The present application is a U.S. National Stage under 35 USC 371 patent application, claiming priority to Serial No. PCT/GB2015/050881, filed on Mar. 24, 2015, which claims priority from GB 1405235.1, filed on Mar. 24, 2014, both of which are incorporated herein by reference.
The present invention relates to an improved plumbing apparatus for increasing the speed of drainage of a washing vessel. Particularly but not exclusively, the present invention relates to an improved plumbing apparatus for increasing the speed of drainage of a bath tub.
Various types of vessels are known for a person to wash themselves; for example bath tubs, sinks, shower trays or the like. All of these vessels generally require draining after use. Current trends are for faster draining vessels, particularly for bath tubs which contain significant volumes of water.
Drainage speed is dependent on a number of factors including the size of the outlet; larger outlets giving greater drainage speeds. However, large outlets are not always desirable. For example, the outlet is normally sealed by a plug which has to be lifted out of the outlet to permit drainage to commence and large plugs may be considered unsightly and difficult to remove due to the larger surface area which the weight of the water in the bath tub can act down on.
This is particularly a problem in bath tubs provided with an access door in a side of the bath. Such bath tubs are used by elderly or frail people who would normally struggle to get in and out of a normal bath tub. These bath tubs often accommodate a seat for the user to sit on, avoiding the need for the user to lower themselves fully into the bath tub. The provision of an access door and a seat means the sides of the bath tub are generally taller than those of a conventional bath tub. This exacerbates the drainage issue as the user has to wait until this taller bath tub has substantially emptied before opening the door.
According to a first aspect of the present invention there is provided an apparatus for increasing the speed of drainage of a washing vessel such as a bath tub, basin or the like, the apparatus comprising:
a body having a body inlet adapted to be connected to a washing vessel outlet and a body outlet adapted to be connected to soil stack;
a barrier located between the body inlet and the body outlet, the barrier being movable between a fill position in which the barrier prevents the flow of fluid from the body inlet to the body outlet and a drainage position in which the barrier permits the flow of fluid from the body inlet to the body outlet; and
a barrier by-pass, the barrier by-pass being adapted to permit fluid otherwise being prevented from flowing through the body by the barrier to by-pass the barrier when the barrier is in the fill position and, in use, when a threshold depth of water is exceeded inside the washing vessel.
In at least one embodiment of the present invention providing a barrier located between the body inlet and the body outlet permits a larger washing vessel outlet to be used than in conventional tubs. Furthermore, providing a bypass can prevent an overflow condition being established in the washing vessel.
The barrier may be annular. An annular barrier has a much reduced surface area upon which to build up a head of pressure which may inhibit opening of the body outlet.
The barrier may be adapted to form a seal with the body.
In this embodiment, the barrier forms a seal with the body when moving from the drainage position to the fill position.
In this embodiment, in moving from the drainage position to the fill position, the seal between the barrier and the body is broken
The seal may be an elastomeric seal.
Particularly the seal may comprise rubber.
The seal may be in a vertical plane.
Preferably the seal is in a horizontal plane. A seal in a horizontal plane is preferred as weight of water acting on the barrier can be utilised to hold the barrier in the fill position.
The barrier may be actuable between the drainage position and the fill position.
The barrier may be remotely actuable between the drainage position and the fill position.
The barrier may be actuable between the drainage position and the fill position by means of a push-push mechanism.
Alternatively, the barrier may be actuable between the drainage position and the fill position by means of a push-pull mechanism.
In further alternative or additional embodiments, the barrier may be actuable by rotation of an actuator.
In some embodiments, the actuator may be a lever.
In these and other embodiments, the actuator may be a handle. In this embodiment the lifting the handle may move the barrier from the fill position to the drainage position.
The actuator may be connected to the barrier by an actuator mechanism.
The actuator mechanism may convert a movement in one direction of the actuator to a movement in a different or additional direction of the barrier. For example the actuator mechanism may convert rotational movement of the actuator into vertical movement of the barrier.
In some embodiments, the actuator mechanism may convert rotational movement of the actuator into rotational and vertical movement of the barrier. In this embodiment, the actuator mechanism may at least partially a helical arrangement.
The barrier may be adapted to move vertically between the fill and drainage positions.
Alternatively or additionally, the barrier may be adapted to move horizontally between the fill and drainage positions.
Alternatively or additionally, the barrier may be adapted to move rotationally between the fill and drainage positions.
In alternative embodiments the barrier may comprise a first portion and a second portion.
In these and other embodiments the barrier first portion may be movable with respect to a barrier second portion.
Moving the barrier first portion with respect to the barrier second portion, in some embodiments, moves the barrier from the fill position to the drainage position.
The threshold height of water may be an overflow height of water determined by the washing vessel dimensions.
The bypass may be integral with the body.
The bypass may comprise a bypass inlet, the bypass inlet being adapted to receive fluid from the body.
The bypass inlet may be between the body inlet and the body outlet.
The bypass inlet may be between the body inlet and the barrier.
The bypass inlet may be adapted to receive fluid from a body inlet side of the barrier.
Alternatively or additionally, the bypass may be adapted to receive fluid from the washing vessel outlet.
Providing an apparatus which allows the barrier to be by-passed in an overflow situation is particularly useful, as the apparatus of the present invention can be utilised as an overflow obviating the need for holes and the like to be provided at a desired maximum fill level.
The bypass may comprise a bypass outlet, the bypass outlet being adapted to deliver fluid flowing through the bypass to the body outlet.
The bypass may extend upwardly from the barrier.
The bypass may define a weir.
The weir may be lie on a horizontal plane.
The weir horizontal plane may be the same as a washing vessel threshold height of water horizontal plane.
The bypass may be tubular.
In this case the weir may be a circumferential weir.
An embodiment of the present invention will now be described in which:
and
Referring firstly to
The apparatus 10 comprises a body 16, having a body inlet 18, adapted to be connected to an enlarged bath tub outlet 20, and a body outlet 22 adapted to be connected to a soil stack 24. The apparatus 10 further comprises a barrier 26 located between the body inlet 18 and the body outlet 22, the barrier 26 forming an annular seal 30 with the body 16 to prevent flow between the body inlet 18 and the body outlet 22.
Referring to
Referring back to
The barrier 26 is in the form of a pipe 36 connected to the actuator 32 by actuator mechanism 38. The actuator mechanism 38 comprises a first portion 40, connected to the actuator 32, the first portion 40 defining an external helical profile 44 and a 2nd portion 46 connected to the barrier pipe 36, the 2nd portion comprising a collar 42 defining a complimentary internal profile to the external helical profile 44 of the first portion 40.
Rotation of the actuator 32 results incorporation of the external helical profile 44 of the actuator mechanism first portion 40 with the complimentary internal profile of the actuator mechanism collar 42 to convert the rotation of the actuator 32 into vertical movement of the barrier pipe 36.
The actuator mechanism 2nd portion 46 further comprises an open sided linkage mechanism 64 connecting the actuator mechanism to the barrier 26, the purpose of the linkage mechanism 64 being described hereafter.
The barrier pipe 36 is housed within a body pipe 50. The barrier pipe 36 and the body pipe 50 define an annular bypass 52 adapted to permit fluid otherwise being prevented from flowing through the body 16 by the barrier 26 to bypass the barrier 26 when the barrier 26 is in the fill position and, in use, when a threshold depth of water is exceeded inside the bathtub 14.
The barrier pipe 36 and the body pipe 50 define a bypass inlet 54. As the level of water 56 rises within the bathtub 14, fluid flows up the annular bypass 52, the level of fluid in the bypass 52 matching the level of fluid in the bathtub 14.
Referring to
Once the fluid in the bypass 52 reaches the pipe upper edge 60, the water flows through the open sided linkage mechanism 64 over the pipe upper edge 60. The open sided linkage mechanism 64 and the pipe upper edge 60 cooperates to form a circumferential weir 66, fluid flowing over the weir 66 dropping through a barrier pipe through bore 68, and the body outlet 22, in to the soil stack 24.
Referring back to
Number | Date | Country | Kind |
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1405235.1 | Mar 2014 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2015/050881 | 3/24/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/145141 | 10/1/2015 | WO | A |
Number | Name | Date | Kind |
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851513 | Guthrie | Apr 1907 | A |
1781719 | Darling | Nov 1930 | A |
1848521 | Fleck | Mar 1932 | A |
4777676 | Ericson | Oct 1988 | A |
6415463 | Slothower | Jul 2002 | B1 |
Number | Date | Country |
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2164018 | Jul 1973 | FR |
1032117 | Jan 2008 | NL |
0177448 | Oct 2001 | WO |
Entry |
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International Search Report corresponding to Int'l Pat. Appl. No. PCT/GB2015/050881, dated Jun. 18, 2015, 3 pages. |
Number | Date | Country | |
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20170016220 A1 | Jan 2017 | US |