NL1042486B1 - Float for solar panels, comprising a floating body with protective layer and preferably a stabilization space - Google Patents

Abstract

Float for supporting solar panels (2) on a water surface (1), comprising a floating body (3) provided with a stabilizing space (4) which has a bottom wall (6) with water passage openings (7). The floating body is made of plastic foam material and is surrounded by a watertight layer (8) of a rubber-like material which also largely forms the side walls and bottom wall of the stabilization space and which is also used to waterproof the solar panels around the area intended for collecting sunlight. close up. The exchange of the water mass inside and outside the stability space via the relatively small water passage openings is slow. Because of this mass inertia, the stability space with water flow openings acts as an effective stability member for the float and the solar panels mounted on it.

Description

Brief indication: Float for solar panels, comprising a floating body with protective layer and preferably a stabilization space

DESCRIPTION

The invention relates to a device intended and arranged as a float for supporting one or more solar panels on a water surface.

Such a device is known, inter alia, from KR101339358B1 and KR101481093B1.

The present invention has for its object to provide an improved floater for solar panels with a simple but very rigid construction and a long service life. In a preferred embodiment of the invention, means are provided whereby the float has excellent stability properties, also under severe weather conditions.

To that end, according to the invention, there is provided a device intended and arranged as a float for carrying one or more solar panels on a water surface, comprising a floating body which is adapted to support the one or more solar panels with its upper side, wherein the floating body is made of a rigid plastic foam material such as in particular EPS (see https://en.wikipedia.orR/wiki/Ge%C3%ABxpanded polystyrene). Other rigid plastic foam types, such as PUR and PIR, may come. also eligible, although EPS has excellent properties for the present purpose and has a low cost. The floating body is furthermore surrounded on at least its sides by a watertight layer of a rubber-like material such as in particular of EPDM (see https://en.wikipedia.org/wiki/EPDM). Other rubbery materials are also eligible, for example polyurea (see https://en.wikipedia.org/wiki/Polyurea)

By manufacturing the floating body from a rigid plastic foam material that is completely or largely surrounded by a watertight layer of a rubber-like material such as in particular EPDM, a floater for solar panels with a simple but very rigid construction and a long service life is provided.

In a preferred embodiment of the invention, means are provided whereby the float has excellent stability properties, also under severe weather conditions, namely by providing the float body with a (water-absorbing) stabilization space which is substantially watertight on the top side and which has side walls and a bottom wall which are substantially watertight closed with the exception of one or more water passage openings with a small cross-section (with respect to the surface of the side walls or bottom wall, respectively).

When the floater (with the solar panels on it) is placed in the water, the stabilization area fills itself with water through the water passages. The air is thereby expelled via one or more vent openings or channels which, for example, run upwards via or along the floating body and which flows into the free air above the water surface. The water mass within the stabilization space is enclosed, for example, by the floating body at the top and the watertight side walls and bottom wall. There is, however, an open connection with the surrounding water through the water passages. However, because those water passage openings only have a small (flow-through) opening, the exchange of the water mass inside and outside the stability space via those openings can only take place slowly. Owing to that slowness and the large mass of the amount of water enclosed by the stability space, the stability space with the water flow openings acts as an effective stability member whereby the float remains stable on the water, even in severe weather conditions. The one or more water passage openings are preferably provided in the bottom wall of the stabilization space.

Preferably, at least a part of the side walls and / or the bottom wall of the stabilization space is formed by a watertight layer of a rubber-like material, in particular of EPDM, preferably integrating with the watertight layer with which the floating body is encased.

The solar panels which are mounted on the floating body are preferably watertightly sealed around the area intended for collecting sunlight by means of a waterproof layer of a rubber-like material, in particular of EPDM, whether or not in combination with a rubber-like kit, in particular EPDM kit. This watertight layer preferably also forms a whole with the watertight layer with which the floating body is encased and with the watertight layer of rubbery material of which the side walls (or a part thereof) and / or the bottom wall of the stabilizing space are formed.

A float can thus be formed with one or more solar panels mounted thereon, with a plastic foam floating body, preferably EPS, and a stabilizing space, the whole of which is largely covered by a protective layer of rubbery material, which is water-tight, in particular of EPDM, which material is also used to serve as wall material for (a part of) the side walls and for the bottom wall of the stabilization space of which the float is preferably provided.

The invention will now be further discussed with reference to the figure description below.

Figure 1 shows an exemplary embodiment of a solar panels mounted thereon in the direction according to the invention;

Figure 2 shows in different views and sections the same exemplary embodiment as in Figure 1;

Figure 3 shows a frame with a large number of floats according to the invention therein.

Figures 1 and 2 show a device intended and arranged as a float for carrying a number of solar panels 2 on (near, partly in) a water surface 1, comprising a floating body 3 which is adapted to support the solar panels 2 with its top side. The floating body 3 is provided with a stabilizing space 4 which is watertightly sealed at the top, for example by the bottom of the floating body 3, and which has side walls 5 and a bottom wall 6 which are watertightly sealed, with the exception of one or more water passage openings 7 with a small cross-section.

The floating body 3 is made of a rigid plastic foam material, for example of EPS. The floating body 3 is surrounded on at least its sides by a waterproof layer 8 of a rubber-like material, for example of EPDM or polyurea

At least a part of the side walls 5 and / or the bottom wall 6 of the stabilization space 4 is also formed by a watertight layer of a rubber-like material, for example of EPDM, which is preferably integral with the EPDM layer with which the EPD floating body is surrounded .

In this embodiment, the water passage openings 7 are only provided in the bottom wall 6 of the stabilization space 4. Because the water passage openings 7 arranged in the bottom wall 6 have only a small (through-flow) opening, the exchange of the water mass inside and outside the stability space via those openings can only slow. Because of this mass inertia, the stability space with the water flow openings acts as an effective stability member for the float and the solar panels mounted thereon.

When mounting the solar panels, they are watertightly sealed around their area intended for collecting sunlight by means of a watertight layer 9 of a rubber-like material, for example of EPDM, whether or not in combination with a rubber-like kit, for example EPDM kit. Also this EPDM layer with which the solar panels are watertight surrounded and sealed, preferably forms a whole with the EPDM layer that is used to surround the floating body 3 and the EPDM layer whereby the stability space 4 is (largely) formed, such that an integral EPDM layer can be used in the manufacture of the complete floater 3,4 with solar panels 2.

In order to ensure that the stability space 4 is always (sufficiently) filled with water, one or more vent openings or channels 10 are provided between the stabilization space and a mouth above the water surface 1.

Finally, it is also noted that it is also possible to provide the floating body with more than one stabilization space, provided with water passage openings (7) with a small cross-section.

Thus, by applying the present invention, a solid and reliable solar energy system can be installed that can be installed on a water surface, using improved floats for solar panels with a simple but very rigid construction and a long service life and with excellent properties as regards stability, even under severe weather conditions.

It will be clear that several floats according to the invention can be coupled to each other or placed side by side in a manner known per se, for example in a manner as suggested in KR101339358B1 or KR101481093B1 for the floats presented therein. The floats can also be placed side by side and / or coupled to each other in a floating or non-floating frame. For maintenance of the floats, solar panels, installation of installations and laying of transport cables, floating walkways are installed between the horizontal installations where necessary. Figure 3 shows an exemplary embodiment of one with the bottom or possibly. frame 11 to be anchored to shore, which surrounds a large number of floats according to the invention. By using such a, preferably frame 11, the floats themselves do not have to be coupled to each other, as a result of which the outside of the floats, surrounded by a rubber-like protective layer, can remain smooth and need not be interrupted by (for example outside the smooth surface) protruding coupling members, etc. The frame itself can also be designed as a floating frame which can then for instance (at least largely) be manufactured from a rigid plastic foam material, such as for example EPS, which is at least partially surrounded by a protective layer of a rubber-like material, such as for example EPDM or polyurea. The frame 11 can of course also be of non-floating design and for instance be made of metal or concrete etc.

Where there are no high waves and / or strong wind, use can be made of floats that are provided with a relatively shallow stabilization space. In case the floats are placed in still water, it is not necessary to provide the floats with a stabilization space.

In any case, whether or not provided with a stabilization space, according to the invention there are provided maintenance-free floats with a very long service life and excellent mechanical properties.

Claims (8)

Device intended and arranged as a float for supporting one or more solar panels (2) on a water surface (1), comprising a floating body (3) which is adapted to support the one or more solar panels with its top side, wherein the floating body is made of a rigid plastic foam material and wherein the floating body is surrounded on at least its sides by a waterproof layer (8) of a rubber-like material. Device as claimed in claim 1, wherein the floating body is provided with at least one stabilizing space (4) which is sealed substantially watertight at the top and which has side walls (5) and a bottom wall (6) which is substantially watertight are closed with the exception of one or more water passage openings (7) with a small cross-section. Device as claimed in claim 2, wherein at least a part of the side walls and / or the bottom wall of the stabilizing space is formed by a water-tight layer of a rubber-like material. Device as claimed in claim 2 or 3, wherein the one or more water passage openings are arranged in the bottom wall of the stabilization space. Device as claimed in any of the foregoing claims, wherein the solar panels around the area intended for collecting sunlight are watertight or are sealed by means of a watertight layer (9) of a rubber-like material, whether or not in combination with a rubber-like kit . Device as claimed in any of the foregoing claims, wherein one or more vent openings or channels (10) are provided for the stabilization space between the stabilization space and a mouth above the water surface. Solar energy system comprising one or more devices according to one of the preceding claims. Solar energy system according to claim 7, comprising a frame (11) that largely or completely surrounds a number of devices according to one of the preceding claims.