The subject of the present invention is a glass brick according to the preamble of the main claim.
As is known, a glass brick is a building material used to produce walls or (perimeter or internal) sections of walls, partitions, skylights, or flooring, in order to create lighting environments. The composition of a plurality of glass bricks is commonly defined as a glass block.
A glass brick is typically composed of glass, concrete and steel, and comprises two preformed parts (which for the sake of simplicity will be indicated as being made of glass) joined to one another integrally by an appropriate sealant. The product permits creation of a vacuum space between said parts which define the outer faces of the glass brick. The product thus has optimum thermal and acoustic insulation properties, and can be designed to control the intensity and diffusion of the light, the thermal insulation, the resistance to fire, resistance to being walked on or the like, in relation to specific uses. In this conventional form, a glass brick or glass block structure dissipates in itself the energy of the solar radiation which strikes it.
Luminescent solar concentrators are also known which make it possible to transform the solar radiation with which they are supplied, into electrical energy.
As is known, luminescent solar concentrators are composed of a glass or plastics waveguide defining the body of the concentrator, which waveguide is coated or doped with highly emissive components known as fluorophores. The direct and/or diffused sunlight is absorbed by these fluorophores, and is re-emitted with a greater wavelength. The luminescence thus generated is propagated by means of total internal reflection as far as the edges of the waveguide, and at these edges it is absorbed by photovoltaic cells which are coupled to the perimeter of this concentrator, and converted into electrical energy.
By selecting appropriately the concentration of fluorophores in the waveguide and their optical properties, it is possible to produce coloured or colourless solar concentrators with different levels of transparency and an arbitrary form, which concentrators can easily be integrated architecturally.
WO2012/147041 describes a glass brick for use in the production of buildings comprising a main body made of transparent material and at least one photovoltaic cell which is placed in the interior of the main body and can generate electricity.
The photovoltaic cell, which is however different from a solar concentrator, is supported by a corresponding element, the edges of which are directly secured internally on said main body.
The objective of the present invention is to provide a glass brick which, as well as the characteristics of a conventional glass brick, such as, for example, thermal-acoustic insulation and regulation of brightness, has the possibility of transferring the solar radiation to which it is subjected into electrical energy, thus becoming a photovoltaic glass brick.
Another objective is to provide a photovoltaic glass brick of the aforementioned type wherein the electrical energy generated can be transferred from one glass brick to another, and collected at the sides of the wall constituted by the glass bricks themselves.
Another objective is to provide a photovoltaic glass brick of the aforementioned type wherein the electrical energy generated can be used to supply power to batteries or delivered to the electrical mains supply of the building or structure in which the glass brick is integrated, individually or in the form of a glass block composition.
A further objective is to provide a photovoltaic glass brick of the aforementioned type which has substantial structural stability in use.
Another objective is to provide a photovoltaic glass brick of the aforementioned type which can be used as a source of supply of power to electrical and/or electronic devices, such as antitheft devices, a Wi-Fi repeater, lighting elements or the like, which devices thus do not need to be supplied with power from the electrical mains of the building in which the glass brick is integrated.
These objectives and others, which will become apparent to persons skilled in the art, are achieved by a glass brick according to the main claim.
For better understanding of the present invention, purely by way of non-limiting indication, the following drawings are appended, in which:
With reference to said figures, a glass brick, which hereinafter will be defined as a “photovoltaic glass brick”, is indicated as 1, and comprises two preformed portions 2 and 3, obtained by means of methods which in themselves are known, and which bricks are connected to one another in any known manner. Between these portions 2 and 3, there is present a cavity 1A defined by recesses 2A and 3A which are present in a corresponding face 20 or 30 (which is inner relative to the cavity 1A) of each portion 2 and 3. These cavities comprise an outer face 200 and 300 respectively, forming the free faces of the glass brick 1. The preformed portions 2 and 3, which define a body 1B of the glass brick, will be indicated as glass portions.
Between said portions, in the cavity 1A in the glass brick, there is present an inner panel 4 defined by a luminescent solar concentrator, of a type which in itself is known. This panel or concentrator 4 can be either in the form of a solid plate (such as the one in the figures) or in the form of a film which is coupled to a transparent support (for example a plastics material), described in greater detail in
The luminescent solar concentrator (or LSC) 4 is connected to the interior of one of the two portions 2, 3 of the photovoltaic glass brick 1, for example in the recess 2A in the portion 2, thanks to spacer units 11. These spacer units are secured on the portion 2 by any known means, for example by means of an adhesive. The spacer units 11 permit stability in the positioning of the luminescent solar concentrator 4, these units 11 being associated perimetrically with at least two sides of said concentrator. In addition, during use of the invention, when the glass brick is subjected to solar radiation, the spacer units 11 can accept the thermal expansions or contractions typical of solar concentrators without affecting the operation thereof, and without having a negative effect on the structural stability of the glass brick.
In addition, each spacer unit 11 permits electrical contact between the luminescent solar concentrator 4 and a known external circuit (not shown in the figures for the sake of simplicity), for the extraction of the electrical energy by means of various solutions, including sliding contacts or through-holes (as described hereinafter).
By way of example,
By way of non-limiting example, in
According to a further characteristic of the invention shown in
Various users, or electrical or electronic devices, which can have various functions, can be connected to the battery 16. For example, by means of an electrical cable 17, the battery 16 is connected to a device (generically represented as 18) for movement of a curtain (not shown for the sake of simplicity), and/or a Wi-Fi repeater, and/or LED lights, or another type of lighting device, and/or to alarm devices (which for example are volumetric), and/or to a Hi-Fi repeater or other electrical devices, such as sensors of various kinds for example. All of these devices are positioned in the interior or on the exterior of the glass block structure itself. By means of a connection 19, an electrical socket and/or a USB socket 20 can also be connected to the battery 16.
It is also possible to use the glass bricks 1 individually or combined in a glass block element in order to supply power to said electronic devices directly, without needing to provide a battery.
A description has been provided of various embodiments of the present invention. It will be appreciated that other variants are possible, such as the one which includes more luminescent solar concentrators 4 inserted in the cavity 1A in the glass brick 1. These solutions also come within the scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
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102018000009951 | Oct 2018 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2019/059232 | 10/28/2019 | WO | 00 |