DE202016005734U1 - solar unit - Google Patents

Abstract

A device for generating electricity, comprising a) at least one curved solar module 2, whose bend extends around a column 5, preferably, the device comprising three curved solar modules, which are aligned to the cardinal directions east, west and south; b) at least one spacer 6, which allows ventilation of the at least one solar module 2; and at least one energy storage 3 for storing the energy generated by the solar module 2; wherein the device is used to retrofit existing electrical lighting systems and / or in the manufacture of new lighting systems.

Description

The present invention relates to a device for generating electricity, comprising at least one curved solar module whose bend extends around a column and at least one spacer allows ventilation.

Solar lamps are known from the prior art and consist of a solar module, a storage means for electrical energy (battery), which is electrically connected to the solar module and a luminous body. In most cases, the solar lamps also contain a light sensor, which emits the energy from the battery to the lamp depending on the brightness.

The solar module has a flat arrangement, as in the documents DE 29919948 U1 . DE8521579U1 or DE19615895C1 seen. Such plate-shaped solar modules are unfavorable for use in, for example, the street lighting in their attachment, as they would preferably be mounted over the lantern. Furthermore, the plate-shaped structure does not use solar energy from all directions. Flexible solar modules are known, but expensive and inadequately ventilated by attaching directly to objects, resulting in a significant reduction in performance and a reduced lifetime.

Another disadvantage of the previous flat solar modules is that they lose power due to soiling, such as dust, pollen or snow.

The object of the present invention is to provide a device which leads to a self-sufficient power supply of electrical objects by means of curved solar modules, solar energy is used from all directions in the sky.

The advantage of the device according to the invention is that solar energy from every angle of incidence of the sun is used for the production of energy, since domed solar modules are used, which preferably point in the cardinal directions south, east and west.

In addition, in regions with high solar radiation, this leads to a strong heating of the solar modules, which leads to overheating of the solar panels. This has an effect on the performance of the solar panels and is reflected in a reduced energy production and a shortened running time of the solar panels.

Another advantage of the device according to the invention is that the ventilation of the solar modules is granted by spacers and ensures that the solar modules do not overheat.

The present invention further leads to regions in which no power lines have been laid for, for example, street lights, can be supplied with lighting means. The costs for this are significantly lower than with a new laying of power lines underground and / or above ground. As a result, new, self-sufficient lanterns or traffic lights can be created in a simple and cost-effective manner. In addition, already existing bulbs, such as street lights, traffic lights, u. a. rebuild with the present invention and thus operate environmentally friendly. The retrofitted lamps, such as lamps and / or traffic lights can be completely self-sufficient after the conversion or work as a hybrid with an additional power supply.

An additional advantage is that dirt, such as dust or pollen, or snow not easily attached to the domed solar modules, whereby the performance of the solar modules is not reduced.

The invention is characterized by the claims and described in more detail by the description, the embodiments and the drawings.

Summary of the invention

• a) mindestens ein gewölbtes Solarmodul, dessen Biegung um eine Säule verläuft, vorzugsweise, wobei die Vorrichtung drei gewölbte Solarmodule umfasst, die zu den Himmelsrichtungen Ost, West und Süd ausgerichtet sind;
• b) mindestens einen Abstandshalter, der eine Belüftung des mindestens einen Solarmoduls ermöglicht; und
• c) mindestens einen Energiespeicher zur Speicherung der durch das Solarmodul erzeugten Energie; wobei die Vorrichtung zur Umrüstung bereits bestehender elektrischer Lichtanlagen und/oder bei der Herstellung neuer Lichtanlagen dient.

The invention relates to a device for generating electricity, comprising

• a) at least one curved solar module, the bend of which extends around a column, preferably, the device comprising three curved solar modules, which are aligned to the cardinal directions east, west and south;
• b) at least one spacer which allows ventilation of the at least one solar module; and
• c) at least one energy store for storing the energy generated by the solar module; wherein the device is used to retrofit existing electrical lighting systems and / or in the manufacture of new lighting systems.

• a) eine Leistung von 25 W bis 300 W, vorzugsweise 75 W bis 200 W, besonders bevorzugt von 90 W bis 120 W;
• b) eine IEC 60038 System Spannung von 250 V bis 2000 V, vorzugsweise von 500 V bis 1500 V, besonders bevorzugt von 900 V bis 1200 V; und
• c) eine Berührungsspannung (UL) von 100 V bis 1000 V, vorzugsweise von 300 V bis 800 V, besonders bevorzugt zwischen 500 V und 700 V auf.

The at least one curved solar module has

• a) a power of 25 W to 300 W, preferably 75 W to 200 W, particularly preferably from 90 W to 120 W;
• legs IEC 60038 System voltage from 250 V to 2000 V, preferably from 500 V to 1500 V, more preferably from 900 V to 1200 V; and
• c) a contact voltage (UL) of 100 V to 1000 V, preferably from 300 V to 800 V, more preferably between 500 V and 700 V on.

In one embodiment, the domed solar module consists of microcrystalline silicon cells and / or thin-film cells. The at least one solar module has an approximately elliptical to circular curvature, preferably wherein three curved solar modules approximately form an elliptical to circular curvature around the pillar of the lighting system.

The energy storage of the device has a capacity of 100 Ah to 1000 Ah, preferably from 200 Ah to 500 Ah, more preferably from 250 Ah to 300 Ah and is in a watertight container.

In one embodiment, the spacers hold the domed solar modules at a distance of 0.5 cm to 50 cm, preferably at a distance of 5 cm to 30 cm, more preferably at a distance of 10 cm to 25 cm to the column of a lighting system.

In a preferred embodiment, the device comprises sensors which, depending on the degree of brightness and / or darkness, releases or blocks the energy from the memory unit and actuates the lighting system.

• a) die Speichereinheit vor Überspannung und/oder Tiefenentladung schützt;
• b) einen Speicher für Betriebsdaten umfasst; und
• c) eine Regelung der Energie und/oder Lichtintensität der Lichtanlage ermöglicht.

In a further embodiment, the device comprises a controller which

• a) protects the memory unit from overvoltage and / or deep discharge;
• b) comprises a memory for operating data; and
• c) allows regulation of the energy and / or light intensity of the lighting system.

Brief description of the drawing

1 Schematic representation of the preferred embodiment side view

2 Schematic representation of the preferred embodiment with three solar modules detail view

3 Schematic representation of the preferred embodiment plan view

4 Schematic representation of a domed solar module with holder detail view

LIST OF REFERENCE NUMBERS

1

solar device

2

solar module

3

energy storage

4

Lamp

5

pillar

6

spacer

7

electric wire

Detailed Description of the Preferred Embodiment

The 1 - 4 FIG. 4 are schematic illustrations of the preferred embodiment of the solar power generation apparatus. FIG.

From the above figures, it is apparent that the device for generating electricity by means of solar energy 1 to a pillar 5 is appropriate. The pillar 5 may be a pillar of a street lamp as in the preferred embodiment. However, as the attachment articles, pillars, uprights or masts are considered to be possible, which provide electrical benefits, such as traffic lights, lamps or charging stations for electrically powered vehicles. However, the list is not limited to the options listed.

In the preferred embodiment, the device comprises the 1 - 4 it can be seen, three curved solar modules. These have in the preferred embodiment on a width of 400 mm a 75 ° curvature ( 4 ). However, the invention is not limited to such an embodiment.

In one embodiment, the device may consist of only one solar module lying in an approximately elliptical to circular shape around a pillar. Like that 2 and 3 As can be seen, the three curved solar modules are aligned so that they point in the cardinal directions east, west and south with the convex side. The outward curvature leads to an enlargement of the surface of the individual solar modules, whereby even in regions with a low number of sunny days, a maximum performance of the solar modules can be achieved.

In a preferred embodiment, the curvature is in the vertical direction. This contamination of the solar module by dust, pollen, dirt, snow u. a. reduced.

The mounting height of the solar modules is variable and depends on the size and height of the column to be used. In one embodiment, the at least one solar module may extend from the bottom of the column to the top of the column. In a preferred embodiment, the at least one solar module is located at a height of 2500 mm to 6000 mm from the ground. In a particularly preferred embodiment, it is at a height of 3500 mm to 4500 mm from the ground.

The size of the solar modules is also dependent on the column and can vary. The at least one solar module can occupy the entire height of the column. In one embodiment, the at least one solar module is 500 mm to 8000 mm long. In a preferred embodiment, the at least one solar module has a length of 1500 mm to 5000 mm. In a particularly preferred embodiment, the at least one solar module is between 2000 mm and 3500 mm long.

The width of the at least one solar module depends on the number of modules used on the column and the necessary distance to the column.

In the preferred embodiment with three solar modules, each of the modules is 100 mm to 800 mm wide. In a particularly preferred embodiment, each of the modules is 350 mm to 450 mm wide.

The at least one curved solar module in one embodiment has a power of 25 W to 300 W, preferably 75 W to 200 W, particularly preferably from 90 W to 120 W. Die IEC 60038 System voltage is in the range of 250V to 2000V, preferably 500V to 1500V, more preferably 900V to 1200V. In one embodiment, the solar modules further have a contact voltage (UL) of 100V to 1000V, preferably from 300V to 800V, more preferably between 500V and 700V.

In one embodiment, the domed solar module consists of microcrystalline silicon cells, monocrystalline cells and / or thin-film cells.

In order to allow adequate ventilation of the solar modules, which is necessary in particular in regions with higher solar radiation, the device has spacers 6 on which the at least one solar module 2 from the pillar 5 keep away. The number of spacers depends on the size of the solar modules. In one embodiment, 2 to 21 spacers are used. In a preferred embodiment, up to 12 spacers are used. In a particularly preferred Embodiment in which three domed solar modules are used, 3 to 6 spacers are used. These are preferably arranged so that in each case three spacers are arranged in the lower region and three spacers in the upper region of the solar modules. In one embodiment of the present invention, the spacers hold the domed solar modules at a distance of 0.5 cm to 50 cm, preferably at a distance of 5 cm to 30 cm, more preferably at a distance of 10 cm to 25 cm from the pillar of a lighting system ,

The energy generated by the solar modules is through cables 7 into an energy store 3 which may be a battery or a rechargeable battery. The cables 7 can be external to the column 5 run and / or integrated into this.

In one embodiment, the device comprises at least one solar module 2 , Spacers 6 , a column 5 , an energy storage 3 and a light source 4 , as in 1 and 2 shown.

Alternatively, the device may be the at least one solar module 2 , the corresponding spacers 6 and an energy store 3 include. In this form, the device can serve for retrofitting or retrofitting of existing systems.

The energy storage unit 3 the device 1 In one embodiment, it has a capacity of 100 Ah to 1000 Ah, preferably 200 Ah to 500 Ah, more preferably 250 Ah to 300 Ah. The storage unit 3 is in a preferred embodiment in a waterproof container to protect them, among other things, from the weather.

In one embodiment, the device comprises 1 Sensors which, depending on the degree of brightness and / or darkness, releases or blocks the energy from the storage unit and actuates the light source. In a further or additional embodiment, the sensors can also measure the temperature, power, operating data and further parameters for the operating performance and the external conditions of the at least one solar module. The measured operating parameters as well as external parameters can be processed and / or stored by a controller. A memory unit and control unit interacting with the controller regulates the energy and / or light intensity of the lighting system as a function of the data transmitted by the sensors 4 , In one embodiment, the regulation is done by manual adjustment.

The memory, which is connected to the controller and the sensors, stores the operating data and thus enables a subsequent evaluation of the data.

• 1. Leuchtmittel: 12 V DC 24 Watt Power Hochleistung-LED: > 3000 Lumen, IP67 Lebensdauer 54.000 Stunden, Lichtfarbe Neutralweiß 4000 K. Max. Beleuchtungsstärke bei 8 m Montagehöhe: 11–15 Lux max./8 Lux im Durchschnitt.
• 2. gewölbte Solarmodule (mit Klammern und Abstandshaltern zur Montage an der Säule) 3x 100 W Jeweils 36 hochleistungsfähige monokristalline Siliziumzellen. Die Module bieten keine Fläche für Schneeanhaftung oder Staub. Empfohlene Säulenlänge 6–10 Meter, optional auch kürze oder länger mit Anpassung der Größe und Leistung der Solarmodule.
• 3. Akku Hochleistung Blei Gel Solar-Akku 12 V; Wartungsfrei.
• 4. Kontroller Solar-Eingangsregelung für optimierte Akku-Ladung und Akkuschonung; Überspannungs- und Tiefentladeschutz für Akkus; Programmierbar für Ein- und Abschaltungen und Dämmung je nach Dämmerung oder Zeitsteuerung; Automatische Nachtabsenkung auf halbe Leistung; Ereignisspeicher zum Auslesen des Leuchten- und Akku-Zustandes.
• 5. Wasserdichter Bodeneinbaukasten: IP66, zur Unterbringung der Akkus. Autarke Betriebsdauer: > 96 Stunden; Wartungsfrei.
• 6. Befestigung und Statik: Edelstahl Träger mit einer Traglast bis 60 kg.

Technische Daten der Einheiten: Leistung pro Modul: 100 W Strom bei maximaler Leistung, LMP: 5,40 Spannung bei maximaler Leistung, Vmp: 18,5 Kurzschlussstrom, isc: 5,60 Max. System Spannung: 1000 V (IEC). 600 V (UL) Anzahl der PV Zellen 36 Hochleistung Monokristallines Silizium Zellen pro Modul Gewicht: 5 Kg Masse: 1600 mm × 400 mm × 8 mm Leistung Toleranz: +/3 wp Sicherung: 11 A CE-Zertifikat + Technische Daten der Leuchte: Leistungsfaktor > 0.95 Temperatur. Range/Luftfeuchtigkeit –30C–+50C/20%–90% Schutzklasse: IP67 L70: > 54,000 Stunden* LED Leistung: 24 bis 96 W Anschlussleistung: 28 bis 108 W Farbtemperatur: 4100 k Gesamt Fluss: > 3000 bis < 12000 Lumen Farbwiedergabeindex: Ra > 80 Masse: L370 × W260 × H70 mm Gewicht: 4.6 bis 5.2 Kg CE-Zertifikat Niederspannungsrichtlinie 2006/95/EC An example of the device 1 is a street lighting with the following characteristics:

• 1. Lamps: 12 V DC 24 Watt Power High-performance LED:> 3000 lumens, IP67 life 54,000 hours, neutral white light 4000 K. Max. Illuminance at 8 m mounting height: 11-15 lux max./8 lux on average.
• 2. arched solar modules (with brackets and spacers for mounting on the column) 3x 100 W Each 36 high-performance monocrystalline silicon cells. The modules do not provide surface for snow adhesion or dust. Recommended column length 6-10 meters, optionally shorter or longer with adjustment of the size and power of the solar modules.
• 3. Battery high performance lead gel solar battery 12v; Maintenance free.
• 4. controller solar input control for optimized battery charging and battery charging; Overvoltage and deep discharge protection for batteries; Programmable for on and off and insulation depending on twilight or time control; Automatic night reduction to half power; Event memory for reading the luminaire and battery status.
• 5. Waterproof floor box: IP66, to accommodate the batteries. Autonomous operating time:> 96 hours; Maintenance free.
• 6. Fixing and statics: Stainless steel carrier with a load capacity up to 60 kg.

Technical data of the units: Power per module: 100W Power at maximum power, LMP: 5.40 Voltage at maximum power, Vmp: 18.5 Short-circuit current, isc: 5.60 Max. System voltage: 1000V (IEC). 600V (UL) Number of PV cells 36 High Performance Monocrystalline Silicon Cells per module Weight: 5 kg Dimensions: 1600 mm × 400 mm × 8 mm Performance tolerance: + / 3 wp backup: 11 A CE certificate + Technical data of the luminaire: power factor > 0.95 Temperature. Range / Humidity -30C- + 50C / 20% -90% Protection class: IP67 L70: > 54,000 hours * LED power: 24 to 96 W Power consumption: 28 to 108 W Color temperature: 4100 k Total river: > 3000 to <12000 lumens Color rendering index: Ra> 80 Dimensions: L370 × W260 × H70 mm Weight: 4.6 to 5.2 kg CE certificate Low Voltage Directive 2006/95 / EC

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 29919948 U1 [0003]
• DE 8521579 U1 [0003]
• DE 19615895 C1 [0003]

Cited non-patent literature

• IEC 60038 [0013]
• IEC 60038 [0032]

Claims (8)

Apparatus for generating electricity comprising a) at least one domed solar module 2 whose bend is around a pillar 5 runs, preferably, wherein the device comprises three curved solar modules, which are aligned to the cardinal directions east, west and south; b) at least one spacer 6 , which provides ventilation of the at least one solar module 2 permits; and at least one energy storage 3 for storage by the solar module 2 generated energy; wherein the device is used to retrofit existing electrical lighting systems and / or in the manufacture of new lighting systems. The device of claim 1, wherein the at least one domed solar module 2 a) has a power of 25 W to 300 W, preferably 75 W to 200 W, particularly preferably from 90 W to 120 W; b) has an IEC 60038 system voltage of 250 V to 2000 V, preferably from 500 V to 1500 V, more preferably from 900 V to 1200 V; and c) has a contact voltage (UL) of 100 V to 1000 V, preferably of 300 V to 800 V, more preferably between 500 V and 700 V. Apparatus according to claim 1 or 2, wherein the domed solar module 2 consists of microcrystalline silicon cells, monocrystalline cells and / or thin-film cells. Device according to one of claims 1 to 3, wherein the energy storage unit 3 a) has a capacity of 100 Ah to 1000 Ah, preferably from 200 Ah to 500 Ah, more preferably from 250 Ah to 300 Ah; and a) is housed in a watertight container. Device according to one of claims 1 to 4, wherein the spacers 6 the arched solar modules 2 at a distance of 0.5 cm to 50 cm, preferably at a distance of 5 cm to 30 cm, more preferably in a tenacity of 10 cm to 25 cm to the column 5 a lighting system 4 hold. Device according to one of claims 1 to 5, wherein the device comprises sensors which, depending on the degree of brightness and / or darkness, the energy from the storage unit 3 unlocks or locks and the lighting system 4 actuated. Device according to one of claims 1 to 6, wherein the device comprises a controller, the a) protects the memory unit from overvoltage and / or deep discharge; b) comprises a memory for operating data; and c) allows regulation of the energy and / or light intensity of the lighting system. Device according to one of claims 1 to 7, wherein the at least one solar module 2 having an approximately elliptical to circular curvature, preferably wherein the three domed solar modules 2 approximately elliptical to circular curvature around the column 1 the lighting system 4 form.

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