vacuum portion 11 and the concentration of light Pipe 40 is installed in the part or the inside of the vacuum (41) to raise the temperature by the principle of light concentration, the tube 40 is connected to the temperature of the gas 42, the liquid 43, the vacuum 41 Water (300), vacuum, iron sludge in auxiliary storage tank (70) with direct extension connection and pipe (40) filled with water (300) Equation, extending the pipe connecting the heat storage object heat to the tank 70, combined with the body and the heat storage tank illustrating the use of connection Sealing, which is a light transmitting surface installed in one of the sealed spaces of the solar cell apparatus 10 of claim 1, concave in the convex lens 30 and the convex lens function portion 31 or the light transmitting surface in the vacuum portion 11 By using the principle of focusing the light using the reflector 20, the tube 40 is installed at the focused part of the light or the vacuum 41 is used to process the transmission surface of the principle of focusing the light and to collect the light inside. Principle and vacuum formation and heat circulating temperature to the vacuum motor pump, motor pump (90) device using the temperature and the temperature change through the cooling and heating device (400) in addition to the temperature of the temperature change by placing the sense and control unit (100) It also adds a thermal effect in light of the light transmitting surface installed on one surface of the space enclosed by the reflector 200. Solar use device body as an auxiliary method of cooling, room and light reflection of the device so that the sealed body according to the motor rotating part 60 and the sensor and control part 100 toward the sun during the movement of the sun Figure-1