DE202017002086U1 - Foldable textile with attached solar cell circuits for self-sufficient power generation - Google Patents

Abstract

The foldable textile with incorporated solar cells for self-sufficient power generation (solar textile), characterized in that parallelogram-shaped monocrystalline solar cells (2) are arranged in a folded structure on the top and interconnected.

Description

The protection specified in claim 1 invention is based on the problem that conventional foldable solar panel chargers in their application folds, based on simple folding techniques, use and these folding techniques are used exclusively for compression of the textile, whereby no optimal power generation is achieved.

This problem is solved with the features listed in the claims 1-9. On the top ( 1 ) of the foldable textile with attached solar cell circuits for self-sufficient power generation, there are nine parallelogram-shaped solar cells ( 2 ), which are connected in three circuits, and which are arranged so that in each case opposite reflectors ( 3 ) of the same shape.

A special angle folding of the foldable textile with attached solar cell circuits for self-sufficient power generation, enabled only by the innovative parallelogram shape of attached solar cells, makes use of the practical properties of origami structures, not only for easier transportation, but also for the optimum Angle alignment of the solar cells to the sun, depending on the geographic location of the user. With the invention, the optimization of the incident solar radiation using interposed reflectors ( 3 ), which increase the radiation effect and intensity of the existing solar radiation, and adjustable angles, which are based on a complex folding structure, achieved.

These angles can be achieved by attaching an angle-locking device with a cord ( 8th ) guided by the angle-locking device of several cord stoppers ( 9 ), individually locked on the underside of the solar fabric and determined. At this device, the solar fabric can also be fixed to its substrate or objects. The use of the solar textile can be used in horizontal or vertical orientation, the angle of the fold remains the same at a 90 degree rotation.

The given scalability makes it possible to cover different surface sizes and substrates with the product and to load external accumulators individually quickly or to operate devices directly.

An advantageous embodiment of the invention is shown in the protection claim 1-9.

An embodiment of the invention will be described with reference to 1 and 2 explained.

Show it:

1 the top of the foldable textile with attached solar cell circuits for self-sufficient power generation in open use state, and

2 The foldable textile with attached solar cell circuits for self-sufficient power generation in the closed transport state.

In the 1 is the solar textile with the top of the 1st textile 1 , a total of nine solar cells ( 3 Circuits) 2 , the nine interposed reflectors 3 the two pushbuttons are positive (plus and minus pole) 4 , the two push buttons negative (plus and minus pole) 5 , the USB output 6 , the bottom of the 2nd textile 7 on which the angle-locking cord 8th and the angle-locking device cord stopper 9 are attached.

In 2 you see the solar textile in the closed transport function in the folded state. It can also be seen that the solar cells 2 and the reflectors 3 be protected by the folding.

LIST OF REFERENCE NUMBERS

1

Top textile

2

Solar cells (9 pieces / 3 circuits)

3

Reflectors (9 pieces)

4

Push buttons positive (plus and minus pole)

5

Pushbuttons negative (plus and minus pole) on underside

6

USB output

7

Angle locking device cord

8th

Angle locking device Cord stopper

Drawings:

1 The top of the foldable textile with attached solar cell circuits for self-sufficient power generation in the open state of use (from above)

2 The foldable textile with attached solar cell circuits for self-sufficient power generation in the closed transport state (from side / top)

Claims (9)

The foldable textile with incorporated solar cells for self-sufficient power generation (solar textile), characterized in that parallelogram-shaped monocrystalline solar cells ( 2 ) are arranged in a folded structure on the top and interconnected. The solar textile of claim 1, characterized in that it is characterized by the shape of the solar cells ( 2 ) and the selected folding technique allows two states: first, the state in use in unfolded form in maximum size of 400 × 700 mm and others the state in folded form in maximum size of 400 × 70 mm, which compression of the solar textile to 1 / 10 of its size for transportation purposes. The angle of the folding technique of the preceding claim 2, characterized in that this by the attachment of an angle-locking cord ( 8th ) guided by angle locking device cord stopper ( 9 ), can be individually locked and fixed on the underside of the solar textile. The solar textile of claim 1, characterized in that is allowed by the arrangement of the solar cells, reflectors ( 3 ) in the same parallelogram form as that of the solar cells ( 2 ), alternately offset to these on the textile to install. The solar textile of claim 1, characterized in that the novel shaped solar cells of the preceding claims are mounted in different circuits on the top of the solar fabric. A complete circuit consists of a total of 3 solar cells, two of which have the identical parallelogram shape, and one of the same shape, but in a mirrored version. Several circuits can be connected in series in series. In this case, the utility model application, there are three circuits with a total of nine solar cells. The solar cells (circuits) from the preceding claim, characterized in that they are provided by four attached push buttons (two in positive form, plus and minus pole on the front ( 4 ) and two pieces in negative form, as plus and minus poles on the back ( 5 )) connected to other solar textiles and thus the circuit can be extended. The pushbuttons simultaneously fulfill a holding and conducting function. The solar textile of claim 1, characterized in that a universal USB output ( 6 ), on which the circuits of the solar cells ( 2 ) converge from claim 5 and can be directly connected to the 5 volts, and 12 volts electronic devices, operated or charged. The solar textile of the preceding claims, characterized in that it consists of a double layer structure; a top ( 1 ) with the attached solar cells ( 2 ) in circuits, reflectors ( 3 ) and push buttons ( 4 ) from a textile, an intermediate level with the required electronics between the textiles including USB output ( 6 ) and a bottom ( 7 ) with attached angle-detecting device string ( 8th ) and angle locking device Kordelstoppern ( 9 ) on a second textile. The solar cells (circuits) of claim 6, characterized in that they can optionally be coated with the aid of deep-drawn transparent plastic sleeves, which can be made of recycled PET material.

Images