DE2641402A1 - Solar radiation absorber - having absorber plate in insulated box with water flowing through directed at sun - Google Patents

Abstract

Absorber for solar energy consists of a rectangular body mounted on a moving frame which can be adjusted to obtain max. intensity from the sun's rays. The absorber contains an absorption surface directed towards the sun which is uniformly irrigated with a cooling medium. The housing is thermally insulated and has a cover which is transparent to solar radiation. The whole device can be tilted about a pivot to adjust for the sun's position in the sky at different seasons of the year. The movement of the sun is automatically followed by a timed motor. Branches to feed and remove coolant are provided. Used to recover energy from solar radiation. Allows optimum utilisation of the solar energy whatever the time of day or season of the year. Provides direct heating of water.

Description

Solar energy absorber device.

The invention relates to a solar energy absorber device with one Absorber body, which is supported on a frame following the movement of the sun.

The object of the invention is to provide an absorber device for solar radiation to offer, with the domestic water under the most ideal possible use the solar radiation while adapting to the course of the day and the season of the year Sun and optimal readout of the absorber body can be mentioned.

According to the invention, the solution to this problem is characterized in that that the absorber body with an absorber surface that absorbs the solar radiation, the side facing away from the direction of incidence of the sun's rays of coolant evenly is flushed, is housed in a housing that the housing has thermal insulation opposite the absorber surface and a cover that is permeable to solar radiation has, and that the housing with the frame via a swivel joint and with to and Derivatives for the coolant is connected.

A further development of the invention provides that the housing is a square Box is whose inner side walls and bottom surface with the thermal insulation is covered that the absorber surface consists of a metal plate with a peripheral edge which is in close contact with the side wall thermal insulation and leaves a cavity opposite the bottom-side thermal insulation, and that in this cavity is another plate opposite the absorber surface, wherein both enclose a coolant space An embodiment of the Invention consists in the fact that the absorber surface and plate are two parallel to each other running channels aligned around two sides for coolant distribution Include or collection that are connected to the supply and discharge lines, and that between the closely opposing surface parts of the absorber surface and spacing beads are attached to the plate, which in addition to the even distribution of the coolant.

One possible embodiment of the invention is characterized in that that lying between the absorber surface and the cover parts of the side walls Thermal insulation is bevelled and covered with mirror foil.

A particularly advantageous embodiment of the invention provides that the The axis of rotation of the housing is parallel to one of its diagonals, and that the points of application of the cable mechanism that triggers the tilting movements on swivel joints off-center are arranged.

One embodiment of the drive for the solar energy absorber device according to the invention provides that the cable mechanism has at least one compensation element for length walls contains stanchions of the operating rope, and that it is equipped with a drive motor with a timer for-the daily cycle as well as toggle switches is coupled. A double arm can be used here the underside of the case and to adjust the inclination of the case to the annual sun position be variably attachable to the frame.

An advantage of the invention can be seen in particular that by the type of mobility of the absorber body an almost ideal solar energy spread is made possible, even a step-by-step movement only a slight loss generated. In addition, the flat and smooth, blackened top of the absorber surface guarantees and their placement in the depth of a housing with thermal insulation, reflective Edge surfaces as well as a tight cover of the housing opening Exposure to sunlight a minimum of heat losses through conduction or convection. The border of the both the absorber surface and the plate forming sheet metal parts brings additional an improvement in mechanical stability with. It closes that curvature can arise from welding processes on the sheet metal parts. Further separates the space that is formed between the thermal insulation and the absorber body. from the environment and thus prevents unnecessary heat loss. As a special one The advantage is to consider the design of the absorber body itself, since the distribution and of the coolant flow over a large area without ribs and evenly over the entire absorber surface takes place away.

The invention will be explained in the following on the basis of an exemplary embodiment clarifies in more detail by means of Figs. 1 - 8.

1 shows a side view of the solar energy absorber device, FIG. 2 shows a plan view, FIG. 3 shows a section through the absorber body Housing, FIG. 4 shows a plan view of the absorber body, FIG. 5 shows a section through the center of which FIG. 6 further section perpendicular thereto, FIG. 7 the Cable mechanism and FIG. 8 a schematic circuit of the coolant.

1 shows a side view of the solar energy absorber device shown with housing 1 for the absorber body 2 located (see also Fig. 3), the mounting frame 3 with individual struts 4 and ground anchoring 5, the on a base plate 6 mounted on the first drive motor 7, the cable mechanism 8 with arms 9, the ball joint bearing 10 on the axis of rotation 11 for the housing 1 and the double arm 12 with. Attack..s..dots'. 13.-on the underside or under reinforcement 14 of the housing 1. The double arm crossing point 15 is on a lock 16 of the Annual sun position can be attached variably accordingly. The radiation entrance surface of the housing 1 is indicated for solar radiation (by means of arrows ) can be arranged.

FIG. 2 again shows the absorber device, with the housing 1 is shown in phantom, so that the position of the floor anchor 5 of the frame 3, the motor 7 and the arms 9 of the cable mechanism 8 and their points of application 17 can be seen on the underside of the housing 1. The axis of rotation 11 runs parallel to a diagonal of the housing 1, which is square (e.g. square) and with one point points towards the ground. That ball joint bearing 10 is below the Center of gravity of the housing 1.

A section through the housing 1 and its inner parts is shown in FIG. 3. The box-shaped housing 1 made of e.g. metal contains a thermal insulation 18, 19, of which part 18 is the inner rope wall and the other part 19 is the floor disguise.

To the outside, the housing 1 is at its sunbeam inlet opening 20 closed by means of a glass plate 21.

The glass plate 21 is illuminated by a circumferential sealing strip 22 Groove 23 held, the bar 22 itself in turn by means of a metal angle band 24 and a screw connection 25 is attached to the housing 1.

The absorber body 2 in the housing interior 26 consists of the absorber surface 27 and the further plate 28 opposite it at a distance, with both the Include coolant space 29. Absorber surface 27 has a circumferential edge 30, which rests closely against the side wall thermal insulation 18 and from this is held. The actual attachment takes place via angle pieces 31 on the edge 30, which are screwed to the bottom 33 of the housing 1 by means of screws 32.

The plate 28 is away from the edge 30 of the absorber surface 29 along two Sides (see also Fig. 4 and 5) of the likewise square absorber surface 27 with Edge 30 bent so that channels 34 for even distribution or collection of the coolant flow supplied via the supply and discharge lines 35 and 36 develop. cavity 37 is used for thermal insulation. The distance between the two plates 27 u. ? R is preserved by the spacing beads 38. The free inner surface 39 of the side wall insulation 18 is bevelled towards the glass plate 21 and covered with mirror foil.

The absorber surface 27 and the underlying plate 28 are again from FIG. 4 can be seen. The channels 34 run with a triangular cross-section parallel to each other along two opposite sides. The lead 35 opens into channel 34 at the lowest point of the absorber body, as can also be seen from FIG. The coolant flows through it bottom up, branches out between the spacing beads 38 and collects then again in the second channel 34 with the connection of the discharge line 36 at the highest Job.

Figures 5 and 6 give two mutually perpendicular but parallel Cross-sectional images of the absorber body lying on the sides again. In particular is 5 shows the height of the beads 3R and thus the distance between the absorber surface 27 and the counter plate 28 can be seen.

In Fig. 7 i pt the cable mechanism sinus P with motor 7 and the two Poor 9 pictured. The two arms 9 biden this train the guide for a rope 39, which is rotatable at the attack points 17 on the underframe 14 of the housing 1 is held. A compensating element, e.g. a spring 40, also serves the geometrical one Compensation. The possible end positions 17 'and 17' 'of the points of application 17 are also shown; the arms 9 follow the movement.

A schematic cooling circuit of the solar energy absorber device is shown in FIG. 8 refer to. A circulation pump is located in the supply line 35 or discharge line 36 41, which the heated coolant through a heat accumulator 42 of known type pumped through. From or to this heat exchanger 42 lead a service water drain 43 and a fresh water supply 44 out. With the coolant supply line 36 is a Expansion vessel 45 connected via a safety or overflow line 46.

Claims (7)

Claims 1) solar energy absorber device with an absorber body, which is held on a frame following the movements of the sun, characterized in that, that the absorber body (27, 28) with a solar radiation absorbing absorber surface (27) the side of the coolant facing away from the direction of incidence of the sun's rays is evenly washed around, is housed in a housing (1) that the housing (1) a thermal insulation (17, 18) opposite the absorber surface (27) and a for the solar radiation permeable cover (21), and that the housing (1) with the frame (3) via a swivel joint (10) and with inlet and outlet lines (35, 36) for the coolant is connected. 2) solar energy absorber device according to claim 1, characterized in that that the housing (1) is a square box, the inbere side walls and The bottom surface is covered with the thermal insulation (18, 19) that the absorber surface (27) consists of a metal plate with a circumferential edge (30); which one with the side wall Thermal insulation (18) is in close contact and a cavity (37) opposite the bottom thermal insulation (19) is exposed, and that in-this cavity (37) a further plate (28) of the absorber surface (27) faces, both one Include coolant space (29). 3) Sonnenenergieabsorbereinri cfitung according to claim 1 and 2, characterized characterized in that the absorber surface (27) is also square in shape, that the absorber surface (27) and the plate (28) are two mutually parallel, Channels (34) aligned along two sides for the coolant distribution or Include collection that are connected to the inlet and outlet lines (35, 36), and that between the closely opposing areas of the Absorber surface (27) and the plate (28) spacer beads (38) are attached, which also contribute to the even distribution of the kiln. , 4) solar energy absorber device according to claim 1 or one of the following claims, characterized in that the two the absorber surface (27) and the cover (21) lying parts of the side wall Thermal insulation (18) are bevelled and covered with mirror film (39). 5) solar energy absorber device according to claim 1 or one of the following, characterized in that the axis of rotation (11) of the housing (1) is parallel to one of its diagonals, and that the points of application (17) of the tilting movements releasing cable mechanism (8, 9, 47) on swivel joints (17) arranged eccentrically are. 6) solar energy absorber device according to claim 1 or one of the following, characterized in that the cable mechanism (R, 9, 47) at least a compensating element (40) for changes in length of the operating rope (47), and that the cable mechanism (R, 9, 47) with a drive motor (7) with a timer is coupled for the daily cycle as well as toggle switches. 7) solar energy absorber device according to claim 1 or one he following, characterized in that a double arm (1?) on <he underside (14) of the housing (1) and to adapt the housing position to the annual sun position can be variably attached to the frame (3, 15, 16)