SE422116B - REFLECTOR DEVICE, Separate for use in solar panels - Google Patents

Description

Sooszzz-s 2 40 The invention is described in the following with reference to the figures, there fig. 1 shows a cross section through a converging reflection toryta Fig. 2 shows a plan of the reflector surface Fig. 3 shows a cross section through an embodiment of a solar panels Fig. 4 shows a cross section through another embodiment of a solar collector module U! Fig. shows a longitudinal section through solar collector module in? tig. shows a cross section through a solar collector, built of solar collector modules As material for a converging reflector surface 2 according to the invention a thin dense cloth 3 with reflective top layer, 31. Preferably used as a cloth material a thin polyester foil, through an evaporating process coated with aluminum. A useful material sar a reflection factor = 0.95.

The geometry of the reflector surface 2 is formed by means of an edge frame 5 with parallel long sides 51 and curved end sides 52, between which are clamped with the long sides 51 parallel wires 6. The reflector cloth 3 is attached to the edge frame 5 and is supported against the wires 6. The reflector surface 2 thereby becomes divided into a number of elongated rectangular sub-elements 201,2U2,2U3 ..., each with a slightly concave, converging surface through the bulge 3 of the fabric 3 between the threads 6.

The various sub-elements 201,201 ... are oriented rellt so, that incident parallel beams 901,902 .. collapses into a common burning surface 10. By each sub-elements are inherently converging, the burning surface 10 can be made significantly smaller than the area of a sub-element. By dividing reflection of the reflector surface 1 in a larger number of sub-elements can in a described manner a high radiation concentration achieved.

Stabilization of the cloth 3 in its as given above form takes place according to the invention thus. Edge frame 5 together joined along its outer edges 51.52 with an over reflector surface 2 arched transparent casing 1, so that a chamber 7 formed, as well as one arched below the reflector surface 2 likewise housing 1, thereby forming a chamber B. 40 8005222-8 A slight overpressure is maintained by means of a fan in the chamber. clean 7 relative to chamber 8, whereby the cloth 3 is kept taut. preferably the cover 1 is made of transparent plastic. foil, which is stabilized against the environment with an interior air overpressure, which is slightly higher in chamber 7 than in chamber maren B.

Said pressure conditions are achieved according to the invention. by means of a fan 11 in the following manner. The fan's 11 pressure side is connected to the chamber 7, a number of outflow hole 12 is received in the cloth 3 and a choked return channel 13 connected between chamber 8 and the suction side of the fan 11. Med the throttling in the duct 13, a non-circulating air nflow, which through the flow resistances in the holes 12 resp. channel 13 gives onskaoe tlyck. by means of a damper 16 at the suction side of the fan 11 can be regulated the relationship between recírkulread air and fresh air. There may be a need to dry out condensate inside the casing with an increased air permeability flow.

The housing 1 and the reflector surface 2 are preferably shaped. in such a way that the burning surface 10 falls within the housing and that therein through a radiation absorber 15 can be mounted inside the housing, protected against soiling and heat dissipating air movements by blown. Taokvare achieved high radiation intensity the site in the burn surface 10 is extra coverslips in front of the absorber. torytan unnecessary.

The design according to Figure 3 is intended for high con- concentration of direct solar power and thus high operating temperatures and heat production on a large scale. A sun- catcher module with this design is built on the ground and with plan dimensions which, for example, can be 3x1U0 m. ' A reflector surface 2a and a housing 1a are constructed as described in connection with Figures 1 and 2 and comprises an edge frame Sa with parallel long sides 51a and curved end pieces 52a, between which are tensioned wires Sa, a reflector cloth Sa attached to the frame 5a, by an internal overpressure cage upper transparent foil da and lower foil 4a, supply fan 11a, outflow hole 12a, return duct for air 13a and required support brackets 16 for frame Sa.

The device is oriented with its longitudinal direction in east-west and the reflector surface 2a cupped towards mainly 8005222-8 40 * northern part of the sky. From southern latitude incident solar radiation converges towards a burning surface 1Üa and the reflector surface Ze and the upper limiting surface 1a of the housing åa are so designed that the glare surface 1Ua depending on the sunset moves over the rear part of said limiting surface 4a.

This surface is covered by an absorber 15a, made of parallel coupled absorption elements, eg black aquifers tubes, which are oriented in the longitudinal direction. Water flow controlled to the tubes.151a, which are currently illuminated by the burning surface 10 a, while unlit tubes are blocked water flow. This results in a high efficiency degree of reflector-absorber system independent of solar stand and this is achieved with permanently mounted building elements.

The degree of concentration in the burning surface 10a is dependent of the division of the reflector surface 2a into sub-elements 2U1a, 202 ... Down eg a division into 13 elements can one concentration of radiation of 8: 1 is reached. Since the the division only men on the number of inserted threads Ga, can 1 very high concentrations are reached to a marginal extra.

Another embodiment of a concentrating solar collector module is illustrated by Figures 4,5 and 6. The model is mainly intended for smaller plants with relatively low operating temperature, eg for the production of domestic hot water.

Plan measured on a module can e.g. be Û, 5x3, U m with an approx 1.5 mg capture area, and a solar collector is built with optional number of modules.

Referring to Figures 4 and 5, the device comprises a reflector surface 2b consisting of two cylindrically curved sub-elements 201b and 2Û2b inscribed in an elongated element non-cylindrical housing 1b, which consists of an inflated foil hose 4b of eg transparent polyethylene. The reflector surface 2b is formed as before by a reflective fabric 30 and divides the housing 1b into an upper chamber 7b and two wonders chamber Bb. The fabric 3b and the foil âb are stabilizing with overpressure in the chambers 7b and 8b as described.

A frame 5b for supporting and shaping the fabric 3b and the foil 4b in this case consists of two rigid end plates 52b and longitudinal supports of two steel bands 51b and a wire bb, all three equidistant buckets along the cylindrical housing 15, 1Ü 8005222-8 A longitudinally continuous, eccentrically mounted absorber tube 15b stiffens the frame Sh and absorbs compressive force in the longitudinal direction via two resilient link arms 17 with clamping screws 18 abutting against the end plates 520 resp. centers. By screwing in screws 18, the frame is tightened supports 51o and 6a, respectively. Thermal length changes in aosor- the battery tube 15b relative to the frame 5b is received in the link arm 17.

The reflector fabric 3b is most easily attached to the frame 5b through to apply adhesive tape to the outside of the steel strips 51n and end plates b2n and roll the frame bb over the flat laid out the cloth.

Internal air overpressure is maintained via an inlet duct 12 to chamber 7b and outlet ducts 13b from chamber Bb, and a holding area 12b in the fabric 3b.

Geometrically, the absorber tube is made with radius: R, the housing with radius = BR and the reflector surfaces with curvature radius = 1uR. with the device is hereby provided that radiation incident within an approx. 45 r / md angle is concentrated by a factor = 2 against the mantle surface of the absorber tube 15b.

Down fixed mounting in east-fixed longitudinal direction can thus both direct solar radiation independent of the solar state as well diffuse sky radiation from zenith is utilized with good efficiency.

A solar collector is built according to Fig. 6 with a number modules, which are mounted on a common frame 2U can be performed by cavity orophiles and constitute dietary duct.für via a fan 11b cycled air. The nodules can individually rotated on the frame 20, so that it can always laid after the slope of the substrate. As shown in Fig. 6 can also have a north-sloping surface, eg a roof surface advantageously utilized, which provides high Flexibility at location of the solar panel.

Other embodiments of converging reflector surfaces and solar collectors may be within the scope of the invention.

Claims (6)

8005222-s ¿PATENT REQUIREMENTS Reflector device, in particular for use in solar collectors, with a fabric (3) of reflective material, which is stretched to a radiation-concentrating shape, characterized in that the fabric (3) is arranged in an airtight housing (1 ) of completely or partially transparent plastic foil material and delimiting an upper chamber (7) and at least one lower chamber (8) and that a fan (11) is arranged to maintain different air pressures in the upper and lower chamber to hold the housing (1). ) stretched around the fabric (3) and stabilize the latter's radiation concentrating form. Device according to claim 1, characterized in that the pressure side of the fan (11) for air supply is connected to the upper chamber (7), which is connected to the lower chamber (8) by means of pressure-reducing openings (12) in the fabric (3). ) and that the lower chamber (8) is connected to the suction side of the fan (11) via a channel (13) Device according to claim 1 or 2, characterized in that the reflector cloth (3) is Fürenad with the housing (1) around its circumference by means of a rigid frame (5). Device according to claim 3, characterized in that the fabric (3) is supported in the frame (5) by means of tensioned wires (6) therein. Device according to claim 4, in which the cloth (3) forms at least one sub-cylindrical surface, characterized in that the wires (6) are clamped parallel to each other in the frame at such a distance from each other that the sub-cylinder is divided in the longitudinal direction into narrow strips , which concentrates infailanae radiation 1 a small area (10) within the housing (1) in which area a radiation absorber (15a, 1Éb) is arranged. Device according to claim 3, characterized in that the frame (5) is formed by two rigid end plates (52b) vertically oriented and three longitudinal, parallel, horizontal frame profiles (51b, 6b), that the fabric (3) is connected to said frame element (52b, 51b, 6b) and forming two cylindrically curved reflector surfaces (201b, 202b), that a pleasure (1b) is closely connected to the periphery of the gable discs (szb) and the frame profiles (51b) and that a radiation absorber nature ( 1su) is extended between the end caps (szb).