EP3173538A1 - Connection device - Google Patents

Abstract

A connecting device (1) for an outlet fitting comprises an installation unit (2) with a housing (3), at least one supply line interface (4) which can be connected to a water line on its input side (5), and at least one discharge interface (6) is connectable on its output side (7) with a water pipe leading to the outlet fitting, and a functional unit (8) formed separately from the installation unit (2), which is connectable to the installation unit (2) and which comprises a pipe section (9) a line piece inlet (10) and a line piece outlet (11). The line piece input (10) can be fluidically connected to the output side (25) of the feed line interface (4) and the line piece output (11) can be fluidically connected to the input side (26) of the discharge interface (6). In the line piece (9) between the line piece inlet (10) and the line piece outlet (11) at least one valve (12) is provided, with which the flow through the line piece (9) can be controlled.

Description

TECHNICAL AREA

The present invention relates to a connection device for an outlet fitting according to the preamble of claim 1.

STATE OF THE ART

From the EP 1 124 019 a connection device for a water outlet fitting has become known. This connection device comprises a plurality of components, which are partly arranged inside and partly outside a housing.

The assembly of the individual components according to the connection device according to EP 1 124 019 is very expensive.

PRESENTATION OF THE INVENTION

Based on this prior art, the invention is based on an object to provide a connection device for an outlet fitting, which overcomes the disadvantages of the prior art. A particularly preferred object is to provide a connection device which can be mounted more efficiently or simply exchanged.

This object is solved by the subject matter of claim 1. Accordingly, a connection device for an outlet fitting comprises a mounting unit and a functional unit. The installation unit comprises a housing, at least one supply line interface, which is connectable on its input side with a water pipe, and at least one discharge interface, which on its output side with a to the Outlet fitting leading water pipe is connectable. The functional unit is formed separately from the installation unit and can be connected to the installation unit. The functional unit has a line piece comprising a line piece input and a line piece output. The line piece input is fluidically connectable to the output side of the supply line interface, and the line piece output is fluidically connectable to the input side of the discharge interface. In the line piece between the line piece input and the line piece output, there is at least one valve with which the flow through the line piece can be controlled.

By said training of the connection device a two-stage assembly is possible. In a first step, the installation unit is mounted in the shell and connected to the water pipes. In a second step, especially shortly before commissioning, then the functional unit is mounted. Such an installation method is more efficient, in particular, in that all the water-conducting elements, which are part of the functional unit, are simply connectable to the corresponding interfaces.

In addition, the logistics around the assembly is simplified to the effect that when building a building in the shell phase first the installation unit is mounted and that when installing the plumbing, which takes place long after the shell construction phase, the functional unit can be installed.

The functional unit preferably comprises exclusively water-carrying parts. Water-carrying parts are understood to be the elements which come into contact with water during operation, that is to say preferably the line piece and the valve. The equipment of the functional unit with exclusively water-carrying parts has the advantage that in the case of maintenance, which relates to the water flow, only the functional unit is to manipulate, but not all other elements.

Preferably, the connection device further comprises a controller and an electrical supply element, in particular a battery, a capacitor or a power supply. The controller and the supply element are mounted mechanically separate from the functional unit in the mounting unit.

The functional unit thus essentially comprises the water-carrying parts of the connecting device and the control elements and the supply element for the provision of electrical energy are stored separately from the functional unit in the mounting unit. This allows a simple and above all selective replacement of all water-bearing parts, regardless of the current-carrying elements.

Preferably, the line piece input and the output side of the supply line interface are designed as plug-in coupling. Alternatively or additionally, the line piece output and the input side of the discharge interface are formed as a plug-in coupling.

By forming a plug-in coupling, a particularly simple fluidic connection between the line section of the functional unit and the interfaces can be created. In particular, a simple insertion of the functional unit is made possible.

Preferably, the plug-in coupling between the line piece input and the output side of the supply line interface and the plug-in coupling between the line piece output and the input side of the discharge interface are oriented in the same direction. As a result, the functional unit can be mounted along a longitudinal movement.

The plug-in coupling is tightly sealed with respect to water and may comprise corresponding sealing element.

Preferably, the functional unit comprises at least one mixing element, with which hot water and cold water is miscible, wherein the mixing element is arranged in the pipe section between line piece input and line piece output.

The mixing element may further comprise an adjusting element, so that the mixing ratio between hot water and cold water is adjustable.

In a particularly preferred embodiment, the line piece is formed in two parts on the functional unit, wherein the first part is fixedly arranged with the line piece input to the functional unit and wherein the second part is arranged with the line piece output separable on the functional unit. The second part is optionally formed with or without a generator.

The generator serves to generate electrical energy from the water flowing through the pipe section and is electrically connected to the electrical supply element. The optional arrangement of the generator, a modular design can be created. The second part can then be used depending on the installation situation with respect to the electrical supply of the controller. If, for example, an electrical mains connection is present, the generator can be dispensed with. If an electrical mains connection is missing, electrical energy can be provided by the generator, which can then be stored in a battery or a capacitor.

The functional unit is preferably connected to the installation unit via at least one mechanical fastening element. Such a fastener may be, for example, a screw, a releasable latch, a snap connection, a snap connection or the like.

Preferably, a shut-off device is arranged between the input side of the supply line interface and the output side of the supply line interface. The obturator can assume an open position in which the feed section can be traversed by water and a closed position in which the passage of water is made impossible. By the shut-off can be ensured in case of maintenance that the functional unit is waterless and thus removable from the mounting unit.

Preferably, the obturator comprises a securing element, which engages in the open position of the obturator in the functional unit and which does not engage in the closed position of the obturator in the functional unit. The engagement of the securing element is such that the functional unit in the Open position of the Asperrorgans can not be separated from the mounting unit. This prevents the functional unit is removed with open shut-off and it comes to an accidental leakage of water. In an intervention of the fuse element, ie with open Absprerrorgan, removal of the functional unit is not possible.

The obturator is preferably part of the supply line interface, which is integrally formed on the mounting unit. As a result, the securing element is also connected to the installation unit and can not be separated from the installation unit.

Preferably, a filter is provided in the pipe section of the functional unit, which filter is secured by a connectable with the functional unit filter securing element in the pipe section. By manipulating the filter securing element, the filter in the pipe section can be easily replaced.

Particularly preferably, the securing element of the obturator engages in the open position of the obturator in the filter securing element and in the closed position of the obturator, the securing element does not engage in the filter securing element. The engagement of the securing element is such that the filter in the open position of the Asperrorgans can not be separated from the functional unit and that the filter can be separated in the closed position of the functional unit. This prevents the filter from being removed when the shut-off device is open, resulting in unintentional leakage of water. When the securing element engages, ie when the obturator is open, removal of the filter is not possible.

Preferably, the drainage interface comprises a piece of tubing that lies between the input side of the drainage interface and the output side of the drainage interface. The drainage interface is formed in the region of the output side separately from the housing of the installation unit and can be positioned relative to the housing at at least two locations.

Preferably, the feeder interface is integrally formed on the housing.

The supply line interface and the discharge interface preferably comprise a receiving section in the region of the input side and the output side, to which a water line can be easily connected.

Preferably, the mounting unit comprises exactly two feeder interfaces and exactly one single diverter interface.

If hot water is to be provided with the outlet fitting, one of the supply line interface can be connected to the hot water line and the other of the supply line interface to the cold water line. In this case, the line section of the functional unit has exactly two line piece inputs and one line piece output, wherein the two line piece inputs in the line piece open into one another. Preferably, the inputs then open into each other in the mixer.

Preferably, in the mentioned embodiment for hot water use as seen from the line piece input after the filter in each case a check valve is present, which is opened by the pending on line piece input water pressure, wherein when removing one of the two filters the filter associated check valve backflow of water from the other Filter ago prevented.

If only cold water is to be provided with the outlet fitting, then one of the supply line interfaces with the cold water line and the other the supply line interface remains unconnected. One of the two conduit entries, namely the one which communicates with the unconnected supply interface, is then provided with a blind plug and / or a check valve, so that water leakage is avoided. The unconnected line interface has no function.

The housing preferably comprises a supply opening for the passage of a sensor cable of a presence sensor arranged in the outlet device. The sensor cable can then be connected to the controller.

Preferably, the functional unit is arranged in a housing bounded by the housing, wherein a cover closes the interior.

According to a method for mounting a connection device as described above, the installation unit, in particular in a shell, is mounted in a first step, and in a second step following the first step, the functional unit is mounted.

Preferably, in a third step, the controller and the electrical supply element are mounted. The assembly of control and electrical supply unit takes place independently of the assembly of the functional unit.

Further embodiments are given in the dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1

eine perspektivische Ansicht einer Anschlussvorrichtung mit einer Einbaueinheit und einer hier nicht dargestellten Funktionseinheit gemäss einer Ausführungsform der Erfindung:

Fig. 2

die Ansicht nach Figur 1 mit der Funktionseinheit vor der Montage;

Fig. 3

die Ansicht nach Figur 1 mit der Funktionseinheit nach der Montage;

Fig. 4

eine Detailansicht nach Figur 3;

Fig. 5a, 5b

eine Detailansicht einer Variante einer Funktionseinheit nach den vorhergehenden Figuren; und

Fig. 6a, 6b

eine Detailansicht einer weiteren Variante einer Funktionseinheit nach den vorhergehenden Figuren.

Preferred embodiments of the invention will be described below with reference to the drawings, which are given by way of illustration only and are not to be interpreted as limiting. In the drawings show:

Fig. 1

a perspective view of a connection device with an installation unit and a functional unit, not shown here according to an embodiment of the invention:

Fig. 2

the view after FIG. 1 with the functional unit before assembly;

Fig. 3

the view after FIG. 1 with the functional unit after assembly;

Fig. 4

a detailed view after FIG. 3 ;

Fig. 5a, 5b

a detailed view of a variant of a functional unit according to the preceding figures; and

Fig. 6a, 6b

a detailed view of another variant of a functional unit according to the preceding figures.

DESCRIPTION OF PREFERRED EMBODIMENTS

In the figures, a connection device 1 for an outlet fitting is shown. The connection device 1 essentially serves to provide functions in connection with an outlet fitting. The outlet fitting may for example be a faucet in connection with a washstand. A function is understood in a general way to regulate the water flow to the outlet fitting and / or the mixture of hot and cold water and / or the recovery of electrical energy from the water flowing through. The connection device 1 is typically mounted below the outlet fitting and associated sanitary element, such as the vanity, on or in a wall. The connecting device 1 can be in direct contact with the wall or on a mounting frame, which stands behind a pretext, be arranged.

The connection device 1 comprises an installation unit 2 with a housing 3, at least one supply line interface 4 and at least one discharge interface 6. The supply line interface 4 can be connected to a water line on its input side 5. The discharge interface 6 is connectable on its output side 7 with a water line leading to the outlet fitting. The supply line interface 4 and the discharge interface 5 preferably comprise, in the region of the input side 5 and the output side 7, a receiving section 30, to which a water line can be easily connected.

The supply line interface 4 here comprises an output side 25 in the interior of the housing, and the discharge interface 6 here comprises an input side 26 in the interior of the housing.

The connection device 1 furthermore comprises a functional unit 8 formed separately from the installation unit 2. The functional unit 8 can be connected to an installation unit 2 and in particular has the task of providing at least one of the above functions or another water in connection with the water flowing through the functional unit 8.

In the embodiment shown, the functional unit 8 comprises a line piece 9, which has a line piece inlet 10 and a line piece outlet 11. Of the Conduit input 10 is fluidically connectable to the output side 25 of the supply line interface 4 and the line piece outlet 11 is fluidically connectable to the input side 26 of the discharge interface 6. In the line piece 9 between the line piece input 10 and the line piece outlet 11 at least one valve 12 is provided, with which the flow through the line piece 9 can be controlled.

The formation of the functional unit with the water-carrying parts, namely with the line piece 9 and the valve 12 has the advantage that the water-carrying parts can be easily replaced in the event of a defect. This relates in particular to the valve, which is easily replaceable as a subelement of the functional unit 8.

In the FIG. 2 the functional unit 8 is shown prior to assembly with the mounting unit 2. The line piece input 10 and the output side 25 of the supply line interface 4 are designed as plug-in coupling. That is, the line piece input 10 can be plugged into the output side 25 or vice versa. Similarly, the line piece outlet 11 and the input side 26 of the discharge interface 6 are designed as plug-in coupling. Again, the line piece output 11 can be inserted into the input side 26 of the discharge interface 6. A reverse configuration would also be conceivable. The two plug-in couplings between the line piece input 10 and the output side 25 of the feed line interface 4 or between the line piece output 11 and the input side 26 of the discharge interface 6 are oriented in the same direction. This allows a simple insertion of the functional unit 8 in the mounting unit 2. In addition, the connection between the line piece input 10 and the output side 25 of the feed interface 4 and between the line piece output 11 and the input side 26 of the discharge interface 6 can be made common. A complex connection is therefore not necessary.

Of the Figures 1 and 2 It can be well recognized that in the present case the mounting unit 2 comprises exactly two supply line interfaces 4 and exactly one single discharge interface 6. In this case, one supply line interface 4 can be connected to a hot water line and the other supply line interface 4 to a cold water line. The two supply lines are then in the line piece. 9 brought together and the hot water is mixed with the cold water and then discharged through the discharge port 6 again. The line piece 9 of the functional unit 8 comprises in the embodiment shown exactly two line piece inputs 10 and a line piece outlet 11. The line piece inputs 10 open inside the line piece 9 into each other. Particularly preferably, a mixing element 24 is provided in the region of the mouth, with which the mixing ratio between hot water and cold water can be adjusted for the purpose of setting the temperature of the water to be dispensed via the discharge interface 6. The mixing element 24 is also part of the functional unit 8 and, as explained above in connection with the valve, can likewise be easily exchanged.

In an embodiment not shown, it would also be conceivable that the mounting unit 2 comprises only one feed interface 4. In this case, but then only cold water of the outlet fitting could be provided.

A development of the functional unit 8, which serves the exclusive provision of cold water would also be possible if one of the two line piece inputs 10 is provided with a blind plug and / or a check valve. Thus, the supply line interface 4, which is in communication with the closed line piece input 10, would then not be connected to the water network and the water would then flow via the other supply line interface 4 and the non-closed line piece input 10 through the line piece 9 to the discharge interface 6. In particular, the last embodiment has the advantage that only one installation unit 2 has to be provided for two variants, namely the hot water variant and the cold water variant, as a result of which the costs are reduced, in particular in the case of relatively large numbers of units.

In the FIGS. 3 and 4 the assembled functional unit 8 is shown within the installation unit 2. Here it can be easily recognized how the output side 25 of the supply line interface 4 is connected to the line piece input 10 and how the input side 26 of the discharge interface 6 communicates with the line piece output 11.

With reference to the FIGS. 1 to 4 will now be more features of the shown Embodiment explained.

As explained above, the functional unit 8 essentially comprises exclusively water-carrying parts. A water-carrying part is understood to be an element which comes into contact with the water to be passed through the installation unit 2 and the functional unit 8. It is in the embodiment shown, in particular the valve 12 and the mixing element 24th

The connection device 1 furthermore comprises a controller 13 and an electrical supply element 14. The controller 13 and the electrical supply element 14 are mounted mechanically separated from the functional unit 8 in the installation unit. For this purpose, the installation unit 2 comprises corresponding receiving shafts 27. The controller 13 and the electrical supply element 14 are connected via not shown cable with the functional unit 8 in connection. For this purpose, the corresponding elements plug-in couplings.

Furthermore, it can be clearly recognized in the figures that a shut-off device 18 is arranged between the input side 5 of the supply line interface 4 and the output side 25 of the supply line interface 4. The obturator 18 can be moved from an open position, in which the supply line interface 4 can be traversed by water, in a closed position in which the passage of water is impossible. The obturator 18 may be, for example, a ball valve. In the embodiment shown, a respective shut-off device 18 is arranged per supply line interface 4. When replacing the functional unit 8, the obturator 18 must be moved from the open position to the closed position, so that an uncontrolled exit via the outlet side 25 of the inlet interface 4 of water can be avoided.

The obturator 18 further comprises a securing element 19 in the embodiment shown. The securing element 19 engages in the open position of the obturator 18, ie in the position in which the supply line interface 4 can be traversed by water, into the functional unit 8. In the closed position of the obturator 18, the securing element 19 does not engage in the functional unit 8 and thus releases them for movement relative to the fixed installation unit 2. In the embodiment shown is in the Figures 2 and 4 the securing element 19 shown in the closed position. That is, the obturator 18 is closed and no water can escape via the outlet side 25 of the feed interface 4. The functional unit 8 can then be assembled or disassembled. In the FIG. 3 the securing element 19 is shown in the closed position and it can be well recognized that the securing element 19 engages in the functional unit 8.

The securing element 19 engages in the embodiment shown in a recess 28 on the functional unit 8 a.

The obturator 18 is in the embodiment shown part of the supply line interface 4, which is integrally formed on the mounting unit 2. As a result, the securing element 19 can not be separated from the installation unit 2.

Next, a filter 20 is arranged in the line section 9 of the functional unit 8. In the embodiment shown, each line piece input 10 is arranged one filter 20 each. The filter 20 is secured by a connectable with the functional unit 8 filter securing element 21 in the line piece 9. By removing the filter securing element 21, the filter in the line piece 9 can be separated from it and exchanged.

The securing element 19 of the obturator 18 is preferably designed such that this not only engages in the open position of the obturator 18 in the functional unit 8, but also engages in the filter securing element 21, so that a movement of the same, when the securing element 19 is in the open position, is impossible. This prevents that the filter 20 is opened when the obturator 18 is open. In the closed position of the obturator 18 this then does not engage in the filter securing element 21 and the filter securing element 21 can be moved accordingly, so that the filter 20 can be replaced. This interaction between securing element 19 and filter securing element 21 prevents, as mentioned, a replacement of the filter 2 with the obturator 18 open, in which case water can then escape via the filter holder.

In the embodiment shown, the securing element 18 and the filter securing element 21 cooperate in such a way that the securing element 19 prevents the filter securing element 21 from rotating. In particular, the securing element 19 protrudes through the recess 28 and thus acts on the filter securing element 21.

Preferably, viewed from the line piece input 10 forth after the filter 20 each have a check valve 32 is present, which is opened by the pending on the line piece inlet 10 water pressure, with a removal of one of the two filters 20 prevents the filter 20 associated check valve 32 a backflow of water from other filter ago. As a result, an uncontrolled water leakage is avoided during maintenance of the filter 20.

Of the Figures 1 and 2 can be further recognized that the discharge port 6 includes a piece of tubing 29 here. The tube piece 29 is arranged between the inlet side 26 of the drainage interface 6 and the outlet side 7 of the drainage interface 6. The dissipation interface 6 is formed in the region of the output side 7 separately from the housing of the mounting unit 2. Thereby, the dissipation interface 6 is provided such that it can be positioned relative to the housing 3 at at least two locations. This different positioning is provided on the one hand by the separate formation between output side 7 and housing 3 and by the flexibility of the hose piece 29. Due to the different positioning of the derivative interface 6 on the housing has the advantage that it is as flexible as possible. However, the supply line interface 4 is preferably integrally formed on the housing 3.

In the FIGS. 5a to 6b Two different embodiments of functional units are shown. The functional unit 8 in the FIGS. 5a and 5b differs from the functional unit in the Figures 6a and 6b in that in the functional unit 8 after the FIGS. 5a and 5b no generator is arranged.

The line piece 9 in the functional unit is formed in two parts in the embodiments shown. A first part 15 with the line piece input 10 is fixedly arranged on the functional unit 8. A second part 16 with the line piece exit 11 is separably disposed on the functional unit 8. The second part 16 may optionally be formed with or without a generator 31. In the embodiment according to the FIGS. 5a and 5b the second part 16 is formed without a generator, while in the second variant according to the FIGS. 6a to 6b the second part 16 is formed with the generator 31. As a result, a different functional unit can be provided by simply exchanging the corresponding second part. With the generator, electrical energy can be obtained from the flowing water and a battery can be charged accordingly.

Preferably, the valve described above and the mixing element described above are arranged in the first part 15.

In all embodiments, it is shown that the functional unit 8 is connected to the mounting unit via at least one mechanical fastening element 17. Such a mechanical fastening element 17 may for example be a screw. In the illustrated embodiment, there are three sockets for screws. Other fasteners are also conceivable. LIST OF REFERENCE NUMBERS 1 connection device 22 supply port 2 installation unit 23 inner space 3 casing 24 mixing element 4 Supply line interface 25 Output side of the supply line interface 5 input side 6 Derivation interface 26 Input side of the derivative interface 7 output side 8th functional unit 27 bays 9 line section 28 recess 10 Piece of line input 29 hose Connector 11 Line section Output 30 receiving portion 12 Valve 31 generator 13 control 32 check valve 14 electrical supply element 15 first part 16 second part 17 fastener 18 shutoff 19 fuse element 20 filter 21 Filter safety element

Claims (17)

Connection device (1) for an outlet fitting comprising
an installation unit (2) having a housing (3), at least one supply line interface (4) which can be connected to a water line on its input side (5), and at least one discharge interface (6) which has on its output side (7) one of the Outlet fitting leading water pipe is connectable, and
one of the installation unit (2) separately formed functional unit (8) which is connectable to the installation unit (2), and which comprises a line piece (9) having a line piece input (10) and a line piece output (11),
wherein the line piece entrance (10) with the output side (25) of the supply line interface (4) is fluidically connectable and the line piece outlet (11) with the input side (26) of the discharge interface (6) is fluidically connectable, and
wherein in the line piece (9) between the line piece inlet (10) and the line piece outlet (11) at least one valve (12) is provided, with which the flow through the line piece (9) can be controlled. Connecting device (1) according to claim 1, characterized in that the functional unit (8) comprises substantially exclusively water-carrying parts, and / or that the connecting device (1) further comprises a controller (13) and an electrical supply element (14), in particular a battery , a capacitor or a power supply, wherein the controller (13) and the supply element (14) are mounted mechanically separated from the functional unit (8) in the mounting unit (2). Connecting device (1) according to claim 1 or 2, characterized in that the line piece input (10) and the output side (25) of the feed interface (4) are designed as plug-in coupling, and / or that the line piece output (11) and the input side (26). the derivative interface (6) are designed as plug-in coupling. Connecting device (1) according to claim 3, characterized in that the plug-in coupling between line piece input (10) and output side (25) of the supply line interface (4) and the plug-in coupling between line piece output (11) and input side (26) of the discharge interface (6) in the same Direction are oriented. Connecting device (1) according to one of the preceding claims, characterized in that the functional unit (8) has at least one mixing element (24), with which hot water and cold water is miscible, wherein the mixing element (24) in the pipe section (9) between line piece input (10) and line piece outlet (11) is arranged. Connecting device (1) according to one of the preceding claims, characterized in that the line piece (9) is formed in two parts, wherein the first part (15) with the line piece input (10) fixed to the functional unit (8) is arranged and wherein the second part (16) with the line piece outlet (11) separable on the functional unit (8) is arranged, wherein the second part (16) is optionally formed with or without a generator (17). Connecting device (1) according to one of the preceding claims, characterized in that between the input side (5) of the supply line interface (4) and the output side (25) of the supply line interface (4) a shut-off device (18) is arranged, wherein the obturator (18) an open position in which the supply line (4) can be traversed by water, and a closed position, in which the passage of water is made impossible, can take. Connecting device (1) according to claim 7, characterized in that the obturator (18) comprises a securing element (19) which engages in the open position of the obturator (18) in the functional unit (8) and which in the closed position of the obturator (18). not engaged in the functional unit (8). Connecting device (1) according to one of the preceding claims, characterized in that a filter (20) in the line section (9) of the functional unit (8). is provided, which filter (20) is secured by a with the functional unit (8) connectable filter securing element (21) in the line piece (9). Connecting device (1) according to claims 8 and 9, characterized in that the securing element (19) of the obturator (18) engages in the open position of the obturator (18) in the filter securing element (21) and not in the closed position of the obturator (18) engages in the filter securing element (21). Connecting device (1) according to one of the preceding claims, characterized
that the derivative interface (6) comprises a length of tubing (29) which is located between the input side (26) of the discharge port (6) and the output side (7) of the discharge port (6), and wherein the discharge port (6) in the area of the output side ( 7) is formed separately from the housing (3) of the mounting unit (2) and is positionable relative to the housing (3) at at least two locations;
and or,
in that the supply line interface (4) is integrally formed on the housing (3). Connection device (1) according to one of the preceding claims, characterized in that the installation unit (2) comprises exactly two supply line interfaces (4) and exactly one single discharge interface (6). Connecting device according to claim 12, characterized in that the line piece (9) of the functional unit (8) exactly two line piece inputs (10) and a line piece outlet (11), wherein the two line piece inputs (10) in the line piece (9) open into one another. Connecting device according to claim 13, characterized
that the line piece input (10) as seen by the filter (20) in each case a check valve (32) is provided, which is opened by the pending on line piece inlet water pressure, whereby (that associated with the filter check valve at a removing one of the two filters (20) 32 ) a return of water from prevents other filters from
and / or that at least one of the two line inputs (10) is provided with a dummy plug and / or a check valve. Connecting device (1) according to one of the preceding claims, characterized in that the housing (3) has a feed opening (22) for the passage of a sensor cable of a presence sensor arranged in the outlet device and / or that the functional unit (8) in a through the housing (3) limited interior space (23) is arranged, wherein a lid closes the interior. Method for mounting a connecting device (1) according to one of the preceding claims, characterized in that in a first step, the mounting unit (2), in particular in a shell, is mounted and that in a second step following the first step, the functional unit is mounted. A method according to claim 16, characterized in that in a third step, the controller (13) and the electrical supply element (14) are mounted.

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