FR2927647A1 - Exterior protection system for e.g. glazed space, has awning whose canvas comprises micro-perforations calibrated to reduce luminosity between specific percents with specific perforation diameter and with specific perforation spacing - Google Patents

Abstract

The system has a removable exterior awning whose canvas comprises micro-perforations with characteristics to pass a quantity of light. The micro-perforations allow a user to view the sky and clouds and to integrally view a landscape without distortion. The micro-perforations are calibrated to reduce a luminosity measured using an illumination photometer between 85 to 95 percents with a perforation diameter ranging from 1 to 1.5 millimeters and with perforation spacing of 2 to 5 steps having a distance of 1.5 to 4 millimeters. Cables limit movement of the awning. The canvas is provided with a thin polystrate reflecting insulator constituted of metallic reflecting films. The micro-perforations are covered by a hydrophobic fluorinated film. The cables are made of stainless steel covered by smooth plastic material.

Description

The present invention relates to a system for protecting verandas and glazed spaces from disadvantages, including overheating caused by the sun. Verandas and glazed spaces exposed to the sun are always overheated by solar radiation and the implementation of the greenhouse effect. Solar radiation passes through the glass wall which is transparent to the wavelengths of solar radiation visible by the human eye. After passing through the transparent wall, the energy contained in the light radiation (450 to 650 nanometers) is absorbed by the surfaces that this radiation meets and heats up. In turn, these heated surfaces re-emit radiation of longer wavelength (700 to 2000 nanometers) to which the glass wall is not transparent. Thus, the volumes behind the glass walls are heated in winter. This is called the greenhouse effect. This heating is further increased when the glass walls are rendered insulating with heat, transmitted by conduction: double glazing, suppression of thermal bridges.

But this greenhouse effect, well appreciated in winter, presents a major drawback in the summer: it makes the glazed volumes unbearable because it is so hot. Thus it is considered that in a region a little sunny a veranda is unbearable at least four months per year. To overcome this disadvantage of overheating always considered unacceptable, we have developed several methods: - Insulating roof: the transparent roof of the veranda is replaced by an insulating roof opaque, consisting of a traditional waterproof cover, chosen for its appearance , lined with a thermal insulating panel that reduces the transmission of heat energy by conduction (expanded polystyrene or polyurethane). These roofs have the disadvantage of being opaque and completely stop all light. The rooms thus protected from the overheating of the sun in summer. become too dark. In addition, these roofs hide the view of the sky, which is often regretted by users. It should also be noted that, during a heat wave, the thermal efficiency of these roofs is often insufficient because of the small thickness of insulation used (5 to 7 cm). In addition, these insulating roofs are fixed and can not be installed or removed at will of users, depending on the sky and weather conditions. - Internal blind: the transparent roof of the veranda is lined inside by a cloth awning. This canvas is mounted on a support that can be deployed or gathered by winding or folding. This system store thermal protections of verandas .doc - 04/02/2008 14: 34 Page 3 on. 17 reduces glare but does not reduce the heat of the room, even it increases the impression of overheating felt by users. This is explained by the fact that the inner blind made of material that is opaque to solar radiation absorbs all the radiative energy from above, is heated and re-emits the same amount of radiative energy from below. As this blind has no mass, it has no inertia and is much faster heated than the soil or stone walls. Thus, the room protected by an interior blind is hotter than an unprotected room. In addition, the canvas is opaque so reduces the brightness and masks the view of the sky. - External blind: The transparent roof of the veranda is doubled by a cloth awning installed outside. This system has all the advantages of the awning in interior fabric but also a series of drawbacks:> al The awning reduces glare but reduces the brightness, which is always regretted by the users. ) b / The awning reduces glare but masks the view of the sky, which is one of the disadvantages of insulated roofs and blinds usual cloth. > cl The external awning reduces the heat in the veranda a little, but always insufficiently according to the users. In fact, the blind cloth exposed to the sun absorbs from above almost all the incident light energy. All this energy-light absorbed from above is transformed into energy-heat available in the blind itself overheated. This energy-heat of the overheated outer blind wants to evacuate by all means: 1 / by radiation to the roof below. Thus, the transparent roof is heated by infrared radiation emitted from below the blind, infrared radiation to which the transparent roof is opaque because only transparent to visible light radiation. Heated itself, the roof will then heat the room by infrared radiation which will be absorbed in turn by the surfaces located inside the glass volume. 2 / This energy-heat of the overheated outer blind wants to evacuate by all the means in particular by heat exchange with the outside air. But this exchange with the outside air has as major constraint to be subjected to the wind. > d / The awning is subjected to the forces of the wind, which wind pulls out the awnings. Thus, the manufacturers of external blinds impose the use of an anemometer system which automatically folds the blind as soon as the wind exceeds 30 35 km / hour. And the users note that the folding system of the blind is often too slow so that in the event of a storm, the awning is torn off. could have been folded. > e / The awning is exposed to the weather. In a usual cloth awning, molds, mosses and other micro-vegetations develop and quickly degrade the external awnings made of materials that can soak up water. The external awning is subjected to bad weather. In a usual cloth awning subjected to external weather and made of materials, which can be impregnated with water (acrylic, polyester, PVC, polypropylene, etc.), we can see that, not to mention the water that settles between the fibers of the fabric, the material itself constituting the fibers of the shade cloth impregnates water in the liquid state. Water that occupies a very small volume. When the blind is exposed to solar radiation, it heats up. The water that has penetrated to the heart of the material constituting the fibers of the cloth passes abruptly from the liquid state to the gaseous state and undergoes a sudden increase in volume. This brutal increase in volume is a real explosion in the heart of the fiber material of the canvas. Thus, the matter is disintegrated from within, dislocated in its deepest intimacy by these explosions occurring at the moment when the water passes from its liquid state to its gaseous state. > g / The awning is exposed to the weather. The usual cloth blinds let in the water and are not waterproof, so that these blinds, do not provide users with blinds protection against rain always expected, and let the dirt deposited on their upper surface. Hl The awning is exposed to the heat of the sun. The usual fabric blinds are made of a plastic that softens in the sun and distends itself. The system according to the invention makes it possible to overcome the drawbacks of current systems intended to protect all surfaces from the sun, and particularly, overheating due to the greenhouse effect, verandahs and glazed spaces exposed to the sun.

It has the following characteristics: It is, in fact, consists of an outer awning in removable fabric that can be deployed or assembled at will. Thus, the user can gather his blind when he wants to see the sun, he can deploy his blind when he wants to be protected. The disadvantage of the opacity of the fixed insulating roof is thus removed. sunblinds .doc - 04/02/2008 14: 34 Page 5 sur 17 The usual sun protection sunscreens are opaque and, while certainly reducing glare, they also reduce brightness and mask vision from the sky. The system according to the invention consists of a flexible surface, so foldable or rollable, which includes microperforations of ophthalmological characteristics that allow the view of the sky, clouds and especially the view of the landscape to pass. Perforations with a diameter of 1 to 1.5 mm spaced from a pitch of 2 to 5 with a range of 1.5 to 4 mm will be used. To obtain the tightness of these blinds despite the perforations, the surface is covered with a continuous transparent film. This film will be in a transparent material resistant to climatic weather, resistant to solar radiation, preferably hydrophobic, anti-electrostatic, anti-adherent and smooth. Fluorinated materials such as vinyl fluorides, among others, exhibit these characteristics. Thus, this cover film will seal the microperforations, protect the material component of the fabric awning unavoidable external fouling and prevent water from entering the material. To prevent the outer awning from absorbing, therefore not re-emitting heat radiation from below, will be placed above, facing the sun a reflective surface so that the solar energy-heat vector radiation is rejected by reflection . In order to obtain a good and durable reflection, this reflecting surface will be composed of a metallized plastic film, for example a film as described in claim 2, but made reflective by vacuum metallization. To increase the reflector properties of the external awning and to ensure that it does not absorb heat from above, and therefore does not re-emit even less heat radiation from below, will be disposed below the first metallized film a surface solid metal reflector that will present a mirror-polished surface. The advantage of installing a solid metal surface is that this solid metal surface will be a total barrier against all radiation, especially ultraviolet radiation. This system of double reflector, one of which is made of solid metal, of which one face is mirror-polished, has the advantage of returning the solar radiation much more, so of little to absorb the solar radiation from above, so to have little of energy-heat to disperse from below, so to have little tendency to heat what is below, including the glass walls of the roofs of verandas and glazed spaces for which a solar thermal protection is expected. This principle of double reflectors can be amplified by arranging several reflective surfaces, mono or bifaces, separated by transparent surfaces of different optical characteristics (fig. 04/02/2008 14: 34 Page 6 sur 17). polyethylene, polyester, and others, possibly of different colors) so as to decoherence the physical organization of incident electromagnetic waves. The use of a solid metal film also offers very interesting benefits not to say essential, in that they make the blind completely waterproof to all forms of moisture. Indeed, the water meeting a completely sealed surface is physically unable to penetrate the material with all the disadvantages mentioned above, especially when the solid metal sheet is covered with a waterproof film and hydrophobic. The thermal efficiency of the blind will be enhanced when we remember that water is a black body that absorbs all the infrared. Thus, a mirror surface covered with a film of water will behave like a mirror painted black.

In addition, the use of a sheet of solid metal prohibits any presence of moisture and thus prevents the proliferation of plant or animal micro-organisms that degrade all blinds after some time, especially when the awnings are wet rolled, but also the interior blinds made humid by condensation. Another major disadvantage of the current blinds found after a few seasons is that the material constituting the fibers of the fabric softens in the sun and that because of this the fabrics deform, roll poorly, have a deplorable appearance. The fabric according to the system of the invention overcomes this disadvantage. The fabric has for this purpose in its interior a reinforcement mesh made of glass son, because the glass does not soften to heat. In addition, this glass mesh will be thick enough to cause surface thickness that will prevent the upper surface and the bottom surface of the wound web do not touch, which prevents the water to evacuate when the blind is wound wet. Another major disadvantage of current blinds is that their back is emissive infrared radiation, gold back is precisely directed to the surface to protect the sun. The system according to the invention overcomes this disadvantage. It has indeed a first feature: an outer surface facing the ground that will be light and bluish color because it is known that light colors emit less thermal radiation than dark surfaces. It will be colored pulling towards the awning of the blue conservatories because we know that the blue causes less the sensation of heat than the color drawing towards the red. According to another claim, the material constituting the visible wall of the blind from below will be hydrophobic and smooth material. Our research and studies have, in fact, learned that water is a black body that absorbs all the infrared, but also emits the maximum of infrared all things being equal. Consequently, according to the particular embodiment, the bottom wall of the blind will be hydrophobic material, polypropylene for example, or any other hydrophobic polyalkene. In addition, the wall constituting the underside of the blind will, according to the invention, completely smooth.

Indeed, a smooth wall has less emissive surface than a woven wall for example; or the radiative energy emitted by a surface is proportional to the surface of the transmitter. Thus the underside of the blind will have less emission surface and its surface will be less emissive. In any case, and to be even more effective than the simple canvases constituting all the current blinds, the solar heat protection system according to the invention, will advantageously implement the principle of polystrated thin reflective insulation consisting of a succession reflective films metallized preferably on their two surfaces separated from each other by nets with large mesh, these nets having the sole purpose of creating an air gap requiring energy-heat to be transmitted by radiation induction. These nets will advantageously made of easily fusible material, which will allow by applying to the outside a heating pressure to adhere the different layers together at selected locations. The system according to the invention also has the following characteristics: all users are tired of the usual awning stripes usual or sad 25 plain colors constituting the collection of current blinds. The system according to the invention overcomes this drawback: the blind comprises, in fact, according to an essential characteristic, from below, apparent, and visible by the user, any desired decorations, such that they can be obtained by printing, screen printing and all methods of reproduction. This system according to the invention also has the following characteristics: like all external blinds, it is subject to the disadvantage always crippling in the regions a little bit windy to be subject to the wind that requires current suppliers to ask that the blind is folded as soon as the wind exceeds 30 km / hour. It is not allowed by the owners of enclosed glazed spaces not to be able to fully use this space only when there is no wind. The system according to the invention overcomes this drawback: it comprises according to an innovative characteristic a totally transparent mesh which is installed above the shade cloth. This network mesh consists of custom cables or a woven net, is stowed alongside the cover of the glazed space, the veranda.

Thus, when a flurry of wind projects the blind to the ground, the blind immediately meets the roof of the veranda or the glass space and thus sees its stroke instantly blocked before the slightest effort is transmitted to the carrier mechanism. The mesh of this network will be large enough not to hold the leaves, 10 and not be too visible. A step of 50 cm to 1 meter is satisfactory without these dimensions being limiting of this patent. The materials constituting this network will withstand direct and reflected solar radiation, withstand all climatic aggressions and will be in a material not likely to shear the fabric of the awning by the friction imposed by the 15 beats of the wind. A stainless steel cable covered with a sliding material and resistant to the sun is recommended. Similarly, when a wind squall wants to drive the blind to the sky, the blind immediately meets the network mesh and thus sees its stroke instantly blocked before the slightest effort is transmitted to the carrier mechanism. 20 This mesh may consist of a large mesh net that will be stowed either on the sides of the glass surface above which is installed the blind, or stowed to any support specifically installed to carry, to hold the blind from above and take charge of the forces imposed on the awning by the wind. This mesh may consist of a network of cables installed either parallel in one direction, or preferably, installed in a crossed network. These cables can advantageously be carried directly by the system of slides that will be installed on each side of the blind and in which will move the load bar of the blind. These cables may be carried by a standard profile (a T-bar trade 30 for example) or specific. This profile will be studied to be attached either on the sides or above the beams constituting the edges of the roof, or above the lateral rafters ending the glass surface. This profile for holding the cables may be fixed above the top of the rafters carrying the glazing. In an elaborate version will be built above the veranda a double frame 35 which will include a bar intended to carry the cables to hold the fabric in its blinds thermal protections of the verandas .doc -04/02/2008 14: 34 Page 9 sur 17 movements upwards, and another bar intended to carry the cables intended to support the canvas in its movements towards the ground. These cables will also serve as a buffer to prevent the blind mechanism from bumping against the roof of the veranda, which causes intolerable noise.

This profile will be of such a design that it will allow a free circulation of the outside air between the top of the roof and the bottom of the blind, which will increase the effectiveness of the blind by allowing the evacuation of the little heat absorbed by the awning. In an improved version, and intended for very windy and very sunny regions, the awning awning will see its movements to the ground reduced by a carrier network intended to limit its travel to the ground. The advantage of this double upper and lower network is that in addition, almost eliminate the forces to which the bearing mechanism is subjected, this system provides air circulation ensuring better cooling of the curtain awning fabric. air This or these networks will be carried either by a standard section, or preferably by a specific section which will be fixed either on the beams finishing the sides of the glass walls, or on rafters bearing the panes of the transparent wall. In an elaborate version, the specific profile will provide an air gap ensuring the convection of air below the blind. - allow the network to be fixed at the same time from below and above. will be fixed either on the beams ending the sides of the glass wall, or on the rails holding the load bar of the blind, or by taking on the rafters with the glass walls, for example by wedging these rafters between the two parts of this specific profile.

In an ultra simplified version and therefore more economical and adapted to the most common aluminum verandas simply fix a kind of rider who will be installed straddling above the top of the vertical part of the profiles that serve as usual chevrons and who carry the transparent plates constituting the cover of the verandas.

These riders will have a length of about 30 to 50 mm. The legs of these riders will descend about 15 to 30 mm from each side of the top of the rafter profile. Each leg of these riders will be pierced with 2 holes, these 2 holes will be arranged opposite each other so that we can pass a screw head from one hole to another through the two legs . If you drill the rafter profile of the conservatory thermal protector of the verandas .doc - 04102/2008 14: 34 Page 10 of 17 veranda of two holes located just opposite the holes drilled in the legs of the riders, it will be easy to fix energetically our riders on the rafters by introducing, in each drilling, bolts of adapted lengths which will come energetically tighten the legs of our riders on the flanks of the profiled serving chevron carrier. To fix the cables of the upper network and the internal network intended to limit the deflections of the blinds one will fix on bolts plates with a width of 50 mm for example corresponding to the length of the jumpers 50 mm for example. These plates will have a length corresponding to the space that one wants to constitute between the two networks of cables. Each plate will be pierced with two holes separated from the space between the holes drilled in the legs of the riders. Each plate can be firmly attached to the riders and starting on the rafters. Each plate will also be pierced with two additional holes. The first of these 15 additional holes, so the third, will be located in the center of the plate according to the width and about 10 to 15 mm above the top of the rafters. In this 3rd hole we will pass the cable of the lower network. This lower network of cables will have the role of receiving the downward movements of the shaking fabric down, and mainly to come receive the deflections of the bar 20 load, so that the load bar will not come bang loudly on the roof of the veranda. Still at the center of this plate according to the width, but at a distance above the third hole, a fourth hole will be drilled to receive the upper cable of the network, cable to limit upward the deflections imposed on the blind by the 25th. wind. The distance between the third and the fourth hole will be the distance set for maximum vertical travel of the blind. This network of cables will be stretched between a series of plate riders installed above the rafters at the base of the roof and another series of plate riders installed above the rafters but at the top of the roof.

If it is also desired to form a network of cables perpendicular to the rafters, it will be easy to replace the plates with tees of the same width and to pierce the 3rd and 4th holes in the branch of the tee while the first two holes will be drilled. in the flat of the Té store thermal protections of the verandas .doc - 04/02/2008 14: 34 Page 11 sur 17 These riders will be installed at the desired place without difficulty, by simply sliding the jumper on the chevron. It will thus be possible to arrange the meshes of the network diagonally if desired. 10 15 20 25 30 35 store thermal protections for verandas .doc - 04/02/2008 14: 34

Claims (1)

1 / System of external protections against the sun, particularly glazed spaces, consisting of a removable awning by winding or folding, characterized in that the awning fabric comprises microperforations characteristics such that allow to pass the amount of light avoiding users to be immersed in the shadow without being dazzled, but that these microperforations also allow the user's vision to perceive the sky and clouds, to see the entire landscape without it is distorted. This perforation is calibrated so as to reduce the brightness measured at the luxmeter between 85 and 95% with a perforation diameter del to 1.5mm and a spacing of the perforations from a step of 2 to 5 with an interval of 1.5 to 4 mm. 21 system of external protections against the sun, particularly glazed spaces, according to claim 1 /, characterized in that the perforation of the fabric is covered by a continuous transparent and smooth film, hydrophobic fluorinated material, surface tension such that the water collects in non-contiguous droplets, so that the watertightness is ensured on the surface and that the water can not penetrate into the heart of the material, does not retain the soils and prohibits any penetration of water in the material of the outer awning fabric subjected to the weather but especially that is not degraded by the solar radiation and the bad weather and by all other aggressions such as sea salt. 3 / System of external protections against the sun, particularly the glazed spaces, according to claims 1 / and 2 / above, characterized in that the transparent and smooth transparent film, made of fluorinated material intended to ensure The seal described in claim 2 is itself reflective of solar radiation by metallization on its inner surface. 4 / System of external protections against the sun, particularly glazed spaces, according to claims 1 / + 2 / + 3 / previous, characterized in that the outer blind externally comprises a metallized sheet or metallic reflective mirror-mirror which reflective sheet will be protected from corrosion by one or more films located above or any other means. 5 / System of external protections against the sun, particularly glazed spaces, according to claims 1l + 2 / + 3 / + 4 / previous, characterized in that the outer blind is more reflective and internally comprises a sheet of metal store thermal protections verandas .doc -04/02/2008 14: 34Page 13 of 17 Solid reflector protected against corrosion by a transparent hydrophobic and anti-corrosion film. 6 / System of external protection against the sun, particularly glazed spaces, according to claims 1 / + 2 / + 3 / + 41 + 5 / previous, characterized in that the outer blind is more reflective and less heat transmitter and for this internally comprises several layers composed of a reflective film, preferably biface, separated by transparent material films of different optical characteristics, these films can be replaced by products constituting transparent spaces (grids, nets, meshes, etc.). ..) so that the thermal energy incident from above the blind is not transmitted to the back of the blind to ensure the protection of what is located below or behind. 7 / system of external protections against the sun, particularly glazed spaces, according to claims 1 + 2 / + 3 / + 4 / + 5 / + 6 / previous, characterized with respect to the interior of the awning fabric is a polystrated reflective thin insulation consisting of a series of reflective metallized films, separated from each other by nets and characterized in that these nets are made of easily fusible material, which makes it possible to adhere the various components to each other only in certain places , punctual or continuous, on which is applied a heating pressure that will melt the net and cause the adhesion of the various components together. 8 / System of external protections against the sun, particularly glazed spaces, according to claims 1 / + 2 / + 3 / + 41 + 5 / + 6 / + 7 / previous, characterized in that the outer blind has internally a sheet of solid metal which prohibits any penetration of any form of moisture and thus avoids the phenomenon of explosion of water molecules instantly passing from the liquid state to the gaseous state as soon as the blind is subjected to the sun, sheet of metal that will also prohibit the proliferation of microorganisms. 91 System for external protection against the sun, particularly glazed spaces, according to claims 1 / + 21 + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / previous, characterized in that the awning exposed to the sun comprises a reinforcement mesh made of non-softening material in the sun, for example a reinforcing grid made of glass son. 10 / system of external protections against the sun, particularly glazed spaces, according to claims I / + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / previous, characterized in that the blind exposed to the sun has in its interior a net, a mesh whose son will have a diameter such that the wires will be outside the awnings thermal protections of the verandas .doc - 04/02/2008 14: 34Page 14 sur 17 overthicknesses which will create spaces to allow water to drain when the blinds are wet. 11 / system of external protections against the sun, particularly glazed spaces, according to claims 1 / + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / + 10 / previous, characterized in that the sun-exposed blind has a surface directed towards the ground whose radiative thermal emissivity characteristics are reduced to a minimum. For this purpose, the apparent color will be as clear as possible. the apparent color will be bluish rather than reddish. - The apparent surface from below will be in hydrophobic material to avoid the presence of water which is a black body. The apparent surface will be as smooth as possible so as to reduce the surface of heat emission. 12 / System of external protections against the sun, particularly glazed spaces, according to the claims I / + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / + 10 + 11 / previous , characterized in that the sun-exposed blind has a surface directed towards the ground which can be decorated by any means of reproduction: printing, screen printing, reprography and even manual artistic creations. 13 / System of external protections against the sun, particularly the glazed spaces, according to the claims II + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / + 10 / + 11 / + 12 / previous, characterized in that the outer blind sees its movements imposed by the wind limited either by a mesh net or a network of cables carried by profiles. 14 / System of external protections against the sun, particularly the glazed spaces, according to the claims 1 / + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / + 10 / + 11 / + 12 / + 13 / previous, characterized in that the movements to the top of the blind, imposed by the wind are limited by a net mesh very large mesh, which net is carried by a specific profile. This net system is intended to reduce the forces imposed by the wind to the carrying mechanism of the blind. 15 / System of external protections against the sun, particularly the glazed spaces, according to the claims 1 / + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / + 10 / + 11 / + 12 / + 13 / + 14 / previous, characterized in that the movements of the awning upwards and also towards the ground, displacements imposed by the wind are limited by a mesh, by a network of cables, which cables are installed at above and below the blind and carried by a specific profile. sunblinds of verandas .doc - 04/02/2008 14: 34Page 15 of 17 16 / System of external protection against the sun, particularly the glazed spaces, according to the claims 1 / + 2 / + 3 / + 4 / + 5 / + 6 / + 7 / + 8 / + 9 / +10 / + 11 / + 12 / + 131 + 141 + 15 / previous, characterized in that the movements of the awning imposed by the wind are limited by a network or a mesh, and that these cables or this mesh have the following characteristics: this support network allows air circulation below the blind and between the blind and the glass wall. This support network has sufficient mesh to not retain the inevitable leaves and other dirt, with a pitch of 50 cm to 1 meter. This support network is made of materials compatible with the awning fabric, materials that are not likely, in particular, to shear the awning fabric by abrasion due to the alternating movements imposed by the wind beats. This network is made of materials resistant to the attacks of solar radiation and climatic aggressions. This network may consist of stainless steel cables covered with smooth plastic, resistant to climatic and radiative aggressions. 17 / system of external protections against the sun, particularly the glazed spaces, according to the claims 1 / + 2 / + 3 / + 4 / + 5 / +6 1+ 7 / + 8 / + 9 / + 10 / + 11 / + 12 / + 20 13 / + 14 / + 15 / + 16 / previous, characterized in that the movements of the awning imposed by the wind are limited by a network or a mesh, and that these cables or these meshes are fixed to the transparent roof either using an existing metal profile (a T-section, a flat, an L-shaped section, etc.) which profile will be fixed either on the beams bordering the glazed roof, or fixed by taking on the ends of the 25 chevrons holding the transparent walls, is fixed by taking on the rails holding the load bar of the blind. This standard section will be regularly pierced with holes arranged so as to constitute the grid mesh step. 181 System of external sun protection, particularly glazed spaces, according to claims 1 / + 2 / + 3 / + 4 / + 5 / + 6 1+ 7 / + 8 / + 9 / + 10 / + 11 / + 12 / + 30 131 + 141 + 15 / +161 + 17 / according to the preceding claims, characterized in that the movements of the awning imposed by the wind are limited by a network or a mesh and that these cables or this mesh are fixed to the transparent roof using a specific metal section, which profile will be fixed either on the beams bordering the glazed roof, or fixed by taking on the ends of the rafters holding the transparent walls, or fixed by taking on the rails holding at the bar load of the awnings of the conservatories .doc - 04/02/2008 14: 34Page 16 on 17 store. This specific section will be regularly pierced with holes arranged so as to constitute the mesh step of the network. This specific profile will furthermore have the following characteristics: it will provide an air gap allowing an air flow below the blind, the air space having a thickness of 3 to 10 cm. > It will allow the fixing of a mesh, a network at the same time below and above the blind. > It can be fixed either at the top or on the sides of the beams finishing the sides of the transparent roofs. 10> It will have a U-shape, or a T-shaped, so as to be fixed either above or on the sides of the rafters that carry the windows constituting the transparent wall. it will be composed of a double section with a T-shape, so that it can be fixed on each side of the rafters and be tight, with exact dimensions and 15 energetically without any risk of play, by a simple bolt with nut. 191 system of external protection against the sun, particularly glazed spaces, according to the preceding claims, characterized in that it comprises above the roof a double frame for holding a double network of son. One of these networks will be placed above the fabric of the blind to limit upward the 20 deflections imposed by the wind. Another of these networks will be placed below the fabric of the blind to limit downward the deflections imposed by the wind. 20 / System of external protection against the sun, particularly glazed spaces, according to the preceding claims, characterized in that it consists of a thin polystrate reflective insulator mounted on a mechanism allowing horizontal movement and whose vertical displacements imposed by the wind are limited by a mesh network cable retained by profiles fixed on the structure of the transparent roof of the veranda. 211 system of external protection against the sun, particularly the glazed spaces, according to the preceding claims, characterized in that the interior of the awning fabric is a thin reflective polystrate insulation consisting of a succession of reflective metallized films preferably bifaces , separated from each other by spacers made of network meshes or a thin mattress intended to create just an air gap between the non-emitting reflective surfaces forcing the heat energy to be transmitted by radiation induction. blinds thermal protections of the verandas .doc - 04/02/2008 14: 34