DE102007059202A1 - Solar array drive assembly for solar module, has humidification device e.g. sprinkler, provided above module carrier for comprehensive cooling, where assembly is operated depending on relative stand of celestial body using drive system - Google Patents

Abstract

The assembly has a humidification device e.g. sprinkler (30) and spray nozzle, is provided above a module carrier for comprehensive cooling. The assembly is rotatably operated depending on a relative stand of the celestial body using a drive system. A round plate is controlled on rollers with a pivotable module carrier by a cable pulling system. A water drum is arranged on the round plate. A connection to a pressure hose is provided between the sprinkler and the water drum.

Description

The The invention relates to a tracking system for on heavenly body aligned installations, in particular solar modules.

Generic racks are used for storage of modules, with the solar modules the energy radiated by sunlight onto the earth's surface is captured becomes. The solar modules may preferably be photovoltaic modules act to generate electrical energy. The tracking of the Module surfaces in dependence from the relative position of the sun in the course of a day allows one significantly higher power output compared to rigidly oriented carrier systems, since the solar modules through the tracking aligned at an optimal angle to the direction of irradiation become.

Around the trackability to realize the solar modules are in generic racks an upper part and a lower part provided, wherein the lower part bottom-solid anchored in the ground and the upper part rotatable on the lower part is stored.

On this way, the upper part with the attached solar modules around its own vertical axis of rotation (azimuth axis) in dependence be rotated by the relative position of the sun. To drive the upper part a drive device is provided relative to the lower part, with which the upper part is rotationally driven.

Known Racks are common as a stand model executed which are relatively small and therefore they offer little Usable area for Installation of solar modules, because of their construction not for the big one acreages occurring high wind loads are suitable.

outgoing It is the object of the present invention to a tracking system simplest design to design a Rondellsystem and thereby an increase in efficiency to reach the module utilization.

The The object is achieved in that a tracking system for solar modules is realized according to claim 1 and its dependent claims.

• – dass ein vollautomatisches Rondell auf Rollen mit einem schwenkbaren Modulträger über ein Seilzugsystem angesteuert ist und eine Befeuchtungseinrichtung oberhalb eines Modulträgers vorhanden ist und somit eine flächendeckende Kühlung ausführt,
• – dass die Befeuchtungseinrichtungen Sprinkler, Berieselungsdüsen und/oder andere an sich bekannte Wasser verbreitende Baueinrichtungen sein können, wobei diese oberhalb des gesamten Modulträgers des Nachführungssystems angeordnet sind,
• – dass am schrägen Abgang des Modulträgers eine Regenrinne für Regen- und Berieselungswasser überhängend ausgeführt ist,
• – dass auf dem inneren Rondell ein Wasserfass angeordnet ist, wobei in dem Wasserfass ein Trockenlaufschutz vorhanden ist,
• – dass zwischen dem Sprinkler und dem Wasserfass eine Verbindung über einen Druckschlauch gegeben ist und die Regenrinne mit einem Fallrohrfilter in Verbindung mit dem Wasserfass steht,
• – dass ein oder mehrere Nachführungssysteme hintereinander mit einem Stahlseil rotatorisch angetrieben werden und dabei das Stahlseil an einer Seilbefestigung eines Profilkreuzes, welches über Bockrollen auf einem Ringfundament drehbar lagert, angeordnet ist,
• – dass das Stahlseil zwischen den Nachführungssystemen durch eine auf einem Rollenfundament angeordnete Doppelumlenkrolle arretiert ist,
• – dass das Stahlseil durch einen zentralen Elektromotor mit einem entsprechenden Steuersystem bewegt wird und dabei eine Rollenkette mit dem Stahlseil verbunden ist und die Rollenkette über den Elektromotor als Signalgeber für die Bewegungsrichtung vorhanden ist,
• – dass das Profilkreuz am Ende eine jeweilige Bockrolle aufweist,
• – dass auf dem Profilkreuz ein Aufbau für entsprechende Module befestigt ist,
• – dass das Profilkreuz vorzugsweise einen Doppel-T-Träger darstellt.

In this case, a tracking system for solar modules is developed with a Rondellsystem so

• - That a fully automatic Rondell is controlled on rollers with a pivotable module carrier via a cable system and a humidifier above a module carrier is present and thus performs a comprehensive cooling,
• That the moistening devices can be sprinklers, sprinkler nozzles and / or other water-propagating construction devices, wherein these are arranged above the entire module carrier of the tracking system,
• - That at the oblique departure of the module carrier a gutter for rainwater and irrigation overhanging executed,
• - That on the inner rondel a water barrel is arranged, wherein in the water barrel a dry run protection is present,
• - There is a connection between the sprinkler and the water barrel via a pressure hose and the gutter with a downpipe filter is in communication with the water barrel,
• - That one or more tracking systems are driven in rotation with a steel cable in a row and while the steel cable to a cable attachment of a profile cross, which rotatably supports on castors on a ring foundation, is arranged,
• That the steel cable between the tracking systems is locked by a double deflection roller arranged on a roller foundation,
• - That the steel cable is moved by a central electric motor with a corresponding control system and a roller chain is connected to the steel cable and the roller chain is present via the electric motor as a signal generator for the direction of movement,
• That the profile cross at the end has a respective caster,
• - That on the profile cross a structure for corresponding modules is attached,
• - That the profile cross is preferably a double-T-carrier.

The inventive tracking system can be used for installations in all areas which require a certain continuous and gradual orientation with respect to the direction of the compass over the day. The system is primarily designed for celestial body-dependent energy production plants. Thus, it is possible to follow the course of the sun during the day and the course of the moon at night. The system is designed for installations of smaller and / or medium-sized sizes and designed for a usable area of 20 to 40 m ² . The superstructure consists of a simple steel framework in the form of a profile cross, which rotates on castors on a foundation or a Botonfläche. By the center block the rondel is held in its path and protected by the Aushebesicherungsplatte against tipping.

On the profile cross is a steel structure for receiving actual support systems for the solar modules. Rotation of the Rondelle and tilting module carrier are via cables with motor and gear ensured. A control unit is used to control and regulate the tracking systems. In the control unit a programmable logic controller is integrated.

The inventive tracking system is especially designed that it over a center block on each static permissible concrete surface erectable is. Theoretically concludes that too buildings.

Thus, the profile cross with the centrally located carrier cross and the center block, which is provided with a corresponding ball bearing, are moved to any radial position. The profile cross is preferably made of a T-profile. On the profile cross a steel structure, for the use area of approx. 20 m ² -40 m ² with an adjustable inclination of 15 to 90 ° is arranged. The inclined usable area can vary from 3 × 7 to 4 × 8 m.

At the profile cross is a rope attachment in the form of pipe feedthrough with Adjusting screw for a steel cable provided. The central block, which in the middle with connected to the core foundation and the carrier cross is at the lower part in the area of the core foundation with additional Reinforcements, like Iron parts, designed for better grip.

The tracking system will over a steel cable made rotatable. Here is a steel cable with drive chain, reel wheel, worm gear and Engine provided. The electric motor with its corresponding gear will over a roller chain connected to the steel cable the corresponding rotational movements over a run programmable control unit.

Essential is going to be a big one Number of tracking systems arranged arbitrarily arranged one behind the other, which immediately above the steel cable and the electric motor in the same plane with a rotational movement operate. Here are between the individual tracking systems

It is thus possible which represents a significant advantage of the invention, a high number of tracking systems with a drive system.

Of Another is in the tracking system described on this page an innovative solution possible, which a cooling system for the corresponding Executes modules on a construction.

Basically it works assume that with appropriate solar modules, which on a structure of the tracking system are given by the cooling a ten percent increase in performance with warm temperatures can be achieved. Concluding from it are in the middle or also in various other places, for a best cooling possibility Achieving sprinklers arranged over a piping system connected to a water tank. About these sprinklers will either Rainwater or external supplied Water sprayed. It must be achieved that the entire module surface with the sprinkler arrangement depending on the size of the structure for the modules is sprinkled. At the sloping sides of the construction is below arranged a water collecting channel. This water catcher catches the Rain on and directs them into water tanks with pump, dry run protection and filter device.

essential to the invention is doing that by sprinkling over the sprinklers above the modules a cooling the solar modules takes place and thus given an increase in efficiency is. An appropriate control unit controls, regulates and automates the removal of the given rainwater or externally supplied water inside the water tank with pump, dry run protection and filter device or feeding system to the sprinklers above the modules.

Within the edition for The modules continue to be a water collecting plate towards the water catchment channel given the seepage water through the modules or the structure of the tracking system fields and in the water tanks with pump, dry run protection and filter device passes.

• – Hinterlegung des Sonnenverlaufs und Mondverlaufs
• – durch Luxmessung kann die Sinnfälligkeit der Nachführung bei Mondschein bestimmter Modultypen ausgewertet werden
• – Auswertung der Effektivität durch Aufzeichnung folgender physikalischer Momentgrößen, wie Außentemperatur, Modultemperatur, Windstärke, Windrichtung, Helligkeit, Strahlungsintensität, alle Energiewerte nach Wechselrichter, Kühlwassermenge
• – Ganglinienauswertung und Protokollierung
• – Prozessanalyse
• – Prozessvisualisierung über Web-Client und Prozessleitsystem vor Ort
• – alle Funktionen herkömmlicher Systeme integriert wie Wind, Diebstahl, Nachführung etc.

Furthermore, a controller is equipped with state-of-the-art automation and process control technology, which implements the following contents:

• - Deposit of the course of the sun and the course of the moon
• - By measuring the likelihood of tracking in the moonlight of certain module types can be evaluated
• - Evaluation of the effectiveness by recording the following physical moment variables, such as outside temperature, module temperature, wind strength, wind direction, brightness, radiation intensity, all energy values after inverter, amount of cooling water
• - hydrograph analysis and logging
• - Process analysis
• - Process visualization via web client and local process control system
• - all functions of conventional systems integrated such as wind, theft, tracking etc.

The advantages of the tracking system according to the invention are in the robust substructure of the Rondellsystems, maintenance-free, free variab Possible structure, rondelles without symmetry, synchronous control of all rondel systems, solar accurate alignment, wind protection functions, alarm in the event of failure of individual modules, anti-theft device with resistance monitoring, night / residual radiation utilization, low Flächenverieglung, integrated cooling function, low own energy consumption and cost-effective production.

following becomes a special tracking system to three embodiments represented, which are reflected in the following drawings:

1 Rear view tracking system

2 Side view tracking system

3 ring foundation

4 profile cross

5 soil column

6 Control tracking systems

7 sideview
Tracking system with sprinkler

8th rear view
Tracking system with sprinkler

10 undercarriage 10a Side view underframe

11 midblock

12 foundation

13 raised module carrier

14 module carrier

14a Module carrier side view

15 Control Rondelle

16 Side view module carrier

17 Cooling modules

18 Rope guide

All Constructions and required parts become by means of solid solvable Connections performed. The corresponding steel structures are made of rust-resistant material available.

In the embodiment 1 show the 1 and the 2 a tracking system 1 with a rear view and top view as an overall system. Building on a concrete strip ring foundation 5 with reinforcing steel inside is at ground level 4 a clinker roll layer 3 applied. On this clinker roll layer 3 is rotatable the profile cross 7 with the external castors 6 executed. On this profile cross 7 is a construction 2 made in the form of a wooden structure with an inclined usable area of about 7 × 3 m and an inclination of 30 to 60 ° manually adjustable. The structure 2 can consist of a wooden structure or of a steel construction. On this construction 2 become the corresponding modules of the tracking system 1 Installed. Center in the construction is over a core foundation 9 a soil column 16 with the core piece 14 given. Thus, a medium static support for the ring cross is given with a corresponding structure, which allows to this effect a high load capacity against external forces. The ring foundation 5 is arranged at a depth of about 400 mm. The clinker roll layer 3 is given with 100 mm. The profile cross 7 with the appropriate castors 6 has a size of RR 120 × 4.

The 3 . 4 and 5 show the embodiments of the ring foundation 5 with resting profile cross 7 , It is in the ring foundation 5 centrally in the center a core foundation 9 given, wherein a soil column 16 in the middle of the core foundation 9 is admitted. Here is the ring foundation 5 in its outer diameter about 5000 mm in size. The core foundation 9 has a square shape with a side length of 1000 mm. The core foundation 9 is used to increase the contribution of the soil column 16 about the centerpiece 14 at a depth of 1000 mm flush with the surface.

As can be seen from the figure, the profile cross 7 outside with the corresponding castors 6 on the ring foundation 5 stored. At the outer edge of the profile cross 7 are rope fastenings 10 for a steel cable 19 available. In the middle on the core foundation 9 is the bottom pillar 16 with the core piece 14 given. This is the core 14 firmly releasable with the profile cross 7 executed. Preferably, this is given a screw. In the centerpiece 14 is a grease nipple 12 present so as to ensure that upon rotation a necessary lubrication can be performed. It is important to recognize that this is the core 14 around the bottom pillar 16 rotates. Above is the corresponding bottom pillar 16 provided with a head piece as a guide pin with locking screws. The soil column 16 with the core piece 14 is hot-dip galvanized throughout the embodiment.

The profile cross 7 is preferably from egg given a double T-beam cross 5000 × 5000 mm and a RR 120 × 4. The four castors 6 are designed with a load capacity of 600 kp each.

In the 6 is given an arrangement of several tracking systems. There are three or more tracking systems 1 in a row with a steel cable 19 driven. Between the individual tracking systems 1 are roll foundations 20 with double deflection rollers lying on top 21 for tightening the steel rope 19 available. About the rope attachment 10 of the profile cross 7 is the steel cable 19 at the profile cross 7 attached. Through a connection of the steel cable 19 with a roller chain 18 is via a gear unit of an electric motor 17 the control of the tracking system 1 carried out. The electric motor 17 learns a precise control via a system control, which corresponds to the given state of the art.

It is thus possible to have a large number of tracking systems 1 with a control system to perform in a rotational movement, which is also based on a significant inventive advantage.

In a second embodiment, a tracking system shown in the first embodiment according to the 1 to 6 extended to the effect that the 7 and 8th a sprinkler system according to the invention for corresponding modules via a sprinkler 30 represents above the modules. Here, according to the 7 and 8th the embodiment described as follows.

Equal status as the 1 to 6 now close the 7 and 8th on, with the 7 a side view represents tracking system with a sprinkler system. Therefore, as stated in the foregoing description, additional modules are on a structure 2 centrally in a respective module area of a sprinkler 30 arranged to cool the modules by means of rain or inlet water.

Like from the 8th can be seen, depending on the size of the module structure on the structure 2 an arrangement of the sprinkler 30 given in different numbers. The sprinkler 30 is preferably fed with water from rainwater or feed water via a separate supply of water. At the sloping edge of the construction 2 is below a water catchment 31 arranged, which collects the cooling or rainwater and then into a corresponding water tank 32 with a pump, dry run protection and filter device conducts. The water tank 32 with pump, dry run protection and filter device is below the profile cross 7 in a space between profile cross 7 and clinker roll layer 3 of the ring foundation 5 assembled. It will be the entire area for the given cavities for the water tank 32 used with pump, dry running protection and filter device. The water catchment 31 is each about the structure 2 at the sloping end of the construction 2 given overlapping laterally. Inside the construction 2 is also a water collector 33 given for the cooling water. This water collector 33 which is within the construction 2 is arranged, directs the continuous water over the modules and the structure 2 towards the water tank 32 with pump, dry run protection and filter device.

Like from the 8th Obviously, the sprinklers 30 arranged so that when modules are applied to the structure 2 the entire surface is covered by the sprinkling with cooling water. Between the sprinkler 30 and the water tank 32 with pump, dry run protection and filter device is given a connection, thus the cooling water from rain or from supplied water through the sprinklers 30 to feed on the modules.

A corresponding control unit for additional supply of cooling water in the water tanks 32 with pump depends on the regulation of the tracking system 1 coupled with a control unit.

The advantages of the invention, in particular the embodiment 2, shown in the 1 to 8th are due to the fact that a cooling function of the solar modules is novel. Due to the illustrated Rondellkonstruktion this Rondellkonstruktion is a prerequisite for a corresponding module cooling of the tracking system.

The inventive, essential novelty is given in that these integrated cooling function one Increase the power output of about 10 percent at very high Temperatures causes. Dependent on The type of module is the power reduction at high temperatures very different. Thus, for each module type, the sprinkling type, Cooling time, Temperature and efficiency are customized, what about the Control system takes place. The cooling is based on the described Oberflächenbesprenklung by means of collected rainwater or appropriately supplied connection water.

A further embodiment is in the embodiment 3 with the 10 to 18 shown.

The 10 shows a base, which consists of four double-T-straps 200. consists. All four dop pel-T carrier 200. are at a turnstile center construction 110 attached. At the bottom and at the end of each double T-beam 200. is a castor 120 assembled. Furthermore, seen in the direction of each before and behind the castor 120 a snow and scree sliding plate 210 on the four double-T straps 200. assembled. The arrangement of the snow and rubble slide sheet 210 is in the 10a shown. All four double-T beams 200. are over four cross and stabilization struts 130 connected. In the middle of the turnstile center construction 110 is a ball bearing for receiving the radial forces 140 integrated. The gravity of the entire system is exclusively on the fixed castors 120 on the ring foundation 180 which is in the 12 is shown distributed. Occurring radial forces are exclusively on the center block 150 which is in the 11 is shown, as well as the ball bearing 140 from the turnstile center construction 110 transfer. The centerbuck 150 consists of the mounting plate with four holes for fixation. A box section with a sufficiently sized round bar is above the turnstile center construction 110 with a safeguard against lifting of the rondel 100 in the form of a backup plate 160 and two locknuts 170 or a split pin mounted.

In the 12 there is a possibility that on uneven surfaces, such as fields and lawns, a ring foundation 180 with a clinker roll layer 600 and a middle foundation 190 be executed. It is specified that the foundations must lie horizontally on the same level.

In the 13 is an upright module carrier 222 executed. Here are on the cross and stabilization struts 130 two frames 220 attached, which at the upper end of a bushing or a ball bearing 230 for receiving and fastening a module carrier 222 mounting. The module carrier 222 consists of a slightly kinked surface. Furthermore, it is given that the module carrier elements 222 have at least every 5 cm long holes, which is an attachment of the manufacturer-specific support systems for solar modules 500 enable. It is the 14 as a module carrier 222 executed. The module carrier 222 has at its pushes 250 no overlapping steel elements executed, here the metal parts are mounted flush upwards.

The center of rotation of the module carrier 222 is a bit out of the center of gravity 260 (please refer 14a ), so that a gravity-based one-sided moment, the independent lowering of a module half of the module carrier 222 allows. Furthermore, the module carrier 222 for the reason of rain catching slightly bent (see section 270 according to 14a ).

The dimension of the rondel 100 is variable according to need and size between 4 and 6 m. The module carrier 222 may vary depending on the design of the roundel 100 have a size between 2.5 × 6 or 4 × 8 m. The horizontal control of one or more adjacent rondels 100 (please refer 15 ) comes with a motor and a worm gear 280 implemented in the form of a right-left run. On the shaft of the worm gear mounted on both sides 280 rotates a reel wheel, which is a chain with the length of the circumference of a rondel 100 transported. By the translation of the gearbox 280 is a power transmission for the tensile force in the ton range realizable and given a centimeter accurate positioning. Due to the self-locking gear 280 caster or extraneous forces, such as wind, are excluded.

The actual position of the rondel 100 is by a Wegeseilzugsmessung 370 determines which one at a roundel 100 is attached and for all rondelles 100 as a reference variable. This is the chain hoist 290 which is inside a motor and gear unit 280 is carried over into a cable system 310 , It may vary depending on the engine and transmission design 280 several roundels 100 be operated in any arrangement.

The steel cable system 310 5-8 mm in diameter is passed once around each roundel and is in a south-facing circular position on the opposite side of the ingoing and outgoing ropes on each roundel 100 fixed 320 , Thus, the rotation of the rondel is 100 of at least 360 ° possible. At the ends of the double T-beam 200. is a pipe feedthrough with locking screw 330 attached to the rope fixing. On the double-T straps 200. of the roundel 100 is realized a conical cable guide, which is the upcoming rope during rotation of the rondel 100 fields and leads into the center of the vehicle.

Another control is given by (see 16 ) that on the rondel 100 a winch motor 340 is mounted with right-left running, which via a cable 350 allows the module area 222 in a horizontal position (see 16 ). At estate of the rope 350 becomes the module area 222 by its own gravity, due to the fulcrum fulcrum 260 , placed in a vertical position. At the opposite module carrier end 222 is a safety rope 360 fixed, which in the horizontal orientation of the module carrier 222 a lashing of the carrier causes, so in the storm program all module carriers 222 can not flutter or flip. The actual position of the module carrier 222 is by a Wegeseilzugsmessung 370 at the roundabout 100 certainly. This way cable measurement 370 is on a normalized rim 450 appropriate to optimize the Wegeseilmessung in their rope length. The control of the rondel 100 and the module carrier thereon 222 is carried out centrally, wherein a programmable logic controller takes place.

By inputting the geographical location using latitude and longitude coordinates on the control panel, the controller and the central European time are activated two astronomical, stored formulas, which provide an exact horizontal and vertical orientation of the Rondelle 100 and the module carrier 222 the sun during the day and the moon at night during the moon phases 3 . 4 and 5 enable. Superimposed on the positioning functions, frost, snow removal, rain and wind programs are specified by the controller.

Appropriate Special control functions are module-dependent executable, the module type on the Control panel is to be specified.

It is feasible that all available meteorological, electrical and other physical quantities over a Web clients and about that See Internet as instantaneous values and as archived record values be retrieved. All process visualization and process operation before Place are over a control panel or a control and Observation system executable, and this feature can also be over Web client and Internet performed become.

Of Furthermore, a control function of a water cooling according to the invention is stored. These Water cooling function will over the operating panel is adjusted to the respective module type by means of parameters.

On the rondel 100 (please refer 17 ) is a water barrel 380 with drain cock on half of the winch motor 340 attached to store the rainwater or a supply of water via a water external connection 410 to enable. In the water barrel 380 is a submersible pump with integrated dry run protection 390 posed to the sprinklers 400 over pressure hoses 240 to supply with cooling water. The cooling is carried out nationwide. The water barrel 380 is UV-resistant and has a light protection against algae formation from the inside. The humidifiers can be sprinklers 400 , Sprinkler nozzles and / or other known per se water-diffusing building devices, which are above the entire module surface 222 are arranged. Between the module racks 222 is central and hanging a gutter 420 attached over the entire module carrier length. The rainwater is passed through a downpipe filter 440 the water barrel 380 fed.

For the cooling control of the programmable logic controller is representative at the roundel 100 a surface temperature measurement 430 carried out. The control of the cooling pump is realized depending on the surface temperature and the module type. For the purpose of rainfall, the module carrier 222 moved to a horizontal position. The structural design of the cooling is in the 17 shown.

1

tracking system

2

construction

2

Rear wall construction

3

Roll clinker layer

4

ground surface

5

ring foundation

6

fixed castors

7

profile cross

9

core foundation

10

cable attachment

12

carrier spider grease nipple

13

firm releasable connection

14

core

16

soil column

17

electric motor

18

roller chain

19

steel cable

20

role foundation

21

Doppelumlenkrolle

22

Rondelle

30

sprinkler

31

Water collecting gutter

32

water tank

33

Water collecting plate

100

Rondell

110

Turnstile Equipment Design

120

Bockrolle

130

cross and stabilization bracing

140

ball-bearing

150

Center support

160

locking plate

170

locknut

180

ring foundation

190

means foundation

200

Double-T-carrier

210

Snow- and screech slide

220

high frame

222

module carrier

230

Bushing / ball bearings

240

pressure hose

250

shock

260

Focus center

270

neckline

280

Engine- and gear unit

290

chain

300

axis of rotation module carrier

310

cable system

320

Steel cable fixing

330

locking screw

340

Windmotor

350

cable

360

safety rope

370

Way cable measurement

380

Wasserfass

390

Dry run protection

400

sprinkler

410

Water foreign port

420

downspout

430

Surface temperature measurement

440

Downpipe filters

450

rim

500

solar module

510

Guide for rope run

600

Roll clinker layer

Claims (9)

Tracking system for solar modules, built on a foundation and a rotatably mounted structure which is rotationally operable in dependence on the relative state of the celestial body by means of a drive system, characterized in that a fully automatic Rondell ( 100 ) on rolls ( 120 ) with a pivotable module carrier ( 222 ) via a cable system ( 310 ) and a humidifying device above a module carrier ( 222 ) is present and thus performs a comprehensive cooling. Tracking system according to claim 1, characterized in that the moistening devices can be sprinklers, sprinkler nozzles and / or other known per se water-dissipating construction devices, wherein these above the entire module carrier ( 222 ) of the tracking system ( 1 ) are arranged. Tracking system according to claim 1, characterized in that the oblique outlet of the module carrier ( 222 ) a gutter ( 420 ) is executed for rain and irrigation overhanging. Tracking system according to claim 1, characterized in that on the inner rondel ( 100 ) a water barrel ( 380 ), wherein in the water barrel ( 380 ) a dry run protection ( 390 ) is available. Tracking system according to claim 1, characterized in that between the sprinkler ( 400 ) and the water barrel ( 380 ) a connection via a pressure hose ( 240 ) and the gutter ( 420 ) with a downpipe filter ( 440 ) in connection with the water barrel ( 380 ) stands. Tracking system according to claim 1, characterized in that one or more tracking systems ( 1 ) in a row with a steel cable ( 19 . 310 ) are rotationally driven while the steel cable ( 19 . 310 ) on a cable attachment ( 10 ) of a profile cross ( 7 . 100 ), which via castors ( 6 . 120 ) on a ring foundation ( 5 . 180 ) rotatably supports, is arranged. Tracking system according to claim 6, characterized in that the steel cable ( 19 ) by a central electric motor ( 17 ) is moved with a corresponding control system and thereby a roller chain ( 18 ) with the steel cable ( 19 ) and the roller chain ( 18 ) via the electric motor ( 17 ) is present as a signal generator for the direction of movement. Tracking system according to claim 6, characterized in that the profile cross ( 7 . 100 ) at the end of a respective castor ( 6 . 120 ) having. Tracking system according to claim 6, characterized in that the profile cross ( 7 . 100 ) preferably a double T-carrier ( 200. ).