WO1996011365A1 - High-efficiency solar panel - Google Patents

Abstract

A solar panel including one or two coatings (1, 2), honeycomb bracing (3), a pan (4), insulation (5), apertures (6) and dividers (7). Collectors are provided in the form of a sandwich panel combining a free-standing construction with a perforated bracing system enabling fluid to pass therethrough, and energy concentrators (magnifiers).

Description

 HIGH YIELD INSOLATOR

The invention relates to a high efficiency insulator (solar panel) which can be used in the private sector as well as in the industrial or other sector.

The insulator can be in the form of a sandwich panel and is obtained by bonding from synthetic resins, thermoplastics, silicones or any other similar product.

The type of material used for assembly (bonding) can vary depending on whether it is to convey in the panel a fluid in liquid, gaseous or other form.

The absorption of solar or other energy is optimized thanks to the composition of the part called "receptor".

The part called the receiver is such that it allows high-efficiency capture of the incident energy.

Pressure resistance, self-supporting structure, high efficiency absorption of incident energy, are characteristics which follow from its design: Aluminum spacers or any other material can be in the form of honeycomb and can be arranged perpendicular to the plane (bowl). This structure (spacers) gives the insulator the necessary mechanical properties; allows free circulation of the fluid. Obtaining high efficiency is obtained by a choice of material serving as a coating of the thermoplastic, synthetic, glass or other type (or by a combination of several of these materials) which optimizes the capture of the incident energy and allows the production of concentrators. of energy (magnifying glass effect).

Claims

The invention relates to a high efficiency insulator (solar panel) comprising:

(1) and / or (2) coating (“skin”) of the thermoplastic, synthetic, glass or any other similar product of variable dimensions according to the need, allowing the transmission of incident radiation and ensuring the tightness of the solar panel as well than thermal insulation from the atmosphere thanks to the air space between the two skins (1) and (2).

The fixing by gluing or other means of the skin (2) on the spacers provides a set of energy concentrators (set of magnifiers).

Spacers in the form of a honeycomb (3) in a hexagonal or other configuration, made of aluminum or any other material having undergone a selective type treatment increasing its solar energy capture properties.

The bowl (4) has undergone a selective type treatment in order to increase its solar energy capture properties.

Two orifices (6) provide entry and exit of the heat transfer fluid and allow connection to a storage tank.

An insulation plate (5) minimizes losses to the atmosphere.

Separators (7) can be inserted within the spacers to guide the fluid.

The dimension of the receiver (3) will be smaller than that of the bowl (4) so as to leave room for a divergence chamber and a convergence chamber.

The reception of solar energy is optimized thanks to the concentration of incident waves (magnifying glass effect (2. A)) within the spacers.