The invention relates to a dishwasher.
Dishwashers are usually fitted with what is called an expansion system, by means of which an expansion in volume of air or water vapor enclosed in the washing chamber occurring as a result of an increase in temperature can be accommodated.
In a generic dishwasher, the expansion system has an expansion line. The expansion line can, in order to equalize pressure in the washing container, conduct water vapor and/or air out of the washing chamber.
An object of the invention is to provide a dishwasher in which the expansion line is positioned in a simple design so as to prevent vapor discharge in the direction of electrically operated appliance components and/or in the direction of adjacent furniture walls.
An object is achieved in a dishwasher, having at least one washing container and an expansion line, which with its first end establishes a connection to the washing chamber of the washing container and through which during a pressure-equalization process water vapor and/or air can be conveyed out of the washing chamber.
The expansion line with its second line end is guided into an expansion housing having at least one condensing surface. The vapor which may possibly escape from the expansion line can therefore condense on the internal sides of the expansion housing which act as condensing surfaces. In this way, a vapor discharge from the expansion housing can largely be prevented. In addition, the line end of the expansion line can be fixed in a simple design in the expansion housing.
It is preferably provided that the condensing surface is arranged opposite the second line end. Vapor emerging out of the second line end is thereby brought directly into contact with the condensing surface so as to condense there.
It is furthermore preferably provided that the condensing surface is embodied as a draining incline. This ensures that the condensate collects in the bottom region of the expansion housing.
It is preferably provided in this respect that the draining incline is embodied so as to run substantially vertically. Here, substantially vertically is understood also to mean a deviation of up to 30°, in particular 45°, from the vertical. To form this draining incline, the expansion housing can in cross section be embodied substantially trapezoidally, for example as a uniform trapezoid.
Finally, it is preferably provided that the expansion housing and the condensing surface are embodied such that they are of a uniform material and/or of one piece, in particular in a plastic injection-molding process.
To reduce parts complexity, the expansion housing, of a uniform material and/or of one piece, in particular in a plastic injection-molding process, can be integrated into the washing container, in particular into the washing-container base wall. In this way the underside of the washing-container base wall can be used directly as a boundary surface for the expansion housing.
The expansion housing is preferably closed to the appliance interior. A vapor discharge in the direction of the electronic components which are arranged below the washing-container base wall is prevented by this means. In deviation herefrom, the expansion housing can also be arranged in other positions on the outside of the washing container.
It is preferable if the expansion housing is designed so as to be open on a side facing away from the electrically operated appliance components. In this connection, it is preferable if the expansion housing is designed so as to be open to the appliance exterior, so that vapor which may possibly escape or vapor condensate which may drain on a side facing away from the appliance components can discharge from the expansion housing.
To speed up dishwasher assembly, easy positioning and fastening of the expansion line to the expansion housing are important. For ease of fastening, the expansion housing can have an assembly opening into which the line end of the expansion line can be inserted. The insertion depth of the expansion line can vary in a direction of insertion, as long as the outlet opening of the expansion line remains inside the expansion housing. This enables, in terms of assembly, easy fastening of the expansion line to the expansion housing with large tolerance compensation.
An exemplary embodiment of the invention is shown below with the aid of the attached drawings, in which:
The washing-container base wall 5 is embodied in the present exemplary embodiment as a plastic injection-molded part. The base wall 5 is equipped with laterally raised edge sides 7, on which the side walls 9 and the back wall of the washing container 1 sit. The side walls 9 and the back wall are manufactured out of stainless steel sheet.
The base wall 5 bordering the washing chamber 4 of the washing container 1 is supported at the base by means of lateral supporting profiles 11. Below the base wall 5, an assembly chamber 15 is formed in which appliance components such as for example a pump sump 17 or the circulating and drain pumps (not shown) are arranged.
The assembly chamber 15 is covered on the front side by a front panel 19 provided below the appliance door 2. Immediately behind the front panel 19 there is located on the appliance side a water inlet valve (not shown). Connected to the water inlet valve is in a known manner a feed hose (also not shown) leading to the water supply. A feed line 21, which leads to a housing 23 of the water inlet device 3, is additionally connected to the water inlet valve. The housing 23 of the water inlet device 3 has a connecting piece 25, to which an expansion line or an expansion hose 27 is connected, which is guided in a loop-like rising duct firstly upward along the washing-container side wall 9 and then downward in an opposing direction into the assembly chamber 15. Also shown is an outlet hose 30 coming from the pump sump 17 or the drain pump, which outlet hose is also guided upward along the side wall 9 in the shape of a loop. The outlet hose 30 is held in its upwardly pointing bow section by means of a holding bracket integrated onto the housing 23. Its hose end is held on the back of the appliance in a further holding element 31 and flow-connected to an external drain line 33.
The housing 23 of the water inlet device 3 opens via a washing-container opening (not shown) into the washing chamber 4 of the washing container 1. When filling the washing container 1 with fresh water, the water inlet valve (not shown) on the front side is opened, as a result of which fresh water can flow from the water supply network via the feed line 21 and the water inlet device 3 into the washing chamber 4.
Besides this water inlet function, an equalization of pressure is effected via the water inlet device 3, whereby heated air or heated water vapor in the washing chamber 4 is pushed as a result of an expansion in volume through the housing 23 into the expansion line 27. The expansion line 27 is guided with its open line end 28 into an expansion housing 29, which is arranged in the assembly chamber 15 below the washing container 1.
As a result of the heating of the washing liquid during a wash cycle, the air or the water vapor enclosed in the washing chamber 4 expands. To equalize pressure, the expanding air or water vapor can flow through the washing-container opening into the water inlet device 3. The water vapor then rises as shown in
In the event that the appliance door 2 is opened for a short time during a wash cycle, what is called an expansion shock can occur, in which the air entering into the washing chamber 4 from outside is suddenly heated and in this way an excessively large quantity of vapor or air is conveyed into the expansion hose 27. In this case, the quantity of vapor along the condensing section k cannot condense fully. Rather, some of the water vapor can pass through the condensing section k and be conveyed in a defined manner via the expansion hose 27 into the expansion housing 29 arranged in the assembly chamber 15. In the case of an expansion shock, condensation of vapor on side furniture walls within an installation recess of the dishwasher is prevented. Rather, a defined discharge of vapor occurs within the region of the assembly chamber 15.
As can further be seen from
The open line end 28 of the expansion line 27 is guided, as shown in
Number | Date | Country | Kind |
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10 2008 020 922.8 | Apr 2008 | DE | national |