FR2936831A1 - Electricity producing device for use with swimming pool shelter, has photovoltaic panels integrated with shelter, where photovoltaic panels are made of polycarbonate, glass or reinforced membranes that form cover in top part of shelter - Google Patents

Abstract

The device has photovoltaic panels integrated with removable, retractable, semi-sliding or motorized shelter of a swimming pool, where the photovoltaic panels are made of polycarbonate, glass or reinforced membranes. A carrier structure is formed of round or rectangular hollow tubes that are pierced with oblong holes to permit guying of the membranes. The membranes form a cover in a top part of the shelter. A translucent membrane is arranged on a lower part of the shelter to preserve views and provide light on a basin of the swimming pool.

Description

The purpose of this invention is to produce so-called clean electricity from solar energy by means of integrated photovoltaic panels or associated with swimming pool shelters. STATE OF THE PRIOR ART To date, there are several industrialists (around thirty) who design and manufacture all types of swimming pool shelters, from the simplest (hand-operated polycarbonate shelter to the most sophisticated motorized retractable glass). Just as there are many industrialists who imagine, develop and manufacture photovoltaic panel systems that are generally associated with building elements mainly on the roof but also with glass roofs, brise-soleil, glass railings. DESCRIPTION OF THE INVENTION Innovation consists of proposing technical and aesthetic solutions for implementing photovoltaic panels in the widest possible range of swimming pool enclosures.

The process must maintain the primary function of the shelter while producing electricity that is sold to Electricité de France. Moreover, this electrical source will make it possible to lower the cost of motorizing the shelter or to supply a heat pump which allows to heat the water of the basin or to heat the volume of the swimming pool shelter.

This has the effect of not only increasing the water temperature of the pool as well as that of the shelter that can be transformed into a veranda-style living area (Figure No. 3.1). The implementation of these options should favor the use of the swimming pool shelter because they allow a longer swimming period in the year but also to expand the geographical area of implementation of swimming pool shelters.

The constraints imposed on this concept: -Preserve as much as possible the integrity of each shelter (its geometry, its constructive system, its materials, its controls, its accessories ...) - Maintain as much as possible the aesthetics and the design of each shelter - Maintain the same level of security, especially in terms of child safety vis-à-vis the basin but also vis-à-vis photovoltaic panels. - Propose photovoltaic panels already from existing manufacturing chains - Offer solutions for the positioning of motorized shelters related to electricity production as well as connection solutions between panels (figure N ° 8) - Offer electrical connection solutions to the EDF network a solution other than a buried trench and non-aerial network (FIG. 7).

Typologies of processes The solutions envisaged are largely dependent on the various types of shelters existing to date in commerce. Low shelters (Figure No. I) 40 They are usually curved, manually operable and therefore lightweight polycarbonate material. This concept proposes several solutions for implementing flexible photovoltaic panels existing on the market. Their flexibility allows to marry the curved shapes of this family of shelters. In this case, it is an implementation applied to the wall which constitutes the shelter. By its flexible constitution the photovoltaic panel can not in any way substitute for the panel of the shelter. Moreover, there is no research on transparency since photovoltaic panels are placed on the wall which constitutes the shelter. there can be a calepinage allowing to create shadows and lights on the basin. The shelters high or semi high figures N ° 2 & 2.1) This typology lends itself more easily to the implementation of photovoltaic panels. The existing forms in the trade are either adapted to the implementation of 55 photovoltaic panels or require slight retouching in order to maximize the profitability of photovoltaic panels. It is their mobility (motorized sliders or not) that requires a solution in terms of connection between panels and equipment related to photovoltaic panels (inverter, meter) 60 Fixed high shelters (Figure No. 3) This is the ideal configuration shelter as soon as the cut of these shelters is redesigned in order to have the best orientation and the best surface available The flat shelters (figure N ° 4) 65 This is the last series of innovation on swimming pools. This relatively new family of pond protection has niche aesthetics and minimalism. These flat shelters are all sliding or retractable and therefore motorized. Example of implementation (Figure No. 5) Photovoltaic shelter consisting of a tubular frame and flexible photovoltaic membranes 70.

The supporting structure consists of hollow tubes either round or rectangular. These tubes are bent, they are assembled with another through tube by means of 2 bottom bank tubes. If necessary according to the regions and the forces induced by the wind or the snow the structure can be reinforced by a tube with ridge and a 75 guying of the type of cross of Saint André. These tubes are pre-drilled with oblong holes to ensure the bracing of the photovoltaic membrane. The roof in the upper part is made of photovoltaic membrane, the lower part to provide views and provide light on the basin is closed by 80 a translucent membrane of the type of agricultural greenhouses. These membranes are prestressed (tensile strength 250/250 daN / 5cm, tensile strength 20/20 daN., Maximum operating temperature at 30 ° C / + 70 ° c) These membranes are thermo welded at the factory. . These membranes are secured to the tubular structure by means of cables and 85 stainless steel tensioners. Industrialization Indications of how the invention is susceptible of industrial application. The approach for industrialists to produce electricity from photovoltaic panels.

In general, renewable energy companies are looking for new markets and new processes to promote solar energy. In these periods of awareness of the absolute need to reduce greenhouse gases, all tracks are to be studied, especially since the delay in France is considerable in comparison with our German neighbor or of the 95 Nordic countries. Especially since despite state aid to promote the development of these renewable energies, the share of production of these clean energies remains to date almost marginal. Many criteria, constraints and parameters make it difficult to implement this type of energy production, be it solar, wind, geothermal, etc. Moreover, these aids are not eternal and on the other hand the implementation of these facilities is a site with all that it generates in terms of authorization, delays, cost, contingencies, difficulties ... Indeed, which says site said hazards, delays, delays, cost, interface, problem of finishes, the company to frame, guarantee to obtain, coordination, risks of evil ways even of disaster ... the difficulty comes in particular that one must associate a finished product, resulted from an industrialized manufacturing chain to a unique experimental product that is a building. We are in a paradoxical situation of industrial products which must be put to work within the framework of a construction site of the building and public works sector which has nothing of the industrial world. During a conference on the Grenelle de l'environnement, we were presented with innovative and alternative solutions projects for photovoltaic panels with tracks such as: 115 - Large-scale intervention research - Research on configurations that can receive Photovoltaic panels - Research on the types of supports that can receive photovoltaic panels (bus shelter, advertising sign 4 * 3 m, pergolas above car parks ...) All these elements illustrate the fact that the manufacturers of the solar energy sector 120 are looking for opportunities other than the construction of single-family homes but more widely in the building or in the margins. The approach to the attention of industrial manufacturers of swimming pool shelters The safety aspect All swimming pool shelters have the particular objective of respecting and being compliant with standard NFP 90-308, which deals with the safety of swimming pools. . As a result, these shelters are one of the enhanced devices making it possible to secure the basins with respect to children young or old. The weak point of this safety device like a fence or fence is its closure, since this system prevents access to the pool that the 130 when it is closed. But many shelters are not motorized and what is more requires more or less long manipulations, delicate or even tiring. The fact that the photovoltaic swimming pool shelter generates electricity production makes it possible to use a motorization of all these manual shelters because on the one hand their displacement 135 does not induce any cost but moreover the resale of a clean electricity to EDF allows to study and to consider the marketing of these automatisms (hydraulic system, cylinders, worm ...). Moreover, having the possibility to close the pool in a few seconds, the pool is all the better preserved third parties, domestic animals (cats, dogs ...) or 0 wild (birds, foxes, squirrels, wild boars ...) ) The comfort aspect As well as the safety aspect, the ease of closing the pool contributes to the comfort of the entire installation and for more than one reason - depending on the type of shelter, the configuration of the pools the hour of the day ... a painful task is spared. - We improve the comfort since we better protect the basin of plants and other nuisances near the pool. Of course if it is fixed high shelters the basin is preserved permanently. - We improve the comfort since in case of abrupt change of climatic conditions, squall we can close the shelter quickly and safely. - Bathing comfort is improved since the temperature of the water is higher by a few degrees. - We improve the comfort of atmosphere at the end of the day and in the evening because if most basins are well lit, this is not always the case of the beach or the surroundings 155 close because the fact of lighting increases in again the cost price of the pool. The sustainable development aspect We are in a period of awareness towards sustainable development, everyone can only feel concerned and there is not a sector of activity that is not affected.

On the other hand, becoming an actor in this struggle for the survival of the planet is not always easy. What's more, lifestyle, work, thought are not as malleable and flexible as necessary. But when an owner decides to build a pool, we can not really say that it is a strong ecological act. The works generate nuisances, extractions, CO2 emissions ... The pool consumes water, usually taken directly from the water table by means of a borehole. The filtration, the pump consume electrical energy.

Shelters, some pool liners such as liner or membranes are made of non-recyclable materials. Water treatment products consist of more or less aggressive chemicals. In short the ecological balance of a pool without being catastrophic is not positive.

On the other hand, if photovoltaic swimming pool shelters are used to produce clean electrical energy, the ecological balance can be reversed. So like some actors who have opted for example a hybrid vehicle, the photovoltaic pool shelter can suffer the same fate and that's all we want.

The commercial aspect The fact that the photovoltaic pool shelter generates electricity makes it possible to envisage repercussions at the same time commercial but also in terms of choice, behavior. So if we position ourselves on the side of manufacturers of traditional swimming pool shelters, we can consider that: 185 - their catchment areas geographically speaking will increase because thanks to photovoltaic swimming pool shelters, they will be able to offer at lower cost to heat the pool water or even the volume of the photovoltaic pool shelter through for example a heat pump. - At the moment all over France there are either photovoltaic panels 190 or solar panels ensuring the production of domestic hot water. Which means that in terms of yield and power obtained these facilities are viable and profitable. - There is a risk of a snowball phenomenon since if we can offer heated pools to a wider clientele, we will have more pools that will be 195 built. - Who says more pools says more potential customers for pool shelter manufacturers. - Who says more pools in temperate zones almost automatically implies the presence of swimming pool shelters. 200 - Finally this may affect the types of shelters sold, since for these temperate zones it is necessary both to protect, to warm the basin but also the range functions that are provided by the high shelters. The financial aspect The financial aspect is of course important but it must be approached differently.

205 Indeed, selling electricity to EDF generates rent and therefore income. Having a relatively fixed income and especially over a period of 20 years allows to consider several types of offers and services. Firstly in terms of the cost of the shelter itself: 210 - It is obvious that the implementation of photovoltaic elements generates an additional cost compared to a standard shelter. This extra cost is difficult to evaluate because it depends on the type of shelters, their materials, their surfaces, the type of panels used, the target yield, the installed power ... By cons certain factors will mitigate this extra cost, industrial process, rationalization, 215 mass production, ease of installation, number of copies sold, cost of repurchasing Kilowatt by EDF ... In terms of financing the fact of having an income by equipping itself with a photovoltaic pool shelter can allow either to subscribe to a loan without difficulty or to afford to finance for example a larger shelter, a heat pump ...

220 The hi - tech aspect We are in a society in which the place of technology is more and more important. Technology is valued because it has multiple advantages and facets that value both the consumer and the industrialist.

225 Thus, for the consumer, there is undoubtedly a fashion effect, a trend that is enough to convince oneself to see the craze for flat screens, mobile phones 1 'Ipod, Iphone ...). The hi-tech vector goes well beyond a gadget, the hi-tech conveys notions of comfort, well-being, security, it reassures.

230 If we look at manufacturers, the implementation of technologies can generate other services, other needs, other niches. As an example we can mention after sales service, maintenance, extension of guarantees, renewing after 20 years ... The 235 luxury aspect is to note that the luxury industry is door to good. In recent years has emerged a clientele both increasingly wealthy and increasingly important.Ce sector seems more than buoyant and especially little exploited. This clientele is adept at technology but also a certain luxury. The unique aspect also counts for a lot.

240 This customization can easily be achieved by means of photovoltaic panels because already manufacturers offer panels with patterns, textures, materials, serigraphs, colors. So according to the wishes of the customer, it is possible to transform an industrial shelter made to thousands of copies into a single copy.

The communication aspect Virtually all industrialists in any field are looking for means of communication related to sustainable development. Advertising uses and abuses feelings of guilt for our planet and future generations.

250 The challenge for pool shelter manufacturers is to be able to convince the potential customer to have the budget for an item that is not only considered luxury, but more importantly represents a large budget that will burden the main budget of the pool. the swimming pool. Hence the strength of this concept which offers at least two vectors of communication which are 255: - Ecological awareness, sustainable development, environment, reduction of greenhouse gases, ethics, heritage preservation, future generations - Possibility of Self-financing of the photovoltaic swimming pool shelter over three, five to seven years depending on the dimensions, its configuration and its performance

Claims (9)

CLAIMS1) Device associating electricity production via photovoltaic panels integrated with swimming pools.This invention is characterized by the integration of photovoltaic panels to the various processes of pool shelters existing on the market. 2) Device according to claim 1 characterized in that it can be associated with removable new low shelters, seedlings sliding or motorized (Figure No. 1) 3) Device according to claim 1characterized by the fact that it can be associated with new shelters high or semi-removable, semi-sliding 10 or motorized (Figure 2) 4) Device according to claim 1 characterized in that it can be associated with new fixed shelters (Figure No. 3) 5) Device according to claim 1 characterized in that it can be associated with retractable new flat shelters (Figure No. 4) 15 6) Device according to claim 1 characterized in that it can be associated with shelters whose panels are polycarbonate (Figure No. 2) 7) Device according to claim 1 is characterized in that it can be associated with shelters whose panels are glass (Figure No. 1) 8) Device according to claim 1 characterized in that it can be associated with shelters whose panels are reinforced membrane (Figure No. 4) 9) Device according to claim 1 characterized in that it can be associated with some existing shelters already laid (Figure No. 6)