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WO2009013401A1 - Low-profile basin installed with a built-in drain - Google Patents

Low-profile basin installed with a built-in drain Download PDF

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Publication number
WO2009013401A1
WO2009013401A1 PCT/FR2008/000833 FR2008000833W WO2009013401A1 WO 2009013401 A1 WO2009013401 A1 WO 2009013401A1 FR 2008000833 W FR2008000833 W FR 2008000833W WO 2009013401 A1 WO2009013401 A1 WO 2009013401A1
Authority
WO
WIPO (PCT)
Prior art keywords
evacuation
height
receiver
mass
integrated
Prior art date
Application number
PCT/FR2008/000833
Other languages
French (fr)
Inventor
Farhooman Davoudi
Original Assignee
Logiplast
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 Logiplast filed Critical Logiplast
Priority to US12/666,063 priority Critical patent/US20100180374A1/en
Priority to CA002692208A priority patent/CA2692208A1/en
Priority to EP08826553A priority patent/EP2166909A1/en
Publication of WO2009013401A1 publication Critical patent/WO2009013401A1/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47KSANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
    • A47K3/00Baths; Douches; Appurtenances therefor
    • A47K3/28Showers or bathing douches
    • A47K3/40Pans or trays
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/12Plumbing installations for waste water; Basins or fountains connected thereto; Sinks
    • E03C1/28Odour seals
    • E03C1/29Odour seals having housing containing dividing wall, e.g. tubular
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/04Gullies inlets, road sinks, floor drains with or without odour seals or sediment traps
    • E03F5/0407Floor drains for indoor use
    • E03F5/0408Floor drains for indoor use specially adapted for showers
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/04Gullies inlets, road sinks, floor drains with or without odour seals or sediment traps
    • E03F2005/0416Gullies inlets, road sinks, floor drains with or without odour seals or sediment traps with an odour seal

Definitions

  • the present invention is a shower tray (2) extra-flat to ask with a discharge integrated in its mass.
  • This extra-flat evacuation integrated in the mass of the receiver allows it to have a height (6) as low as possible to obtain a height of 5 to 10 cm depending on the manufacturing material of the receiver.
  • the first type of recipient (2) is an extra-flat receiver (figl) with a separate and recessed discharge on the floor (4), this type of receiver is manufactured with a border height (6) of approximately 5 to 10 cm so low so that access is more convenient.
  • the difficulty for the installation of this type of receiver is the height of the siphon (1) (3) of the evacuation which must be screwed to the receiver and buried in the depth of the ground (5) hence the need for maintenance work. Important masonry that must be done by a professional.
  • the second type of catcher that exists is a raised catcher (fig2). As you can see, this receiver requires a certain height (6) (fig3) to absorb the evacuation volume (1) (3). It is very simple to install in the bathroom, without major masonry works, but because of its height (6) it is less aesthetic and less convenient to access.
  • the present invention relates to an ultra-flat free-standing shower tray (2) without masonry work (fig4) equipped with an integrated low-level evacuation, whose evacuation shape (fig5) (14) could be molded into same time and directly in the mass of the extra-flat tray with the same manufacturing material of the receiver.
  • This innovation makes it possible for this receiver to be equipped with an integrated evacuation in the mass to obtain the height (6) as low as possible.
  • This evacuation is equipped with walls (9) which make it possible to create the water guard in the space (8) and with the aid of the room (10) creates the shape of the siphon and evacuates through the evacuation channel (1).
  • This evacuation makes it possible to reserve a necessary height for the water-keeper in the space (8) and thanks to the two slopes (7) these make it possible to reduce the storage of waste water accessible to the open air.
  • this evacuation (14) could be very easily integrated in the mold of a ceramic tray, in the mold of a plastic tray and in a mold of a metal tray. And once the receiver manufactured, the imprint of the form of the evacuation is integrated into the mass of the receiver (2). In this way, we no longer need to bring an evacuation and adapt it to the receiver because the receiver has its own evacuation equipped with siphon and water-guard to avoid bad smells.
  • the slopes (7) located in the space (14) to firstly limit the amount of wastewater stored accessible in the open space part (8) which is limited between the ramparts (9) and the height (15) (between 1/8 and 3/4 of a liter of water) and on the other hand, to accelerate the wastewater fluid (11) to the channel (1).
  • the part (10) has a lid (13) allowing access to the siphon integrated into the shape (14) if obstruction and the grid (12) cache the entire evacuation by limiting the passage of non-liquid materials that could prevent the evacuation of fluidity (11).
  • the height (6) of the low-profile tray can be calculated according to the following rule: it depends on the thickness of the raw material with which the tray is made (ceramic, plastic or metallic ...) of the width and width length of the portion (14) of the angle and the drainage depth (16), the height of the ramparts (9), the distance of passage between the piece (10) and the rampart (9), the depth the space of the waterguard (8), the height (15) which specifies the end of the slope (7).
  • the height of the rampart (9) represents the height of the water guard.
  • the evacuation function taking into account the height of the waterguard could be manufactured in an extra-flat tray to be installed in the following way, for example: - for a plastic tray manufactured by thermoforming for a dimension: width 90 cm, length 90 cm for a height (6) of 7cm, the maximum drainage depth (16) until the evacuation is 15mm.
  • the depth (8) from the beginning of the slope (7) is 5 cm.
  • the water passage space between the piece (10) and the depth (8) is 15mm and the passage space between the piece (10) and the rampart (9) is lcm.
  • the height of rampart (9) is 40mm.
  • the height (15) could be equal to or slightly less than 5mm maximum at the height of the rampart (9) that would limit the amount of wastewater and stored in the waterguard accessible in the open air.
  • Figure 1 the section of an ultra-flat recessed receiver in the depth (5)
  • Figure 2 raised shower tray with a height (6) of at least 15cm.
  • Figure 3 a cross-section of a shower tray showing the drainage system (3) and the drainage channel (1) in the height (6).
  • Figure 4 the extra-flat tray to be installed with a height (6)
  • Figure 5 exploded view of all the components of the flat tray to be installed.
  • Figure 6 represents the line of cut AA to create the cut figure 7 and the cut figure 8.
  • FIG. 7 shows the section AA of FIG. 6, demonstrating the various evacuation components whose assembly is located in part 14.
  • FIG. 8 the section AA of FIG. 6 demonstrating the fluidity (11) towards the evacuation channel (1) located in part 14.
  • Figure 10 showing the bottom view of the low-profile shower tray (2) and showing the drain channel (1).
  • Figure 11 showing the line of section BB to create the section Figure 12.
  • Figure 12 showing the section BB by specifying the drainage slope (16) to the evacuation of the receiver in the part (14).

Landscapes

  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Water Supply & Treatment (AREA)
  • Environmental & Geological Engineering (AREA)
  • Epidemiology (AREA)
  • General Health & Medical Sciences (AREA)
  • Sink And Installation For Waste Water (AREA)
  • Bathtubs, Showers, And Their Attachments (AREA)
  • Removal Of Water From Condensation And Defrosting (AREA)

Abstract

The invention relates to a low-profile shower basin (2) installed with a built-in drain. The low-profile drain built into the basin allows the height (6) of the basin to be reduced as much as possible, approximately to between 5 and 10 cm depending on the material of construction.

Description

RECEVEUR EXTRA-PLAT A POSER AVEC EVACUATION INTEGREE EXTRA-FLAT RECEIVER TO INSTALL WITH INTEGRATED EVACUATION
La présente invention est un receveur de douche (2) extra-plat à poser avec une évacuation intégrée dans sa masse. Cette évacuation extra-plate intégrée dans la masse du receveur permet à celui-ci la possibilité d'avoir une hauteur (6) la plus basse possible pour obtenir une hauteur de 5 à 10 cm environ selon la matière de fabrication du receveur. Dans le domaine de la salle de bains, il existe en général deux types de receveurs.The present invention is a shower tray (2) extra-flat to ask with a discharge integrated in its mass. This extra-flat evacuation integrated in the mass of the receiver allows it to have a height (6) as low as possible to obtain a height of 5 to 10 cm depending on the manufacturing material of the receiver. In the field of the bathroom, there are generally two types of receivers.
Le premier type de receveur (2) est un receveur extra-plat (figl) avec une évacuation séparée et encastrée au sol (4), ce type de receveur est fabriqué avec une hauteur de bordure (6) d'environ de 5 à 10 cm donc peu élevée pour que l'accès soit plus pratique. La difficulté pour l'installation de ce type de receveur est la hauteur du siphon (1) (3) de l'évacuation qui doit être vissé au receveur et enterré dans la profondeur du sol (5) d'où la nécessité de travaux de maçonnerie importants qui doivent être effectués par un professionnel.The first type of recipient (2) is an extra-flat receiver (figl) with a separate and recessed discharge on the floor (4), this type of receiver is manufactured with a border height (6) of approximately 5 to 10 cm so low so that access is more convenient. The difficulty for the installation of this type of receiver is the height of the siphon (1) (3) of the evacuation which must be screwed to the receiver and buried in the depth of the ground (5) hence the need for maintenance work. Important masonry that must be done by a professional.
Le deuxième type de receveur qui existe est un receveur surélevé à poser (fig2). Comme vous pouvez le constater, ce receveur nécessite une certaine hauteur (6) (fig3) pour absorber le volume d'évacuation (1) (3). Il est très simple à installer dans la salle de bains, sans travaux de maçonnerie importants, mais à cause de sa hauteur (6) il est moins esthétique et moins pratique d'accès.The second type of catcher that exists is a raised catcher (fig2). As you can see, this receiver requires a certain height (6) (fig3) to absorb the evacuation volume (1) (3). It is very simple to install in the bathroom, without major masonry works, but because of its height (6) it is less aesthetic and less convenient to access.
La présente invention concerne un receveur extra-plat à poser (2) sans travaux de maçonnerie (fig4) équipé d'une évacuation extra-plate intégrée dans la masse, dont la forme d'évacuation (fig5) (14) pourrait être moulée en même temps et directement dans la masse du receveur extra-plat avec la même matière de fabrication du receveur. Cette innovation permet que ce receveur soit équipé d'une évacuation intégrée dans la masse pour obtenir la hauteur (6) la plus basse possible. Cette évacuation est équipée de remparts (9) qui permettent de créer la garde-d'eau dans l'espace (8) et à l'aide de la pièce (10) crée la forme du siphon et évacue par le canal d'évacuation (1). Cette évacuation permet de réserver une hauteur nécessaire pour la garde-d'eau dans l'espace (8) et grâce aux deux pentes (7) celles-ci permettent de réduire le stockage des eaux usées accessibles à l'air libre.The present invention relates to an ultra-flat free-standing shower tray (2) without masonry work (fig4) equipped with an integrated low-level evacuation, whose evacuation shape (fig5) (14) could be molded into same time and directly in the mass of the extra-flat tray with the same manufacturing material of the receiver. This innovation makes it possible for this receiver to be equipped with an integrated evacuation in the mass to obtain the height (6) as low as possible. This evacuation is equipped with walls (9) which make it possible to create the water guard in the space (8) and with the aid of the room (10) creates the shape of the siphon and evacuates through the evacuation channel (1). This evacuation makes it possible to reserve a necessary height for the water-keeper in the space (8) and thanks to the two slopes (7) these make it possible to reduce the storage of waste water accessible to the open air.
La forme de cette évacuation (14) pourrait être très facilement intégrée dans le moule d'un receveur en céramique, dans le moule d'un receveur en plastique et dans un moule d'un receveur métallique. Et une fois le receveur fabriqué, l'empreinte de la forme de l'évacuation est intégrée dans la masse du receveur (2). De cette façon, nous n'avons plus besoin d'apporter une évacuation et l'adapter au receveur car le receveur a sa propre évacuation équipée de siphon et de garde-d'eau pour éviter les mauvaises odeurs. A l'intérieur de cette évacuation, il est obligatoire d'avoir les pentes (7) situées dans l'espace (14) pour d'une part, limiter la quantité des eaux usées stockées accessibles à l'air libre dans la partie espace (8) qui se limite entre les remparts (9) et la hauteur (15) (entre 1/8 et 3/4 de litre d'eau) et d'autre part, d'accélérer le fluide des eaux usées (11) vers le canal (1). Dans la partie d'évacuation de ce receveur extra-plat (2), la pièce (10) comporte un couvercle (13) permettant l'accès dans le siphon intégré à la forme (14) si obstruction et la grille (12) cache l'ensemble de l'évacuation en limitant le passage de matières non liquides qui pourraient empêcher l'évacuation de la fluidité (11).The shape of this evacuation (14) could be very easily integrated in the mold of a ceramic tray, in the mold of a plastic tray and in a mold of a metal tray. And once the receiver manufactured, the imprint of the form of the evacuation is integrated into the mass of the receiver (2). In this way, we no longer need to bring an evacuation and adapt it to the receiver because the receiver has its own evacuation equipped with siphon and water-guard to avoid bad smells. Inside this evacuation, it is mandatory to have the slopes (7) located in the space (14) to firstly limit the amount of wastewater stored accessible in the open space part (8) which is limited between the ramparts (9) and the height (15) (between 1/8 and 3/4 of a liter of water) and on the other hand, to accelerate the wastewater fluid (11) to the channel (1). In the discharge part of this ultra-thin receiver (2), the part (10) has a lid (13) allowing access to the siphon integrated into the shape (14) if obstruction and the grid (12) cache the entire evacuation by limiting the passage of non-liquid materials that could prevent the evacuation of fluidity (11).
La hauteur (6) du receveur extra-plat peut être calculée selon la règle suivante : cela dépend de l'épaisseur de la matière première avec laquelle le receveur est fabriqué (céramique, plastique ou métallique...) de la largeur et de la longueur de la partie (14) de l'angle et de la profondeur de drainage (16) , de la hauteur de remparts (9), de la distance de passage entre la pièce (10) et le rempart (9), la profondeur de l'espace de la garde-d'eau (8), la hauteur (15) qui précise la fin de la pente (7). La hauteur de rempart (9) représente la hauteur de la garde-d'eau.The height (6) of the low-profile tray can be calculated according to the following rule: it depends on the thickness of the raw material with which the tray is made (ceramic, plastic or metallic ...) of the width and width length of the portion (14) of the angle and the drainage depth (16), the height of the ramparts (9), the distance of passage between the piece (10) and the rampart (9), the depth the space of the waterguard (8), the height (15) which specifies the end of the slope (7). The height of the rampart (9) represents the height of the water guard.
La fonction d'évacuation en tenant compte de la hauteur de la garde-d'eau pourrait se fabriquer dans un receveur extra-plat à poser de la façon suivante, à titre d'exemple : - pour un receveur plastique fabriqué par thermoformage pour une dimension : largeur 90 cm, longueur 90 cm pour une hauteur (6) de 7cm, la profondeur maximale drainage (16) jusqu'à l'évacuation est de 15mm. La profondeur (8) à partir du commencement de la pente (7) est de 5 cm. L'espace de passage d'eau entre la pièce (10) et la profondeur (8) est de 15mm et l'espace de passage entre la pièce (10) et le rempart (9) est de lcm. La hauteur de rempart (9) est de 40mm. La hauteur (15) pourrait être égale ou légèrement inférieure à 5mm maximum à la hauteur du rempart (9) cela limiterait la quantité des eaux usées et stockées dans la garde-d'eau accessibles à l'air libre.The evacuation function taking into account the height of the waterguard could be manufactured in an extra-flat tray to be installed in the following way, for example: - for a plastic tray manufactured by thermoforming for a dimension: width 90 cm, length 90 cm for a height (6) of 7cm, the maximum drainage depth (16) until the evacuation is 15mm. The depth (8) from the beginning of the slope (7) is 5 cm. The water passage space between the piece (10) and the depth (8) is 15mm and the passage space between the piece (10) and the rampart (9) is lcm. The height of rampart (9) is 40mm. The height (15) could be equal to or slightly less than 5mm maximum at the height of the rampart (9) that would limit the amount of wastewater and stored in the waterguard accessible in the open air.
Par conséquent, si nous respectons les dimensions que nous venons d'indiquer nous pouvons obtenir un receveur extra-plat avec' une hauteur de 7 cm. Les dessins annexés illustrent :Therefore, if we respect the dimensions that we have indicated we can get a low-profile receiver with a height of 7 cm. The accompanying drawings illustrate:
La figure 1 : la coupe d'un receveur extra-plat encastré dans la profondeur (5) La figure 2 : receveur à poser surélevé avec une hauteur (6) minimum d'environ 15cm.Figure 1: the section of an ultra-flat recessed receiver in the depth (5) Figure 2: raised shower tray with a height (6) of at least 15cm.
La figure 3 : une coupe de receveur à poser démontrant l'installation d'évacuation (3) et le canal d'évacuation (1) dans la hauteur (6).Figure 3: a cross-section of a shower tray showing the drainage system (3) and the drainage channel (1) in the height (6).
La figure 4 : le receveur extra-plat à poser avec une hauteur (6)Figure 4: the extra-flat tray to be installed with a height (6)
La figure 5 : vue éclatée de tous les composants du receveur extra-plat à poser. La figure 6 : représente la ligne de coupe AA pour créer la coupe figure 7 et la coupe figure 8.Figure 5: exploded view of all the components of the flat tray to be installed. Figure 6: represents the line of cut AA to create the cut figure 7 and the cut figure 8.
La figure 7 : représente la coupe AA de la figure 6 en démontrant les divers composants d'évacuation dont l'ensemble se situe dans la partie 14.FIG. 7 shows the section AA of FIG. 6, demonstrating the various evacuation components whose assembly is located in part 14.
La figure 8 : la coupe AA de la figure 6 démontrant la fluidité (11) vers le canal d'évacuation (1) qui se situe dans la partie 14.FIG. 8: the section AA of FIG. 6 demonstrating the fluidity (11) towards the evacuation channel (1) located in part 14.
La figure 9 : démontrant le receveur extra-plat à poser avec ses divers composants et sans la grille (12).Figure 9: demonstrating the extra-flat receiver to ask with its various components and without the grid (12).
La figure 10 : démontrant la vue du dessous du receveur extra-plat à poser (2) et montrant le canal d'évacuation (1). La figure 11 : démontrant la ligne de coupe BB pour créer la coupe figure 12.Figure 10: showing the bottom view of the low-profile shower tray (2) and showing the drain channel (1). Figure 11: showing the line of section BB to create the section Figure 12.
La figure 12 : démontrant la coupe BB en précisant la pente de drainage (16) vers l'évacuation du receveur dans la partie (14). Figure 12: showing the section BB by specifying the drainage slope (16) to the evacuation of the receiver in the part (14).

Claims

REVENDICATIONS
1) Le dispositif selon l'invention est un receveur de douche (2) à poser avec une évacuation intégrée dans sa masse dont la forme d'évacuation et garde d'eau (fig 5) (14) sont créées en même temps et directement dans la masse du receveur avec la même matière que le receveur est fabriqué.1) The device according to the invention is a shower tray (2) to be installed with an integrated drainage in its mass whose form of evacuation and water guard (Fig. 5) (14) are created at the same time and directly in the receiver mass with the same material as the catcher is manufactured.
5 2) Le dispositif selon la revendication précédente est un receveur de douche (2) à poser dont il n'est plus nécessaire d'apporter ou d'adapter au receveur, une pièce extérieure pour créer l'évacuation et la garde d'eau car le receveur possède sa propre évacuation équipée de siphon et de garde d'eau formés dans sa masse, pour éviter les mauvaises odeurs.2) The device according to the preceding claim is a shower tray (2) to ask which it is no longer necessary to bring or adapt to the receiver, an external piece to create the evacuation and water guard because the receiver has its own evacuation equipped with siphon and guard water formed in its mass, to avoid bad smells.
] Q 3) Le dispositif selon la revendication 2 est un receveur à poser avec son évacuation intégrée dans sa masse qui ne nécessite aucun travaux d'adaptation de l'évacuation dans le receveur par l'installateur et aucun travaux supplémentaires de maçonnerie pour son installation.] Q 3) The device according to claim 2 is a receiver to ask with its integrated evacuation in its mass which requires no work of adaptation of the evacuation in the receiver by the installer and no additional work of masonry for its installation .
4) Le dispositif selon la revendication 1 en ce qui caractérise Ie receveur de douche à j 5 poser avec évacuation et la garde d'eau intégrées dans sa masse, possède une hauteur totale (6) dont cette hauteur pourrait être variable (mais inférieure à 14 cm) et cette hauteur dépend de plusieurs paramètres précis selon la matière de fabrication avec laquelle le receveur est conçu (céramique, métallique, plastique etc..) pour absorber le volume d'évacuation et la garde d'eau qui sont intégrés dans la masse du receveur. 0 5) Le dispositif selon les revendications précédentes, représente un receveur de douche à poser avec évacuation et garde d'eau intégrées dans sa masse dont la fonction d'évacuation, en tenant compte de la hauteur de la garde d'eau, pourrait être réalisée facilement en un seul tenant dans un receveur conçu en plastique, en céramique et en métallique. 5 6) Le dispositif selon les revendications précédentes comporte obligatoirement dans la partie de son évacuation intégrée des pentes (7) situées dans l'espace (14), pour d'une part, limiter la quantité des eaux usées stockées accessibles à l'air libre dans la partie espace (8) qui se limite entre les remparts (9) et la hauteur (15) et d'autre part, pour permettre d'accélérer le fluide des eaux usées (11) vers le canal (1). 0 7) Le dispositif selon la revendication précédente limite la quantité des eaux usées et stockées dans la garde d'eau accessibles à l'air libre qui est inférieure à 1 litre. 4) The device according to claim 1, which characterizes the shower tray to ask with evacuation and water guard integrated in its mass, has a total height (6) of which this height could be variable (but less than 14 cm) and this height depends on several precise parameters according to the manufacturing material with which the tray is designed (ceramic, metal, plastic etc.) to absorb the volume of evacuation and the water guard which are integrated in the mass of the recipient. 0 5) The device according to the preceding claims, represents a shower tray to pose with evacuation and water guard integrated in its mass whose evacuation function, taking into account the height of the water guard, could be Easily made in one piece in a plastic, ceramic and metal tray. 6) The device according to the preceding claims must obligatorily in the part of its integrated evacuation slopes (7) located in the space (14), for one hand, limit the amount of wastewater stored accessible to air free in the space portion (8) which is limited between the walls (9) and the height (15) and secondly, to allow to accelerate the wastewater fluid (11) to the channel (1). 0 7) The device according to the preceding claim limits the amount of waste water and stored in the water barrier accessible to the open air which is less than 1 liter.
PCT/FR2008/000833 2007-06-19 2008-06-16 Low-profile basin installed with a built-in drain WO2009013401A1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
US12/666,063 US20100180374A1 (en) 2007-06-19 2008-06-16 Low-profile basin installed with a built-in drain
CA002692208A CA2692208A1 (en) 2007-06-19 2008-06-16 Low-profile basin installed with a built-in drain
EP08826553A EP2166909A1 (en) 2007-06-19 2008-06-16 Low-profile basin installed with a built-in drain

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR0704353A FR2917592B1 (en) 2007-06-19 2007-06-19 EXTRA-FLAT RECEIVER TO INSTALL WITH INTEGRATED EVACUATION
FR074353 2007-06-19

Publications (1)

Publication Number Publication Date
WO2009013401A1 true WO2009013401A1 (en) 2009-01-29

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Application Number Title Priority Date Filing Date
PCT/FR2008/000833 WO2009013401A1 (en) 2007-06-19 2008-06-16 Low-profile basin installed with a built-in drain

Country Status (5)

Country Link
US (1) US20100180374A1 (en)
EP (1) EP2166909A1 (en)
CA (1) CA2692208A1 (en)
FR (1) FR2917592B1 (en)
WO (1) WO2009013401A1 (en)

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GB2382769A (en) * 2001-12-04 2003-06-11 Terence Luther Cundick Shower tray and integral trap assembly
EP1577452A2 (en) * 2004-03-18 2005-09-21 Jered Nijhof Drainage channel

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EP2166909A1 (en) 2010-03-31
CA2692208A1 (en) 2009-01-29
FR2917592A1 (en) 2008-12-26
US20100180374A1 (en) 2010-07-22
FR2917592B1 (en) 2012-07-27

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