Dishwashers are equipped with what is termed a water inlet or water inlet device via which the appliance is filled with fresh water, i.e. mains water.
A generic dishwasher has such a water inlet device, the housing of which is provided with an inlet opening to which a fresh water feed line is connected. On the outlet side the housing of the water inlet device opens via a first washing container opening into a washing chamber of a washing container of the dishwasher. During a wash cycle the washing container can be filled with fresh water via the water inlet device.
The water inlet device also has an expansion system which is assigned to the washing chamber. An expansion in the volume of air or water vapor enclosed in the washing chamber during the time it is being heated can be balanced out by way of the expansion system. For that purpose a so-called expansion line leads into the washing chamber. At the same time it must be ensured that if negative pressure occurs in the water feed line, e.g. due to corresponding flow conditions in a domestic water supply system, liquid cannot escape from the dishwasher into the domestic water supply system due to the suction effect of the negative pressure.
An object of the invention consists in providing a dishwasher in which liquid is reliably prevented from escaping into a domestic water supply system.
A solution proceeds on the basis of a dishwasher having a washing container having a washing chamber and a water inlet device which is connected to a water feed line for filling the washing chamber with liquid on the inlet side and ends in the washing chamber on the outlet side, and which has a steam outlet opening by means of which water vapor can be ducted out of the washing container. The water inlet device fulfills a dual function in that it both fills the washing container with fresh water and equalizes the pressure via the additional steam outlet opening.
According to an exemplary embodiment of the invention steam ducting is provided in order to enable steam to be ducted to the steam outlet opening. In this way steam is simultaneously reliably prevented from escaping into the water feed line and consequently also into the domestic water supply system under certain conditions.
It is also preferably provided that the steam ducting defines a water inlet chamber and a steam outlet chamber. The water inlet device has two chambers which in the case of the water inlet chamber defines a flow path of a liquid flowing due to the force of gravity from the water feed line through the water inlet chamber into the washing chamber, whereas in the case of the steam outlet chamber a flow path is defined by steam rising against the force of gravity from the washing chamber through the steam outlet chamber into the steam outlet opening.
In this case the water inlet chamber is preferably connected to the water feed line. In addition the steam outlet chamber is preferably connected to the steam outlet opening.
A connection opening is preferably provided which establishes a connection between the two chambers. Furthermore, a container opening preferably establishes a connection between the steam outlet chamber and the washing chamber of the washing container. This enables e.g. liquid such as water to flow from the water inlet chamber through the steam outlet chamber into the washing chamber of the washing container.
It is also preferably provided that due to the steam ducting a cross-section connecting the washing chamber to the water feed line is reduced in size compared to a cross-section connecting the washing chamber to the steam outlet opening. In this way it is ensured that rising steam reaches the steam outlet opening.
It is also preferably provided that the steam ducting has a curved section. In this case the curved section is embodied in such a way that rising steam is ducted to the steam outlet opening.
Finally means are preferably provided which prevent a reversal of the flow against the filling direction in the water feed line due to negative pressure. In this way it is ensured that no liquid can escape from the washing container into a domestic water supply system if negative pressure occurs.
Preferably the means includes a ventilation opening for equalizing the pressure if negative pressure occurs. In this way the negative pressure is dissipated through the ventilation opening, thereby ensuring that no suction effect can occur due to negative pressure.
An expansion line can be connected at the steam outlet opening of the water inlet device to provide a condensation route for the exiting water vapor, along which route the water vapor condenses and can be collected as condensate. The water vapor is guided by the expansion line to a defined point without condensing on adjacent kitchen unit walls of an installation recess. The expansion line can be an economical flexible hose line which is routed upward in a loop-like vertical guide starting from the steam outlet opening and whose outlet end can be arranged in a defined location preferably below the washing container opening.
The water inlet device is connected to a water supply network via the water feed line. As also in the case of other water-conducting domestic appliances, dishwashers are equally subject to the requirement whereby no washing liquid must be sucked back into the water supply network. This requirement is checked by the relevant test institutes in a test procedure in which the water feed line is subjected to negative pressure.
In order to fulfill the aforesaid requirement the housing of the water inlet device can have a ventilation opening. In the above-described test case ambient air can be sucked into the water feed line via the ventilation opening, and moreover instead of water vapor and/or washing liquid from the washing chamber.
The housing of the water inlet device is preferably secured in the region of the container opening. The expansion hose already mentioned above can be routed in a free hose-guiding manner along the external side wall of the washing container. In the same way the fresh water feed line can also be routed along the external side wall of the washing container to the water inlet device. In order to provide a defined line guide, retaining clips are provided which secure the water feed line or expansion line and/or a drain line in position. The retaining clips can preferably be integrated on the housing of the water inlet device. Against this background the housing of the water inlet device can preferably be an injection-molded plastic part.
To provide a simple housing geometry with a reduced number of openings, fresh water can be fed or routed into the housing via the ventilation opening. The ventilation opening therefore fulfills a dual function, serving simultaneously also as a water inlet opening of the housing.
When the washing container is filled with fresh water, the water flow in the water feed line can therefore be routed through the ventilation opening into the housing and onward into the washing container.
A ventilation space that is exposed to the outside can preferably be embodied between the water feed line and the housing inlet opening. In a simple embodiment the water feed line can project into the housing inlet opening, for example. In this case the housing inlet opening cross-section not occupied by the water feed line can be exposed to the outside.
To allow simple water or steam guiding the housing inlet opening and/or the housing steam outlet opening can be provided on the top side of the housing. The housing inlet opening can be covered by a hood-like cover in order to shield it from outside influences.
In order to separate the water inlet function from the pressure equalization function further, the housing of the water inlet device can have a water inlet chamber and a steam outlet chamber separated therefrom by a partition. The water feed line can lead into the water inlet chamber of the housing, while the steam outlet opening and/or the washing-container-side opening can lead into the steam outlet chamber. Accordingly, when the washing container is filled the fresh water is first channeled into the water inlet chamber. From there the fresh water flows further by way of the steam outlet chamber into the washing chamber of the washing container. In order to enable the fresh water to flow immediately and fully into the washing chamber, the two chambers are connected to each other via a connection opening which is preferably embodied between the partition and a housing base side of the water inlet.
In this way no additional overflow edge between the two chambers has to be surmounted by the fresh water.
An exemplary embodiment of the invention is described below with reference to the attached figures, in which:
Referring to
In
The base wall 5 delimiting the washing chamber 4 of the washing container 1 is reinforced on the base side by means of lateral supporting profiles 11. Formed below the base wall 5 is an installation space 15 in which appliance components such as, say, a pump sump 17 or the circulating and drain pumps (not shown) are arranged.
The installation space 15 is covered at the front by means of a front panel 19 provided beneath the appliance door 2. Located immediately behind the front panel 19 is an appliance-side water inlet valve (not shown). As is well-known, a feed hose (also not shown) routed to the water supply network is connected to the water inlet valve. Additionally connected to the water inlet valve is a water feed line 21 which leads to a housing 23 of the water inlet device 3.
The housing 23 of the water inlet device 3 has a connecting piece 25 to which an expansion line 27 is connected which is initially routed upward along the washing container side wall 9 in a loop-like vertical guide and then downward in the opposite direction into the installation space 15. Shown in addition is a drain hose 29 coming from the pump sump 17 or drain pump, the drain hose 29 likewise being routed upward in a loop shape along the side wall 9. At its upward-pointing curved section the drain hose 29 is secured by means of a retaining clip 30 integrated on the housing 23. At the rear of the appliance the end of the hose is mounted in a further retaining element 31 and fluidically connected to an external drain line 33.
The housing 23 of the water inlet device 3 leads via a washing container opening 42 shown in
Also effected via the water inlet device 3 in addition to said water inlet function is a pressure equalization wherein air or water vapor heated in the washing chamber 4 is forced through the housing 23 into the expansion line 27 as a result of an expansion in volume. The expansion line 27 is routed by means of its free end right into the installation space 15 beneath the washing container 1 into a defined end position.
The housing 23 of the water inlet device 3 shown in isolation in
The steam outlet chamber 37 is connected to the expansion line 27 via a steam outlet opening 41 surrounded by the connecting piece 25. In addition the steam outlet chamber 37 leads into the washing chamber 4 via the container opening 42 in the washing container side wall 9. According to
In the event that the appliance door 2 is opened briefly during a wash cycle, what is termed an “expansion shock” can occur wherein the air entering the washing chamber 4 from outside is abruptly heated and consequently an excessively large amount of steam or air is ducted into the expansion hose 27. In this case the volume of steam cannot fully condense along the condensation route k. Rather, some of the water vapor can travel beyond the condensation route k and be ducted via the expansion hose 27 in a defined manner into the installation space 15. If an expansion shock occurs, a condensation of steam on kitchen unit side walls inside an installation recess of the dishwasher is therefore prevented. Instead, a defined escape of steam takes place in the region of the installation space 15.
Both the steam outlet opening 41 of the steam outlet chamber 37 and the inlet opening 43 of the water inlet chamber 35 are provided on the top side of the housing 23. According to
In order to fill the washing container 1 with fresh water, the water inlet valve (not shown) is opened in the usual manner, thereby allowing the fresh water to flow in via the water feed line 21 and via the feed conduit 45 into the water inlet chamber 35 of the housing 23. From there the fresh water flows onward in the direction of the arrow I via the connection opening 39 into the steam outlet chamber 37 and into the washing chamber 4.
By means of the inventive geometry of the housing 23 the steam flowing into the housing 23 during pressure equalization is reliably prevented from penetrating into the water feed line 21. This case is simulated in the course of a safety test by the relevant test institutes in that the water feed line 21 is subjected to negative pressure during the pressure equalization.
According to the invention the water vapor coming from the washing chamber 4 is not sucked into the feed line 21 during an exposure to negative pressure of said kind. Rather, ambient air is sucked into the feed conduit 45 via the ventilation space s and via the inlet opening 43.
In addition the water inlet chamber 35 is inserted between the steam outlet chamber 37 and the inlet opening 43, thereby increasing the physical distance between the container opening 42 and the water inlet opening 43. Owing to the base-side arrangement of the connection opening it is also ensured that the upward-rising steam is routed past the connection opening directly to the steam outlet opening 41.
Number | Date | Country | Kind |
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10 2008 022 739.0 | May 2008 | DE | national |