FLUSHING STATION FOR A RING-PIPE OR SERIES-PIPE SYSTEM, RING-PIPE SYSTEM AS WELL AS SERIES-PIPE SYSTEM

Abstract

A flushing station for a ring-pipe or series-pipe system, comprises a cold water port for connecting a cold-water pipe, a hot water port for connecting a hot water pipe, and a waste water port, wherein the cold-water port and the hot water port are fluidicly coupled to the waste water port. The cold-water port, the hot water port and the waste water port are assigned to a bottom side of the flushing station.

Claims

1. Flushing station for a ring-pipe or series-pipe system, comprising a cold water port for connecting a cold-water pipe; a hot water port for connecting a hot water pipe; and a waste water port, wherein the cold-water port and the hot water port are fluidicly coupled to the waste water port; wherein the cold-water port, the hot water port and the waste water port are assigned to a bottom side of the flushing station.

2. Flushing station according to claim 1, wherein the cold-water port, the hot water port and the waste water port are opened essentially toward a common plane.

3. Flushing station according to claim 1, wherein the cold-water port, the hot water port and the waste water port point essentially in the same direction.

4. Flushing station according to claim 1, wherein longitudinal axes of the cold-water port, the hot water port and the waste water port are oriented essentially parallel to one another.

5. Flushing station according to claim 1, wherein the longitudinal axes run in a common plane.

6. Flushing station according to claim 1, wherein the cold-water port and/or the hot water port comprise a profiled support sleeve, a press sleeve and/or a plastic ring.

7. Flushing station according to claim 1, comprising a further cold water port and a further hot water port.

8. Flushing station according to claim 7, wherein the two cold water ports and the two hot water ports are each part of a pipe connector piece, which is fluidicly coupled to the waste water port.

9. Flushing station according to claim 7, wherein the two cold water ports and the two hot water ports are fluidicly connected via a U-shaped pipe section.

10. Series-pipe system for a building, comprising a hot water pipe and a cold-water pipe; one or multiple consumers, which are connected to the hot water pipe and/or the cold-water pipe; and a flushing station according to claim 1, which are arranged in or at a wall of the building; wherein the hot water pipe and the cold-water pipe are connected to the cold-water port and the hot water port of the flushing station at a bottom side of the flushing station facing a ground of the building.

11. Ring-pipe system for a building, comprising a hot water pipe and a cold-water pipe; one or multiple consumers, which are connected to the hot water pipe and/or the cold-water pipe; and a flushing station according to claim 1, which are arranged in or at a wall of the building; wherein the hot water pipe and the cold-water pipe are connected to the cold-water port and the hot water port of the flushing station at a bottom side of the flushing station facing a ground of the building.

12. Flushing station according to claim 2, wherein the cold-water port, the hot water port and the waste water port point essentially in the same direction.

13. Flushing station according to claim 8, wherein the two cold water ports and the two hot water ports are fluidicly connected via a U-shaped pipe section.

Description

[0027] The figures show in:

[0028] FIG. 1 a perspective, schematic illustration of a ring-pipe system with a flushing station,

[0029] FIG. 2 an enlarged sectional view of the ring-pipe system according to FIG. 2 with the flushing station, and

[0030] FIG. 3 a view of the flushing station.

[0031] FIG. 1 shows a schematic perspective view of a ring-pipe system 1 (not completely illustrated) for one floor of a building. A bathroom is illustrated in FIG. 1 by way of example.

[0032] The ring-pipe system 1 comprises multiple consumers 2, namely a toilet 3, a shower 4 as well as a washbasin 5. The consumers 2 are fluidicly connected to a cold-water pipe 6 and/or a hot water pipe 7.

[0033] The cold-water pipe 6 and the hot water pipe 7 are connected to a cold water rising pipe 10 and a hot water rising pipe 11, respectively, via valves 14 and/or spigots. The cold water rising pipe 10 and the hot water rising pipe 11 are main supplies of a building and, usually, run from a house terminal vertically via various floors of the building. The cold-water pipe 6 as well as the hot water pipe 7 are mainly laid in the vicinity of a ground 12 of the bathroom.

[0034] In the exemplary embodiment, the cold-water pipe 6 leads to a flushing tank 9 of the toilet 3 starting from the cold water rising pipe 10. From the toilet 3, the cold-water pipe 6 is guided further to a mixer faucet 8 of the shower 4. From the shower 4, the cold-water pipe 6 is guided to a flushing station 13, which can also be referred to as hygienic flushing station. Subsequently, from the flushing station 13, the cold-water pipe 6 is guided to a mixer faucet 8 of the wash basin 5. After that, the cold-water pipe 6 is guided in another room of the building and guided back to a start of the ring-pipe system 1 from there (i.e. in the flow direction downstream the valves 14 upstream the consumers 2), to a branching point (not shown), for example.

[0035] The same applies to the hot water pipe 7. Starting from the hot water rising pipe 11, the hot water pipe 7 is directly guided to a mixer faucet 8 of the shower 4 downstream the valve 14. From the shower 4, the hot water pipe 4 is guided directly to the mixer faucet 8 of the wash basin 5, and from there to the flushing station 13. Starting from the flushing station 13, the hot water pipe 6 is guided in the further room of the building, in analogy to the cold-water line 6, and guided back to the start of the ring-pipe system 1.

[0036] The water pipes 6 and 7 are connected to the consumers 2 in such a way that these are routed or looped from one consumer to the next. Pipes 6, 7 are connected to the mixer faucets 8 or to the flushing station 13 via pipe connector pieces 15, which can also be referred to as double connector pieces or looping pieces. The respective hot or cold water pipe 6, 7 is directly routed to the next consumer 2 via a pipe connector piece 15, without that the respective consumer 2 is to be actuated.

[0037] As described above, the entire ring-pipe system 1, i.e. the entire cold water pipe 6 and/or the hot water pipe 7, is flushed upon actuation of one consumer 2, so that areas of stagnation can be prevented in pipes 6 and 7. For example, upon actuation of the shower 4, hot water and cold water is flushed to the shower 4 via pipes 6 and 7.

[0038] The flushing station 13 is provided to not leave the flushing of all pipes exclusively to the human hand. This ensures flushing the ring-pipe system 1 when none of the consumers 2 is actuated, which is why the water would normally be standing in pipes 6 and 7.

[0039] The flushing station 13, which is arranged in a wall of the bathroom, is described in greater detail with respect to FIGS. 2 and 3. FIG. 2 shows a sectional view of FIG. 1, which illustrates the flushing station 13 in an enlarged manner. FIG. 3 shows only the flushing station 13 in a front view.

[0040] The flushing station 13 comprises a housing 16, with multiple components of the flushing station 13 arranged therein. By way of example, a power supply unit 17 for connection to a power grid of the building may be mentioned. Furthermore, a control device 18 (also called controller) is provided, for example. The flushing station 13 has two pipe connector pieces 15, each having two cold water ports 19 or hot water ports 20, respectively. Each pipe connector piece 15 has a third port, via which the pipe connector piece is fluidicly coupled with a waste water port 21 of the flushing station 13. Valves are fluidicly arranged between every third port of a pipe connector piece 15 and the waste water port 21, the valves electrically controllable by means of the control device 18. The cold-water ports 19 or the hot water ports 20 are fluidicly coupled via a U-shaped pipe section of the corresponding pipe connector piece 15. The waste water port 21 is fluidicly coupled with an (upstream) protection device 23, so that the water is drained via the protection device and the waste water port via a waste water system. In other words, the waste water port 21 is connectable or connected to a waste water system. The protection device 23 prevents, in the case the drain is clogged, that water flows back into the cold water and hot water pipes 6, 7. Furthermore, the flushing station 13 comprises one or multiple sensors (not illustrated), which measure a temperature of a flow rate or a volume flow rate of the hot or cold water pipes 6, 7. The protection device 23 and the waste water port 21 can also be considered a unit, for example a waste water component.

[0041] The valves 22 are usually closed. However, if predetermined conditions are fulfilled, e.g. if a certain water temperature is not reached, the control device 18 opens one or both valves 22, so that water can be drained via the waste water port 21. In another example, the control device 18 briefly opens the valves 22 after 72 hours without actuation of a consumer 2. In other words, an automatic forced flushing is effected. Thus, the described areas of stagnation are prevented, since all sections of pipes 6, 7 are flushed.

[0042] As can be seen from FIGS. 1 to 3, all ports 19 and 20 as well as 21 are assigned to a bottom side 24 of the flushing station 13. This requires for all pipe lines and the drain being connected or fluidicly coupled to the flushing station 13 via the bottom side 24. In particular, rotational symmetry axes 25 of ports 19, 20 and 21 run parallel to one another. Openings of ports 19, 20 and 21 face a common virtual plane 26. Plane 26 runs parallel to the ground 12.

[0043] The flushing station 13 enables the above-mentioned advantage and functions.

[0044] As mentioned above, the cold and hot water pipes 6 and 7 are typically laid in close proximity to the ground. During the mounting process of the flushing station 13, pipes 6 and 7 are guided toward the bottom side 24 of the flushing station 13 merely vertically to the ground 12. It is thus not required to guide the hot or cold water pipe 6, 7 around the housing 13 of the flushing station 13 to an upper side 27 of the flushing station 13. This would require unnecessarily longer pipe lines, which increases material and installation costs. Moreover, the wall would have to be recessed in a significantly more pronounced fashion. Thus, the flushing station 13 can be mounted in an efficient manner, e.g. rapidly on a construction site.

[0045] The cold water and hot water ports 19 and 20 are arranged in the interior of the housing 16 of the flushing station 13. This provides the advantage that the flushing station 13 is very compact and ports 19, 20 do not protrude from the housing 16 prior to the mounting process, i.e. during proper installation of the flushing station 13. This is protected from physical damage and facilitates the transport as well, for example in terms of a stackability. Alternatively, or additionally, the waste water component (see above) is encapsulated in the housing 16. In other words, the waste water port 21 is encapsulated in the housing 16 and surrounded by a cover of the housing 16 or the flushing station 13, so that none of the ports 19, 20, 21 protrudes out of the flushing station beyond the bottom side.

[0046] In place of the ring-pipe system 1 described in FIGS. 1 to 3, it is also possible that a series-pipe system be installed, in which it is to be observed that the flushing station 13 is connected at the last place to the cold or hot water pipe 6 and 7, e.g. downstream all consumers of the series-pipe systems.

[0047] The invention is not limited by the illustrated embodiment. For example, the flushing station 13 is also suitable in other rooms than the described bathroom. It is also possible to use different or otherwise formed pipe connector pieces 15. The essential factor is that the ports 19, 20, 21 of the flushing station 13 are assigned to the bottom side 24.