A plurality of appliance components in the dishwasher, for instance a drain pump or a circulating pump, are usually provided in an assembly space provided below the wash compartment of a dishwasher, the appliance components being controlled during a wash cycle by means of an electronic control module.
A generic dishwasher includes a wash compartment and such an electronic control module. During installation of the dishwasher, the electronic control module is usually inserted into a receiving pocket available in the assembly base of the dishwasher. The wash compartment is then placed on the assembling base.
In the case of an installed dishwasher, the electronic control module is thus accessible from the outside only with difficulty. This is particularly disadvantageous in the case of a subsequent disassembly of the electronic control module. Furthermore, the handling of the dishwasher in the case of the electronic control module being programmed on the assembly line at the factory is also complicated. With such a programming, the electronic control module incorporated into the dishwasher is connected to a programming device
An object of the invention is to provide a dishwasher as well as a method for assembling such a dishwasher, in which a positionally-correct and easily externally accessible positioning in terms of assembly takes place easily.
An exemplary embodiment of the invention is based on a dishwasher with a wash compartment and an electronic control module, which controls the appliance components arranged in the dishwasher. A base wall of the wash compartment has a retaining contour, on which the electronic control module is supported. Contrary to the prior art, the retaining contour is thus not provided on the assembly base of the dishwasher, but is instead arranged at a distance therefrom on a wash compartment wall. The electronic control module can thus be assembled and/or disassembled favorably in terms of assembly space and independently of the assembly base of the dishwasher.
It is simple from a manufacturing point of view, if the retaining contour is integrated in the same material and/or as a single piece on the wash compartment, in particular in its base wall. The base wall with the integrated retaining contour can be produced simply from a manufacturing point of view using plastic injection molding. The base wall is thus an economical plastic part, on which the remaining wash compartment walls made of stainless steel sheet can be positioned. With such an assembly, the still separate wash compartment base wall can be connected to the electronic control module in a first assembly step. The remaining wash compartment walls can then be placed on the base wall.
The electronic control module preferably protrudes into the assembly space located below the wash compartment, in which a large number of other appliance components, for instance circulating pump or drain pump, is usually provided. As a result, the installation length of the electrical lines passing therebetween can be reduced. The retaining contour can therefore preferably protrude downwards into the assembly space.
The assembly position of the electronic control module can advantageously be distanced from the base of the dishwasher by a free height. The retaining contour with the electronic control module mounted thereupon is thus arranged at an easily accessible height above the dishwasher base.
In a preferred embodiment, the wash compartment base wall can be supported on the base at its corner regions by way of front and rear support profiles. Lateral front and rear support profiles are preferably integrated in a supporting frame respectively, said supporting frame bounding a frame opening, in which the electronic control module can be arranged at least partially in an easily accessible position.
Here the retaining contour can be provided at least partially on the support profiles or the supporting frame. The retaining contour can preferably comprise at least one supporting section, which supports the electronic control module in its assembly position. With respect to a simple accessibility of the retaining contour, the supporting section can preferably be a boundary wall on the base-side periphery of the afore-cited frame opening. The supporting section is preferably designed so as to be elastic in order to absorb impact loads, during transportation or during the assembly of the dishwasher, onto the electronic control module.
The retaining contour can also comprise positioning stops, which simplify a positionally-correct locating of the electronic control module. The positionally-correct locating of the electronic module is important particularly when programming the electronic control module at the factory. With such a programming, the electronic control module of the dishwasher located on the assembly line is connected to a programming device. To ensure automatic contacting, the positionally-correct locating of the electronic control module is advantageous in terms of process.
Against this background, the retaining contour can include positioning stops, i.e. at least one depth stop and/or a side stop, which determines the electronic control module in depth direction and/or lateral direction. With a view to a positionally-correct locating, the depth and side stops, contrary to the supporting section, are rigid and inherently stable. The positioning stops are thus preferably provided at a distance from the elastic supporting section. The positioning stops on the base wall and/or a rear wall protruding down therefrom are preferably provided as positioning ribs.
The retaining contour can also comprise at least one preferably elastically adjustable locking element. In its locking position, the locking element can hold the electronic control module in its post assembly position. In the event of a subsequent disassembly of the electronic control module, the locking element can be switched into a locking position, as a result of which the electronic control module can preferably be disassembled through the frame opening of the supporting frame.
For a simple actuation of the locking element, this can protrude into the frame opening of the supporting frame. To be able to easily perform a switching movement between the locking and unlocking position, the locking element can be embodied on the elastically configured supporting section, on which the electronic control module is supported.
In a method for assembling the dishwasher, the wash compartment base wall can be turned upside down in a first assembly step. As a result, the lower face thereof is easily accessible for assembly of the electronic control module. In a preassembly step, the electronic control module with a peripheral face is then inserted between the positioning stops of the retaining contour. The positioning stops are preferably molded on the base wall lower face as ribs.
The electronic control module prepositioned in this way can then be tilted with its opposite peripheral face into a final assembly position. In the final assembly position, the afore-cited locking element can be locked to the electronic control module. The locking element can, by way of example, be locking strips engaging in the frame opening, said locking strips being elastically flexible out of their position of rest. When tilting the electronic control module into its final assembly position, the at least one locking element can be manually brought into its unlocking position. As a result, the tilting movement of the electronic control module is released into the final assembly position. The locking element can then spring back into an undercut or a counter locking element of the electronic control module.
As a result of the elasticity of in particular the supporting section and/or the locking element, a simple, tool-free and also operationally-reliable centering and locking of the electronic control module is enabled with minimal assembly effort. The existing elasticity of the retaining contour and the positioning in the side region of the washing tub very easily allows for the possible subsequent disassembly of the module housing from the fully assembled dishwasher.
An exemplary embodiment of the invention is described below with reference to the appended Figures, in which;
The wash compartment base wall 3 shown in
Molded on each of the outer faces of the base wall 3, which are opposite one another in the appliance lateral direction x, is a supporting frame 7, which can support appliance feet (not shown) at its front and/or rear corner regions 8, 9 respectively. The two lateral supporting frames 7 have guide shafts 11 at each of their front support profiles 8, in which the appliance feet are guided with vertical movement. Retaining elements 14 for a power network connection element 15 and for a water inlet valve (not shown in more detail) of the hydraulic circuit of the dishwasher, are configured respectively on the facing side walls 13 of the guide shafts 11. Each of the two retaining elements 14 has an assembly wall 16, which is molded on the assigned guide shaft side wall 13 and to the lower face of the base wall 3. An elbow 19 of a supply hose 21 leading to the water supply network is connected to the left assembly wall 16 shown in
The two assembly walls 16 on the front face bound a central tool access opening 23 to an assembly space 25 below the wash compartment base wall 3. The assembly space 25 is not bounded at its base by a closed assembly base of the dishwasher but is configured as open.
A network cable 37 leading from the power supply network is connected by way of the power network connection housing 15 to electric lines, which are led to a laterally-arranged electronic control module 38.
The electronic control module 38 controls the appliance components in the dishwasher during a wash cycle. Here the electronic control module 38 is incorporated in a side region of the base wall 3 by way of a retaining contour 42 directly on the lateral supporting frame 7, as shown enlarged in
As apparent from
The assembly of the electronic control module 38 into the retaining contour 42 of the base wall 3 is explained with the aid of
To fix the electronic control module 38 in the appliance lateral direction x, opposite side stops 53, 54 are molded to the base lower face 47. The two lateral external side stops 53 are embodied here as elevated stop webs, which protrude far into the frame opening 39. The two stop webs 53 bound a tilting movement (indicated with arrow I in
The support plate 43 molded on the plinth 41 of the supporting frame 7 covers the positioning stops 50 to 54 on the side of the base wall at least partially and determines the height h of the electronic control module 38 in the height axis direction z.
Elevated locking webs 56, which are distanced from one another and engage in the frame opening 39, are molded on the side of the support plate 43 facing the positioning stops 50 to 54. The two locking webs 56 are configured to be angular in terms of profile and have two locking limbs 57 which face one another. In the final assembly position according to
As apparent from
When tilting the electronic control module 38 into its final installation position, the locking webs 56 are locked to the undercuts 58 on the module side. To this end, the locking webs 56 are manually bent apart in an actuation direction II in accordance with
The two locking webs 56 are elastically bent apart from one another in the actuation direction II counter to a reset force. The elasticity required herefor results on the one hand from the installation height of the locking web 56 and on the other hand from the rigidity of the support plate 43 which is reduced by means of the cutouts 45.
After the final assembly of the electronic control module 38 and the other appliance components (not shown here) on the lower face 47 of the washing compartment base wall 3, electrical lines are routed between the individual appliance components and the assembled base wall 3 is then moved back into its post assembly position.
According to
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