FR2984377A1 - TOILETS WITH LOW WATER CONSUMPTION - Google Patents

Abstract

The present invention relates to a water-saving WC toilet device (1). The device according to the invention comprises a bowl, which itself comprises a bowl (2) provided with an upper opening (3) and a bottom (4) for receiving material to be evacuated. This bowl is associated with a siphon (6) composed of two successive parts, with opposite radii of curvature and whose first part (7) opens upstream on the bottom of the bowl and the second part (9) is connected downstream. on an evacuation (10). This bowl is also associated with a water inlet (16) opening in the upper part of said bowl. In order to use a quantity just necessary and sufficient to evacuate the materials to be discharged from the bowl, the water inlet comprises a conduit (17) water jet (18) main inclined along an axis parallel to a tangent d a front inner wall (22) of the first part (7) of the siphon (6) at the opening of the latter, the water jet conforming to the curvature of the inner wall of the first part of the siphon.

Description

The invention relates to toilets with low water consumption.

Water consumption in many facilities has risen sharply with the arrival of new devices to make life easier for consumers. In addition, climate change tends to reduce the amount of water available in the groundwater while imposing a greater water demand for example for farmers. Water is, in fact, recognized as a resource whose excessive consumption will lead to many ecological and food problems in the future.

As a result, it is becoming more and more important to save water on the one hand for purely financial reasons, the latter becoming scarce, its cost increasing in proportion, and, on the other hand, for ecological reasons.

Among the everyday appliances consuming water, toilets or toilets are among the essential elements. The latter operate on the principle of a flush releasing a reserve of water to be mixed with the materials to be evacuated.

In order to limit the amount of water consumed, a known system consists of providing two push buttons, each of which releases a quantity of water adapted to the situation. A first button can release a "small" volume of water, for example 3 liters, while a second button releases a "large" volume of water, for example 6 or 9 liters.

If such systems make it possible to provide a predefined quantity of water to be discharged according to the type of material to be evacuated, they do not make it possible to optimize the evacuation of the latter. Indeed, these known devices only adapt the amount of water to the situation without optimizing the use of water discharged by the evacuation system itself. In these devices, the water is usually released by simple gravity, and, although the amount of water is adapted to the different types of materials to be discharged, only the "large" amount of water discharged allows to ensure the evacuation. The consumption of water used to evacuate each type of material thus remains important and much greater than that which could be just necessary and sufficient.

The present invention therefore aims to reduce the amount of water used by toilets while ensuring a complete and optimal evacuation of the materials contained in the bowl.

In the rest of the description, the qualifiers "superior", "lower", "high" and "low" of an element of the device are used as part of a normal installation of the device, that is to say relating to a notion of installation of the device on a flat horizontal floor with an upper opening of the bowl parallel to said floor above it.

The invention relates to a WC toilet device comprising: - a bowl, itself having a bowl provided with an upper opening and a receiving bottom material to be evacuated; a siphon composed of two successive parts, with opposite radii of curvature, namely: a first portion of the siphon having an opening opening on the bottom of the bowl and having a first radius of curvature; a second portion having a radius of curvature of concavity opposite to that of the first part, and connected upstream to the first part and downstream to an evacuation network; - At least one water inlet opening in the upper part of said bowl, characterized in that the water inlet comprises a main water jet pipe inclined along an axis parallel to a tangent of an inner front wall of the first part of the siphon at the opening of the latter, the jet of water conforming to the curvature of the inner wall before the first part of the siphon. The device according to the invention comprises the usual elements of the prior art, that is to say a bowl composed of a bowl serving as a receptacle for feces and associated with a siphon via an opening in the bottom of said bowl. The siphon has two consecutive curved portions, a first portion having the opening in the bottom of the bowl and a second portion connected to the drain. The first part has a curve with a first radius of curvature of generally "U" shape while the second part has a second radius of curvature and has a usual shape with a reverse curvature at the first part and forming a limiting vertex evacuation of the water maintained in the first part. The first part is intended to serve as a water reserve and receiving area of the materials to be evacuated. The second part is intended to prevent the water located in the first part from being evacuated if there is no addition of water in the first part, typically if one does not flush .

A jet of water for discharging the materials present in the first part of the siphon is obtained by gravity or with any other device known to those skilled in the art. This water jet is discharged directly into the bowl via a water inlet.

According to the invention, the jet of water arrives at the opening of the first part of the siphon parallel to a tangent of an inner surface before said first part of the siphon at the opening of the siphon.

This tangential arrival ensures that the jet of water follows the curves of the siphon and, with a sufficient pressure of the jet, causes the water and the materials that it meets on its trajectory directly in the siphon towards the evacuation by marrying the curve of the inner surface of the first part of the siphon. Typically, between the initial point of contact between the water jet and the inner wall of the first part of the siphon on the one hand and the second part of the siphon on the other hand, the axis of the water jet is tangential to the lower inner wall of the first part of the siphon.

The cooperation between the water jet and the curve of the first part of the siphon allows a reduced need for water from the jet, compared to the prior art, for discharging the materials, the jet being oriented in the first part siphon according to the internal curvature of said first portion and marrying this curvature without abrupt rupture of its axis of projection. Preferably, the water jet is in tangential contact with the front inner wall of the first part of the siphon at the opening of said first part, that is to say that the initial contact between the jet of water and the inner wall before the first part of the siphon takes place from the opening of said first part. This tangential contact from the opening of the siphon ensures immediate and optimal cooperation between the water jet and the inner wall of the siphon. This immediate cooperation allows the evacuation of materials from the entrance of the siphon without reducing the strength of the jet by the presence of a gap between the axis of the jet and the curve of the first part of the siphon. Advantageously, the siphon and the bowl are connected by a junction zone 20 of conical shape whose maximum diameter corresponds to the base of the bowl and whose minimum diameter corresponds to the opening of the first part of the siphon. This particular form of the zone of junction between the bowl and the siphon 25 makes it possible to direct, by gravity, the materials to be evacuated towards the opening of the first part of the siphon, that is to say at the same place. where the jet of water meets the inner wall before the first part of the siphon. The junction zone thus produced associated with the cooperation between the jet and the curvature of the first part of the siphon thus ensures on the one hand the presence of the substances to be evacuated on the path of the water jet and on the other hand the evacuation of these materials optimally.

In an improvement, the bowl has at its upper opening an inner rim forming an internal channel. This channel is supplied with water by the water inlet and opens by overflow on the internal contour of the bowl. For this, the water inlet has at least one lateral orifice feeding the channel.

This improvement allows to supply water to the channel and pour overflow of water on the internal contour of the bowl of the bowl. The overflow from the trench, associated with the shape of the junction zone between the bowl and the siphon, completes the entrainment of the materials to be evacuated towards the siphon, the water overflowing from the trough causing the materials located in the bowl towards the junction zone then in said siphon. Advantageously, the water inlet also comprises a lower water discharge opening opening against a rear inner wall of the bowl. This evacuation opening against the rear inner wall of the bowl ensures the evacuation of the materials to be evacuated located under the water inlet, that is to say at a place where the water overflowing from the channel can not normally to discharge by the presence of the water supply.

To further improve the evacuation of materials, the siphon has a smooth internal surface without asperity and, for each of its parts, a regular radius of curvature thus limiting the resistance against the main water jet in the siphon. This absence of asperities and the fact that the radius of curvature is substantially constant, that is to say without having an angle or abrupt change of direction, allows the main water jet to marry the curve as best as possible. siphon and maintain a power able to evacuate the materials without requiring a large amount of water. Preferably, the first part of the siphon develops at an angle of 180 ° with a constant radius of curvature on these 180 °. In order to increase its efficiency, the main water jet is axially centered on the opening of the siphon at its first part. This water jet has a dynamic pressure of the main water jet of at least 0.006 MPa. This characteristic of the jet allows on the one hand a good cooperation between said jet and the inner surface of the first part of the siphon and sufficient power to ensure quickly and efficiently the evacuation of all the materials present in the siphon on the other hand, these being "ejected" since the opening of the first part of the siphon to the second part of the siphon under the pressure of the jet. The present invention is now described with the aid of examples which are only illustrative and in no way limit the scope of the invention, and from the attached illustrations, in which: FIG. 1 represents a sectional view of the profile of toilet according to the invention; - Figure 2 shows a top view of a bowl according to the invention; - Figures 3A and 3B show sectional views of a water inlet according to the invention as shown in Figure 1 or 2 and respectively in profile or face. 2 9843 77 8 A list of references used below in the description and the accompanying figures is given below: 1. Toilet WC 5 2. Bowl 3. Top opening of the bowl 2 4. Bottom of the bowl 2 5. Upper part of the bowl 2 6. Siphon 10 7. First part of the siphon 6 8. Opening of the siphon 6 opening into the bottom 4 9. Second part of the siphon 6 10. Evacuation 11. Center of the radius of curvature of the first part 7 of the siphon 6 12.Center of the radius of curvature of the second part 9 of the siphon 6 13. Maximum level of water retained in the first part 7 of the siphon 6 20 14. Top of the internal wall 15 delimiting the level 13 15 Bottom water supply duct 16 16.Water inlet 17. Main water inlet duct 16 18. Main water jet 25 19. Jet axis 18 20.Attachment duct 17 21 Tangent to the wall 22 22. Inner wall before the first part 7 of the siphon 6 23. Branch having the opening 8 of the "U" profile of the first part 7 of siphon 6 24. Junction area between siphon 6 and bowl 2 25. Joint between junction zone 24 and bowl 2 26. Joint between junction zone 24 and siphon 6 27. Contact point between the jet 18 and the wall 22 28. Angle between the axis 19 and the tangent 29 at the point of contact 27 29. Tangent to the inner front wall 22 at the point of contact 27 30. Internal edge of the upper portion 5 of the bowl 2 31. Channel formed by the rim 30 32. Internal contour of the bowl 2 33. Lateral duct of the water inlet 16 Figure 1 shows a sectional view of the toilet profile according to the invention.

WC 1 toilet comprise a bowl with a bowl 2 having an opening 3 and a bottom 4. The opening 3 is located on the upper portion 5 of the bowl 2 so as to receive the materials to be evacuated via this opening 3. The bottom 4 is intended to serve as a receptacle for said materials. In order to evacuate these materials, the bottom 4 is connected to a siphon 6 divided into two consecutive parts. A first portion 7 of the siphon 6 has an opening 8 opening into the bottom 4 of the bowl 2. This first portion 7 is directly connected to the second portion 9 of the siphon 6 which is itself connected to a discharge 10. The first and second Parts of the siphon 6 have general shapes of curved tubes with opposite curvatures. The first part 7 has at an upstream end the opening 8 and is connected at its other end, downstream, to the second part 9 of the siphon 6. The second part 9 of the siphon 6 opens downstream directly into the outlet 10.

The first part 7 of the siphon 6 has a curvature around a center 11 located above said first part 7. The curvature of the second part 9 of the siphon 6 takes place around a center 12 located under said second part 9. Preferably, the first portion 7 of the siphon 6 to a curvature of 180 ° in the general form of a "U", whose opening is turned obliquely upwards. The second portion 9 of the siphon 6 is made, for example, in the form of a bend of about 120 ° whose concavity is turned downwards and whose downstream portion is horizontal. The first and second parts of the siphon are designed in such a way that the water contained in the first part 7 of the siphon 6 can not access directly to the outlet 10. Typically, the water poured into the siphon 6 fills the first part. part 7 to a horizontal level 13 corresponding to the lower level 14 of the downstream portion of the second part 9. When water is discharged into the siphon 6 while the water in the first part 7 is already at level 13 , ie at the level 14 of the lower part of the second part 9, the surplus water (as well as the materials transported by this additional water) overflow from the level 14 and are evacuated by the evacuation 10.

This additional water is supplied by a water inlet 16 integrated and opening in the upper part 5 of the bowl 2. This water supply 16 is connected for example to a supply tap or a water supply located above the bowl 2 or recessed into a wall. The water inlet 16 comprises a main duct 17 which produces a jet of water 18 which flows directly into the bowl 2. The water jet 18 produced by the water inlet 16 is concentrated around its axis 19 and the pressure of the jet 18 is such that it keeps all along its path to the siphon 6 a rectilinear direction of axis 19 stable.

According to the invention, the duct 17 is inclined along an axis 20 parallel to a tangent 21 of an inner wall before 22 of the first part 7 of the siphon 6 at its opening 8. Schematically, if we consider that the first portion 7 of the siphon 6 has a general shape of "U", a branch 23 of the "U" opening through the opening 8 in the bowl 2 has an axis parallel to the axis 20 of the conduit 17. Thus, the axis 19 of the jet 18 is parallel to the median axis of the "U" formed by the first part 7 of the siphon 6. A jet 18 has, for example, a diameter of 20 mm and an inclination of 35 ° with respect to an axis vertical.

The axis 19 of the water jet 18 is also parallel to the axis of the branch 23. Preferably, the water jet 18 is in tangential contact with the inner wall 22 of the first part 7 of the siphon 6 at the of the opening 8. This concordance of the axes (19 of the jet and the axis of the branch 23) allows the jet 18 to marry the curve of the inner wall 22 and thus follow a path along this curve. This wall 22 has a smooth curvature smooth and smooth, which directs the jet 18 to the second part 9 of the siphon 6 without significant loss of force. Thus, the materials encountered by the jet 18 are first crushed / shredded, then directly driven by it to the second part 9 of the siphon 6 without the need to "drown" under a large amount of water to ensure their entrainment to the second part 9 of the siphon 6. In order to ensure an impact on the materials sufficient to drive them by the jet 18, the latter is produced by the arrival of water in the form of a concentrated jet around its axis 19 at a minimum dynamic pressure of 0.006 MPa. The concentration characteristic of the jet 18 avoids a dispersion that would limit both the good cooperation with the internal front wall 22 of the first part 7 of the siphon 9 that the impact on the materials to be evacuated. The pressure of the jet 18 makes it possible on the one hand to impact the materials to ensure their entrainment in the siphon 6 and, on the other hand, guarantees a power of the jet 18 sufficient to entrain these materials along the first part 7 until at the second part 9 of the siphon 6. The siphon and the bowl are advantageously connected by a junction zone 24. This junction zone 24 has a conical shape whose largest diameter is contiguous with the bottom 4 of the bowl 2 then that the smallest diameter is joined 26 with the opening 8 of the first part 7 of the siphon 6. This conical junction zone 24 guides, by gravity, the materials to be discharged to the opening 8 of the first part 7 of the siphon 6 This positioning of the materials situated in the axis of the concentric and powerful water jet 18 as well as the cooperation of this jet 18 and of the internal wall 22 allows a safe evacuation with an optimal consumption of water of the substances to be evacuated.

The water jet 18 may be tangential to the inner wall 22 before the joint 26 between the junction zone 24 and the first part 7 of the siphon 6. If this is not the case, a contact 27 between the jet d water 18 and the front inner wall 22 of this first part 7 of the siphon 6 can be realized in such a way that the axis 19 of the jet 18 has a slight angle 28 with a tangent 29 to the front inner wall 22 at this point. contact 27. This angle 28 is for example of the order of 35 °. Such an angle only imposes a slight constraint on the jet 18 decreasing its power insignificantly. Thus, the jet 18 retains a power capable of driving the materials along the inner wall 22 of the first part 7 of the siphon 6. In the case where the axis 19 has an angle with the tangent 29, the jet 18 can be centered in the opening 8 to impact the materials that would not be located on the front face of the opening 8. However, to maintain good cooperation between the jet 18 and the inner wall 22, the angle 28 is preferably below 35 ° at the point of contact 27. The internal walls of the siphon 6 advantageously have a smooth and smooth surface, without asperity, and in each of its parts, a regular radius of curvature thus limiting the resistance opposing the jet 18. This absence of asperities and the regularity of the radius of curvature, that is to say without presenting a sharp angle or change of direction, allows the main water jet 18 to marry the curve of the siphon 6 and to maintain a power capable of evacuate the material without the addition of a large amount of additional water. Preferably, the first part 7 of the siphon 6 develops at an angle of 180 ° with a constant radius of curvature on these 180 °.

In an improvement, the bowl 2 comprises at its upper opening 3 an internal rim 30 forming an internal channel 31. This channel 31 is supplied with water by the water inlet 16 and opens by overflow on the inner contour 32 of the bowl 2. For this, the water inlet comprises at least one lateral duct 33 supplying the channel 31. Figure 2 shows a top view of a cuvette according to the invention. As can be seen in FIG. 2, the trough 31 develops along the entire contour of the opening 3 of the bowl 2 with the exception of the location where the water supply 16 is located. The water overflowing from the channel 31 is poured into the bowl 2 to evacuate the materials regardless of their location in the bowl 2.

Figures 3A and 3B show sectional views of a water inlet according to the invention as shown in Figure 1 or 2 and respectively in profile or from above. The water inlet comprises, in addition to the main duct 17 delivering the main water jet 18, two lateral ducts 33 feeding the channel 31 and a lower duct 15 for discharging water into the bowl 2 directly below. 16. The two lateral ducts 33 advantageously make it possible to supply the channel 31 on each side of the water inlet 16 simultaneously, thus providing a regular overflow by a balanced supply of the channel 31.

The lower pipe 15 allows water to be poured into the bowl 2 where the channel 31 can do it by the presence of the water supply 16.5

Claims (10)

REVENDICATIONS1. Toilet toilet device (1) comprising: - a bowl, itself comprising a bowl (2) provided with an upper opening (3) and a bottom (4) for receiving material to be evacuated; - A siphon (6) composed of two successive parts, with opposite radii of curvature, namely: o a first part (7) of the siphon having an opening (8) opening on the bottom (4) of the bowl (2) and having a first radius of curvature; a second portion (9) having a radius of curvature of concavity opposite to that of the first portion, and connected upstream to the first portion and downstream to an evacuation network (10); - At least one water inlet (16) opening in the upper part (5) of said bowl (2), characterized in that the water inlet comprises a conduit (17) water jet (18) inclined main along an axis (20) parallel to a tangent (21) of a front inner wall (22) of the first part (7) of the siphon (6) at the opening (8) thereof, the jet of water (18) conforming to the curvature of the front inner wall (22) of the first portion (7) of the siphon 6 from a point of contact (27) with the front inner wall (22) to the second portion (9) ) of the siphon. 2. Device according to the preceding claim characterized in that the jet of water (18) is in contact (27) tangential with the interneavant wall (22) of the first part (7) of the siphon (6) at the level of the opening (8) of said first part. 3. Device according to one of the preceding claims, characterized in that the siphon and the bowl are connected by a conical junction zone (24) whose maximum diameter corresponds to the base (25) of the bowl and whose diameter (26) minimum corresponds to the opening (8) of the first part of the siphon. 4. Device according to one of the preceding claims, characterized in that the bowl comprises at its upper opening (5) an edge (30) internal forming an internal channel (31), said channel being supplied with water by the arrival of water. 5. Device according to the preceding claim, characterized in that the channel opens by overflow on the contour (32) internal bowl (2). 6. Device according to one of claims 4 to 5, characterized in that the water inlet comprises at least one lateral orifice (33) feeding the channel. 7. Device according to one of the preceding claims, characterized in that the water inlet comprises a lower water discharge port (15) opening against a rear inner wall of the bowl. 8. Device according to one of the preceding claims, characterized in that the siphon has an internal curve without asperity and continuous. 9. Device according to one of the preceding claims, characterized in that the first part of the siphon develops at an angle of 180 °. 10. Device according to one of the preceding claims, characterized in that an axis (19) of the jet (18) has an angle (28) less than 35 ° with a tangent (29) to the front inner wall (22) to level of the point of contact (27) between said jet (18) and said front inner wall (22).