DE2901002A1 - Support column for sun ray reflector - is inclined to horizontal and has rotating drive mechanism capable of stopping it at any point - Google Patents

Abstract

The sun ray reflectors have a supporting column, and several secondary constructions on the column which support reflecting surfaces. The column (10) is inclined relatively to the horizontal plane of the earth's surface, and has a drive mechanism (19) which causes it to rotate around its geometrical axis with the ability to stop at any given point. Likewise, the secondary constructions (20) are revolved around their axes by a corresponding drive. Support bearings for the column (10) are located at its foot for firm anchoring in the ground, and at a point (14) in its upper half. This latter support is of sheet metal construction and has its lower end (16, 17) anchored in the ground.

Description

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Sener, Ingenieria y Sisteraas SA
c / Guzman El Bueno 133
Madrid / Spain

Improvements to sunbeam reflectors

The invention relates to improvements in solar reflectors, which are particularly suitable for generating energy in solar power plants

The term "sunbeam reflector" extends to a system which is capable of receiving a bundle of direct sunbeams and to reflect with great precision in a predetermined constant or changeable direction.

The term "sunbeam reflector" is used in this specification to be used extensively on the so-called heliostats, which track the movement of the sun and the sun's rays within a permissible deviation due to the spatial conditions of the heliostat always reflect in the same direction.

It is a very old idea to let the rays of the sun fall on a group of surfaces, which the rays on focus a very small area; to high heat fluxes

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to achieve. It is known from history that in ancient Greece Archimedes set sail for the attacking set fire to Roman warships by shedding the sun's rays from the polished shields of Greek soldiers let focus on the sails. The currently known concept of solar power plants with a central Radiation collector is based on the same principle. A group of numerous heliostats is in one of the sun's rays exposed terrain distributes and reflects the captured rays concentrated on a collector, in where high heat flows arise.

In the last five years, as a result of the increased prices for crude oil, the investigations and planning, whose goal is the use of solar energy for the industrial generation of thermal and electrical energy, get a strong boost. This applies in particular to solar power plants with a central collector. The production electrical energy through these power plants is still in a phase of technological development. The basic problem here lies in lowering costs in order to be competitively priced »

The largest part of the total costs of a solar power plant with a central collector is accounted for by the radiation reflection sector. the heliostats or other radiation reflection systems includes. Therefore there is an obvious interest in improving the work that has been started to further develop the construction of the reflectors.

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In the following, the reasons for the development of an economical construction of heliostats are discussed difficult as they form the starting point for the improvements which are the subject of the present invention are.

In essence, each heliostat consists of one or more large-scale reflective surfaces in the A total of three (thirty to fifty square meters) that can be rotated in two degrees of freedom on a scaffolding are mounted, which is anchored to the ground by foundations.

The adjustment range of the reflective surfaces, which is necessary to follow the course of the sun, causes a Significant restriction of the structural space available for the support structure in order to prevent the reflective To prevent surfaces from sticking to the scaffolding.

Because of these geometrical circumstances, one uses In most of the heliostats developed to date, a vertical column is used as a support structure, which is supported by a foundation tblocks is anchored in the ground. The disadvantage of this cantilever design is its low rigidity against strong horizontal wind forces acting on a heliostat. With a scaffolding with floating anchoring, heavy and expensive columns must therefore be used to achieve the required rigidity and foundations are used, because if there is a deflection at the fastening end, the rigidity of a cantilever

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anchoring proportional to the cube of its length.

In summary, it can be said that the previously known heliostat systems with a column frame are not satisfactory are because of the low rigidity, which is due to their design and training.

One purpose of the present invention is to provide a heliostatic reflector system with high rigidity and thus particularly resistant to the effects of wind.

Another purpose is to create a heliostat watch Reflector system in which anchoring in the ground is easy and economical.

The reflector according to the invention consists - as with this type of facilities usual - from a load-bearing structure or column, a plurality of secondary structures, attached to the main column and a number of reflective surfaces attached to the secondary structures are mounted.

According to the improvements which aind the subject of the present invention, the support column is arranged inclined to the horizontal plane of the terrain. It rotates freely around its geometric axis and is equipped with a drive mechanism that can move the column into any position around the axis and lock it there.

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at the bottom of the column and the other at an intermediate section the column, preferably at one point in its upper half.

The first support bearing is by means of rigid organs directly in the Anchored to the ground. The second support bearing is supported by a stilt-shaped sheet metal construction, which is located below in the Is anchored to the ground and runs in a plane substantially perpendicular to the geometric axis of rotation of the column.

This second, arranged in an intermediate section of the support column Support bearing includes a ring that goes around the column and encloses roller elements. There's one on the ring Fastened screw, which runs perpendicular to the ring axis and engages in a ring gear that sits on the support column. The above-mentioned drive mechanism is connected to this worm in such a way that it does it in one sense or another drive and thus cause a rotary movement of the main column in one sense or another around its axis.

Said ring, which surrounds the support bearing in the intermediate position, is made of the stilt-shaped sheet metal construction mentioned supported. This construction can for example consist of two struts at their apex Form a certain angle on the support bearing and are anchored in the ground at their lower end.

The sheet metal construction can also consist of a single pressure-resistant post, which is laterally supported by a plurality is guyed by tension rods. This post runs in a plane that essentially coincides with the

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the vertical level of the main support column. As in the first EaIl the post is anchored at its lower end in the ground, and the tension rods form an angle with the post; they are also anchored in the ground at their lower end via adjustable turnbuckles.

According to another aspect of the invention, the secondary structures are attached to the main column so that they Execute rotary movements around its axis together with this column. Used to operate the secondary structures a second drive mechanism.

Further, the secondary constructions _t which serve as a support for the reflective surfaces to be statically balanced by masses which are mounted so that the Gravitätionsiaomente that generates the own weight of secondary structures in their effect on the axis of the main support column are minimal.

The properties described and other features of the subject matter of the invention are now based on the enclosed Drawing illustrating a possible embodiment, described in more detail. Show it

1 shows a perspective view of an inventive Sun rays reflect or,

2 shows a schematic section through the support column Representation of the operating mechanisms for this column and its decentralized constructions,

Fig.5, in a perspective rear view, the secondary constructions,

4 in cross section a possible way of mounting the reflective Surfaces and S09829 / 078!

! ig.5 in perspective view one opposite Pig.1 modified embodiment of the reflector.

In all figures, the same parts are given the same reference symbols marked.

As can be seen in Figure 1, the system consists of the invention Sunbeam reflector from a main support tube 10, which is at its lower end on a ball joint or another suitable hinge 11 is supported, which in turn rests on an anchorage 12 which is on one in the ground recessed foundation block 15 is attached. In its In the upper half, the tube 10 is mounted on roller bearings or similar organs in a housing 14 which is supported by two supports or stands 15 is held. These essentially run perpendicular to the axis of the pipe 10 and are firmly connected to the ground by means of anchors 16 and blocks 17.

The support tube 10 can be rotated about its longitudinal axis 18, also referred to herein as the pivot axis. A Worm gear mechanism or similar device housed in housing 14 and driven by a gear motor 19 is driven.

Two cross members 20 are attached to the support tube 10, which extend around their parallel to each other and perpendicular to the axis 18 Axes 21, also called tilt axes herein, can be rotated. The cross members 20 always rotate in the same direction about their axes 21, which is achieved by a connecting rod mechanism inside the tube 10 or by corresponding

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- 11 other gate precautions are taken.

The cross members 20 serve as holders for the reflector wings 22, which are made up of a plurality of reflective ones, on a support frame mounted facets 23 exist.

A drive mechanism, which is accommodated in a housing 24 at the upper end of the tube 10, determines the rotational position the wing 22 on their tilt axes.

2 shows a schematic representation of one of the various possible systems with which the pan and tilt movements of the sun beam projector according to the invention have it carried out. Shown is a longitudinal section through the support tube 10 and through the housing 25, which is used for holding serve the tilting axes 21 and to accommodate the levers 26 seated on these tilting axes. The cross members 20 are firmly connected to the axles 21 via eye tabs 27, which rest on the outside of the housings 25. The levers 26 are coupled to one another by a toggle rod 28 such that the tilting movements of the cross members 20 to their Axes 21 always take place in the same direction.

The tilting movement is caused by a device with a screw 29 which is attached to a joint 30 in the pipe 10 is attached, which is driven by a gear motor 31. The dimensions of the system allow tilt rotations up to the order of ninety degrees.

The same flg.2 shows a possible in a schematic representation System for the swiveling of the Hohres 10 around his 909829 / 07St

Axis 18. The tube 10 rests on roller bearings 32 in the housing 14 stored. Its pivot position is determined by a ring gear 33 which is fixed on the tube 10 and which is moved by a pinion 34 which in turn is driven by a gear motor 19 mounted on the housing 14.

Combined pivoting and tilting movements make it possible to bring the reflective _# faces 22 in the desired tracking the sun position or they move into a protective position, such as in wind direction when strong winds occur, or facing in a floor position when the system is out of order.

3 shows a schematic representation of the training and structural arrangement of one of the reflector wings 22. The illustration shows a complete reflector group of rear. It consists of four identical facets 23 with the exception of the facet 35, in which an outer triangular section is missing. The support structure for the reflector group consists of the cross member 20, the ribs 36 and the spars 37 · each Facet 23 is connected to the support structure at three points, which are drawn at the tips of the dashed lines Triangles are located. The facets are attached to the spars by means of bolts 38 on the back of the facets are attached and lead through corresponding openings in the ceiling. By fixing these anchor bolts with nuts 39 attracts more or less strongly, the position of the facet in question in relation to the support structure vary easily in order to summarize the optical axes 40 of the facets in an ideal focal point.

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4 illustrates a possible constructive solution for the reflective facets 23. The Heette consists of a box 41 with a light, rigid filling 42, such as polystyrene foam, as a base for the reflective surface 43 is used, which can be flat or have a certain concavity.

To the aerodynamic moment, resulting from the resultant which results in wind pressures on the facets with respect to the tilt axis 21, to reduce this to a minimum Axis 21 among those facets on which the center of pressure rests.

In order to reduce the mass moment of the reflective plates with respect to the tilt axis 21, counterweights are used used, which are mounted on the supporting structure of the plate.

When rotating the entire device about the axis 18, the wings 22 can never meet the uprights 15, since the wings are arranged in a plane perpendicular to the axis 18. There is therefore no limit to the angle of rotation of axes 18 and 21.

In order to protect the reflective surfaces against hail, the blades can be rotated by means of combined rotary movements of the axes 18 and 21 are aimed at the ground.

For reasons of optical performance and to limit the overall height of the facility, the outside corners of the reflective wings can advantageously be omitted «,

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The lower ends of the stand 15 and the support bearing 12 of the pipe 10 are on load-distributing foundation blocks anchored in the ground. Since the distances between these foundation blocks are about the characteristic height of the heliostat correspond, cause the overturning moments caused by the wind only low loads on the foundation blocks, so that these can be carried out easily and cost-effectively.

In Fig.5 there is the sheet metal construction that forms the upper housing 14 is supported on the support tube 10, from a compression-resistant post 44 which is braced laterally by tension-resistant tie rods 46 is. This post 44 runs approximately in the same vertical plane as the support tube 10 and. is like in the The figure can be seen anchored at its lower end in the ground. The tie rods 46, which have a certain angle Form the support tube 10 are also anchored in the ground via adjustable turnbuckles 47.

Now that the essence of the invention and its practical implementation options have been sufficiently described, let us pointed out that modifications of the devices listed are possible without the basic principle of To change the inventive idea.

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Claims (1)

c 5 - y Sener, Ingenieria y Sistemas SA M. ) Improvements to solar reflectors of the type consisting of a supporting column, a plurality of secondary structures attached to this main column and a series of reflective surfaces mounted on these secondary structures, characterized in that the supporting column is arranged inclined with respect to the horizontal plane of the terrain, itself can easily rotate about its geometrical axis and is operated by a drive mechanism which can bring the column into any desired rotational position and lock it there so that the secondary structures attached to the column can easily rotate about their axis and are operated by a second drive mechanism and ate of the support bearings of the column one is located at the lower end of the column and is anchored in the ground via a stable organ and the other is arranged in an intermediate section of the column, preferably at one point in its upper half and is made of a sheet metal structure will carry, which is anchored at its lower end in the ground and lies in a plane which is substantially perpendicular to the geometric axis of rotation of the column. 2 "Improvements according to claim 1" characterized in that that the sheet metal structure to hold the upper support bearing the column consists of two uprights that form an angle at the apex of which the upper support bearing is located, the two stands are anchored to the ground at their lower end, 909B29 / 0781 5. Improvements according to claim 1, characterized in that that the sheet metal structure for holding the upper support bearing of the column consists of a compression-resistant post which is laterally braced by a plurality of tensile tie rods, the post essentially in the same vertical plane like the main supporting structure mentioned and is anchored at its lower end in the ground, and that the tie rods form an angle with the post and are anchored in the ground at their lower end via adjustable turnbuckles. 4. Improvements according to the preceding claims, characterized in that the secondary construction, which is to hold serves the individual reflective surfaces, is statically balanced by masses which are arranged in such a way that the Gravitational moments of the dead weight of the secondary construction minimal in relation to the axis of the main supporting structure are. 5. Improvements according to claim 1, characterized in that the support bearing arranged in the intermediate section of the support column has a ring leading around the column containing rolling elements and with one perpendicular to the ring axis extending worm is provided, which engages in a toothed ring seated on the support column and is assigned by an Drive mechanism is driven. 6. Improvements according to claim 1, characterized in that the axes of rotation of the secondary construction with one each Are connected levers that run parallel to each other and 909829/07 it at their free end to each other by a connecting rod are coupled that the lever linkage contains a nut in which one is connected to the second drive mechanism The spindle runs, and that the lever, the connecting rod and the spindle is housed inside the support column. & 09829 / 07gt