WASTE TRANSFER SYSTEM FOR A TOILET OF A PUBLIC TRANSPORT VEHICLE

Abstract

Waste transfer system for a toilet of a public transport vehicle that discharges into an on-board waste aerated storage tank, comprising a waste intermediate tank (1), means for generating negative or positive pressure inside said waste intermediate tank (1), and a discharge valve means (3,5,6,7) to regulate the flow through a first waste passage (8) between a toilet bowl (2) and said waste intermediate tank (1) and through a second waste passage (11) between said waste intermediate tank (1) and said waste storage tank, characterized in that said discharge valve means comprise a multi-port discharge valve (3) connectable to an inlet/outlet port (4) of the waste intermediate tank (1), said multi-port discharge valve (3) being configured to provide, in a first working position, direct communication between said toilet bowl (2) and said waste intermediate tank (1) when negative pressure is supplied inside said waste intermediate tank (1) and to provide, in a second working position, direct communication between the waste intermediate tank (1) and the waste storage tank when positive pressure is supplied in the said waste intermediate tank (1).

Description

The present invention generally relates to a waste transfer system for a toilet of a public transport vehicle that discharges into an on-board waste storage tank. In particular, it relates to a waste transfer system for a toilet, or similar sanitary appliance, that discharges into an on-board aerated waste storage tank that may subjected to biological waste treatment.

BACKGROUND OF THE INVENTION

Moving installations like railway passenger coaches are being fitted more and more with WC cabins where the toilet bowls does discharge into an on-board waste storage tank, thus avoiding discharge to the railways tracks.

It is known to use a first type of waste storage tank with constant vacuum where the waste transfer from the toilet bowl to the waste storage tank is by suction from the said waste storage tank. EP0584031 discloses a waste transfer system including one of these type of waste storage tanks where a discharge valve is arranged between the toilet bowl and the said waste storage tank to open or close the passage of fluid through the waste storage tank.

It is also known to use a second type of waste storage tank provided with atmospheric pressure. In this second type case, the system used to transfer the waste from the bowl to the aerated waste storage tank forms part of each toilet bowl and includes a small intermediate waste tank next to each bowl. This intermediate waste tank is used to first generate a local vacuum to transfer the waste from the toilet bowl to the waste intermediate tank by the opening of a valve located between the toilet bowl and the said waste intermediate tank. Having accomplished this, this valve is closed, the intermediate tank is pressurized and a second valve located at the exit of the waste intermediate tank is opened allowing the waste to be transferred through an interconnecting tube to the aerated waste storage tank.

The use of waste transfer systems with aerated waste storage tanks although more complex and demanding than waste transfer systems with vacuum waste storage tanks, have the advantage that allow the use of biological waste treatments which extend the emptying periods of the waste storage tanks to weeks or even months. Nevertheless, these waste transfer systems have the drawback that they have a high requirement of room needed for the installation next to each toilet bowl.

It is, therefore, necessary to provide an alternative to the aerated waste transfer systems of the state of the art which allow the use of aerated waste storage tanks and reduce the requirement of room needed for the installation so that a more compact solution is obtained.

DESCRIPTION OF THE INVENTION

To that end, the present invention relates to a waste transfer system that discharges into an on-board waste aerated storage tank, which comprises, in a known manner;

• • a waste intermediate tank,
  • a first waste passage arranged in use to communicate a toilet bowl and said intermediate tank,
  • a second waste passage arranged in use to communicate said intermediate tank and said waste storage tank,
  • means for generating negative or positive pressure inside said waste intermediate tank so as to cause the waste to be transferred either to the said waste intermediate tank through said first waste passage, or to the storage tank through said second waste passage, and
  • a discharge valve means (3,5,6,7) arranged to regulate the flow through said first waste passage (8) and through said second waste passage (11).

In contrast to the known waste transfer systems, in the one proposed by the present invention, in a characteristic manner, the discharge valve means comprise a multi-port discharge valve connected to a port of the waste intermediate tank, said discharge valve comprising a valve element with at least three ports adapted for opening or closing the first waste passage of fluid in a first working position, and for opening or closing the second waste passage of fluid in a second working position, the system including a process and control unit configured to activate the actuation of said valve element from said first working position to the second working position, to provide, in said first working position, direct fluid communication between the toilet bowl and the waste intermediate tank when negative pressure is supplied inside the waste intermediate tank, and to provide, in the second working position, direct fluid communication between the waste intermediate tank and the aerated waste storage tank when positive pressure is supplied in the said waste intermediate tank.

The multi-port discharge valve connected to an inlet/outlet port of the waste intermediate tank allows to overcome the above mentioned shortcoming of the prior art aerated waste transfer systems. Indeed, it has been found that the requirement of room is significantly reduced because this multi-port discharge valve may be installed next to each toilet bowl beside the waste intermediate tank, and the design of this waste intermediate tank may be improved to take advantage of extra free room available below the toilet bowl. On the other hand, a waste transfer system with a higher reliability is obtained because the claimed waste system facilitates the location of the blockages caused by foreign bodies in the toilet such as syringes, sanitary towels, tampons, disposable razors, among others.

For a preferred embodiment, the multi-port discharge valve is connected to a single inlet/outlet port of the waste intermediate tank and, more preferably, said multi-port discharge valve is a single 3-way discharge valve, or a discharge valve with three ports, connected to an inlet/outlet port of the intermediate waste tank.

For another embodiment, the discharge valve is connected to a first inlet port of the waste intermediate tank and to a separated second outlet port of the waste intermediate tank, and said discharge valve comprises a valve element with at least four ports adapted for opening or closing the first waste passage of fluid in the first working position and for opening or closing the second waste passage of fluid in the second working position.

According to one embodiment, the multi-port discharge valve, for example, the above mentioned 3-way valve with three ports, or with four ports, comprises a valve body and a rotating element adapted for opening or closing the passage of fluid between said toilet bowl and said intermediate waste tank in said first working position, and adapted for opening or closing the passage of fluid between said intermediate waste tank and said waste storage tank in said second working position. The valve discharge means further comprise driving means for said rotating element.

In an example, said valve body is of synthetic material and, advantageously, said rotating element is housed in a cavity of said valve body.

More preferably, said rotating element is provided with a first conduit which, when the valve is in said first working position, connects a first port to a second port of the valve housing, and provided with a second conduit which, when the valve is in said second working position, connects the second port to a third port of the valve body. The rotating element is adapted to avoid the communication between the toilet bowl and the waste storage tank when working in either said first or second positions.

For one embodiment, this rotating element is a ball housed inside the valve body, said ball being provided with said first and second conduits to connect the first port and second port of the valve body in a first working position, or the second port and the third port of the valve body in a second working position.

For other preferably embodiment, this rotating element can also be, for example, a tubular element provided with an interior separation plate adapted to avoid the direct communication between the toilet bowl and the waste storage tank in either said first or second working positions of the discharge valve. Said separation plate defines inside the said tubular element said first and second conduits of passage of fluid in said first and second working positions.

For a particular implementation of said preferably embodiment, said valve discharge means comprise a drive motor for said rotating element, and said rotating element comprises means for engaging a shaft of said drive motor. Advantageously, the shaft of said drive motor is arranged so as to directly engage an element, such as a gear wheel, provided in the outer surface of said rotating element. This arrangement helps obtaining a more compact solution.

For a preferably embodiment, the discharge valve means comprise a plurality of positioning sensor readings attached to said rotating element. For example, these sensor readings may be integrated in a plurality of notches provided in the body of the rotating element and may cooperate with sensors provided in the system and governed by a central controller unit.

According to one embodiment, the claimed waste transfer system comprises a waste cutting element arranged between the adjacent surfaces of the second port of the valve housing and the rotating element. This cutting element may be configured by way of a steel-ring located at the outlet part of the valve body connecting to the intermediate tank and is so arranged that eventual solid parts upon valve closure are conveniently cut thus no preventing the valve from closing.

Summarizing, the present invention relates to a waste transfer system that discharges into an on-board waste aerated storage tank, which comprises, in a known manner, a waste intermediate tank, means for generating negative or positive pressure inside said intermediate waste tank, and a discharge valve means to regulate the flow through a first waste passage between said toilet bowl and said intermediate waste tank and through a second waste passage between said intermediate waste tank and said waste storage tank. The system is characterised in that, the said discharge valve means comprise a multi-port discharge valve, for example a multi-port discharge valve of three ports, connected to an inlet/outlet port of the waste intermediate tank. The said multi-port discharge valve is configured to provide, in a first working position, direct communication between said toilet bowl and said waste intermediate tank when negative pressure is supplied inside said waste intermediate tank, and to provide, in a second working position, direct communication between the waste intermediate tank and the waste storage tank when positive pressure is supplied in the said waste intermediate tank.

BRIEF DESCRIPTION OF THE DRAWINGS

The previous and other advantages and features will be more fully understood from the following detailed description of embodiments, with reference to the attached drawings, which must be considered in an illustrative and non-limiting manner, in which:

FIG. 1 shows a first exploded perspective view of the waste transfer system according to an embodiment of the invention where the aerated waste storage tank has not being represented.

FIG. 2 shows a further exploded different perspective view of the same embodiment of the invention as the one of FIG. 1.

FIG. 3 shows a perspective view of a portion of the toilet bowl, the waste intermediate tank and the discharge valve means of the invention for the embodiment of FIGS. 1 and 2.

FIG. 4 shows a detailed view of the discharge valve means as shown in FIG. 3 wherein the valve body has been depicted transparent to see inside the tubular rotating element.

FIGS. 5a to 5c are schematic sections of the discharge valve representing respectively, a first working position, a second working position and a close off rest position of the multi-port discharge valve according to the embodiment as shown in FIGS. 1 to 4.

FIG. 6 shows a schematic representation showing the functioning of a discharge valve connected to a first inlet port of the waste intermediate tank and to a separated second outlet port of the waste intermediate tank.

DESCRIPTION OF A PREFERRED EMBODIMENT

As shown in the appended Figures, the present invention relates to a waste transfer system for a toilet of a WC cabin of a public transport vehicle, for example a toilet of a railway vehicle that discharges into an on-board waste aerated storage tank. The system comprises a waste intermediate tank 1 for temporarily receiving the waste coming from a toilet bowl 2, a multi-port discharge valve 3 connected to an inlet/outlet port 4, 4a, 4b of the said waste intermediate tank 1, and a drive motor 5 to actuate said multi-port discharge valve 3. The waste system further includes means (not shown) for generating negative or positive pressure inside the said waste intermediate tank 1.

In the claimed invention the multi-port discharge valve 3 is configured to provide, in a first working position, direct communication between the toilet bowl 2 and said waste intermediate tank 1 when negative pressure is supplied inside said waste intermediate tank 1, and configured to provide, in a second working position, direct communication between the waste intermediate tank 1 and the waste storage tank (not shown) when positive pressure is supplied in the said waste intermediate tank 1.

As shown in FIGS. 1 and 2, the multi-port discharge valve 3 comprises a valve body 6, preferably a valve body of synthetic material, and a valve element configured in the shape of a rotating element 7 to be housed inside a cavity of said valve body 6. The said rotating valve element 7, preferably a rotating element of steel or aluminium material, is adapted for opening or closing, in said first working position, a passage of fluid between the toilet bowl 2 and the said waste intermediate tank 1, and also adapted for opening or closing, in said second working position, a passage of fluid between the waste intermediate tank 1 and the said aerated waste storage tank (not shown).

For the illustrated embodiment of FIGS. 1 to 5, the multi-port discharge valve 3 is a single 3-way discharge valve, or a valve of three ports, connected to a single inlet/outlet port 4 of the waste intermediate tank 1. However, for other embodiments, like the one schematically shown in FIG. 6, the multi-port valve is a 3-way discharge valve with four ports, connected to a first inlet port 4a of the waste intermediate tank 1 and to a separated outlet port 4b of the same waste intermediate tank 1. This embodiment has the advantage of avoiding an accidental waste back-flush, and confers more safety to the system.

According to the embodiment of FIGS. 1 to 5, the said rotating valve element 7 is configured in the shape of a tubular element provided with a pair of through holes 7a and an interior separation plate 7b adapted to avoid direct communication between the toilet bowl 2 and the waste storage tank (not shown) in any working position of the discharge valve 3.

FIGS. 5a and 5b depict two working positions of the rotating valve element 7 of the discharge valve 3 where it can be seen, in FIG. 5a, the interior separation plate 7b defining inside the said tubular element a first conduit or waste passage 8 that connects a first port 9 of the valve body 6 to a second port 10 of the valve body 6. In FIG. 5b, the same interior separation plate 7b defines inside the said tubular element a second conduit or waste passage 11 that connects the second port 10 of the valve body 6 to a third port 12 of the valve body 6. FIG. 5c shows a close off rest position of the discharge valve 3 wherein the rotating valve element 7 close off the connections with the waste intermediate tank 1 and the waste storage tank (not shown).

In the particular illustrated embodiment of FIGS. 1 to 5, the rotating valve element 7 comprises an end section 7c provided with a gear (not shown) configured to be meshed with a worm-gear shaft 13 of the drive motor 5. As can be seen in the FIGS. 3 and 4, for this particular implementation of the illustrated embodiment, the shaft 13 of the drive motor 5 is arranged so as to directly engage the gear provided in the rotating valve element 7. At this end, the drive motor 5 has been provided with a housing 14 for receiving the geared end section 7c (geared not shown) of the rotating valve element 7.

The claimed waster transfer system is provided with means to ensure optimum watertightness between the elements which undergo relative movement. FIGS. 1 and 2 show flanges 15, 16 and 17 of the valve body 6 for connection to the toilet bowl 2, to the waste intermediate tank 1 and to the housing 14 of the drive motor 5. Each of said flanges is provided with a water-thigh seal receivable in a recess formed on the valve body 6 itself.

In the particular case of the connection flange 17 to the waste intermediate tank 1, a waste cutting element 18 has been arranged between the adjacent surfaces of the second port 10 of the valve body 10 and the rotating valve element 7 as shown in FIG. 5a. The said cutting element 18 is arranged so that eventual solid parts upon valve closure are conveniently cut thus no preventing the valve from closing.

It follows a description of the mode of operation of the claimed waster transfer system. The different elements of the system are activated from a control panel (not shown) either directly or by means of pneumatic electrovalves fed by a compressed air source (not shown) through pressure regulators (not shown). The control panel receives signals from a manual switch arranged next to each toilet bowl 2, which activates the operation cycle.

After having used the toilet bowl 2, the user of the WC cabin will push the manual switch next to the toilet bowl 2 which will activate the drive motor 5 for actuating the rotation of the rotating valve element 7 of the multi-port discharge valve 2 from a rest position to the first working position (see, FIG. 5a). In this first working position, a positioning sensor reading (not shown) of the rotating valve element 7, which is associated to a processing and control unit of the system, will activate an ejector (not shown) to generate negative pressure (partial vacuum) inside the waste intermediate tank 1 so as to cause the waste to be transferred to the said waste intermediate tank 1.

Once the waste has been transferred to the waste intermediate tank 1 and after a predetermined period of time, the processing and control unit will activate the drive motor 5 for actuating the rotation of the rotating valve element 7 from the first working position to the second working position (see, FIG. 5b). In this second working position, a position sensor reading (not shown) of the rotating valve element 7 will activate the ejector to generate positive pressure inside the waste intermediate tank 1 so as to cause the waste to be transferred to the waste storage tank (not shown). As previously stated, in either the first or the second working positions, direct communication between the toilet bowl 2 and the waste storage tank (not shown) is avoided. In the rest position of the discharge valve 2, the rotating valve element 7 close off the communication of the toilet bowl 2 to the waste intermediate tank 1 and the aerated waste storage tank (not shown).

The above-mentioned ejector (not shown) is known in the state of the art. Its operation is based on forcing air to pass through a nozzle and using the negative pressure created therein to extract air from the waste intermediate tank 1 by the Venturi effect and thus creating a partial vacuum. The air supplied and the air extracted from the waste intermediate tank 1 is expelled to the atmosphere.

Advantageously, the present invention allows to obtain a waste transfer system that stands out from those currently available in the market in terms of efficiency and reliability because a single discharge valve 3 regulates the flow of the waste to the aerated waste storage tank. Moreover, the system has a lower cost than those offered in the market because it has less components and less operations of maintenance.

A person skilled in the art could introduce changes and modifications in the embodiments described without departing from the scope of the invention as it is defined in the attached claims. For example, although an embodiment of the system has been described wherein the rotating element of the discharge valve is configured in the shape of a tubular element, the same rotating element may be configured in the shape of a ball housed inside a valve body and provided with a plurality of ports. Likewise, although an embodiment of the waste transfer system has been described suitable for a toilet bowl 2 of a WC cabin, the system would also be suitable to transfer waste from a sanitary appliance other than a toilet bowl 2.

Claims

1. Waste transfer system for a toilet of a public transport vehicle that discharges into an on-board aerated waste storage tank, comprising a waste intermediate tank, a pressure generating unit for generating negative or positive pressure inside said waste intermediate tank so as to cause the waste to be transferred either to the said waste intermediate tank or to the storage tank, and a discharge valve unit arranged to selectively regulate the waste flow between a toilet bowl and said intermediate tank and between said intermediate tank and said waste storage tank, wherein said discharge valve unit comprises a 3-way multi-port discharge valve connected to a port of the waste intermediate tank, said 3-way multi-port valve comprising a valve body with at least three ports and a rotating valve element rotatably mounted inside the valve body for selectively regulating the waste flow,wherein said rotating valve element is provided with a first conduit or waste passage which, when said rotating valve element is in a first working position connects a first port to a second port of the valve body for allowing the passage of fluid between said toilet bowl and said intermediate tank, and provided with a second conduit or waste passage which, when said rotating valve element is in a second working position connects the second port with a third port of the valve body for allowing the passage of fluid between said intermediate tank and said waste storage tank, said same rotating valve element being made and arranged to avoid the communication between the toilet bowl and the aerated waste storage tank when working in either said first or said second working positions, andwherein said system includes a process and control unit configured to selectively activate the actuation of said rotating valve element from said first working position to the second working position, to provide, in said first working position, direct fluid communication between said toilet bowl and said waste intermediate tank when the pressure generating unit generates negative pressure inside said waste intermediate tank, and to provide, in the second working position, direct fluid communication between the waste intermediate tank and the aerated waste storage tank when the pressure generating unit generates positive pressure in the said waste intermediate tank.

2. (canceled)

3. Waste transfer system according to claim 1, wherein said multi-port discharge valve is a 3-way discharge valve, or a discharge valve with three ports, wherein a first port of the valve body is connected to the toilet bowl, a second port of the valve body is connected to a single inlet/outlet port of the waste intermediate tank, and a third port of the valve body is connected to the aerated waste storage tank.

4. Waste transfer system according to claim 1, wherein said intermediate tank has a first inlet port and a separated second outlet port and said multi-port discharge valve is a 3-way discharge valve with four ports, wherein a first port of the valve body is connected to the toilet bowl, a second port of the valve body is connected to the first inlet port of the waste intermediate tank, a third port of the valve body is connected to the separated second outlet port of the waste intermediate tank, and a four port of the valve body is connected to the aerated waste storage tank, wherein the first conduit or waste passage of the rotating valve element connects, in a first working position, the first port with the second port of the valve body for allowing passage of fluid between the toilet bowl and the intermediate tank, and wherein the second conduit or waste passage of said rotating valve element connects, in a second working position, the third port with the four port of the valve body for allowing passage of fluid between the intermediate tank and the aerated waste storage tank, said same rotating valve element being made and arranged to avoid the communication between the toilet bowl and the aerated waste storage tank when working in either said first or said second working positions.

5. (canceled)

6. (canceled)

7. Waste transfer system according to claim 1, wherein said rotating valve element comprises a tubular element provided with an interior separation plate adapted to avoid the direct communication between the toilet bowl and the waste storage tank in either said first or second working positions.

8. Waste transfer system according to claim 1, wherein said valve discharge unit comprises a drive motor for actuating said rotating valve element, and said rotating valve element comprises a mechanism (7c) for engaging a shaft of said drive motor.

9. Waste transfer system according to claim 8, wherein the shaft of said drive motor is arranged so that directly engages an element provided in the rotating valve element.

10. Waste transfer system according to claim 1, wherein said valve discharge unit comprises a waste cutting element arranged between the adjacent surfaces of the second port, or port of the valve body connected to the intermediate tank, and the rotating valve element.

11. Waste transfer system according to claim 1, wherein said discharge valve unit comprises a plurality of positioning sensor readings attached to said rotating valve element that cooperate with sensors provided in the system and governed by the process and control unit.

12. Waste transfer system according to claim 1, wherein said valve body is of synthetic material.

13. Waste transfer system according to claim 7, wherein said tubular element is provided with a pair of through holes and said interior separation plate defines inside the tubular element said first conduit or waste passage and said second conduit or waste passage.

14. Waste transfer system according to claim 1, wherein said rotating valve element is configured in the shape of a ball.