KR960018397A - Collector consisting of condenser with parabolic and involute reflector - Google Patents

Abstract

A collector that consists of parabolic and involute reflectors on both sides of the axis line, and a solar radiation energy collection and use device that is applied to the heat collecting and mining device as a basic component. It is possible to obtain both, invertebrate or tracking, and when using invertebrate is characterized by using the solar energy collection as an alternative to the wall function of the building. The tracking mining device is an invention that makes it possible to obtain a mining effect more than a known biaxial tracking device by uniaxial tracking. When the collector is applied, it is possible to produce hot water for industrial and power generation from domestic heating and hot water supply.

Description

Collector consisting of a condenser with parabolic and involute reflectors around the axis

As this is a public information case, the full text was not included.

2 is a cross-sectional view showing a condensing state in the condenser of the present invention;

7 is a perspective view of a high light collecting device in tracking,

8 is a cross-sectional view taken along line K-K 'of FIG.

Claims (14)

The inverted reflector 2 which is developed on both sides of the circumferential point of the arbitrary base circle 1 and the axis 4 passing through the base circle and the parallel light have a vertex T on one side and a focal point F on the other side of the one bullute reflector. One-side parabolic reflector formed inside the end of involute reflector, making condenser, "concentrator composed of parabolic and involute reflectors on both sides of axis" The method according to claim 1, characterized in that the origin of the involute reflector 2 on which the focal point F is formed and the vertex T of the parabolic reflector 3 are vocally folded on the base circumference. Condenser consisting of parabola and involute reflector ” The condenser according to claim 1 or 2, characterized in that the reflectors 2, 3, which are deployed on both sides, are spaced apart from each other on the base circumference. The focal point F of the parabolic reflector is formed at the center point of the base circle 1, and the apex of the parabolic reflector and the end of the involute reflector are connected to each other on the axis to form a single reflector. "Condenser consisting of parabolic and involute reflectors on both sides of the axis" 5. The reflector (2, 3) according to claim 4, wherein the end of the involute reflector (2) is located on the axis (4) between the focal point (F) and the vertex (T) of the parabolic reflector (3). "Condenser consisting of parabolic and involute reflectors on both sides of the axis" The method according to claim 1, 2, 3, 4 or 5, wherein the lower portion of the involute reflector 2 is opened to connect the light ducts 9 so as to transfer the condensing light acting on the base circle to another place. "A condenser consisting of parabolic and involute reflectors on either side of the axis" 7. The light condenser according to claim 6, characterized in that a linear convex lens is provided in the optical duct 9 and the condensing ratio is important. A collector comprising a parabola and an involute reflector on both sides of an axis line, wherein the collector collects the radiated energy collected in the collector by using the base source (1) as the collector tube (5). 10. The heat collecting tube 5 is horizontally provided with a parabolic reflector 3 having a temporary latitude-time light at an arbitrary latitude as an axis reference light 4. (8) and the casing (6) in the frame (7) to produce a panel, the heat collecting device characterized in that it has a wall function. 10. The heat collecting apparatus according to claim 9, wherein the axis reference light (4) of the parabolic reflector is incident light in a range of 80 degrees or less on the wall basis, and the heat collecting tube (5) is constructed vertically. 11. The heat collecting apparatus according to claim 10, wherein the vertical heat collecting pipe (5) is used as an air heating tube, and the exhaust pipe (12) in the building is discharged outside the indoor air by the ventilation force of the connecting heat collecting tube. 9. The reflector (2, 3) according to claim 8, wherein the reflector (2, 3) is fixed by the power of the tracking device with the fixed axis about the heat collecting pipe (5) where the focal point (F) is formed at the center, and the reflectors (2, 3) as rotating bodies. Condensing collection device, characterized in that the uniaxial tracking around the collecting pipe. The parabolic reflector 3 forming the primary F along the center line of the base circle 1 is a primary condenser, and the opening end of the involute reflector 2 is curved at the starting point and the end point of the convoluted reflector 2. Assemble and focus multiple secondary concentrators 30 with an inverted triangular cross-section with an open lower end for focusing and refocusing longitudinal super ray light into a focal point, a rotating shaft 21 and a parabolic primary light collector under the axis light 4 Condensing light collecting device, characterized in that to collect the light collected by the optical cable 31 connected to the bottom of the secondary condenser to the destination by a moving means. The condensing tube device according to claim 13, wherein a transparent tube (35) is inserted in a longitudinal direction around the light-receiving opening of the secondary light collector (30). ※ Note: The disclosure is based on the initial application.