EP4148202A1 - Pergola mit verbessertem schutz gegen das eindringen von wasser und/oder wind, die geeignet ist, um licht in den von der pergola geschützten raum zu lenken - Google Patents

Pergola mit verbessertem schutz gegen das eindringen von wasser und/oder wind, die geeignet ist, um licht in den von der pergola geschützten raum zu lenken Download PDF

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Publication number
EP4148202A1
EP4148202A1 EP22191895.6A EP22191895A EP4148202A1 EP 4148202 A1 EP4148202 A1 EP 4148202A1 EP 22191895 A EP22191895 A EP 22191895A EP 4148202 A1 EP4148202 A1 EP 4148202A1
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EP
European Patent Office
Prior art keywords
pergola
gutter
frame
slats
blades
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP22191895.6A
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English (en)
French (fr)
Inventor
Alain Peuchot
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Peuchot Alainfr
Original Assignee
Peuchot Alainfr
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Filing date
Publication date
Application filed by Peuchot Alainfr filed Critical Peuchot Alainfr
Publication of EP4148202A1 publication Critical patent/EP4148202A1/de
Withdrawn legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F10/00Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins
    • E04F10/08Sunshades, e.g. Florentine blinds or jalousies; Outside screens; Awnings or baldachins of a plurality of similar rigid parts, e.g. slabs, lamellae

Definitions

  • the invention relates to a pergola, comprising a slatted roof, consisting of several slats arranged parallel to each other in a frame.
  • the frame is usually rectangular in shape.
  • the slats are arranged in the frame so that they can rotate around their respective axes of rotation, between an open position, in which a space between the slats extends, and a closed position, in which the slats together form a closed roof .
  • Pergolas with a rotating louvered roof described above are generally used to protect an outdoor area, such as a terrace or veranda.
  • the louvered roof can be used as sun protection to prevent too much sun from entering the covered area.
  • the louvered roof can also be used as a rain cover to keep the covered space dry.
  • the blades can be rotated about respective axes of rotation such that a user can adjust the amount of sunlight entering the enclosure by rotating the blades between their open and closed positions.
  • rotating the louvers adjusts the amount of ventilation under the louvered roof.
  • the slats In the closed position, the slats form a waterproof and airtight roof. Precipitation falling on the slats in the closed position is evacuated by the slats into a side gutter.
  • This gutter is mainly perpendicular to the longitudinal direction of the blades. Through this gutter, precipitation is transported to a drain.
  • This drain is, for example, in the form of a tube placed in the support of the frame. If the frame is placed on legs, the drain can be installed in one of these legs.
  • louvered roofs used in the state of the art do not offer optimum protection against bad weather and wind.
  • the first reason is that, in order for the blades to be able to rotate around their respective axes of rotation, a certain space must always remain open between the ends of the blades and the frame in which the blades are fixed. This space is not waterproof and windproof and can therefore let water and wind through.
  • a second reason is the fact that, in order to be able to rotate the blades above the side gutter, the blades are placed at a certain vertical distance above this gutter.
  • the side gutter is essentially L-shaped, with an outer vertical wall extending downward from the frame, a horizontal wall of sufficient length to extend under the space between the frame and the ends of the slats and finally an inner vertical wall extending upwards from the inner end of the horizontal wall. In this way, an open gutter is formed high enough on both sides to drain precipitation.
  • the international patent application WO2014/136095 describes a slatted roof in which each of the slats is provided with a protective flap at its respective end.
  • This protective shutter is made of a flexible material and, in the closed position of the slats, it bridges the distance between the ends of the slats and the frame. The shutter comes out of the end of the slats and is pressed against the frame with some force.
  • a first drawback of this solution is the fact that the protective flaps are placed at a vertical distance from the side gutter. This means that water falling from the protective flaps can still, for example under the influence of the wind, fall next to the side gutter. In addition, water falling from the protective shutters can splash water that is already in the gutter.
  • the bridging between the frame and the slat ends only works in the fully closed position of the slatted roof. In the open position, the protective shutters do not contribute to the protection against excessive wind which can seep under the louvered roof.
  • a related problem is that the force with which the flaps press against the frame is difficult to control. If this force is not large enough, the flaps are no longer airtight; if the force is too large, it becomes difficult to rotate the blades.
  • the European patent EP 3,368,726 describes a rain cover for slatted roofs in which a single long protective flap is attached to the end of the respective slats.
  • the protective flap bridges the distance between the end of the blades and the frame.
  • the protective flap starts from the end of the slats and presses against the frame with a certain force.
  • the solution according to EP 3,368,726 present, with respect to the solution according to WO2014/136095 described above, the advantage that the shutter closes the space between the slats and the frame in all positions of the slats.
  • the solution according to EP 3,368,726 has all the other disadvantages of the solution according to WO2014/136095 described above.
  • an object of the invention is to provide a pergola with an improved louvered roof which guarantees better protection against the incursion of wind and precipitation.
  • Another object of the invention is to provide a pergola with a louvered roof where protection against precipitation and wind also has a function of lighting the space under the louvered roof.
  • the object of the invention comprises a pergola with a slatted roof comprising a frame in which slats are arranged essentially in parallel, each of which can be rotated around its longitudinal axis between a closed position, so as to form a closed roof, and an open position to allow light and air to pass between the slats,
  • the pergola is provided with a gutter for the collection and evacuation of rainwater, in which the gutter extends, in the position of use of the pergola, under the ends of the slats and covers the space between the frame and the said ends of the slats between a first end of the gutter connected to the frame up to a second end from the gutter suspended below the slats and in which the pergola has a protective plate to guide rainwater falling between the end of the slats and the frame towards the gutter, in which the protective plate extends from r from a first end which is hingedly connected to the second end of the gutter to a second end which is adapted to be pressed against the underside
  • the protection plate is provided at its first end with a spherical element and in which the suspended second end of the gutter is provided with a bowl-shaped fixing element adapted to form a ball joint with the spherical element of the protection plate.
  • the protection plate is provided, at its second end, with a contact element comprising a flexible material, the contact element being adapted to come into contact with the lower end of the blades.
  • the protection plate is provided, at its second end, with a clamping element comprising a channel for receiving the contact element.
  • the pergola is provided with a light source, such as a light source in the form of one or more LEDs, in which the light source is fixed to the second hanging end of the gutter in such a way that at least part of the light emitted by the light source is directed with the aid of the protective plate towards the space under the louvered roof in the position of use of the pergola.
  • a light source such as a light source in the form of one or more LEDs
  • the pergola according to the invention is a pergola in which the suspended second end of the gutter is provided with a space intended to receive a light source, such as one or more LEDs.
  • the face of the protection plate (200) facing the light source (260) is provided with a reflective coating.
  • FIG 1 shows a perspective view of a pergola 100 according to the prior art.
  • the pergola 100 comprises a frame provided with four beams 101, 102, 103, 104.
  • the assembly made up of the beams 101, 102, 103, 104 forms a frame 110 of rectangular shape.
  • the beams 101, 102 are positioned parallel in the longitudinal direction of said frame 110.
  • the beams 103, 104 are, for their part, positioned parallel in the transverse direction of said frame 110.
  • the frame 110 is supported by four posts 111, 112, 113, 114.
  • the frame 110 can be fixed against a support such as a wall. In this specific case, at least one of the posts 111, 112, 113, 114 can be deleted.
  • a plurality of slats 120 are positioned within frame 110. A more detailed view of said slats is provided using the figure 3 , 4 , 5 And 6 .
  • the pergola 100 according to the figure 1 shows at least two blades 120 provided with photovoltaic sensors 130, said sensors being adapted to produce a determined quantity of electrical energy.
  • the 100 pergola as shown in the figure 1 shows post 111 in a partially open position.
  • the post 111 can be closed off, for example using a cover (not visible on the figure 1 ).
  • a regulator/charger 131, batteries 132 and, optionally, an inverter 133 are installed inside the pole 111.
  • the use of an inverter 133 is necessary if the energy obtained using a photovoltaic panel 130 is used to operate the electric motor of a vertical solar protection blind. In this specific case, the inverter 133 transforms the current of 24 volts into a current of 220 volts.
  • the devices 131, 132, 133 are connected to the photovoltaic sensors 130 in order to allow the production and storage of a determined quantity of electrical energy in the batteries 132.
  • the pole 111 can also be connected to an electrical network to allow the use of the energy stored in the batteries 132 or else the use of the energy supplied by the electrical network. In the case where the pole is connected to an electrical network, the presence of the devices 131, 132, 133 is optional.
  • the pergola 100 can be provided with one or more sockets, installed inside the post 111, in order to allow the use of the electrical energy produced by the photovoltaic sensors 130.
  • the electrical socket installed within of the pergola 100 can be a USB-type socket, making it possible to recharge an additional device such as a mobile phone.
  • the pergola 100 can be provided with a 220 volt type socket allowing the connection of said pergola 100 to the electrical network. This connection allows the use either of the electrical network or of the energy stored in the batteries 132 of the pergola 100 to supply, for example, a light source such as an integral light of the LED type, or even for the use of an electric motor allowing the movement of the blades 120. More particularly in the case where the battery 132 shows signs of weakness.
  • the option to connect the pergola 100 to the electrical network is of particular interest, especially in the case where said pergola 100 is used as an independent entity or in the case where the user wishes to use electrical energy to operate elements of said pergola 100.
  • the 100 pergola as shown on the figure 1 is specifically adapted to protect a space located below the frame 110 of said pergola 100.
  • the slats 120 are fixed inside the frame 110 in order to allow their rotation around their transverse axis.
  • the blades can move, from an open position, as shown in the figure 1 , to a closed position as shown in the figure 6 .
  • the various slats 120 form a single element closing off the interior of the frame 110.
  • the slats 120 together form a closed roof suitable for protecting the space below said frame 110 against the hazards climatic conditions, including rain, wind and sun.
  • the blades 120 can pivot from the closed position, as shown in the figure 6 , around their respective axes of rotation, to an open position by means of displacement means comprising an electric motor.
  • This rotation of the slats 120 makes it possible to create an opening between the different slats 120.
  • This opening makes it possible to determine the quantity of light which can pass between the slats 120 and thus makes it possible to adapt the desired level of brightness within the protected space. located under frame 110.
  • FIG. 1 shows a sectional view of a profile 10 used to form the beams 101, 102, 103, 104 of the frame 110 of the pergola 100.
  • the terms "outer wall” refer to the wall forming the outer circumference of the frame 110.
  • the second leg 2 of the profile 10 is adapted to form the lower wall of the frame 110 after assembly.
  • the profile 10 is a hollow body provided, in its interior, with several open or closed chambers.
  • the profile 10 can be made, for example, of aluminum obtained using an extrusion process.
  • the first leg 1 of the profile 10 comprises a first closed chamber 4.
  • the chamber 4 offers several functions. First of all, thanks to its rectangular shape, said first chamber 4 can provide a certain determined rigidity to the profile 10 which can thus provide a beam function between two respective supports. Furthermore, the first chamber 4 also provides a relatively rigid connection between the first leg 1 and the second leg 2 of the section 10. In addition, the first chamber 4 is adapted to receive within it fixing means making it possible to fix the end of a first beam at the end of a second adjacent beam.
  • the first leg 1 is provided with a second closed chamber 9, said second chamber 9 being positioned adjacent to the first chamber 4, thus increasing the rigidity of the first leg 1, optimizing the functions of the profile 10, in particular the function of effective beam and bridge between the respective supports.
  • the inner wall 6 of the second chamber 9, that is to say the wall which, in its assembled position, is directed towards the inside of the frame 110, is suitable for removable fixing of the different axes of rotation of the blades 120 on the frame 110. Said connection is represented in more detail on the figure 3 And 4 .
  • the second chamber 9 also has the function of housing an operating cylinder (not shown in the figures) used to move the blades 120 from their closed position to their open position.
  • the first leg 1 is also provided with an open chamber 7, the terms "open chamber” referring to the place where at least one of the walls is provided with an opening 8 allowing access to the interior of said open chamber 7.
  • the open chamber 7 is particularly suitable for receiving, on the one hand, electric cables and, on the other hand, cables which must be guided from one side of a beam to the opposite side of said beam.
  • the opening 8 can be closed with the aid of a plastic element in order to protect said cables against possible bad weather, in particular the runoff of water. water inside said open chamber 7 in case of rain.
  • the presence of the open chamber 7 is of particular importance because it avoids the use of additional parts, such as guides or any other similar element, necessary to guide the various cables inside the frame 110 of the pergola 100.
  • the open chamber 7 acts as a general single guide and does not require any special handling.
  • the second leg 2 of the profile 10 is provided with a third closed chamber 21, located between two parallel walls 22, 23, the wall 23 forming the lower wall of the profile 10 after its assembly to form the frame 110.
  • the wall 23, forming the lower wall of the frame 110 can be pierced in order to allow the attachment of an accessory, for example, without compromising the tightness of the upper wall 22. Even if the wall 23 has an orifice, the tightness of the profile 10 and in particular of the second leg 2 is ensured by the presence of the wall 22. This feature is important because the second leg 2 of the profile 10 forms a gutter 25 to receive rainwater and drain this rainwater to a drain that is intended for this purpose.
  • FIG. 2 shows that the end of the leg 2 is provided with a space 24 particularly suitable for receiving a light device.
  • Said space 24 being able to be provided with a strip of light-emitting diodes (LED) (see also the figure 7 And 8 ).
  • LED light-emitting diodes
  • the light device present within the space 24 can be connected to the batteries 132, that is to say that it can be powered by the photovoltaic sensors 130.
  • said luminous device can be connected, according to the preference of the user, either to the network or to the batteries 132.
  • FIG. 3 represents a perspective view of the profile 10 of the pergola 100.
  • a first end of the slats 120 is connected to the wall 6 of the second closed chamber 9.
  • each of said slats 120 is connected, via its ends, to an end piece .
  • said end pieces located at the two ends of the blades 120 are different.
  • the blades 120 are connected, at their first end, to an end piece 160 comprising several elements.
  • Said end piece 160 is provided with a shaft 161 adapted to enter inside the second closed chamber 9.
  • the end piece 160 is provided with a fixing element 162 allowing it to be fixed on a traction bar 170.
  • the fixing of the fixing element 162 on the traction bar 170 allows the rotation of one relative to the other.
  • Tip 160 is connected to the end of blade 120 with end piece 168.
  • the blades 120 are provided, at their second end, with a tip 180 itself provided with an axis 181 adapted to enter inside the second closed chamber 9 of the section 10 on which said second end is fixed.
  • the tip 180 is connected to the end of the blade 120 using a final element 168.
  • the tip 180 differs from the tip 160 in that it is not provided with means allowing connect it to the pull-up bar 170.
  • the length of the blades 120 is adapted to fill, in an optimal way, the distance between the two beams 103, 104 according to a transverse direction of the frame 110 (as shown on the figure 1 ).
  • the distance between the end of the axis 161 of the endpiece 160 and the end of the axis 181 of the endpiece 180 is adapted to be longer than the distance between the interior walls 6 of the second chamber 9 and , respectively, the beams 103, 104.
  • a first end of one of the axes 180, 181 is first inserted inside a hole provided for this purpose on the wall of the one of the beams 103, 104.
  • the opposite end When this first end is completely inserted into this orifice, the opposite end is positioned at the entrance to the opposite orifice of one of the opposite beams to allow the introduction of said opposite end of the second axis.
  • the final position is determined using spacer rings 165. Said spacer rings are intended to determine the final distance between the end of the respective end pieces 160, 180 and the inner walls 6 of the sections 10 on which the blades 120 are fixed. It should be noted that the end pieces 160, 180 are located, in their assembled position, above the second arm 2 of the profile 10 on which the blades 120 are fixed.
  • the end elements 168 of the end caps 160, 180 are provided with a teardrop-shaped lower end 169. This shape facilitates the evacuation of water from said end pieces 160, 180 towards the gutter 25 formed by the upper part of the second leg 2 of the profile 10.
  • drawbar 170 is connected to a drive device such as an electric motor.
  • THE figure 5 And 6 show a detailed view of one embodiment of a blade 120.
  • the blades 120 provided with a hollow body obtained, for example, through an extrusion process, can be made using different types of materials like metal, such as aluminum.
  • the blades 120 are products of constant section and can be cut to lengths determined according to the needs of the user.
  • the first end 125 of a first blade 120 is adapted to cooperate with the second end 126 of a second adjacent blade 120.
  • the slats 120 are shaped to allow the lower portions of the slats 120 to form smooth features when adjacent slats are in a closed position (as shown in figure 6 ).
  • first end 125 of the blades 120 is in contact with a surface 127 adapted to receive the end 125 of a blade adjacent.
  • second end 126 of the blades 120 is in contact with a surface 128 adapted to receive the end 126 of an adjacent blade.
  • a detailed view of the contact between the different surfaces is shown on the figure 6 .
  • the blade 120 is provided with a set of lugs determining a fixing 129 making it possible to receive an axis 161, 181 as shown on the figure 4 . Furthermore, the blade 120 is also provided with several screw sockets 121 suitable for receiving and fixing fixing means for fixing the final elements 168 to the ends of the blades 120. As shown in the figure 6 , the blade 120 has, at its upper end, a flat surface 122 particularly suitable for receiving and supporting a photovoltaic cell as shown on the figure 1 .
  • a gasket 123 is provided, said gasket 123 being adapted to come into contact with the surface 124 of an adjacent blade.
  • the seal thus ensures, during normal use, an anti-noise function, that is to say that the set of blades 120 can be moved from an open position to a closed position without that contact between the different blades does not cause any noise pollution.
  • FIG. 6 shows a set of blades 120 in a closed position.
  • the different elements of a 120 blade, as shown in the figure 6 are shown here in a contact position and form a single, sealed surface.
  • FIG 7 shows part of the pergola 100 and in particular the connection between a blade 120 and the profile 10.
  • the pergola 100 is provided with a protective plate 200 according to the invention.
  • the protection plate 200 has the function of improving the reflection of light, as well as the water and wind tightness of the pergola 100.
  • a hinge element 220 is placed at the end of the second leg 2 of the profile 10.
  • the hinge element 220 is illustrated in detail on the figure 9 .
  • the hinge element 220 comprises a first part 221 with two legs 222 and 223.
  • the legs 222 and 223 have a suitable shape such that the hinge element 220 can be snapped or fixed on the profile 10.
  • the first part 221 of the hinge member 220 is connected by a leg 224 to a second bowl-shaped portion 225, this bowl-shaped portion 225 being adapted to function as a ball or ball joint together with a first end of the protection 200.
  • FIG 9 shows an embodiment of a hinge element 220 with a first part 221 specifically adapted for the profile 10. It is possible to adapt the hinge element 220, and in particular said first part 221, to any type of profile, used to form a frame of a pergola. In this way, the protection plate 200 can be mounted on any type of pergola.
  • the 200 protection plate is illustrated in detail on the figure 10 .
  • the protection plate 200 is provided at a first end with a ball-shaped body 201 which is adapted to cooperate with the ball-shaped part 225 of the hinge element to together form the ball joint.
  • the protection plate 200 extends substantially straight to a second end 202. Near the second end 202, the protection plate 200 is provided with a retaining element 203 containing a channel 213. This channel 213 is adapted to receive a contact element 240. As shown by the figure 7 And 8 , the contact element 240 is adapted to be pressed against the surface of the blades 120 using the resilience of a spring 230.
  • the cover plate 200 further includes an L-shaped member 204 and a substantially T-shaped member 205.
  • the L-shaped member 204 forms with the portion of the T-shaped member 205 facing the L-shaped element 204, a space 207 intended to receive a connecting element 250.
  • the connecting element 250 is illustrated in the figure 7 And 8 .
  • the connecting element 250 has the shape of an essentially elongated body capable of ensuring the connection between two adjacent protective plates 200.
  • T-shaped member 205 that faces fastener 203 is used to secure one end of a spring 230, as discussed in detail below.
  • the protection plate 200 is provided with a slight elbow 208. This elbow 208 is used as a stop to determine a maximum rotation of the protection plate 200 with respect to the profile 10.
  • Cover plate 200 can be made of any suitable material, such as plastic or metal.
  • cover plate 200 The use of the cover plate 200, the attachment of the cover plate 200, and the cooperation of the cover plate 200 with the other components of the pergola 100 are described in detail with reference to figure 7 And 8 .
  • FIG. 7 shows part of the pergola 100 with the slats 120 in their closed position.
  • a certain amount of rainwater can fall between the end of the blades 120 and the profile 10.
  • the wind can blow through the same space to below the blades 120.
  • other precipitation for example snow, falls through the same space under the blades 120.
  • Rainwater falling in the form of drops 300 is collected in the gutter 25 of the profile 10 and forms a layer of water 310. This water 310 is evacuated through the channel 25 to a drain.
  • the protection plate 200 is used to make the pergola 100 more waterproof and windproof. As shown in figure 7 , the guard plate 200 is rotatable with the first spherical end 201 in the bowl-shaped portion of the hinge member 220. This rotation allows the guard plate 200 to follow the rotations of the blades 120 and to remain in contact with the blades 120 in each position of the blades 120.
  • the blades 120 are in their closed position. In this position of the blades 120, the protection plate 200 makes an angle of approximately 45° with the normal.
  • the blades are in their open position. In this position of the blades 120, the protection plate 200 is in an essentially horizontal position. As shown in figure 8 , the contact between the elbow 208 of the protection plate 200 and the profile 10 determines the maximum angle of rotation of the protection plate with respect to the profile 10.
  • the protection plate 200 is pressed against the blades 120 by means of the spring 230.
  • This spring 230 has a first end which is fixed on the inner wall 6 of the profile 10.
  • the second end of the spring 230 is fixed on the element 205 essentially T-shape of the protection plate 200.
  • the protection plate 200 is always in contact with the side of the blades 120 facing the protection plate 200.
  • the contact is made with a flexible contact element 240.
  • the presence of the contact element 240 ensures that contact with the protection plate 200 does not damage the blades.
  • the contact element 240 acts as a noise absorber and prevents respective movement of the blades 120 relative to the guard plate 200 from generating unwanted noise.
  • THE figure 7 And 8 show a single spring 230. It should be understood that over the full length of the skid plate 230, a number of springs are used to pull the skid plate 200 against the blades 120. The total elastic force exerted by the springs 230 on the skid plate 200 should be large enough to still push the band against the blades 120, but at the same time the total elastic force should not be so high that the springs 230 could interfere with the normal rotation of the blades 120.
  • the total length of a 100 pergola can reach several meters.
  • the protection plate is shown as a single element. It is possible to use a protective plate 200 along the length of the entire pergola 100, which is made up of separate parts. These parts can be connected together by a connecting element 250. As mentioned below in the description of the figure 10 , the connecting element 250 is fixed between the elements 204 and 205 of the protection plate 200.
  • the technical effect of the protection plate 200 according to the figure 7 And 8 is that the protection plate 200 better protects the space near the connection between the blades 120 and the profile 10 against the penetration of precipitation, in the form, for example, of rain, and/or wind in any what position of the blades 120 between their open and closed positions.
  • hinge element 220 in combination with the spherical end 201 of the protection plate 200 makes the installation of the protection plate 200 on the profile 10 extremely easy and quick.
  • the protection plate 200 In addition to the effect of improving the waterproof and windproofness of the pergola 100, the protection plate 200 also has an effect of illuminating the space under the slats 120.
  • the end of the second arm 2 of the section 10 is provided with a space 24 suitable for fixing a light source, such as a strip of LEDs 260.
  • the LEDs 260 present in the space 24 are positioned in such a way so that the light produced by the LEDs 260 is emitted in the direction of the blades 120.
  • the light emitted by the LEDs 260 is indicated schematically by the reference numeral 270 on the figure 7 .
  • the protection plate 200 is installed next to the LEDs 260 and serves as a reflector to guide the light from the LEDs 260 towards the space located under the blades 120. This is to optimize the reflection of the light 270 against the protection plate 200
  • the protection plate 200 has the advantage of allowing the reflection of the light from the LEDs 260 whatever the position of the protection plate 200.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Emergency Lowering Means (AREA)
  • Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
  • Building Awnings And Sunshades (AREA)
EP22191895.6A 2021-09-08 2022-08-24 Pergola mit verbessertem schutz gegen das eindringen von wasser und/oder wind, die geeignet ist, um licht in den von der pergola geschützten raum zu lenken Withdrawn EP4148202A1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR2109407A FR3126723B1 (fr) 2021-09-08 2021-09-08 Pergola avec protection améliorée contre la pénétration de l'eau et/ou du vent adaptée pour diriger de la lumière vers l’espace protégé par la pergola

Publications (1)

Publication Number Publication Date
EP4148202A1 true EP4148202A1 (de) 2023-03-15

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EP22191895.6A Withdrawn EP4148202A1 (de) 2021-09-08 2022-08-24 Pergola mit verbessertem schutz gegen das eindringen von wasser und/oder wind, die geeignet ist, um licht in den von der pergola geschützten raum zu lenken

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EP (1) EP4148202A1 (de)
FR (1) FR3126723B1 (de)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH662146A5 (en) * 1983-11-24 1987-09-15 Alu System Ag Lamellar roofing means
ITUD20120170A1 (it) * 2012-10-11 2014-04-12 Pratic F Lli Orioli S P A Apparato di protezione solare per esterni
WO2014136095A1 (en) 2013-03-08 2014-09-12 Renson Sunprotection-Screens Nv Lamellar roof
BE1022503B1 (nl) * 2014-11-12 2016-05-12 Brustor, Naamloze Vennootschap Verlichtingsprofiel voor led-strip en zonwering waarin zulk verlichtingsprofiel is toegepast
FR3055637A1 (fr) 2016-09-05 2018-03-09 Henri Peuchot Alain Pergola comprenant au moins un cadre essentiellement rectangulaire et une pluralite de lames
EP3368726A1 (de) 2015-10-26 2018-09-05 Jean-Louis Castel Vorrichtung zum sammeln von regenwasser in einer pergola mit verstellbaren lamellen

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH662146A5 (en) * 1983-11-24 1987-09-15 Alu System Ag Lamellar roofing means
ITUD20120170A1 (it) * 2012-10-11 2014-04-12 Pratic F Lli Orioli S P A Apparato di protezione solare per esterni
WO2014136095A1 (en) 2013-03-08 2014-09-12 Renson Sunprotection-Screens Nv Lamellar roof
BE1022503B1 (nl) * 2014-11-12 2016-05-12 Brustor, Naamloze Vennootschap Verlichtingsprofiel voor led-strip en zonwering waarin zulk verlichtingsprofiel is toegepast
EP3368726A1 (de) 2015-10-26 2018-09-05 Jean-Louis Castel Vorrichtung zum sammeln von regenwasser in einer pergola mit verstellbaren lamellen
FR3055637A1 (fr) 2016-09-05 2018-03-09 Henri Peuchot Alain Pergola comprenant au moins un cadre essentiellement rectangulaire et une pluralite de lames

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FR3126723A1 (fr) 2023-03-10

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