DE102013004987A1 - Solar energy device for use in solar tower power plant, has radial cam for length compensation between strands of adjusting gear box - Google Patents

Abstract

The solar energy device has an adjusting gear box with two strands (13,14) and radial cam (6) for length compensation between the strands. The cam pivots a release lever (8) which serves for tensioning the strands of gear box.

Description

The present invention relates to a solar energy device with a Nachführgetriebe.

Solar energy devices have a collector, a solar module or a reflector, which is tracked to the position of the sun.

In DE 20 2007 006 152 U1 a solar energy device is described which has a Nachführgetriebe with two bands. The Bandtrume run from a drive roller to different ends of a solar module. Due to the geometry, when swiveling the solar module it is possible to shorten one run and to lengthen the other. To take this into account, there are means for length compensation, in the form of feathers integrated into the strands.

Unfavorable is that the solar module is loaded by bending force of the springs on bending and would be deformed in a construction in lightweight construction. Therefore, the solar module must be formed sufficiently rigid, whereby the material usage and the weight increase. Due to the increased use of materials, the production becomes more expensive and the increased weight requires more drive power. If the solar energy device of the prior art instead of the solar module have a reflector and be part of a solar tower power plant, the bending deformation by the springs would have even more serious consequences. Due to the convex bending of the reflector this would scatter the incident light. The spring load of the reflector could lead in its orientation to the receiver in the solar tower to such large angular deviations that a large part of the reflected radiation does not hit the receiver. Both the light scattering and the angular deviations would drastically reduce the efficiency. Therefore, the tracking gear of the solar energy device of the prior art is unsuitable for reflectors.

The invention has for its object to provide a further solar energy device.

This object is achieved by a solar energy device having the features of claim 1.

The solar energy device according to the invention comprises a Nachführgetriebe with two Trumen and at least one curve for length compensation between the Trumen.

In contrast to the springs used in the prior art, the receiving part is not subjected to bending due to the curve in the device according to the invention. Therefore, the receiving part can be formed in lightweight construction, resulting in savings of material and drive energy. Since deformations of the receiving part are avoided, the device according to the invention is particularly well suited for use in a solar tower power plant. Here, the tracked by the tracking gear sun position receiving part is a reflector. This works - as it is not claimed by the curve on deformation - very precise and the efficiency is high. However, the device according to the invention is also suitable for forming its receiving part as a collector or solar cell. The strands can be part of a band or a plurality of bands as a band, be part of a rope or ropes as Seiltrume, be part of a belt or belts or as chainring be part of a chain or chains as a belt room.

Constructively and functionally advantageous developments are mentioned in the dependent claims and will become apparent from the following description of various embodiments and the accompanying drawings, in which:

1 a first embodiment with a controlled by the curve clamping lever,

2 : a second embodiment with one or more curves in direct contact with the troughs,

3 a third embodiment with an adjustable curve,

4 a device in which only a single strand is present and

5 to 9 different waveforms for the embodiments of the 1 to 3 ,

In the 1 to 9 are mutually corresponding components designated by the same reference numerals.

1 shows a device for obtaining solar energy. The device has a receiving part 1 in the form of a reflector. The reception part 1 is about a joint with a horizontal axis 2 with a drive unit 3 connected by a joint with a vertical axis 4 with a stand 5 connected is.

In the drive unit 3 There is a motor, which the elevation tracking of the receiving part 1 causes. This engine drives a curve 6 when tracking rotatively. The curve 6 is about a support arm 7 on the drive unit 3 attached. Another motor, which is used to pan the drive unit 3 together with the reception part 1 around the vertical axis 4 relative to the stand 5 serves and thus the azimuth tracking of the receiving part 1 serves, can also be found in the drive unit 3 or instead in the stand 5 be arranged.

A first run 13 and a second run 14 are either components of one and the same rope or are formed by two different ropes and belong to a Nachführgetriebe in accordance with the daily and seasonal changing position of the sun tracking the receiving part 1 , The dreams 13 . 14 are at the receiving part 1 attached and transmitted when the receiving part is pivoted 1 around the horizontal axis 2 the required drive movement to the receiving part 1 ,

The description given so far of the 1 applies in a figurative sense to the 2 to 4 With.

In the embodiment according to 1 is the curve 6 a radial curve, as in 9 shown in detail. At a first attachment point 11 of the receiving part 1 is the first dream 13 attached and at a second attachment point 12 is the second run 14 attached. The two attachment points 11 . 12 are holding eyes or similar force application points. The horizontal axis 2 is located - preferably in the middle - between the two attachment points 11 . 12 ,

If the two dreams 13 . 14 formed by two different ropes, is the other end of the first strand 13 on a drive roller 15 attached and is the other end of the second dream 14 also on the drive roller 15 attached. The drive roller 15 This forms a winding spool for winding and unwinding the dreams 13 . 14 , When the dreams 13 . 14 formed by one and the same rope, the two have dreams 13 . 14 except at the attachment points 11 . 12 attached ends no other ends and is the rope to the drive roller 15 attached.

The curve 6 and the drive roller 15 are coaxially arranged with each other and rotatably connected by sitting firmly on a common shaft. The curve 6 and the drive roller 15 are from the responsible for the elevation movement motor in the drive unit 3 driven jointly by the motor rotates said shaft. The curve 6 operates a double-armed clamping lever 8th to tension the first run 13 , The tension lever 8th is pivotable in the support arm 7 stored and has at its one end a tension roller, with the first strand 13 is in contact, and at its other end a curve follower, with whom the curve 6 in contact. The tension roller compensates as a function of the elevation on the curve control the Trumlängenänderung.

2 shows a device in which at the first attachment point 11 the first run 13 is attached and at the second attachment point 12 the second run 14 is attached. The dreams 13 . 14 can as well as in 1 belong to one or two ropes (ribbons, straps, chains ...). In contrast to 1 but are the dreams 13 . 14 in the embodiment in 2 with the curve 6 in contact. The curve 6 in this case also functions as a drive roller in functional unit, so that no separate drive roller is required. The dreams 13 . 14 be on the bend 6 wound up and unwound from this when the curve 6 is rotated to the receiving part 1 to pan. For their function as a drive roller or reel suitable embodiments of the curve 6 are in the 7 to 8b shown.

7 shows a variant in which the curve 6 is a radial curve. The curve 6 consists of a single cam. The dreams 13 . 14 are, for. B. with one or more screws on the curve 6 attached. When turning the curve 6 in one direction becomes the first strand 13 on the curve 6 wound up and becomes at the same time the second strand 14 from the bend 6 settled. When turning the curve 6 in the opposite direction becomes the first strand 13 from the bend 6 settled and becomes at the same time the second run 14 on the curve 6 wound.

The 8a and 8b - in which 8b a side view of 8a is - show an alternative variant. Here's the curve 6 from a first cam 6a and a second cam 6b composed. The two cams 6a . 6b are radial curves and rotatably connected with each other. The first run 13 is, for. B. with a screw on the first cam 6a attached and the second strand 14 is, for. also with a screw, on the second cam 6b attached. When rotating the two cams 6a . 6b their first axis becomes their common axis of rotation 13 on the first cam 6a wound up and the second strand 14 from the second cam 6b settled. When rotating the curve 6 in the opposite direction becomes the first strand 13 from the first cam 6a unwound and the second strand 14 on the second cam 6b wound.

3 shows an embodiment in which the curve 6 is designed as a radial curve and the engine 9 shifts the drive roller 15 and the curve 6 rotates. The whole unit, consisting of curve 6 , Drive roller 15 and engine 9 , becomes linear along the support arm serving as a guide 7 postponed. This results in a length compensation between the first and second strand 13 . 14 at the Panning the receiving part 1 causes. Also the drive roller 15 is here designed in the form of a curve, especially an axial curve. In this embodiment, therefore, two curves are present, the radial curve (curve 6 ) and the axial curve (drive roller 15 ), where one curve (radial curve) serves to adjust the other curve (axial curve). The vertical to the reflector plane of the receiving part adjusting movement is depending on the pivoting direction of the receiving part 1 from this or towards the latter taking place reciprocation of the mentioned unit and in 3 with an arrow 10 symbolizes. The drive roller 15 , which may also be referred to as a cable drum, is designed as a reel spool.

In the 5 and 6 are alternative variants for the formation of the drive roller 15 shown. The drive roller 15 according to 5 consists of two cone-shaped sections, which are tapered from the center of the roller to the roller ends, so that the drive roller 15 is essentially barrel-shaped.

The drive roller 15 according to 6 also consists of two conical sections. However, these taper off from the roll ends towards the middle of the roll, so that the drive roller 15 has a constricted diabolo shape.

For both variants of the 5 and 6 it is true that one roll section is the first strand 13 leads and the other role section the second strand 14 leads and the Trumenden to the drive roller 15 are attached. As a result, when the receiving part is swung in one direction, it becomes the first one 13 wound on the one roll section and the second strand 14 unwound from the other role section and when pivoting in the opposite direction, the first strand 13 unwound and the second strand 14 wound.

The advantage of the embodiment according to 6 is that the dreams 13 . 14 without additional measures, such as thickened heels or lock washers at the roll ends, against slipping off the drive roller 15 secured in case of failure. The dreams 13 . 14 would in case of disruption of Trumzwangsführung on the drive roller 15 wander inside and then stay there. In the embodiment according to 5 can the mentioned additional measures to secure the dreams 13 . 14 against slipping off the drive roller 15 serve.

In the previously described embodiments of 1 to 3 are the two attachment points 11 . 12 at the same distance from the horizontal axis 2 arranged, which is thus centered with respect to the attachment points. Deviating but it is also conceivable, the two attachment points 11 . 12 different from the horizontal axis 2 to arrange, which would thus be placed off-center. This could be the distance to be measured in the image plane of the drawing between the lower, first attachment point 11 and the horizontal axis 2 smaller than the distance between the upper, second attachment point 12 and the horizontal axis 2 ,

In the device according to 4 is only a single strand 13 present, which when swinging the receiving part 1 depending on the direction of pivoting on the drive roller 15 wound up or handled by this. A Trumlängenausgleich by means of a curve is therefore not required here. The dream 13 leads from the drive roller 15 up to the attachment point 12 , Regarding the training of the receiving part 1 , the drive unit 3 and the stand 5 corresponds to the device in 4 those in 2 , where the support arm 7 in the former slightly shorter than the latter is. The horizontal axis 2 is with respect to the receiving part 1 placed off-center, wherein the lower portion of a lever arm for the weight forming lower portion of the receiving part 1 longer and thus heavier than the upper section of the receiver section 1 is. Thus, the return movement of the receiving part 1 - in 4 the pivoting movement counterclockwise - powered solely by gravity.

To enhance this effect, an additional mass can be attached to the lower lever arm 16 to be appropriate. Such an additional mass 16 can also in the embodiments of the 1 to 3 be provided.

LIST OF REFERENCE NUMBERS

1

receive part

2

Horizontal axis

3

drive unit

4

vertical axis

5

stand

6

Curve

6a

first cam

6b

second cam

7

Beam

8th

clamping lever

9

engine

10

arrow

11

first attachment point

12

second attachment point

13

first run

14

second run

15

capstan

16

additional mass

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202007006152 U1 [0003]

Claims (10)

A solar energy device comprising a tracking drive with two trays ( 13 . 14 ) and at least one curve ( 6 ) for length compensation between the dreams ( 13 . 14 ). Solar energy apparatus according to claim 1, wherein the curve ( 6 ) is a radial curve. Solar energy device according to claim ( 1 ) or ( 2 ), wherein the curve is a tension lever ( 8th ), which serves to tension one of the dreams. Solar energy apparatus according to claim 1 or 2, wherein the curve is an engine ( 9 ) that rotates the curve. Solar energy device according to claim 1 or 2, wherein the curve both dreams ( 13 . 14 ) in their alternation with each other and unwound. Solar energy apparatus according to claim 1, wherein the curve ( 6 ) is an axial curve. Solar energy device according to claim 1 or 6, wherein the curve ( 6 ) has two cone-shaped portions which taper in opposite directions. A solar energy device according to claim 1, wherein said solar energy device is a receiving part (10). 1 ) and the tracking gear has the receiving part ( 1 ) about a horizontal axis ( 2 ) pans. Solar energy apparatus according to claim 8, wherein the receiving part ( 1 ) is a reflector for a solar tower power plant. Solar energy apparatus according to claim 1 or 8, wherein the dreams ( 13 . 14 ) are formed by one or more cables, by one or more belts, by one or more belts or by one or more chains.

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