FR2548455A1 - Solar collector with photovoltaic pile - Google Patents

Abstract

A. PHOTOVOLTAIC BATTERY SOLAR COLLECTOR. B. SOLAR COLLECTOR CHARACTERIZED IN THAT THE PHOTOVOLTAIC CELL 16, 18 IS PLACED IN A CLOSED GLASS TUBE 12, ON A METAL SUPPORT 14 WHICH IS CONNECTED IN A HEAT CONDUCTING MANNER WITH A TUBE 20 WHICH CAN BE COOLED DIRECTLY OR INDIRECTLY. C. THE INVENTION CONCERNS A SOLAR COLLECTOR WITH PHOTOVOLTAIC BATTERIES, IN PARTICULAR FOR THE PRODUCTION OF HOT WATER.

Description

"Photovoltaic battery solar collector
The invention relates to a solar collector comprising at least one photovoltaic cell for taking advantage of the sun's energy.

 Photovoltaic cells or cells must be wrapped in a transparent airtight sheath in order to be protected from atmospheric corrosion. For this reason, they are normally enclosed between sheets of glass or plastic which are glued together at the edges. The plastic sheets have the drawbacks of losing their transparency during aging and, moreover, of being more or less permeable to humidity.

In the glass plates glued on the edges, tensions occur under the effect of the solar heat which cause cracks and then defects by corrosion. Another drawback of current wraps today is the heating of the photovoltaic layer during operation which decreases energy efficiency and accelerates aging.

 The object of the invention is to provide a solar collector of the type mentioned so that it can ensure optimum use of the incident solar energy, while having a simple and compact construction as well as great ease of maintenance.

 To this end, Inxentfon proposes that the photovoltaic cell be placed, in a glass tube closed in a vacuum-tight manner, on a metal support, which in turn is connected in a heat conductive manner with a tube which can be cooled directly, or indirectly. The support can be here, preferably, a sheet of copper. You can either choose to empty the glass tube or fill it with an inert gas. The cooling of the metal support takes place by means of a metal tube which is connected to it in a heat conductive manner and which either is traversed by a coolant, or is produced in the form of a heating tube which takes the heat taken from inside the glass tube.

 In another embodiment of the invention, it can be arranged, as desired, either on the upper face alone, or on the upper face and on the lower face of the support, at least one voltaic cell. The latter case requires that below the plane of the metal support, apart from the glass tube, there is disposed at least one surface forming a mirror which reflects the rays of the sun on the photovoltaic cell arranged on the underside of the metal support. In another particularly advantageous configuration, the metal tube which is located in the collector can be traversed by a cooling agent which circulates an electrically driven pump.

The pump is here electrically powered by at least one of the photovoltaic cells.

 Other details, advantages and characteristics of the invention will emerge from the recommended embodiment shown in the attached drawing.

In a solar collector 10 is placed horizontally, on the central plane of a glass tube 12, a carrier sheet 14, which is covered on its upper and lower faces with at least one photovoltaic cell 16 and 18. It is connected integrally with the metal support 14, which is preferably made of copper, a pipe 20, in particular of the radiator type, which goes around it, through which a cooling fluid can circulate. Below the glass tube 12 is an optical device 22 in the form of a mirror intended to reflect the rays on the photovoltaic cell 18 which is located below. The lower photovoltaic cell 18 will give an efficiency all the better as the optical aperture of the
Set of mirrors 22 will be larger compared to its surface.

The electrical pipe which drains the current supplied by the photo-photovoltaic cells 16 and 18 can be used to operate an electrically driven pump, which is not shown and which sends the coolant into the metal tube 20 placed at the interior. This provision is particularly
Judicious If a solar collector 10 according to the invention is operated, in common with a thermosolar installation intended to heat a liquid, because the power of a single collector is sufficient to ensure the circulation of the cooling agent in numerous collectors . As a result, the drinking water and operational heating installations with forced circulation of coolant are independent of any external supply of electrical energy.

Claims (6)

R E Y E N D I C A T I O N S  10) Solar collector comprising at least one photovoltaic cell for the exploitation of solar energy, characterized in that the photovoltaic cell (16, 18) is placed in a closed glass tube (12), on a metal support (14 ) which is heat conductively connected with a tube (20) which can be cooled directly or indirectly.  20) Solar collector according to claim 1, characterized in that a vacuum is made in the glass tube (12).  30) Solar collector according to claim 1, characterized in that the glass tube (12) is filled with an inert gas.  40) Solar collector according to any one of claims 1 to 3, characterized in that it is arranged on each of the upper and lower faces of the metal support (14) at least one photovoltaic cell (16, 18), and that there is, outside the glass tube (12), and below the plane of the metal support (14), an optical system (22), preferably in the form of reflective surfaces.  50) solar collector according to any one of claims 1 to 4, characterized in that the metal tube (20) which is in the glass tube (12) can be traversed by a cooling agent, this agent being placed circulation by means of a pump, supplied with electricity by at least one of the photovoltaic cells (16, 18).  60) solar collector according to any one of claims 1 to 5, characterized in that the metal tube (20) is in the form of a radiator tube and is connected with the cooling system which is located outside the solar collector (10).