KR0181200B1 - Solar concentration collector - Google Patents

Abstract

It is a solar radiation energy collecting device that collects and collects light without tracking. It is composed of an asymmetric cylindrical upward reflector and a forward reflector, so it is easy to manufacture and install. It can be applied as a substitute for the wall structure by taking only the upward reflector, and it has a great effect of reducing the cooling load in the summer, and it can be applied to buildings, houses, apartments, etc. when installing the plasterboard by keeping the back warm. Clean solar energy can be applied more efficiently to various problems such as fossil fuel depletion and air pollution, and can be installed if only small areas such as apartments, verandas, balconies and roof railings are secured. Economical device.

Description

Solar condenser

1 is a schematic cross-sectional view of a device of the present invention showing a solar action state.

2 is a cross-sectional view showing an embodiment.

3 is a cross-sectional view of the apparatus of the present invention applied to an outer wall of a multi-story building.

4 is a perspective view showing an embodiment of the present invention.

5 is a cross-sectional view showing a simplified tracking device.

6 is a perspective view showing the inner reflector operating device.

* Explanation of symbols for main parts of the drawings

1: collection pipe 2: INVORLUTE curved reflector

3: parabolic reflector 4: building wall glass

6: permeable body 8: frame

9: cover and casing material 13: heat collecting pipe support

19: control panel 24: BRACKET

T: Surface connection coupling point L: Latitude (Spring, autumn and high altitude light)

S.S: Base point solar high light W.S: Winter spot solar high light

F.L: FLOOR (Floor, Floor) W: Sunlight Receiving Width (WIDTH)

The present invention relates to a solar condensing device for producing high temperature water in industrial, high temperature water, as well as for home heating and hot water collecting, as fixed and condensing light collection, such as a flat plate collector.

The parabolic reflector shown in the Korean patent 85-1135 solar collector must be tracked with a precision instrument even at the time of collecting the light. Utility Model 86-5310 The reflector applied to the solar heat collecting device has a light receiving width narrower than the length of the heat collecting tube circumference. The second reflector applied to the solar heat collecting method of Patent 81-768 not only collects the reflected light focused at the first reflector with the tracking device but also has a light receiving aperture width of not more than 60 degrees. The complex parabolic reflector introduced in the condenser collector has a number of defects such as reflected light and solar light, which are easy to collect in medium and high temperature, but do not act on the heat collecting tube. Most condensing reflectors have the same symmetry in which the left and right reflectors simultaneously focus on the incident light Brother.

The present invention is an economical heat collecting device that can be installed as a substitute for the existing wall structure when used as a wall heat collecting device as well as to produce a high temperature fruit at a low manufacturing cost, such as a flat plate collector. .

The accompanying drawings and the advanced light described below apply to the north latitude 35 degrees (also the south latitude 35 degrees).

In FIG. 1, the parabolic reflector 3 and the involute curved reflector 2, which focus the same-point solar high-light light WS on the heat collecting pipe 1, are upwardly reflected by the heat collecting pipe, and the base point sun The parabolic curved surface 3-1 for focusing the high light SS on the heat collecting tube 1 and the involute curved reflector 2-1 which is developed in the opposite direction to the above involute curved surface 2 are combined and collected. A forward reflector asymmetrically constructed forward toward the reference forward. The two reflectors are taken as shown in FIG. 4 by taking a portion of the upward reflector (2.3) and the forward emitters (2-1 and 3-1) (hereinafter referred to as both reflectors). , A heat collecting device consisting of a transparent body (6) and both side permeable bodies (6-3), a heat collecting tube for incident sunlight without being manufactured and tracked by a single frame (8), a cover and a casing material (9) It is made to collect light from.

Although there are some differences depending on the region, the solar intensity is the minimum after the winter solstice after the summer solstice, and the average temperature is the highest in July and August, and the lowest in January and February. Sun altitude is the highest of the lower point Southern Lights (SS) and the lowest altitude light after sunrise and before sunset.

For the same reason as above, when the parabolic reflector 3-1 of the reflector reflector is applied to a high altitude light lower than the ground point south middle high light (SS), a larger light receiving width (3-1 indicated by solid line in FIG. 5) is obtained. Obtained. In other words, the gap (opening width, W) is increased, so that even if some reflected leakage occurs, more heat collection energy is obtained during the cold season.

Referring to the simplified altitude tracking using the upward and forward reflector parabolic reflectors 3 and 3-1 shown in FIG. 5, the parabolic reflector is divided into the joints at the same distance from each pivot hinge 22 point. The connecting line 23 is connected to each other, and the operation line 10 is attached to the rear surface of the upward reflector 3 and drawn out to the outside, guided to the guide roller 26, and the operation line is compressed by the snap-type stopper 12 to reflect the reflector. (3, 3-1) position setting.

Pulling the end handle 11 of the operation line 10 with the increase of the solar altitude relative to the winter day is guided to the guide roller 26 to pull the operation line, so that the reflector outside the rotation hinge 22 point is rotated. Since the operation line 10 is crimped with the snap-type stopper 12, the downward rotational power due to the self-weight of the reflector is suppressed, so that the position is set to the opposite position until the winter solstice. It is a tracking function by setting a certain period of time or by convenient operation once a day. 3 is a case of tracking only the upward reflector 3, and part 6-2 shows a transmissive body through which light incident on the upper building glass window 4 is inclined to prevent the building heating of radiant energy. In the case, the lower middle point high-light light, the upper layer is the state light receiving the spring and the autumn middle middle high light L, and the virtual line marking position in the lower layer is the same point reflector (3) state.

In FIG. 2, the reflector is applied only to the involute 2-1 curved reflector, and the rear surface of the reflector 3, 2, 2-1 is insulated (7), and the cover and casing material 9 are installed so that the light receiving front is a building wall. A heat collecting device having a wall function composed of glass 4 is installed on a building wall, a railing, a balcony, a veranda, and the like as a state receiving light from the same point.

As shown in FIG. 1, the sub-reflector 3-1 is also used to bulge the reflector 3-1. The light-receiving front transmissive body is perpendicular to the synchronous point light as shown in 6C. As shown in Fig. 6B, the more inclined material is shown in Fig. 6A. The first reflector and the transmissive body are constructed perpendicular to the spring and autumn spectroscopy.

FIG. 3 is a case where the wall function consists of the vertical reflector 4 and consists of only the upward reflectors 2 and 3 starting from the circumference of the third quadrant of the heat collecting tube 1. It has a wall function and a heat collecting function together with FIG. 2, so it collects solar radiation, which is a big factor of the cooling load in a building in the summer, so it is a multifunctional device having energy saving, wall function, and heat collecting function.

FIG. 6 shows the internal reflector 14, which is a double-sided reflector 14, is controlled at a bimodal interval (12 hour intervals) by a 24-hour timer switch, and transmits the power of the forward and reverse function motor 18 to the chain 17. Is guided to the guide shaft (15) on the rotating screw shaft (16) and linearly reciprocates at 12-hour intervals so that the ipsilateral sloped light is positioned by the internal reflector to the light-receiving side from sunrise to noon to reflect and act from noon. The west sloped light until sunset is located on the east side of the inner reflector to act on the heat collecting tube (1). The drawing shows the west side light acting in the afternoon and the operation is performed only once at noon and midnight. In the reverse circuit of the motor reverse rotation and the 12-hour interval operation for the timer switch 20, the transmission body is omitted. Describe the operational effects of the device of the present invention; Since it collects and collects direct-flow and diffused radiation (irregular inclined radiation such as a clouded day) on the heat collecting tube 1 year-round, if the heat collecting tube 1 is a known vacuum tube heat collecting tube (part 1-1 shows a transparent appearance), It will collect more effectively.

The inclination angle of the permeable body 6 shown in Figs. 1, 2, 4, and 5 degrees depends on the latitude, application (hot water, heating or industrial heat source) and local climatic characteristics. This may be appropriately applied. The focal position of the upward parabolic reflector does not necessarily need to be configured at the apex of the heat collecting tube, and the coupling coupling point T between the parabolic reflector and the involute curved reflector may be configured as a pivoting point 22.

The heat collecting tube and both reflectors are protected by being separated from the outside by the penetrating bodies (6,4,6-3) and the back casings of both reflectors, so they are not contaminated. . When it is configured for the building wall function, only a small part of the cost of the existing building wall construction costs need to be added, the economic benefits are large, and the narrow space can be used.

The boundary point (or point in time) on the heat collecting pipe 1 composed of a double reflector or an upward single reflector as shown in FIG. 3 is a house that can obtain the maximum light reception considering latitude, use, characteristics (for wall function, etc.) and climate characteristics. The heat pipe circumference may be selected.

With the above characteristics, it is extremely low in maintenance cost to produce alternative heat for fossil fuels with clean solar energy, and has a high density of population and high land price.

It is largely composed of both reflector fixed type and simple tracking type, and it has a geometrical feature that receives a lot of winter light with less insolation intensity, and receives relatively little summer light with insolation intensity.

Claims (6)

A parabolic reflector (3-1) and a parabolic surface reflector (3-1), which combines an involute curved reflector (2) and a base point solar high-light beam (3-1) Involute curved reflector (2-1) Photovoltaic condensing device consisting of a combination of the forward reflector coupled to the asymmetric, transmissive body, both side transmissive, frame and casing material. The solar heat collecting apparatus according to claim 1, wherein the parabolic curved reflector (3-1) of the forward reflector is configured to be lower than the base point high light and the light receiving width is increased. The parabolic reflectors (3, 3-1) of the first and second parabolic reflectors (3, 3-1) are separated by rotational joints and connected to each other by a connecting line (23) at the same distance from each rotational point. A solar light collecting and collecting device having a simple altitude tracking device which draws the operation line 10 to the outside of the binding and is guided to the guide roller 26 and presses the operation line with the snap-type stopper 12 to set the reflector position. The solar light collecting device according to claim 1, wherein the reflector is formed of only an involute curved reflector, and the reflector (3,2,2-1) has a heat insulating and casing installation and a building wall function. The solar light collecting and collecting device according to claim 1, wherein the solar light collecting and collecting device has a wall function composed only of an upward reflector starting from the circumference of the third quadrant of the heat collecting tube. The rotating shaft (16) and the guide shaft (15) according to claim 1, wherein the inner reflector (14) made of a double-sided reflector is mounted on a rotating screw shaft (16) and a guide shaft (15) with the power of a forward and reverse motor controlled by a 24-hour timer switch at a 12-hour noon interval. Photovoltaic heat collecting device characterized in that the inclined light acts on the heat collecting pipe and both reflectors by linear reciprocating motion along.