EP2358247A1 - Basin with built-in, integrated extra-flat drain - Google Patents

Basin with built-in, integrated extra-flat drain

Info

Publication number
EP2358247A1
EP2358247A1 EP08872564A EP08872564A EP2358247A1 EP 2358247 A1 EP2358247 A1 EP 2358247A1 EP 08872564 A EP08872564 A EP 08872564A EP 08872564 A EP08872564 A EP 08872564A EP 2358247 A1 EP2358247 A1 EP 2358247A1
Authority
EP
European Patent Office
Prior art keywords
receiver
evacuation
built
mass
integrated
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Withdrawn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
EP08872564A
Other languages
German (de)
French (fr)
Inventor
Farhooman Davoudi
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.)
Logiplast Eurl
Original Assignee
Logiplast Eurl
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 Eurl filed Critical Logiplast Eurl
Publication of EP2358247A1 publication Critical patent/EP2358247A1/en
Withdrawn legal-status Critical Current

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
    • 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
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/60Planning or developing urban green infrastructure

Definitions

  • the present invention is a shower tray (2) to be embedded with an extra-flat discharge integrated in its mass. This integrated extra-flat drain is designed in the receiver mass at the time of manufacture.
  • the second designed to be equipped with an extra-flat evacuation (figl) (12) example: (under the trade name QUICK DRAIN®).
  • figl extra-flat evacuation
  • the evacuations are separated from the receiver, adapted and added at the time of installation of the receiver in the bathroom and are not integrated and designed in the mass of the receiver.
  • the disadvantages of adapting a separate evacuation to a receiver at the time of installation are, on the one hand, the cost and the time of work for the evacuation adaptation and on the other hand, one can not ensure 100% leakage between the drain and the receiver if it has not been designed in one piece with the receiver.
  • the present invention relates to a recessed receiver (2) equipped with an integrated low-sloped evacuation, the evacuation form (fig9) (6) (figl 1) (figl2) can be molded or formed at the same time and directly into the mass of the recipient with the same manufacturing material of the recipient.
  • This innovation makes it possible for this receptor to be equipped with a built-in evacuation system to obtain the water-resistance that prevents the return of unpleasant odors and a channel (1) for the evacuation of wastewater.
  • This innovation in the receiver is equipped with walls (9) that create the water guard in the space (8) and using the piece (5) creates the shape of the siphon. The wastewater is evacuated through the evacuation channel (1).
  • This innovation also makes it possible to reserve a necessary height for the waterguard in the space (8) and thanks to the slopes (7) in the direction of the flow of the evacuation channel (1) they allow nt to reduce the storage of wastewater accessible to the open air, which is not the case in the extra-flat evacuations sold separated type QUICK DRAIN® (figl) (12) dq ⁇ t ⁇ n large volume of water remains stagnant in evacuation (fig2) (11).
  • the shape of this evacuation (fig9) (6) (figll) (figl2) can be very easily integrated in the mold of a ceramic tray, in the mold of a plastic or composite tray and in the mold of a metal tray. And once the receiver is manufactured, the imprint of the shape of the evacuation is integrated in the mass of the receiver
  • the part (fig9) (5) has a cover (4) allowing access into the siphon integrated in the form (fIg9) (6) and the assembly can be hidden by the grid (3).
  • the height (B-Bl) which is located outside the ground can be changed according to the. design of the receiver without changing the installation height (C-Cl).
  • the invention according to its innovation can be easily adapted to any type of receivers and different designs and is not limited to only square or rectangular receivers.
  • Figure 1 an extra-flat type QUICK DRAIN ® exhaust (12)
  • Figure 2 shows the cross-section between the points AA in Figure 1.
  • Figure 3 an ultra-flat built-in shower with built-in vent with low height (B-Bl).
  • Figure 4 bottom view of Figure 3 showing the discharge channel (1).
  • Figure 5 front view of a recessed receiver of Figure 4 and Figure 3 showing the depth (C-Cl) which is in the ground and the height B-Bl which is located outside of the ground.
  • Figure 6 showing a built-in shower with built-in drain with larger edge height (B-B1).
  • Figure 7 view from below of Figure 6 showing the discharge channel (1).
  • Figure 8 a built-in shower tray (2)
  • Figure 9 Exploded view of the components of the built-in receiver of Figure 8.
  • Figure 10 Aerial view of a receiver to be built without the grid (3).
  • FIG. 11 is a view of the section AA of FIG. 10 showing the shape of the integrated evacuation in section.
  • FIG. 12 is a view of the section AA of FIG. 10 showing the flow (11) of the wastewater towards the evacuation channel (1) and showing the form of the integrated evacuation in section.

Abstract

The invention relates to a shower basin (2) with a built-in, extra-flat drain that is integrated and formed in the body thereof. The extra-flat drain integrated in the body of the basin allows the latter to have the smallest possible built-in depth (C-Cl) (fig5).

Description

La présente invention est un receveur de douche (2) à encastrer avec une évacuation extra-plate intégrée dans sa masse. Cette évacuation extra-plate intégrée est conçue dans la masse du receveur au moment de sa fabrication. The present invention is a shower tray (2) to be embedded with an extra-flat discharge integrated in its mass. This integrated extra-flat drain is designed in the receiver mass at the time of manufacture.
Dans le domaine de la salle de bains, il existe en général deux types de receveurs à encastrer . Le premier est prévu pour être équipé avec les évacuations classiques, et le deuxième conçu pour être équipé avec une évacuation extra-plate (figl) (12) exemple : (sous le nom commercial QUICK DRAIN®). Dans les deux cas, les évacuations sont séparées du receveur, adaptées et ajoutées au moment de l'installation du receveur dans la salle de bains et ne sont pas intégrées et ni conçues dans la masse du receveur. Les inconvénients d'adaptation d'une évacuation séparée à un receveur au moment de l'installation sont, d'une part, le coût et le temps de travaux pour l'adaptation d'évacuation et d'autre part, on ne peut pas assurer à 100 % l'étanchéité entre l'évacuation et le receveur si celui-ci n'a pas été conçu en un seul tenant avec le receveur. L'avantage d'un receveur avec évacuation intégrée dans sa masse résout d'une part le problème d'étanchéité car le receveur, l'évacuation et la garde-d'eau sont formés en même temps au moment de la fabrication du receveur sans coût supplémentaire pour sa fabrication et ni coût supplémentaire pour l'achat de l'évacuation et ni coût et temps supplémentaire à passer pour l'adaptation de l'évacuation du receveur.In the field of the bathroom, there are generally two types of built-in receivers. The first is intended to be equipped with conventional evacuations, and the second designed to be equipped with an extra-flat evacuation (figl) (12) example: (under the trade name QUICK DRAIN®). In both cases, the evacuations are separated from the receiver, adapted and added at the time of installation of the receiver in the bathroom and are not integrated and designed in the mass of the receiver. The disadvantages of adapting a separate evacuation to a receiver at the time of installation are, on the one hand, the cost and the time of work for the evacuation adaptation and on the other hand, one can not ensure 100% leakage between the drain and the receiver if it has not been designed in one piece with the receiver. The advantage of a receiver with evacuation integrated in its mass solves on the one hand the problem of sealing because the receiver, the evacuation and the water-guard are formed at the same time at the time of manufacture of the receiver without additional cost for its manufacture and no additional cost for the purchase of the evacuation and neither cost nor additional time to pass for the adaptation of the evacuation of the receiver.
La présente invention concerne un receveur encastré (2) équipé d'une évacuation extra-plate intégrée dans sa masse, dont la forme d'évacuation (fig9) (6) (figl 1) (figl2) peut être moulée ou formée en même temps et directement dans la masse du receveur 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 garde-d'eau qui empêche la remontée des mauvaises odeurs et un canal (1) d'évacuation des eaux usées. Cette innovation apportée dans le receveur est équipée de remparts (9) qui permettent de créer la garde-d'eau dans l'espace (8) et à l'aide de la pièce (5) crée la forme du siphon. Les eaux usées sont évacuées par le canal d'évacuation (1). Cette innovation permet également de réserver une hauteur nécessaire pour la garde-d'eau dans l'espace (8) et grâce aux deμx pentes (7) en direction de l'écoulement du canal d'évacuation (1) celles-ci perme^nt de réduire le stockage des eaux usées accessibles à l'air libre ce qui n'est pas le cas dans les évacuations extra-plates vendues séparées type QUICK DRAIN® (figl) (12) dqμt μn grand volume d'eau reste stagné dans l'évacuation (fig2) (11). La forme de cette évacuation (fig9) (6) (figll) (figl2) peut être très facilement intégrée dans le moule d'un receveur en céramique, dans le moule d'un receveur en plastique ou composite et dans le 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 receveurThe present invention relates to a recessed receiver (2) equipped with an integrated low-sloped evacuation, the evacuation form (fig9) (6) (figl 1) (figl2) can be molded or formed at the same time and directly into the mass of the recipient with the same manufacturing material of the recipient. This innovation makes it possible for this receptor to be equipped with a built-in evacuation system to obtain the water-resistance that prevents the return of unpleasant odors and a channel (1) for the evacuation of wastewater. This innovation in the receiver is equipped with walls (9) that create the water guard in the space (8) and using the piece (5) creates the shape of the siphon. The wastewater is evacuated through the evacuation channel (1). This innovation also makes it possible to reserve a necessary height for the waterguard in the space (8) and thanks to the slopes (7) in the direction of the flow of the evacuation channel (1) they allow nt to reduce the storage of wastewater accessible to the open air, which is not the case in the extra-flat evacuations sold separated type QUICK DRAIN® (figl) (12) dqμt μn large volume of water remains stagnant in evacuation (fig2) (11). The shape of this evacuation (fig9) (6) (figll) (figl2) can be very easily integrated in the mold of a ceramic tray, in the mold of a plastic or composite tray and in the mold of a metal tray. And once the receiver is manufactured, the imprint of the shape of the evacuation is integrated in the mass of the receiver
(fig9) (6) (figl l) (figl2).(Fig. 9) (6) (Fig. 1) (Fig.
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 ce receveur , il est obligatoire d'avoir les pentes (7) (figl 1) pour d'une part, limiter la quantité des eaux usées stockées accessibles à l'air libre dans la partie espace (8) qui est située entre les remparts (9) et la hauteur (10) et d'autre part, d'accélérer le fluide des eaux usées (11) vers le canal d'évacuation (1).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 receiver, it is mandatory to have the slopes (7) (figl 1) for one hand, limit the amount of wastewater stored accessible in the open space in the space (8) which is located between the walls (9) and the height (10) and secondly, to accelerate the wastewater fluid (11) to the discharge channel (1).
Dans la partie d'évacuation de ce receveur (2), la pièce (fig9)(5) comporte un couvercle (4) permettant l'accès dans le siphon intégré dans la forme (fïg9)(6) et l'ensemble peut être caché par la grille (3) .In the discharge part of this receiver (2), the part (fig9) (5) has a cover (4) allowing access into the siphon integrated in the form (fIg9) (6) and the assembly can be hidden by the grid (3).
Un autre avantage en intégrant une évacuation extra-plate dans la masse d'un receveur encastré, est la profondeur (fig5) (C-Cl) de l'encastrement qui n'est pas très importante, environ 5 à 12 cm, selon le matériau avec lequel le receveur est conçu (plastique, céramique et métallique...) et ce qui permet également d'avoir une hauteur (fîg5) (B-Bl) bordure extérieure très faible, à titre d'exemple, elle peut être d'1 mm si c'est un receveur métallique. La hauteur (B-Bl) qui est située à l'extérieur du sol peut être changée selon le. design du receveur sans modifier la hauteur d'encastrement (C-Cl).Another advantage by integrating an extra-flat discharge in the mass of a recessed receiver, is the depth (fig5) (C-Cl) of the installation which is not very important, about 5 to 12 cm, according to the material with which the receiver is designed (plastic, ceramic and metallic ...) and which also allows to have a height (f5) (B-Bl) very low outer edge, for example, it can be d '1 mm if it is a metal tray. The height (B-Bl) which is located outside the ground can be changed according to the. design of the receiver without changing the installation height (C-Cl).
L'invention selon son innovation peut être adaptée facilement à tout type de receveurs et de designs différents et ne se limite pas qu'à des receveurs carrés ou rectangles. The invention according to its innovation can be easily adapted to any type of receivers and different designs and is not limited to only square or rectangular receivers.
Les dessins annexés illustrent :The accompanying drawings illustrate:
La figure 1 : une évacuation extra-plate type QUICK DRAIN ® (12)Figure 1: an extra-flat type QUICK DRAIN ® exhaust (12)
La figure 2 : démontre la coupe tranversale entre les points AA de la figure 1.Figure 2 shows the cross-section between the points AA in Figure 1.
La figure 3 : un receveur extra-plat à encastrer avec une évacuation intégrée avec une faible hauteur (B-Bl).Figure 3: an ultra-flat built-in shower with built-in vent with low height (B-Bl).
La figure 4 : vue du dessous de la figure 3 en montrant le canal d'évacuation (1).Figure 4: bottom view of Figure 3 showing the discharge channel (1).
La figure 5 : vue de face d'un receveur à encastrer de la figure 4 et de la figure 3 en montrant la profondeur (C-Cl) qui se situe dans le sol et la hauteur B-Bl qui se situe à l'extérieur du sol.Figure 5: front view of a recessed receiver of Figure 4 and Figure 3 showing the depth (C-Cl) which is in the ground and the height B-Bl which is located outside of the ground.
La figure 6 : montrant un receveur à encastrer avec une évacuation intégrée avec une hauteur de bordure (B-Bl) plus importante.Figure 6: showing a built-in shower with built-in drain with larger edge height (B-B1).
La figure 7 : vue du dessous de la figure 6 en montrant le canal d'évacuation (1).Figure 7: view from below of Figure 6 showing the discharge channel (1).
La hauteur (C-Cl) de la figure 3 et la figure 6 est identique mais la hauteur (B-Bl) de la figure 3 et la figure 6 est différente.The height (C-Cl) of Figure 3 and Figure 6 is the same but the height (B-B1) of Figure 3 and Figure 6 is different.
La figure 8 : un receveur à encastrer (2)Figure 8: a built-in shower tray (2)
La figure 9 : vue éclatée des composants du receveur à encastrer de la figure 8.Figure 9: Exploded view of the components of the built-in receiver of Figure 8.
La figure 10 : vue aérienne d'un receveur à encastrer sans la grille (3).Figure 10: Aerial view of a receiver to be built without the grid (3).
La figure 11 : vue de la coupe AA de la figure 10 montrant la forme de l'évacuation intégrée en coupe.FIG. 11 is a view of the section AA of FIG. 10 showing the shape of the integrated evacuation in section.
La figure 12 : vue de la coupe AA de la figure 10 en montrant l'écoulement (11) des eaux usées vers le canal d'évacuation (1) et montrant la forme de l'évacuation intégrée en coupe. FIG. 12 is a view of the section AA of FIG. 10 showing the flow (11) of the wastewater towards the evacuation channel (1) and showing the form of the integrated evacuation in section.

Claims

REVENDICATIONS
1) Le dispositif selon l'invention est un receveur de douche (2) qui peut être encastré ou semi-encastré sur la partie (C-Cl) avec une évacuation formés dans sa masse au moment de sa fabrication pour assurer une étanchéité à 100 % entre le receveur et son évacuation.1) The device according to the invention is a shower tray (2) which can be recessed or semi-recessed on the part (C-Cl) with an evacuation formed in its mass at the time of its manufacture to ensure a seal at 100 % between the recipient and his evacuation.
2) Le dispositif selon l'invention est un receveur à encastrer avec évacuation intégrée selon la revendication 1 comporte une évacuation intégrée dans la masse dont la forme d'évacuation et la garde d'eau (fig9) (6) (figll) (figl2) sont conçues en même temps et directement dans la masse du receveur et avec la même matière de fabrication du receveur.2) The device according to the invention is a built-in receiver with integrated discharge according to claim 1 comprises a discharge integrated into the mass, the form of evacuation and the water guard (fig9) (6) (figll) (figl2 ) are designed at the same time and directly in the receiver mass and with the same material of manufacture of the receiver.
3) Le receveur à encastrer selon les revendications précédentes, il est obligatoire d'avoir les pentes (7), permettant de réduire et limiter la quantité stockée des eaux usées accessibles à l'air libre dans la partie (8).3) The built-in receiver according to the preceding claims, it is mandatory to have the slopes (7), to reduce and limit the stored amount of wastewater accessible to the open in the part (8).
4) Le receveur à encastrer selon les revendications 1 et 2 caractérise son évacuation et la garde d'eau intégrées dans la masse du receveur, permet à celui-ci la possibilité d'avoir une profondeur d'encastrement de la partie(C-Cl) (fig5) et ce qui permet également d'avoir une hauteur (fîg5) (B-Bl) bordure extérieure très faible, à titre d'exemple, elle peut être d'1 mm si c'est un receveur métallique. La hauteur (B-Bl) qui est située à l'extérieur du sol peut être changée selon le design du receveur sans modifier la hauteur d'encastrement (C-Cl).4) The built-in receiver according to claims 1 and 2 characterizes its evacuation and water guard integrated in the mass of the receiver, allows it to have a possibility of having a depth of embedding of the part (C-Cl ) (fig5) and which also allows to have a height (f5) (B-Bl) outer edge very low, for example, it can be 1 mm if it is a metal receiver. The height (B-Bl) which is located outside the floor can be changed according to the design of the receiver without changing the installation height (C-Cl).
5) Le receveur à encastrer avec évacuation intégrée selon les revendications précédentes, il est obligatoire que les remparts (9) soient formés en même temps et directement dans la masse du receveur permettant de créer la garde d'eau dans l'espace (8) et qu'ils soient en un seul tenant avec le receveur pour assurer à 100% l'étanchéité entre le receveur et la partie d'évacuation, sans coût supplémentaire, pour adapter l'évacuation dans le receveur car le receveur, l'évacuation et la garde d'eau sont formés en même temps au moment de la fabrication.5) The built-in receiver with integrated discharge according to the preceding claims, it is mandatory that the walls (9) are formed at the same time and directly in the mass of the receiver to create the water guard in the space (8) and that they are in one piece with the receiver to ensure 100% sealing between the receiver and the evacuation part, without additional cost, to adapt the evacuation in the receiver as the recipient, the evacuation and the water guard are formed at the same time at the time of manufacture.
6) Le receveur à encastrer selon les revendications précédentes dont la hauteur totale est entre (Bl et C) peut être facilement encastré dans une faible profondeur de sa partie (C- Cl) entre 5 à 12 cm selon le matériau utilisé pour fabriquer le receveur, en revanche, la hauteur (B-Bl) qui est située à l'extérieur du sol ne modifie pas la profondeur d'encastrement (C-Cl). 6) The built-in receiver according to the preceding claims whose total height is between (Bl and C) can be easily recessed in a shallow depth of its part (C-Cl) between 5 to 12 cm depending on the material used to manufacture the receiver on the other hand, the height (B-B1) which is located outside the ground does not modify the embedment depth (C-Cl).
EP08872564A 2007-11-09 2008-11-13 Basin with built-in, integrated extra-flat drain Withdrawn EP2358247A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR0707886A FR2923503A1 (en) 2007-11-09 2007-11-09 Shower basin device for use in bathroom, has extra-thin evacuation part integrated in its body and possessing low recessed depth of specific centimeter, where barriers and device are formed as single unit
PCT/FR2008/001609 WO2009103863A1 (en) 2007-11-09 2008-11-13 Basin with built-in, integrated extra-flat drain

Publications (1)

Publication Number Publication Date
EP2358247A1 true EP2358247A1 (en) 2011-08-24

Family

ID=39304756

Family Applications (1)

Application Number Title Priority Date Filing Date
EP08872564A Withdrawn EP2358247A1 (en) 2007-11-09 2008-11-13 Basin with built-in, integrated extra-flat drain

Country Status (3)

Country Link
EP (1) EP2358247A1 (en)
FR (1) FR2923503A1 (en)
WO (1) WO2009103863A1 (en)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2305906B1 (en) * 2009-09-25 2016-03-09 Söderström, Gert Wilhelm A liquid trap system; odour seal
NL2003568C2 (en) * 2009-09-29 2011-03-30 Easy Sanitary Solutions B V DRAIN TRAY.
NL2003844C2 (en) * 2009-11-23 2011-05-24 Easy Sanitary Solutions B V DRAIN SINK WITH STOCK ROOM.
CN102373748B (en) * 2010-08-17 2015-05-06 刘玉建 Oblong floor drain

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Publication number Priority date Publication date Assignee Title
DE19948854A1 (en) * 1999-10-08 2001-04-19 Dorma Gmbh & Co Kg Shower tray with integral drain has walls of same depth as trough, ridges along adjacent straight sides and grooves allowing glass panels to be mounted around tray
GB2382769B (en) * 2001-12-04 2005-03-02 Terence Luther Cundick Shower tray
NL1027175C1 (en) * 2004-03-18 2005-09-20 Jered Nijhof Drain gutter with grate.
CA2927988C (en) * 2007-03-17 2021-01-26 Tile Redi, Llc Improvements in modular shower enclosures

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2009103863A1 *

Also Published As

Publication number Publication date
FR2923503A1 (en) 2009-05-15
WO2009103863A1 (en) 2009-08-27

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