CN110131946B - Household refrigeration appliance device - Google Patents

Abstract

In order to provide a household refrigeration appliance apparatus (10) with improved features in terms of manufacture, a household refrigeration appliance apparatus (10) is proposed, comprising: at least one outer wall element (12); at least two electronic functional units (14); and at least one structural unit (16) having at least one receiving region (18) for receiving the electronic functional unit (14), the electronic functional unit (14) and the structural unit (16) at least partially realizing a preassembled unit (20), the preassembled unit (20) being to be mounted in at least one mounting region (22) of the outer wall element (12).

Description

Household refrigeration appliance device

Technical Field

The present invention relates to a household refrigeration appliance apparatus and to a method for mounting a household refrigeration appliance apparatus.

Background

A household refrigeration appliance apparatus is known from the prior art, which comprises an outer wall element and a plurality of electronic functional units. The outer wall element comprises a plurality of mounting areas for receiving the electronic functional units. In the installed state, the electronic functional unit is correspondingly installed in the installation region of the outer wall element. Each electronic functional unit must be installed separately.

Disclosure of Invention

It is an object of the present invention, inter alia, to provide a household refrigeration appliance apparatus having improved features in terms of manufacture. .

There is provided a household refrigeration appliance apparatus comprising: at least one outer wall element; at least two electronic functional units; and at least one structural unit having at least one receiving region for receiving an electronic functional unit, the electronic functional unit and the structural unit at least partially realizing a preassembled unit to be mounted in at least one mounting region of the outer wall element.

By means of the invention, in particular, simple and/or rapid production can be achieved. In particular, the electronic functional unit and the structural unit can be preassembled in separate manufacturing steps and subsequently the preassembled unit can be mounted in an easy and/or quick manner to the mounting region of the outer wall element. In particular in a production line, a simple production is possible, in particular because only the preassembled unit has to be mounted in the mounting region of the outer wall element and electrically contacts at least one of the electronic units. In particular, because of this, the production can be timed in particular during the cycle time. The structural unit can be used in particular as a single and/or common storage element for the electronic unit, so that a highly stable and/or durable embodiment and/or a small number of components can be realized in particular.

By "domestic refrigeration appliance device" is understood in particular at least a part, preferably a subassembly, of a domestic refrigeration appliance. The domestic refrigeration appliance is particularly configured for storage and preferably tempering of food products, such as beverages, meats, fish, vegetables, fruits, milk and/or dairy products, in at least one operating state, advantageously in order to enhance the preservation of the stored food products. Advantageously, the domestic refrigeration appliance is configured for cooling the food product in at least one operating state. The domestic refrigeration appliance may be embodied in particular as a cabinet and/or a freezer and/or a refrigerator-freezer combination and/or a wine cooler.

The household appliance comprises in particular at least one appliance body, which in particular at least partially defines at least one storage space. The term "appliance body" is understood to mean in particular: a unit which in at least one operating state at least partially defines at least one storage space and in particular at least substantially defines the storage space together with at least one appliance door. In particular, the household appliance apparatus comprises an appliance door. In at least one operating state, the appliance body and the appliance door in particular define the storage space at least substantially and, taking into account tolerances, preferably completely. The appliance body comprises in particular at least one inner container and in particular at least one outer container. The inner and outer liner are in particular connected to each other and preferably together define and/or enclose an insulation space which is in particular at least largely filled with at least one insulation material.

The appliance body may in particular comprise at least one first appliance side wall element and/or at least one second appliance side wall element and/or at least one appliance top wall element and/or at least one appliance bottom wall element and/or at least one appliance rear wall element, all of which may in particular at least largely define the outer bladder.

An "outer wall element" is to be understood in particular as an element of the appliance body, in particular an element of the appliance wall of the appliance body, and preferably an element of the outer container of the appliance body, which in at least one installed state defines at least a part of at least one wall element of the appliance body facing away from the storage space. The outer wall element may in particular define at least a portion of an outer wall of the appliance body and/or of the domestic refrigeration appliance. The expression "at least a portion" of the outer wall element defining at least one wall element of the appliance body facing away from the storage space means in particular that the outer wall element defines in particular the entire wall element of the appliance body and/or that the outer wall element defines a portion of the wall element of the appliance body and in particular together with at least one further outer wall element defines in particular the entire wall element of the appliance body.

An "electronic functional unit" is understood in particular to be an electrical and/or electronic unit which has a major functional contribution to the function of the domestic refrigeration appliance. In particular, the electronic functional unit may be part of at least one appliance control unit of the domestic refrigeration appliance arrangement. The electronic functional unit may comprise, inter alia, at least one PCB and/or at least one control unit and/or at least one power supply and/or at least one electronic receiver, inter alia, for connecting the electronic unit to at least one appliance electronic unit. Alternatively and/or additionally, the electronic functional unit may comprise, in particular, at least one power module and/or at least one control module and/or at least one adapter PCB, in particular for at least one appliance plug, and/or at least one inverter electronics, in particular for at least one compressor. In particular, the electronic functional unit may be configured for adjusting at least one temperature in the storage space and/or for controlling at least one compressor and/or for controlling at least one cooling circuit.

A "structural unit" is to be understood in particular as a unit defining at least one structure for mounting and/or for receiving an electronic functional unit. In particular, the structural unit may define and/or delimit a receiving area for receiving the electronic functional unit. The structural unit may in particular comprise exactly one receiving area, which may in particular be configured for receiving the electronic functional unit. Alternatively, the structural unit may in particular comprise at least two receiving areas, each of which may in particular be configured for receiving one of the electronic functional units. In particular, the number of receiving areas of the structural units may be equal to the number of electronic functional units.

By "receiving area" is understood in particular a hole and/or an eyelet in a structural unit. In particular, the geometry of the receiving area may be adapted in particular to the geometry of at least one of the electronic functional units. In at least one preassembled state, the electronic functional unit can be positioned and/or fastened in the receiving region in a form-fitting and/or force-fitting manner.

The structural unit may in at least one installed state in particular at least partially define an outer structure of a part of the outer wall element. Alternatively and/or additionally, the domestic refrigeration appliance device may in particular comprise at least one cover element, which in at least one installed state may in particular at least largely cover the structural unit and/or the outer wall element. The term "at least for the most part" is to be understood in particular as an amount of at least 70%, in particular at least 80%, advantageously at least 90% and particularly advantageously at least 95%, in particular an amount of mass and/or volume.

The outer wall element comprises in particular a mounting region. The term "mounting region" is understood to mean, in particular, a region in which the preassembled unit can be mounted to the outer wall element. Preferably, the outer wall element defines and/or delimits at least one hole and/or at least one eyelet and/or at least one recess, in particular positioned in the installation area. In particular, the geometry of the preassembled unit may be adapted in particular to the geometry of the mounting region. In at least one assembled state, the preassembled unit can be mounted in a form-fitting and/or force-fitting manner in the mounting region of the outer wall element.

By "preassembled unit" is understood in particular a unit which is assembled in time, in particular before being mounted to the outer wall element. The assembly and/or mounting of the preassembled unit can in particular be separated in time from the mounting of the preassembled unit to the mounting region of the outer wall element by at least 5 seconds, in particular at least 10 seconds, advantageously at least 30 seconds, particularly advantageously at least 60 seconds, preferably at least 120 seconds, and particularly preferably at least 300 seconds. The preassembled unit is mounted to the receiving area, in particular as a joined component.

In this context, "configured" means in particular specifically planned, designed and/or equipped. An object configured for a specific function is to be understood in particular as meaning that the object performs and/or fulfills the specific function in at least one application state and/or operating state.

Furthermore, it is proposed that the outer wall element is a transverse element for connecting at least one first appliance side wall element and at least one second appliance side wall element. In particular, the first appliance sidewall element and the second appliance sidewall element may be located at two opposite sides of the appliance body in at least one operating state, in particular with respect to the width direction of the appliance body. The width direction is defined in particular with respect to the installation position of the domestic refrigeration appliance device and/or the domestic refrigeration appliance and/or is oriented parallel to the base. The substrate in particular defines an at least substantially horizontal plane. In the installed position, the width direction is oriented in particular perpendicularly to the viewing direction of a user standing in front of the appliance body. In the installed position, the width direction is oriented in particular from a first appliance side wall of the appliance body to a second appliance side wall of the appliance body. In the installed position, the width direction is oriented in particular perpendicularly to the direction extending from the appliance door to the rear wall of the appliance body. In the installed position, the width direction is oriented in particular perpendicular to the height direction. In the following, the width direction is to be understood as meaning, in particular, the width direction of the appliance body and/or of the domestic refrigeration appliance. The "height direction" of an object particularly refers to the extension of the object in the longitudinal extension direction of the object. In the following, the height direction is understood to mean in particular the height direction of the appliance body and/or of the domestic refrigeration appliance. The "longitudinal extension direction" of an object particularly refers to a direction oriented parallel to the largest side of a smallest imaginary cuboid that just completely encloses the object. The "extension" of an object particularly refers to the maximum distance between two perpendicular projection points of the object to a plane. In at least one installed state, the outer wall element, in particular the transverse element, can in particular mechanically connect the first and the second appliance side wall element. In particular, the outer wall element of the transverse element, in particular, in at least one installed state, can define at least one distance between the first and the second appliance side wall element with respect to the width direction. Thus, a particularly high stability can be achieved. In particular, the distance between the first and the second appliance sidewall element can be defined in a simple and/or efficient manner.

It is furthermore proposed that the domestic refrigeration appliance device comprises at least one connection plug for electrically connecting at least one of the electronic functional units to the at least one appliance plug, the connection plug being mounted to the structural unit in at least one preassembled state. In particular, the household refrigeration appliance apparatus comprises at least one appliance plug. The domestic refrigeration appliance arrangement comprises at least one appliance electronics unit which is positioned in at least one installation state, in particular at least largely, within the insulation space. In at least one installed state, the appliance plug electrically connects, in particular, the connection plug and the appliance electronics unit. In particular, in at least one preassembled state, at least one of the electronic functional units, preferably at least a majority of the electronic functional units and advantageously all of the electronic functional units, are electrically connected to the connection plug. The connection plug is in particular part of a preassembled unit. The structural unit defines and/or delimits, in particular, at least one receiving region for receiving the connection plug. In particular, the domestic refrigeration appliance arrangement may comprise at least two, advantageously at least three, particularly advantageously at least four, preferably at least five and particularly preferably at least six connection plugs. The electronic functional units are in particular electrically connected to each other in at least one preassembled state. In particular, the electronic functional unit is electrically connected to the connection plug. The appliance plug is in particular arranged at least largely in the insulation space. In particular, the electronic functional unit can thereby be electrically connected to the appliance plug in a simple and/or quick and/or reliable manner. In particular, due to this, short production times can be achieved. In particular, the electronic functional units can be connected to each other and/or to the connection plug in at least one preassembly step.

In at least one installed state, the outer wall element and the structural unit can be connected to one another, in particular, by means of at least one threaded connection and/or by means of at least one adhesive connection and/or by means of at least one locking connection and/or by means of at least one clamping connection. Alternatively and/or additionally, the outer wall element and the structural unit may advantageously be connected in a form-fitting and/or force-fitting manner. Preferably, the outer wall element and the structural unit are locked in at least one installed state. A particularly high flexibility is thus achieved, in particular because the outer wall element and the structural unit can be mounted and/or dismounted in a quick and/or direct manner.

It is furthermore proposed that the structural unit extends over at least 50%, in particular at least 60%, advantageously at least 65%, particularly advantageously at least 70%, preferably at least 75%, particularly preferably at least 80% of the extension of the outer wall element with respect to the at least one height direction. In particular, the structural units extend over at most 100%, in particular at most 98%, advantageously at most 96%, particularly advantageously at most 94%, preferably at most 92%, particularly preferably at most 90% of the extension dimension of the outer wall element with respect to the at least one height direction. In this way, space can be used particularly optimally and/or particularly high stability can be achieved.

It is also proposed that the structural unit extends over at least 50%, in particular at least 60%, advantageously at least 65%, particularly advantageously at least 70%, preferably at least 75% and particularly preferably at least 80% of the extension dimension of the outer wall element with respect to the at least one width direction. In particular, the structural units extend over at most 100%, in particular at most 98%, advantageously at most 96%, particularly advantageously at most 94%, preferably at most 92%, particularly preferably at most 90% of the extension dimension of the outer wall element with respect to the at least one widthwise direction. Thus, a large space for mounting the electronic functional unit can be provided, in particular. In particular, due to this, an easy handling of the preassembled unit can be achieved.

It is furthermore proposed that the outer wall element comprises at least one electronic functional unit receiving region for receiving an electronic functional unit. In particular, the electronic functional unit receiving area is in particular positioned in the mounting area of the outer wall element and preferably defines at least a part of the mounting area of the outer wall element. The outer wall element comprises, inter alia, at least one first electronic functional unit receiving area for receiving at least a first one of the electronic functional units and at least one second electronic functional unit receiving area for receiving at least a second one of the electronic functional units. In particular, the number of electronic functional unit receiving areas of the outer wall element is at least substantially and preferably completely equal to the number of electronic functional units. In particular, a high stability can be achieved in this way.

It is furthermore proposed that the shape of the electronic functional unit receiving region of the outer wall element and the shape of the receiving region of the structural unit be adapted to one another such that in at least one installed state the receiving region of the structural unit is arranged at least largely in the electronic functional unit receiving region of the outer wall element. In particular, in at least one installed state, the receiving region of the structural unit is positioned in a form-fitting and/or force-fitting manner in the electronic functional unit receiving region of the outer wall element. Thus, in particular, compact and/or stable embodiments may be achieved.

The outer wall element may in particular be the only outer wall element of the appliance body and/or may in particular define at least one appliance wall of the appliance body by itself and/or separately. Preferably, the outer wall element comprises at least one receiving area for receiving at least a portion of at least one further outer wall element of the appliance wall, in particular of the appliance body. The appliance body, in particular the appliance wall of the appliance body, comprises at least one further outer wall element which is connected to the outer wall element in at least one installed state. In particular, the outer wall element and the further outer wall element, in particular the portion of the further outer wall element, at least partially overlap in at least one direction perpendicular to the main extension plane of the appliance wall. The term "main extension plane" of an object is understood to mean, in particular, a plane which is oriented parallel to the largest side of a smallest imaginary cuboid which just completely encloses the object and which extends, in particular, through the center point of the cuboid. In at least one installed state, the outer wall element and the further outer wall element are in particular positioned adjacent to one another with respect to at least one height direction. In particular, leakage of the insulating material from the insulating space can thereby be prevented.

The outer wall element can be positioned in particular in an upper region, in particular in an upper region of the appliance body, preferably in an upper region of the appliance wall of the appliance body, with respect to the at least one height direction. Preferably, the outer wall element is positioned in a lower region, in particular a lower region of the appliance body, preferably a lower region of the appliance wall of the appliance body, with respect to the at least one height direction. In the installed position, the lower region is located in particular close to the base, on which the appliance body is placed in particular. Thus, in particular, easy access is achieved.

It is furthermore proposed that the extension of the outer wall element in the at least one height direction is at most 50%, in particular at most 45%, advantageously at most 40%, particularly advantageously at most 35%, preferably at most 30%, particularly preferably at most 25% of the maximum appliance extension of the appliance body, in particular of the appliance wall of the appliance body, in the at least one height direction. In particular, an easy handling of the outer wall element, in particular during the production process, is thereby achieved.

It is furthermore proposed that the outer wall element comprises at least one injection hole for injecting a spacer material, in particular into the spacer space. In particular, the outer wall element is part of an appliance wall of the appliance body. The appliance wall, in particular a part of the outer container of the appliance body, is preferably arranged on the opposite side of the appliance door in at least one operating state. The outer wall element defines, in particular, at least partially and preferably together with at least one further outer wall element, an insulation space. In at least one operating state, the outer wall element is in particular arranged to contact an insulating material, which is in particular located in the insulating space. Thus, in particular, additional injection openings in at least one other component can be dispensed with. In particular, only a small number of components may be required due to this.

It is furthermore proposed that the outer wall element comprises at least one through-hole, through which at least one of the electronic functional units can be electrically connected. In at least one installed state, in particular, the appliance plug, which connects the connection plug and the appliance electronics unit to one another, passes through the through-hole. Through the through-hole, the appliance plug can in particular leave and/or enter the insulation space. In this way, the electronic functional unit and the appliance plug can be electrically connected in a simple and/or time-saving manner. In particular, a plurality of functions can be included in the outer wall element, so that in particular a high degree of flexibility can be achieved and/or only a small number of components can be required.

It is proposed to make the outer wall element and the electronic functional unit and the structural unit separate elements.

It is also proposed that the outer wall element and/or the structural unit are each implemented in one piece. In this context, "integrally implemented" means, in particular, at least connected by a solid-to-solid bond (e.g., by a welding process, an adhesive bond, an injection molding process, and/or other processes deemed convenient by those skilled in the art). In particular, the outer wall element and/or the structural unit can be produced in one piece. In this context, "one-piece made" means in particular made from a single piece, for example by being manufactured from a single casting and/or by a single-component or multicomponent injection molding process and advantageously from a single blank.

The outer wall element and/or the structural unit may comprise plastic and may in particular consist entirely of plastic, for example be a plastic injection molded part.

The high degree of comfort for the service technician can be provided in particular by a domestic refrigeration appliance comprising at least one domestic refrigeration appliance device.

In particular, a very simple and/or time-saving production can be achieved by a method for installing a domestic refrigeration appliance, comprising: at least one outer wall element; at least two electronic functional units; and at least one structural unit having at least one receiving area for receiving an electronic functional unit, the electronic functional unit and the structural unit at least partially realizing a preassembled unit, which is mounted in at least one mounting area of the outer wall element.

Here, the household refrigeration appliance apparatus is not limited to the above-described applications and implementations. In particular, in order to achieve the functions described herein, the household refrigeration appliance apparatus may comprise a number of corresponding elements, structural members and units differing from the number mentioned herein. Furthermore, with respect to the value ranges mentioned in this disclosure, values within the mentioned limits are to be understood as also being disclosed and used when applicable.

Further advantages emerge from the following description of the figures. Exemplary embodiments of the invention are illustrated in the accompanying drawings. The figures, description and claims contain various features in combination. Those skilled in the art will also deliberately consider these features alone and will find other advantageous combinations.

Drawings

If an object has multiple samples, only one of them is given a reference numeral in the figures and in the description. The description of this sample may be transferred to other samples of the object accordingly.

In the drawings:

figure 1 shows in a schematic perspective view a domestic refrigeration appliance comprising a domestic refrigeration appliance apparatus,

figure 2 shows a part of a domestic refrigeration appliance seen from the rear side in a perspective view,

figure 3 shows a part of a domestic refrigeration appliance seen from the rear side in a perspective view,

fig. 4 shows a part of a domestic refrigeration appliance in a perspective view.

Detailed Description

Fig. 1 shows a domestic refrigeration appliance 58 comprising a domestic refrigeration appliance apparatus 10 in a schematic perspective view. In the present embodiment, the household refrigeration appliance 58 is implemented as a refrigerator. The domestic refrigeration appliance 58 may alternatively be embodied in particular as a wine cooler and/or a cupboard and/or a freezer and/or a refrigerator and/or a combination of refrigeration and freezing.

In fig. 1, the household refrigeration appliance apparatus 10 is shown in an installed position. The household refrigeration appliance apparatus 10 is mounted on a base 60. The base 60 defines a substantially horizontal plane.

The household refrigeration appliance apparatus 10 includes an appliance body 62. The appliance body 62 defines in part an appliance housing. The appliance body 62 is mounted on the base 60 in a substantially upright manner.

The appliance body 62 partially defines a storage space (not shown). The appliance body 62 includes an inner bladder (not shown) and an outer bladder. The inner bladder and the outer bladder are connected to each other in an installed state. In the installed state, the inner and outer liners together define and/or enclose an isolation space (not shown). The insulation space is mostly filled with insulation material in the installed state.

The appliance body 62 includes appliance walls 64, 66, 70. The appliance walls 64, 66, 70 define a storage space. The appliance body 62 includes two side appliance walls 64 that are preferably positioned opposite one another. The appliance body 62 includes a rear appliance wall 66. The appliance body 62 includes a bottom appliance wall (not shown). The appliance body 62 includes a top appliance wall 70, which is preferably positioned relative to a bottom appliance wall.

The appliance body 62 includes the first appliance sidewall element 24. The first appliance sidewall member 24 defines one of the side appliance walls 64. The appliance body 62 includes the second appliance sidewall element 26. The second appliance sidewall member 26 defines one of the side appliance walls 64. In the installed state, the first appliance sidewall element 24 and the second appliance sidewall element 26 are positioned opposite each other.

The household refrigeration appliance apparatus 10 includes an appliance door 72. An appliance door 72 is connected to the appliance body 62. In the installed state, the appliance door 72 is rotatably connected to the appliance body 62. In the operating state, the appliance door 72 and the appliance body 62 at least substantially and preferably completely define a storage space.

The household refrigeration appliance apparatus 10 comprises an outer wall element 12 (see fig. 2-4). The outer wall element 12 is part of one of the appliance walls 66. In this embodiment, the outer wall element 12 is part of the rear implement wall 66.

The household refrigeration appliance apparatus 10 comprises a further outer wall element 46 (see fig. 2). The further outer wall element 46 is part of one of the appliance walls 66. In this embodiment, the further outer wall element 46 is part of the rear appliance wall 66. In the installed position, the further outer wall element 46 is positioned above the outer wall element 12 with respect to the height direction 36. In the present exemplary embodiment, the outer wall element 12 is positioned in particular in the lower region 48 of the appliance body 62 with respect to the height direction 36.

In the installed state, the outer wall element 12 and the further outer wall element 46 overlap partially in a direction perpendicular to the main extension plane of the rear appliance wall 66 (see fig. 2 and 3). The outer wall element 12 comprises a receiving area 44 for receiving a portion of a further outer wall element 46. In this embodiment, the extension 50 of the outer wall element 12 along the height direction 36 is about 20% of the maximum appliance extension 52 in the height direction 36.

The extension 74 of the outer wall element 12 in the width direction 38 is approximately 100% of the maximum appliance extension 76 in the width direction 38. The outer wall element 12 is a cross member for connecting the first appliance sidewall element 24 and the second appliance sidewall element 26. In the installed state, the outer wall part 12 connects the first appliance sidewall element 24 and the second appliance sidewall element 26 to each other. In the installed state, the outer wall element 12 defines a distance between the first appliance sidewall element 24 and the second appliance sidewall element 26 relative to the width direction 38.

The household refrigeration appliance apparatus 10 comprises a plurality of electronic functional units 14. In the present embodiment, the household refrigeration appliance apparatus 10 includes four electronic functional units 14. Alternatively and/or additionally, the domestic refrigeration appliance apparatus 10 may in particular comprise a different number of electronic functional units 14. For example, the household refrigeration appliance apparatus 10 may in particular comprise a smaller number of electronic functional units 14, for example two, in particular three electronic functional units 14. Alternatively, the domestic refrigeration appliance apparatus 10 may in particular comprise a greater number of electronic functional units 14, for example 5, in particular 6, preferably a plurality of electronic functional units 14.

The household refrigeration appliance apparatus 10 includes a structural unit 16 (see fig. 2-4). The structural unit 16 has a plurality of receiving areas 18 for receiving the electronic functional units 14. In the present exemplary embodiment, the structural unit 16 has four receiving areas 18 for receiving the electronic functional units 14. The number of receiving areas 18 of the structural units 16 and the number of electronic functional units 14 are identical.

In the method for mounting the household refrigeration appliance apparatus 10, the electronic functional unit 14 is mounted to the structural unit 16. The electronic functional unit 14 and the structural unit 16 realize a preassembled unit 20, which preassembled unit 20 is to be mounted in a mounting region 22 of the outer wall element 12. In particular subsequently, the preassembled unit 20 is mounted in a mounting region 22 of the outer wall element 12. In the installed state, the preassembled unit 20 is installed in the installation region 22 of the outer wall element 12.

The household refrigeration appliance apparatus 10 comprises a plurality of connection plugs 28 for electrically connecting one of the electronic functional units 14 to an appliance plug 30. In this embodiment, the household refrigeration appliance apparatus 10 includes four connection plugs 28 for electrically connecting one of the electronic function units 14 to an appliance plug 30. Alternatively and/or additionally, the domestic refrigeration appliance apparatus 10 may in particular comprise a different number of connection plugs 28. For example, the household refrigeration appliance apparatus 10 may in particular comprise a smaller number of connection plugs 28, for example two, in particular three connection plugs 28. Alternatively, the domestic refrigeration appliance device 10 may in particular comprise a greater number of connection plugs 28, for example five, in particular six, preferably a plurality of connection plugs 28. Only one of the connection plugs 28 will be described hereinafter.

In the mounted state, the appliance plug 30 electrically connects the connection plug 28 and the appliance electronic unit 78 (see fig. 2). The household refrigeration appliance apparatus 10 includes an appliance electronics unit 78. In the installed state, the appliance electronics unit 78 is positioned within the isolation space.

The connection plug 28 is part of a preassembled unit. In the method for mounting the household refrigeration appliance apparatus 10, the connection plug 28 is mounted to the structural unit 16. In the preassembled state, the connection plug 28 is mounted to the structural unit 16. The electronic functional unit 14 and the connection plug 28 and the structural unit 16 realize a preassembled unit 20 to be mounted in the mounting region 22 of the outer wall element 12.

In the installed state, the preassembled unit 20 and the outer wall element 12 are connected to one another by means of a connection, so that they can be connected and/or disconnected without the use of tools. The preassembled unit 20 and the outer wall element 12 are locked in the installed state. The structural unit 16 and the outer wall element 12 lock in the installed state.

In the installed state, the structural unit 16 extends over approximately 90% of the extension dimension 32 of the outer wall element 12 relative to the height direction 36. In the installed state, the structural unit 16 extends over approximately 90% of the extension 34 of the outer wall element 12 relative to the width direction 38.

The outer wall element 12 includes a plurality of electronic functional unit receiving areas 42 (see fig. 2-4) for receiving the electronic functional units 14. In this embodiment, the outer wall element 12 comprises four electronic functional unit receiving areas 42 for receiving the electronic functional units 14. Alternatively and/or additionally, the outer wall element 12 may in particular comprise a different number of electronic functional unit receiving areas 42. For example, the outer wall element 12 may comprise, in particular, a smaller number of electronic functional unit receiving areas 42, for example two, in particular three, connection plugs 28. Alternatively, the outer wall element 12 may in particular comprise a greater number of electronic functional unit receiving areas 42, for example five, in particular six, preferably a plurality of electronic functional unit receiving areas 42. Hereinafter, only one of the electronic function unit receiving areas 42 will be described.

The electronic functional unit receiving area 42 is positioned in the mounting area 22 of the outer wall element 12. The shape of the electronic functional unit receiving area 42 of the outer wall element 12 and the shape of the receiving area 18 of the structural unit 16 are adapted to each other such that in the installed state the receiving area 18 of the structural unit 16 is mostly arranged in the electronic functional unit receiving area 42 of the outer wall element 12 (see fig. 2 to 4).

To inject the insulation material into the insulation space, in the present embodiment, the outer wall element 12 comprises two injection holes 54. Only one of the injection holes 54 will be described hereinafter. In the installed position, the injection hole 54 is positioned on the side of the outer wall element 12 facing the base 60. The injection hole 54 has a circular shape when viewed in the height direction 36.

In the present embodiment, the outer wall element 12 comprises two through-holes 56, through which through-holes 56 the electronic functional unit 14 can be electrically connected to the appliance electronic unit 78 via the appliance plug 30. Only one of the through holes 56 will be described hereinafter. In the installed position, the through-hole 56 is located on the side of the outer wall element 12 facing away from the base 60.

The outer wall element 12 comprises at least one further through-hole 80, through which further through-hole 80 the electronic functional unit 14 is electrically connectable, in particular electrically connected, to an electronic component arranged in at least one mechanical chamber 82 of the domestic refrigeration appliance apparatus 10. In the present embodiment, the outer wall element 12 comprises two further through holes 80, through which two further through holes 80 the electronic functional unit 14 can be electrically connected. Only one of the through holes 80 will be described hereinafter. In the installed position, the through-hole 56 is located on the side of the outer wall element 12 facing away from the base 60.

The outer wall element 12 comprises at least one further receiving area 84 (see fig. 4) for receiving at least one solenoid valve (not shown). In the present embodiment, the outer wall element 12 comprises two further receiving areas 84 for receiving solenoid valves. Only one of the further receiving areas 84 will be described hereinafter. In the installed position, the further receiving area 84 is located on the side of the outer wall element 12 facing the base 60.

The preassembled unit 20 is installed in the installation region 22 of the outer wall element 12 after foaming the insulation space. When the insulation space is foamed, the appliance plug is positioned within the electronic functional unit receiving area 42. After foaming the insulation space, the preassembled unit 20 is mounted in the mounting region 22 of the outer wall element 12.

List of reference numerals

10. Household refrigeration appliance device

12. Outer wall element

14. Electronic functional unit

16. Structural unit

18. Receiving area

20. Pre-assembled unit

22. Mounting area

24. First appliance sidewall element

26. Second appliance sidewall element

28. Connecting plug

30. Appliance plug

32. Extension scale

34. Extension scale

36. Height direction

38. In the width direction

42. Electronic functional unit receiving area

44. Accommodation region

46. Additional outer wall element

48. Lower region

50. Extension scale

52. Maximum appliance extension

54. Injection hole

56. Through hole

58. Household refrigerating appliance

60. Substrate

62. Appliance body

64. Appliance wall

66. Appliance wall

70. Appliance wall

72. Appliance door

74. Extension scale

76. Maximum appliance extension

78. Appliance electronic unit

80. Additional through holes

82. Mechanical room

84. Additional receiving areas

Claims (15)

1. A household refrigeration appliance apparatus comprising: isolation space; at least one appliance electronics unit (78); at least one appliance plug (30); at least one outer wall element (12); at least two electronic functional units (14); at least one connection plug (28) for electrically connecting at least one of the electronic functional units (14) to at least one appliance plug (30); and at least one structural unit (16) having at least one receiving area (18) for receiving an electronic functional unit (14), the connection plug (28) and the structural unit (16) realizing a preassembled unit (20), the preassembled unit (20) being to be mounted in at least one mounting area (22) of the outer wall element (12), the preassembled unit (20) being configured to be mounted in the at least one mounting area (22) of the outer wall element (12) after foaming an insulation space of the domestic refrigeration appliance apparatus; and in at least one installed state, the appliance electronics unit (78) is positioned at least largely within the isolation space, the appliance plug (30) electrically connecting the connection plug (28) and the appliance electronics unit (78).

2. Household refrigeration appliance apparatus according to claim 1, wherein the outer wall element (12) is a cross-piece for connecting at least one first appliance side wall element (24) and at least one second appliance side wall element (26).

3. Household refrigeration appliance device according to claim 1 or 2, wherein the connection plug (28) is mounted to the structural unit (16) in at least one preassembled state.

4. Household refrigeration appliance device according to claim 1 or 2, wherein the outer wall element (12) and the structural unit (16) are locked in at least one installed state.

5. Household refrigeration appliance device according to claim 1 or 2, wherein the structural unit (16) extends over at least 50% of the first extension dimension (32) of the outer wall element (12) in at least one height direction (36).

6. Household refrigeration appliance device according to claim 1 or 2, wherein the structural unit (16) extends over at least 50% of the extension dimension (34) of the outer wall element (12) in at least one width direction (38).

7. Household refrigeration appliance device according to claim 1 or 2, wherein the outer wall element (12) comprises at least one electronic functional unit receiving area (42) for receiving the electronic functional unit (14).

8. Household refrigeration appliance apparatus according to claim 7, wherein the shape of the electronic functional unit receiving area (42) of the outer wall element (12) and the shape of the receiving area (18) of the structural unit (16) are adapted to each other such that in at least one installed state the receiving area (18) of the structural unit (16) is at least mostly arranged in the electronic functional unit receiving area (42) of the outer wall element (12).

9. Household refrigeration appliance device according to claim 1 or 2, wherein the outer wall element (12) comprises at least one receiving area (44) for receiving at least a portion of at least one further outer wall element (46).

10. Household refrigeration appliance device according to claim 1 or 2, wherein the outer wall element (12) is positioned in the lower region (48) with respect to the at least one height direction (36).

11. Household refrigeration appliance device according to claim 1 or 2, wherein the second extension (50) of the outer wall element (12) along the at least one height direction (36) is at most 50% of the maximum appliance extension (52) in the at least one height direction (36).

12. Household refrigeration appliance device according to claim 1 or 2, wherein the outer wall element (12) comprises at least one injection hole (54) for injecting a barrier material.

13. Household refrigeration appliance device according to claim 1 or 2, wherein the outer wall element (12) comprises at least one through hole (56), through which at least one of the electronic functional units (14) can be electrically connected.

14. A household refrigeration appliance comprising at least one household refrigeration appliance apparatus (10) as claimed in any one of the preceding claims.

15. A method for installing a household refrigeration appliance apparatus (10) as claimed in any one of claims 1 to 13, the household refrigeration appliance apparatus (10) comprising: isolation space; at least one appliance electronics unit (78); at least one appliance plug (30); at least one outer wall element (12); at least two electronic functional units (14); at least one connection plug (28) for electrically connecting at least one of the electronic functional units (14) to at least one appliance plug (30); and at least one structural unit (16) having at least one receiving area (18) for receiving the electronic functional unit (14), the connection plug (28) and the structural unit (16) realizing a preassembled unit (20), the preassembled unit (20) being mounted in at least one mounting area (22) of the outer wall element (12), the preassembled unit (20) being mounted in the at least one mounting area (22) of the outer wall element (12) after foaming an insulation space of the domestic refrigeration appliance device, the appliance electronic unit (78) being positioned at least largely within the insulation space, and the appliance plug (30) electrically connecting the connection plug (28) and the appliance electronic unit (78).

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