EP4086410A1 - Pool mit einem wasserspeicherfach - Google Patents

Pool mit einem wasserspeicherfach Download PDF

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Publication number
EP4086410A1
EP4086410A1 EP22171447.0A EP22171447A EP4086410A1 EP 4086410 A1 EP4086410 A1 EP 4086410A1 EP 22171447 A EP22171447 A EP 22171447A EP 4086410 A1 EP4086410 A1 EP 4086410A1
Authority
EP
European Patent Office
Prior art keywords
wall
swimming pool
water storage
basin
storage compartment
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.)
Pending
Application number
EP22171447.0A
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English (en)
French (fr)
Inventor
Emmanuel Julliand
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.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP4086410A1 publication Critical patent/EP4086410A1/de
Pending legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H4/00Swimming or splash baths or pools
    • E04H4/0075Swimming or splash baths or pools made of concrete
    • E04H4/0093Swimming or splash baths or pools made of concrete with walls and floor prefabricated
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H4/00Swimming or splash baths or pools
    • E04H4/0018Easily movable or transportable swimming pools
    • E04H4/0043Easily movable or transportable swimming pools mainly made of panels
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H4/00Swimming or splash baths or pools
    • E04H4/0075Swimming or splash baths or pools made of concrete

Definitions

  • the present invention relates to a swimming pool comprising several construction modules delimiting the interior volume of the basin of said swimming pool and a water filtration system.
  • the pool can be a traditional pool or an infinity pool.
  • Many parameters such as the water level and its temperature for example, are caused to fluctuate in a swimming pool during its use. These parameters depend, among other things, on the number of bathers, their activities within the enclosure of the pool and the environment outside the pool. Natural incidents such as evaporation or rain, particularly in the case of an outdoor swimming pool, can have a strong impact on the fluctuation of these parameters. It is therefore generally preferable to regularly check these parameters and adjust them if necessary.
  • the maintenance of a swimming pool requires a significant consumption of water and other resources. Maintaining the water level and/or its temperature at a predetermined value involves increased monitoring of the quantity of water in the basin. Top-ups of clean water are generally necessary to counterbalance the inevitable losses generated by evaporation and by the activities of bathers inside the basin (diving, splashing, etc.). Although it is possible to use systems making it possible to treat the water already used, such as filtration circuits, a non-negligible waste of water is generally observed.
  • An object of the present invention is to at least partially solve a drawback of the state of the art.
  • the subject of the invention is a swimming pool comprising several construction modules delimiting the basin of said swimming pool as well as a water filtration system, the swimming pool being characterized in that it further comprises a storage compartment of water juxtaposed with the building modules and connected to the basin of said swimming pool via the water filtration system, this water storage compartment being configured to serve as a water retention system.
  • the water storage compartment makes it possible, among other things, to recover the excess water evacuated from the swimming pool basin, in particular when the water level inside the basin is altered.
  • the water storage compartment can also be supplied with water by sources outside the pool, such as rainwater, like a storm basin. This recovery of water then makes it possible to store large quantities and to return this water at a lower flow rate when necessary, which makes it possible to limit wastage in an ecological and economical way.
  • the water stored in the storage compartment can thus fulfill various functions: it can be used as a reserve to make top-ups in the basin in order to adjust the water level to a predetermined value, but also serve as a thermal buffer between the basin and the external environment of the swimming pool.
  • certain elements can be indexed, as first element or second element. In this case, it is a simple indexing to differentiate and name close but not identical elements. This indexing does not imply a priority of one element relative to another and it is easy to interchange such denominations without departing from the scope of the present description. Nor does this indexing imply an order in time.
  • the figure 1a and 1b each show a schematic representation of an embodiment of a swimming pool 1 comprising several construction modules 3, 3' which delimit the basin of said swimming pool 1 and water storage compartments 5, 5' juxtaposed to the construction modules 3, 3'.
  • the pool basin 1 is rectangular, but it can have other shapes (for example square, “L” shaped or even “U” shaped).
  • Two types of construction modules 3, 3' can be distinguished for each embodiment: straight modules 3 configured to form the walls of the walls defining the general extent of the swimming pool 1, namely the width and the length of the pool, and modules in brackets 3′ arranged in the corners of the pool so as to connect the walls of the straight walls together.
  • the water storage compartments 5, 5' juxtaposed with the building modules 3, 3' extend over the entire periphery of the swimming pool 1, but alternative arrangements of these water storage compartments 5, 5' are possible, such as the case where these water storage compartments 5, 5' only extend over part of the periphery of the swimming pool 1, along a single wall for example.
  • the swimming pool 1 has, for example, twelve straight construction modules 3, two of which per wall for the width of the pool and four per wall for the length of the pool, as well as four bracket modules 3' arranged at the four corners of the rectangular pool.
  • the swimming pool 1 has, for example, six straight construction modules 3, one per wall for the width of the pool and two per wall for the length of the pool, as well as four bracket modules 3' arranged at the four corners of the rectangular pool.
  • the number of building modules 3, 3' depends on the shape and dimensions desired for the pool. A similar logic applies for the water storage compartments 5, 5'.
  • the periphery of the swimming pool 1 can be at least partially surrounded by a peripheral belt 7 of reinforced concrete, as illustrated in FIG.
  • concrete pads 9 can be arranged at the level of the junctions of the modules of construction 3 forming the straight walls and below the square-shaped construction modules 3' at the corners of pool 1.
  • the swimming pool 1 also includes a pump 2 intended to stir the water in the pool and a water filtration system 4 configured to filter the water in order to recycle it to minimize waste.
  • the pool can also include a sensor 6 configured to measure the water level in the pool to allow monitoring of this parameter. Pump 2, filter 4 and sensor 6 are shown schematically on the figure 10 .
  • FIGS. 1a and 1b The remainder of the description will detail the two embodiments illustrated in FIGS. 1a and 1b.
  • the figures 2 to 6 illustrate in detail the elements of the first embodiment shown in Figure la while the figures 7 to 9 illustrate in detail the elements of the second embodiment presented in the figure 1b .
  • FIG. 2 On the figure 2 is illustrated an embodiment of an assembly comprising on the one hand a construction module 3 intended to form part of one of the straight walls of the pool basin 1 and on the other hand a water storage compartment 5 juxtaposed to the construction module 3.
  • a construction module 3 intended to form part of one of the straight walls of the pool basin 1
  • a water storage compartment 5 juxtaposed to the construction module 3.
  • the assembly comprising a construction module 3 partially delimiting the basin of said swimming pool 1 and a water storage compartment 5 juxtaposed with said construction module 3 comprises three planar walls 11, 13, 15 which are arranged parallel to each other, including an inner wall 11 intended to be in contact with the water in the pool, an outer wall 15 and an intermediate wall 13 placed between the inner wall 11 and the outer wall 15.
  • the length of these three types of planar walls 11, 13, 15 is generally greater than their height.
  • Their height is for example between one hundred and twenty centimeters and two hundred centimeters, it is more particularly equal to one hundred and seventy centimeters in the case of the intermediate walls 13 and the outer walls 15.
  • the length of the walls 11, 13, 15 is for example between one hundred centimeters and three hundred centimeters, it is more particularly equal to two hundred centimeters.
  • the walls 11, 13 and 15 stand in a vertical plane.
  • the distance between the inner wall 11 and the intermediate wall 13 indicates the width of the building module 3 while the distance which separates the intermediate wall 13 from the outer wall 15 indicates the width of the water storage compartment 5.
  • the distance between the inner wall 11 and the intermediate wall 13 is for example less than that which separates the intermediate wall 13 from the outer wall 15.
  • the gap between the inner wall 11 and the wall intermediate 13 is for example between ten centimeters and thirty centimeters, it is more particularly equal to fifteen centimeters. This gap is for example three times greater than that which separates the inner wall 11 and the intermediate wall 13.
  • the inner wall 11 and the intermediate wall 13 together delimit a first compartment of the construction module 3 which is configured to accommodate therein a reinforcement 12 (visible in figure la) and intended to be filled with concrete to thus form the walls of the swimming pool 1.
  • a reinforcement 12 visible in figure la
  • Such concrete walls allow both an easier installation of the swimming pool 1 compared to other construction techniques and these concrete walls also ensure a long life for the basin of this swimming pool.
  • the inner wall 11 comprises on its face 11b facing the intermediate wall 13 at least one stiffening rib 23.
  • These stiffening ribs provide additional support to the inner wall 11.
  • the stiffening rib or ribs 23 extend at least partially over the height of said wall 11, or even over the entire height of the inner wall 11.
  • the number of stiffening ribs 23 can be between one and ten.
  • the inner wall 11 has five stiffening ribs 23 spaced at equal intervals.
  • the stiffening rib or ribs 23 comprise for example at least one attachment element 25 such as a metal ring which is configured to form an attachment connection with the concrete intended to be poured inside the first compartment of the construction module. 3.
  • the attachment element 25, in this case the metal ring in the case embodiment illustrated in the picture 3 can be full or split.
  • the material of this attachment element 25 is for example high-adherence iron which allows better cohesion between the attachment element 25 and the concrete intended to be poured between the inner wall 11 and the intermediate wall 13.
  • the number of The attachment elements 25 per stiffening rib 23 can be between one and five. In the embodiment illustrated in the picture 3 , each stiffening rib 23 has three metal rings.
  • the distance between the metal ring closest to the upper edge 11c of the inner wall 11 and this upper edge 11c is for example less than the distance between the metal ring closest to the edge bottom 11a and said bottom edge 11a.
  • the attachment element(s) 25 are configured to be anchored in the mass of concrete intended to be poured between the inner wall 11 and the intermediate wall 13 to form the walls of the pool basin 1. The attachment element(s) 25 thus provide an additional connection between the inner wall 11 and the intermediate wall 13.
  • the other face of the inner wall 11, the one which is intended to be in contact with the water of the basin of the swimming pool 1, can be covered with a waterproof material to prevent involuntary penetration of water within the module. building 3.
  • the construction module 3 can also include a spacer 17 (illustrated in detail on the figure 4 ) disposed between the inner wall 11 and the intermediate wall 13.
  • This spacer 17 is configured to maintain a constant gap between these two walls 11 and 13.
  • the spacer 17 has for example a height between one hundred and twenty centimeters and two hundred centimeters, it is more particularly equal to one hundred and seventy centimeters. More particularly, the height of the spacer 17 and the height of the intermediate wall 13 are similar, or even identical.
  • the width of the spacer 17 is for example due a few tens of centimeters, it can in particular be equal to twenty centimeters.
  • the spacers 17 are in particular located at the level of the junction between two neighboring construction modules 3 of the basin of the swimming pool 1, as illustrated in FIG.
  • the spacer 17 may have in a lower portion intended to be close to the bottom of the pool 1 a retaining wedge 19 configured to carry a lower edge 11a of the inner wall 11.
  • the retaining wedge 19 may extend partially or totally over the width of the spacer 17. A part of the inner wall 11 is thus pressed against a solid face 17a of the spacer 17 so as to secure its positioning.
  • the contact surface 17b between the intermediate wall 13 and the spacer 17 is smaller than that between the inner wall 11 and the solid face 17a of the spacer 17.
  • spacer 17 may also have a foot 21 at the end of its lower portion, this foot 21 may be pierced with a hole 22 allowing the spacer 17 to be fixed to the ground when the building module 3 is put in place during of the installation of the swimming pool 1.
  • the lower part of the spacer 17 is intended to be surrounded by the reinforced concrete of the slab in the bottom of the swimming pool 1, so that the upper edge of the retaining wedge 19 is flush with the surface of the mass of concrete. Foot 21 of spacer 17 is therefore completely submerged in concrete.
  • the height of the inner wall 11 is lower than that of the intermediate wall 13, this is more particularly visible on the picture 2 .
  • the height of the inner wall 11 is intimately linked to the position of the retaining wedge 19 on the solid face 17a of the spacer 17.
  • the height of the inner wall 11 is for example one hundred and forty-five centimeters. Its width, on the other hand, is similar to that of the intermediate 13 and outer 15 walls, that is to say two hundred centimeters.
  • the intermediate wall 13 and the outer wall 15 together delimit the width and height of the water storage compartment 5.
  • the gap between the intermediate wall 13 and the outer wall 15 is for example between thirty centimeters and one hundred centimeters, it is more particularly equal to sixty-six centimeters.
  • a bottom wall 14 can be arranged between the outer wall 15 and the intermediate wall 13, the extent of this bottom wall 14 corresponds more precisely to the gap between the two walls 13 and 15.
  • This bottom wall 14 can serve reference point for positioning the intermediate wall 13 and the outer wall 15 during assembly of the water storage compartment 5.
  • the upper face of the bottom wall 14 and the faces located opposite of the outer wall 15 and the intermediate wall 13 can be covered with a layer of waterproof material.
  • the water storage compartment 5 comprises at least one reinforcing bar 27 arranged between the outer wall 15 and the intermediate wall 13.
  • the reinforcing bar(s) 27 are for example rods arranged perpendicular to the planes of the two walls 13 and 15. They can be solid or hollow, cylindrical in shape or with a quadrilateral section (for example square or rectangular).
  • These reinforcement bars 27 make it possible on the one hand to ensure parallelism between the outer wall 15 and the intermediate wall 13 and on the other hand to counter possible crushing.
  • the reinforcement bars 27 thus make it possible to increase the stability of the structure of the water storage compartment 5 by reinforcing its support.
  • reinforcing bars 27 arranged in two rows of four between the outer wall 15 and the intermediate wall 13 (only five reinforcing bars 27 are visible in the illustration).
  • the upper row is for example closer to the upper edges 13a and 15a of these walls 13, 15 than the lower row is to the bottom wall 14. More particularly, the two rows of four reinforcement bars 27 can be located in the upper half of the water storage compartment 5.
  • the respective upper edges 13a and 15a of the intermediate wall 13 and of the outer wall 15 comprise notches 29 configured to cooperate by form complementarity with a rib arranged on the edges of a cover slab 30 (visible in Figure la) intended to be positioned in contact with the upper edges 13a, 15a of said outer 15 and intermediate 13 walls so as to close the second water storage compartment 5.
  • the cover slab 30 can make it possible to limit the phenomenon of evaporation of the water intended to be kept inside the water storage compartment 5.
  • the cover slab 30 can also provide an aesthetic advantage to the swimming pool 1.
  • At least one of the respective side edges 13b, 15b of the intermediate wall 13 and of the outer wall 15 comprises a bulge 31 configured to be brought into contact with the outer 15 and intermediate 13 walls of an adjacent construction module 3.
  • the bulge 31 extends over part or even over the entire height of the side edges 13b, 15b of said walls 13, 15.
  • the bulge 31 of the intermediate wall 13 and that of the outer wall 15 are arranged opposite each other. one of the other.
  • the bottom wall 14 may also include a bulge 31.
  • the bulges 31 of the walls 13, 14 and 15 allow the water storage compartments 5 to fit together one after the other to form the straight walls of the swimming pool 1.
  • the junctions between two adjacent water storage compartments 5 can also be glued or welded to reinforce them.
  • the water storage compartment 5' provided for the corners of the basin comprises two outer walls 15' arranged at right angles and two intermediate walls 13' also arranged at right angles.
  • This water storage compartment 5' comprises four reinforcement bars 27.
  • the upper edges 13a' and 15a' respectively of the intermediate walls 13' and of the outer walls 15' of the water storage compartment 5' for the corners comprise notches 29 configured to cooperate by shape complementarity with a rib disposed on the edges of a cover slab (not shown on the figure 6 ).
  • At least one of the two outer walls 15' of this water storage compartment 5' can comprise water inlets and outlets 33.
  • These water inlets and outlets 33 are for example arranged close to a wall bottom 14' in the shape of a square and/or close to respective upper edges 13a' and 15a' of the intermediate wall 13' and of the outer wall 15'.
  • At least one of the side edges of the intermediate wall 13' and of the outer wall 15' of the water storage compartment 5' comprises a bulge 31 configured to be brought into contact with the outer 15 and intermediate 13 walls of an adjacent water storage compartment 5.
  • the water storage compartments 5 and 5' are therefore interconnected one after the other. Together, the water storage modules 5 and 5' form an enclosure inside which the water recovered following a downpour or following an overflow of water in the pool basin 1 can be stored and /or circulate.
  • the second embodiment of the swimming pool 1 illustrated in the figure 1b differs from the first embodiment by the use of two distinct types of bases 35, 35' intended to form the same bottom for the building modules 3, 3' and the water storage compartments 5, 5'.
  • These bases 35 and 35 ' are configured to allow the installation of flat prefabricated concrete walls which play the role of inner wall 11, intermediate wall 13 and outer wall 15 delimiting on the one hand the building modules 3, 3 'And on the other hand the water storage compartments 5, 5'.
  • a first type of base 35 hereinafter referred to as "straight base” 35, is illustrated in particular in the figure 7 .
  • This straight plinth 35 more particularly allows the installation of the interior 11, intermediate 13 and exterior 15 walls along the straight walls of the basin of the swimming pool 1, while the second type of plinth 35' illustrated on the Figure 8 and called “corner base” 35 'in the following is configured to ensure the junction between these interior 11, intermediate 13 and exterior 15 walls at the corners of the swimming pool 1.
  • the right base 35 has in particular the general shape of a rectangular parallelepiped.
  • Three longitudinal grooves 41, 43 and 45 hollow out an upper face 35a of this straight plinth 35.
  • These longitudinal grooves 41, 43, 45 extend over the entire length of the straight plinth 35 so as to be mutually parallel.
  • the three longitudinal grooves 41, 43, 45 are each configured to cooperate with a lower edge 11a, 13c or 15c of one of the flat walls 11, 13, 15 to ensure the positioning of said walls 11, 13, 15 during the construction of the pool 1.
  • a first longitudinal groove 41 and a second longitudinal groove 45 are each arranged in a zone contiguous to a long edge of the right base 35.
  • the first longitudinal groove 41 is configured to cooperate with the edge 11a of the inner wall 11 while the second longitudinal groove 45 is configured to cooperate with the lower edge 15c of the outer wall 15.
  • the third longitudinal groove 43 is therefore configured to cooperate with the lower edge 13c of the intermediate wall 13.
  • the distance between the inner wall 11 and the intermediate wall 13 is smaller than the distance between the wall intermediate 13 and the inner wall 15, the third longitudinal groove 43 is therefore located closer to the first longitudinal groove 41 than to the second longitudinal groove 45.
  • the cross section of these longitudinal grooves 41, 43, 45 is square or rectangular. However, it can have another shape, as long as it makes it possible to cooperate effectively with the lower edge 11a or 13c or 15c of the wall 11 or 13 or 15 which is dedicated to it.
  • the depth of these longitudinal grooves 41, 43, 45 can be between a quarter and a third of the total thickness of the right base 35.
  • a zone of the upper face 35a of the right base 35 located between the first longitudinal groove 41 configured to cooperate with the lower edge 11a of the inner wall 11 and the third groove 43 configured to cooperate with the lower edge 13c of the intermediate wall 13 can include a pending reinforcement 50, as shown in the figure 7 .
  • This reinforcement 50 on standby is intended to be covered by the concrete which will fill the space between the interior wall 11 and the intermediate wall 13, as indicated diagrammatically on the figure 9 .
  • the side flank 51 located on the inside of the right base 35 includes a reinforcement 52 waiting for the raft located at the bottom of the swimming pool 1.
  • the embodiment of the 35' corner plinth illustrated in the Figure 8 takes up many elements of the right base 35 such as the three grooves 41, 43 and 45 as well as the two zones for the reinforcements 50 and 52 on standby. What differentiates the corner plinth 35' from the straight plinth 35 is its general L-shape and the fact that the grooves 41, 43 and 45 all form right angles.
  • the two walls 11, 13 or 15 arranged at right angles in the grooves 41, 43 and 45 of the corner base 35' are arranged so that the side edges of two consecutive walls touch. It is possible to add glue at the level of this contact zone in order to reinforce the maintenance and/or the tightness of the structure thus formed by the walls 11, 13 and 15.
  • This same figure shows the concrete intended to be cast between the inner wall 11 and the intermediate wall 13 to cooperate with the reinforcement 50 on hold and form with it the construction modules 3 which are intended to form the walls delimiting the pool basin 1.
  • This figure also shows the concrete intended to cooperate with the reinforcement 52 on standby and the slab placed at the bottom of the swimming pool.
  • This second embodiment makes it possible in particular to dispense with the reinforcement bars 27 explained in the description of the first embodiment, because the walls 11, 13 and 15 prefabricated in concrete alone meet the challenge of solidity.
  • the second embodiment makes it possible to reduce the number of parts in the assembly for erecting the building modules 3, 3' and the water storage compartments 5, 5' of the swimming pool 1 without putting jeopardize the stability of the structure.
  • the swimming pool 1 is also equipped with at least one watertight conduit 8 (represented diagrammatically on the figure 10 ) which passes through the inner wall 11 and / or the intermediate wall 13 and / or the outer wall 15 so as to establish fluid communication between the interior of the pool delimited by the construction modules 3, 3 'of the swimming pool 1 and the exterior of said swimming pool 1.
  • at least one watertight conduit 8 represented diagrammatically on the figure 10 ) which passes through the inner wall 11 and / or the intermediate wall 13 and / or the outer wall 15 so as to establish fluid communication between the interior of the pool delimited by the construction modules 3, 3 'of the swimming pool 1 and the exterior of said swimming pool 1.
  • the water storage modules 5 and 5' can also serve as a thermal buffer between the swimming pool 1 and the external environment of said swimming pool 1. A large amount of energy heat can thus be transmitted to the water in the pool basin 1 via the water storage modules 5 and 5'.
  • the water storage modules 5 and 5' thus facilitate the thermal management of the water in the swimming pool 1 in an economical and ecological manner.
  • the rest of the description details certain steps in an example of a procedure for readjusting the water level in the basin of a swimming pool 1 with overflow. These steps are more particularly illustrated on the figure 10 .
  • the fluctuation of the water level in the basin is mainly influenced by evaporation which is represented here by the wavy lines above the line marking the surface of the water.
  • the water level in the pool basin 1 is higher than that of the water contained in the water storage compartment 5.
  • the bather has left swimming pool 1.
  • the water level in the pool is lower than that detected by the sensor 6 during the first stage which precedes the bather's entry into swimming pool 1.
  • the level of water in the storage compartment 5 is on the other hand higher than that noted by the sensor 6 during this first stage.
  • the pump 2 of the swimming pool 1 can be used to transfer the water from the storage compartment 5 to the basin of the swimming pool 1 to readjust the level therein.
  • the sealed conduit(s) 8 can also be used for this operation.
  • the sensor 6 and the pump 2 can be linked by a means of communication making it possible to stop the pump 2 when the measurements carried out by the sensor 6 reach, for example, a predetermined value.
  • the filtration system 4 can operate continuously during each of the steps or it can operate intermittently, that is to say for only part of the steps.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Sewage (AREA)
  • Filtration Of Liquid (AREA)
EP22171447.0A 2021-05-05 2022-05-03 Pool mit einem wasserspeicherfach Pending EP4086410A1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR2104757A FR3122683B1 (fr) 2021-05-05 2021-05-05 Piscine avec un compartiment de stockage d'eau

Publications (1)

Publication Number Publication Date
EP4086410A1 true EP4086410A1 (de) 2022-11-09

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EP22171447.0A Pending EP4086410A1 (de) 2021-05-05 2022-05-03 Pool mit einem wasserspeicherfach

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EP (1) EP4086410A1 (de)
FR (1) FR3122683B1 (de)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3938199A (en) * 1973-12-27 1976-02-17 Laven Merrill L Swimming pool components
EP1019600B1 (de) * 1997-10-03 2003-01-15 BONNET, Claude Filter- und pumpenvorrichtung für überlauf-schwimmbäder
EP2636819A1 (de) * 2012-03-09 2013-09-11 Bioosphere Perfektionierung für natürliches Schwimmbad

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3938199A (en) * 1973-12-27 1976-02-17 Laven Merrill L Swimming pool components
EP1019600B1 (de) * 1997-10-03 2003-01-15 BONNET, Claude Filter- und pumpenvorrichtung für überlauf-schwimmbäder
EP2636819A1 (de) * 2012-03-09 2013-09-11 Bioosphere Perfektionierung für natürliches Schwimmbad

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FR3122683B1 (fr) 2023-11-03
FR3122683A1 (fr) 2022-11-11

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RBV Designated contracting states (corrected)

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR