Priority is claimed to German patent application DE 10 2007 029 502.4, filed Jun. 25, 2007, which is hereby incorporated by reference herein.
The present invention relates to a control system for a dishwasher, including an input device for selecting a wash cycle from a plurality of possible wash cycles, and a controller for controlling cycle parameters.
German Patent Document DE 100 57 210 A1 describes a method for automatically controlling the washing process in a dishwasher. In this method, the user can preselect the soil level of the dishes, after which the cycle controller takes over control of the wash cycle, taking into account the aforesaid control input. The cycle controller can control the wash cycle to be performed automatically, possibly as a function of further sensor signals. As a result the sensor signals for determining the further cycle parameters sometimes provide only a poor indication of the current soil level of the dishes. For example, a low turbidity level of the wash water may either suggest that the dishes are relatively clean or be an indication of firmly adhering soils that have not yet been removed from the dishes. Therefore, it is problematic to perform a wash cycle automatically.
There are also control systems for dishwashers that allow a user to manually select a suitable wash cycle from a plurality of possible wash cycles. However, since cycle parameters, such as temperature, wash cycle duration, additional sub-cycles such as prewash, wash, rinse, etc., must be specified together with a wash cycle, the process of selecting from a plurality of wash cycles is perceived by the user as being complicated. Such a control concept with many switches and options for selection is not accepted by the customer.
In view of the above, an aspect of the present invention is to provide a dishwasher control system which is easy to use and capable of performing a plurality of possible wash cycles including various cycle parameters.
The present invention provides a control system for a dishwasher including an input device operable to select a wash cycle from a plurality of wash cycles. The input device has a control panel area including a display device, and a plurality of input elements. At least one of the plurality of input elements is operable to select a soil level. A controller is provided, the controller being configured to control cycle parameters and to preselect, based on a selected soil level, a basic wash cycle from a plurality of wash cycles, and to offer different additional cycle options associated with the basic wash cycle based on the selected soil level.
An exemplary embodiment of the present invention will be described in more detail below and is schematically shown in the drawings, in which:
The present invention provides a control system for a dishwasher, including an input device for selecting a wash cycle from a plurality of possible wash cycles, and a controller for controlling cycle parameters, such as the duration and temperature profile of individual sub-cycles; the input device including a control panel area containing at least one display means and input elements; at least one input element allowing selection of a soil level; and the entry of a soil level causing a basic wash cycle to be preselected from a plurality of possible wash cycles, after which additional cycle options which are dependent on the soil level can be associated with said basic wash cycle.
In accordance with an embodiment of the present invention, different cycle options will be offered depending on the selected soil level and the basic wash cycle thereby selected. Thus, the user no longer has to make a selection from a large number of wash cycles and associated cycle parameters. Instead, by selecting a soil level setting, the user can make a preselection, which significantly increases the ease-of-use. This is because the user can visually determine the soil level, and then only has to decide on the priorities to be selected with respect to the other cycle options. This type of user guidance is perceived as pleasant and does not eliminate the convenience provided by having available a large number of possible wash cycles.
In an embodiment of the present invention, there are provided a first input for selecting the soil level and second input for the cycle options. Using the first and second inputs, the programming of wash cycle settings can be done with acceptable effort. The soil level may be divided into at least three ranges, or alternatively and more finely into six or nine ranges. The soil level can be selected using a plus button and a minus button. Moreover, there may be provided three input buttons as the second input for the cycle options in order to make operation as easy as possible. The user may be assisted by a display which displays the selected soil level setting as well as further parameters. Advantageously, a multi-line LCD display is used to allow for a wide variety of display options. In order to enable a clear representation, the soil level can be displayed as a graphical bar in an upper line of the display. For the same reason, the cycle options can be displayed in a lower line of the display, and the second input can be arranged below the display. Also provided may be an information button which allows technical information about the selected wash cycle to be displayed on the display.
In order to prevent inappropriate settings, the selected soil level setting, and thus the selected basic wash cycle, can be corrected during the course of a wash cycle by means of soil level data acquired by a sensor.
To allow selection of the soil level of the dishes, a minus button 11 is provided to the left of display 3, and a plus button 12 is provided to the right of display 3. An indicator in the form of a graphical bar 20 for displaying the soil level extends within display 3 between buttons 11 and 12. The graph is divided into a total of nine segments 21 through 29, which are combined into groups of three, each group being uniformly colored. The left group (segments 21 through 23) symbolizes a light soil level, the middle group (segments 24 through 26) symbolizes a medium soil level, and the right group (segments 27 through 29) symbolizes a heavy soil level. Pressing plus button 12 once will cause the color of the segment 21 to assume a darker shade. Repeated pressing of this button will cause the darker color shade to move to the right, so that the selected soil level is increased (see
Then, depending on the selected soil level setting, a basic wash cycle is preselected which is adapted to the selected soil level.
Located underneath display 3 are three buttons 13 through 15 which allow selection of further cycle options for the selected wash cycle. A feature of the present invention is that, depending on the selected soil level and the basic wash cycle thereby selected, different cycle options will be offered for selection. In this process, the control system of the present invention selects a subset (here three) of cycle options from a plurality of possible cycle options, and offers said subset to the user for further selection, taking into account that only certain options are suitable for the different basic wash cycles (soil levels), respectively. Options that are suitable and are therefore available for selection will at any one time be displayed in the lower line 30 of display 3 in three areas 31 through 33.
Control panel area 2 further contains a button 16 having a delay start function, and a button 17 for starting the selected wash cycle. In addition, control panel area 2 contains a button 18 for activating and deactivating the dishwasher. The user may obtain further information on the selected and/or displayed wash cycles, if needed, by actuating a button 19, which will cause the display to switch from the above-described display mode to a textual display mode, in which additional information is displayed to the user.
Middle section 40 of display 3 serves to indicate the remaining cycle time, but may also contain other information and explanations.
In
Referring to the display shown in
In
The cycle “Night” can be selected with all soil level settings because the user may wish to ensure a particularly low noise level during the dishwashing process. In this cycle, the pump delivery rate is reduced to a low value and the wash cycle duration is correspondingly increased. The remaining wash cycle diversifications, which result from the different soil levels, are, of course, retained.
After the wash cycle has been selected, a dishwashing operation is carried out; the wash parameters, such as the duration, intensity and temperature profile of individual sub-cycles, being preselected by control system 4, after which a wash cycle including the individual sub-cycles is carried out. The parameters are changed as a function of data (loading condition, turbidity of the liquid, etc.) which is acquired by sensors and as a function of the preselected cycle options. In the process, the selected soil level setting can be used to interpret the values measured by a turbidity sensor. For example, if the soil level is set to high and all measured turbidity levels are low, this may be an indication of firmly adhering soils that have not yet been removed. Control system 4 will adapt the duration and intensity of the wash cycle accordingly.
Moreover, by selecting a soil level, the user can “adjust” the parameters: a person who finds fault with even the smallest soil residues will tend to select higher soil level settings than a customer who is satisfied with less perfect washing results.
Number | Date | Country | Kind |
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10 2007 029 502.4 | Jun 2007 | DE | national |