US20180142938A1

US20180142938A1 - Home Appliance Device

Info

Publication number: US20180142938A1
Application number: US15/359,688
Authority: US
Inventors: Mehmet Ciyanoglu; Oemer Faruk Gueven; Cumali Oezguer Karadeniz; Erhan Kaya; Erdem Suemer; Tanzer Yildizgoecer
Original assignee: BSH Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2016-11-23
Filing date: 2016-11-23
Publication date: 2018-05-24
Also published as: EP3327378A1

Abstract

For the purpose of improving an efficiency a home appliance device, in particular a home chiller appliance device, is proposed. The device includes a housing delimiting an insulation space; a heating unit arranged inside the insulation space; and a heat transfer element arranged inside the insulation space, the heat transfer element contacting at least partly the heating unit and at least partly the housing for transferring heat from the heating unit to the housing.

Description

BACKGROUND OF THE INVENTION

The invention relates to a home appliance device, in particular a home chiller appliance device.
WO 2007/062909 discloses a home appliance device which comprises a housing delimiting an insulation space, a heating unit arranged inside the insulation space and a supporting element which supports the housing and is arranged inside the insulation space.

SUMMARY OF THE INVENTION

An objective of the invention is, in particular, to provide a home appliance device with improved characteristics regarding efficiency. This objective is achieved, according to the invention, as claimed, while further implementations and further developments of the invention may be gathered from the dependent claims.
A home appliance device, in particular a home chiller appliance device, is proposed comprising: a housing delimiting an insulation space; a heating unit arranged inside the insulation space; and a heat transfer element which is arranged inside the insulation space and contacts at least partly the heating unit and at least partly the housing for transferring heat from the heating unit to the housing.
By means of the invention in particular an efficiency of the home appliance device can be improved. Typically by means of the heat transfer element heat from the heating unit can be used to prevent further components of the home appliance device from icing up and/or condensing. As a result, in particular energy efficiency can be improved, as heat can be directed to specific locations at the housing, without affecting an insulation effect.
In this context, “configured” is in particular to mean specifically programmed, designed and/or equipped. By an object being configured for a certain function is in particular to be understood that the object implements and/or fulfills said certain function in at least one application state and/or operating state. A “home appliance device” is in particular to be understood as a portion, preferably a subassembly group, of a home appliance. The home appliance is, in this context, in particular provided for storing and preferably tempering victuals such as beverages, in particular alcoholic beverages such as wine, meat, fish, vegetables, fruits, milk and/or dairy products in at least one operating state, advantageously for the purpose of enhancing a quality and/or a storage life of the stored victuals. For example, the home appliance is embodied as a home chiller appliance, which is in at least one operating state configured for cooling victuals. The home chiller appliance could in particular be embodied as a climate cabinet, an ice-box, a wine-cooler, a freezer and/or a refrigerator-freezer combination. The home chiller appliance may be embodied as a refrigerator. However, the home appliance could also be embodied as a home appliance for warming and in particular for cooking victuals, e.g. an oven, a cooker and/or a microwave.
The housing comprises in particular an inner liner and an outer liner. The inner liner delimits in particular a storage space of the home appliance device. The storage space is in particular a space inside the home appliance device, which is provided for storing victuals. The outer liner delimits the home appliance device to an environment. The inner liner and/or the outer liner are/is at least partly or at least mostly or entirely made of metal, in particular sheet metal. Alternatively or additionally the inner liner and/or the outer liner may be at least partly or at least mostly or entirely made of plastic, in particular a thermoplastic. The term “at least mostly” with reference to an object is in particular to mean by more than 50% or by more than 65% or by more than 80% or by more than 95% of an object, in particular a surface area and/or a volume and/or a mass of the object.
Further the housing comprises a door frame on which, in a closed state of the home appliance door, a home appliance door of the home appliance device may rest in a flat position. In particular, the door frame may preferably be directly connected to the inner liner and/or the outer liner. For example the door frame is at least partly, or at least mostly or entirely made of plastic, e.g. a thermoplastic. Alternatively or additionally the inner liner and/or the outer liner may be at least partly, or at least mostly or entirely made of plastic, e.g. a thermoplastic.
The housing comprises in particular a side element. The side element is in particular configured for reducing a heat transfer between the inner liner and the outer liner. The side element connects the door frame to the outer liner. The side element is in particular at least partly or at least mostly or entirely made of plastic, e.g. thermoplastic. For example the side element is manufactured by means of extrusion, in particular plastic extrusion.
In this context, the term “connected” is in particular to mean connected in a form-fit and/or force-fit manner. The term “fixed in a force-fit and/or form-fit manner” is in particular to mean preferably fixed releasably, wherein a holding force between two structural components is preferably transferred via a geometric engagement of the structural components with each other and/or preferably via a friction force acting between the structural components. Alternatively or additionally a connection may be provided by substance-to-substance bond, preferably an adhesive and/or cohesive connection.
In particular, the inner liner, the side element, the door frame and/or the outer liner together define the insulation space. The insulation space is in particular configured for reducing a heat transfer from an environment of the home appliance device to the storage space of the home appliance device. The insulation space is in particular filled with an insulation means, in particular foam, preferably polymer foam, in particular polyurethane foam.
In this context, a “heating unit” is in particular to be understood as a unit which is configured for producing heat and which is preferably specifically used to prevent further components of the home appliance device, in particular of the home appliance door and or the housing, in particular the side element, from condensing and/or icing up. In particular, the heating unit may be embodied as a heat pipe and may extend for example at least substantially parallel to a main extension direction of the housing. For example the heating unit extends alongside the door frame. In this context, “at least substantially parallel” is in particular to be understood as an orientation of a direction with respect to a reference direction, in particular in a plane, wherein the direction and the reference direction include an angle of 0°, the orientation in particular having a deviation of less than 15°, advantageously of less than 10° and particularly advantageously of less than 2°.
In this context, a “heat transfer element” is in particular to be understood as an element which is configured for transferring heat and which comprises in particular a thermal conductivity of at least 10 W/(m·K) or of at least 50 W/(m·K) or of at last 100 W/(m·K) or of at least 200 W/(m·K). The heat transfer element is in particular implemented separately from the housing and/or the heating unit. The heat transfer element is in particular at least partly or at least mostly or entirely made of metal, e.g. iron, steel, aluminum and/or copper. In this context, a “contact” is in particular to be understood as a thermal contact of at least two objects, wherein preferably the thermal contact has a thermal contact conductivity of at least 1 W/(m·K) or of at least 10 W/(m·K) or of at least 50 W/(m·K) or of at least 100 W/(m·K).
Further, the heat transfer element, in particular a cross section of the heat transfer element, can have at least one or at least two or a plurality of undulation/s. The undulation may for example comprise at least one or at least two or a plurality of, in particular different amplitudes and/or wavelengths. The undulation may at least section-wise at least be substantially meander-shaped. In this context, an undulation being “at least substantially meander-shaped” is in particular to be understood as an undulation which comprises at least two consecutive turns and/or twists. As a result of this, in particular a stability of the heat transfer element can be improved in an efficient manner without the use of additional components.
For the purpose of further improving stability, it is proposed that the undulation may have an amplitude extending at least substantially perpendicularly to a main extension of the heat transfer element. A “main extension” of an object is, in particular, to be understood as a largest extension of an imaginary rectangular cuboid which only just entirely encloses the object and which preferably extends through a geometric center of the object. In this context, “at least substantially perpendicular” is in particular to mean an orientation of a direction with respect to a reference direction, in particular in a plane, wherein the direction and the reference direction include an angle of 90°, the orientation having in particular a deviation of less than 15°, advantageously of less than 10° and particularly advantageously of less than 2°.
In a further implementation of the invention it is proposed that the undulation may have an amplitude extending at least substantially perpendicularly to a main direction of a heat transfer. In this context, a “main direction of a heat transfer” is in particular to be understood as a direction of a shortest connecting route of two objects which are connected by means of the heat transfer element, the connecting route preferably comprising the greatest thermal conductivity and/or thermal contact conductivity. As a result of this, in particular homogeneity of the heat transfer can be increased.
It is also proposed that the heat transfer element may have at least one or at least two contact areas, in particular thermal contact areas, with the housing, in particular with the side element. As a result of this, in particular a heat transfer can be further improved.
The heat transfer element can have a substantially constant cross-section along its main extension. In this context “substantially” is in particular to be understood as not considering a different cross-section at one end region or both end regions of the heat transfer element, whereas an end region can be specified as 10% of the length of the heat transfer element measured from the respective end. Also “substantially” in this context shall not exclude recesses or openings or through-holes within the heat transfer element. In particular, the undulation or undulations shall be considered as forming the cross-section in this context.
For the purpose of improving heat transfer, it is proposed that the housing, in particular the side element, may comprise at least one or at least two or a plurality of protrusion/s, which protrude/s into the insulation space and provide/s at least one or at least two or a plurality of contact area/s, in particular the before-mentioned contact areas, for contacting the heat transfer element. The protrusion may have in particular an at least substantially square shaped cross-section.
In addition, it is proposed that the home appliance device may further comprise a supporting element which supports the housing and which may at least partly or at least mostly or entirely embodied by the heat transfer element. The supporting element comprises in particular a main extension which is at least substantially parallel to a main extension of the housing. As a result of this, in particular a stability of the home appliance device can be improved in a simple manner.
Furthermore, it is proposed that the home appliance device may further comprise a fixing unit for fixing the heat transfer element to the housing, in particular to the side element. In particular, the fixing unit may fix the heat transfer element to the housing, in particular to the side element, at least in a form-fit manner. Alternatively or additionally the fixing unit may fix the heat transfer element to the housing, in particular to the side element, in a force-fit manner. The fixing unit may in particular be at least partly implemented integrally with the housing, in particular the side element, and/or the heat transfer element. “Implemented integrally” is in particular to mean, in this context, connected at least by substance-to-substance bond, e.g. by a welding process, an adhesive bonding, an injection-molding process and/or by another process that is deemed expedient by a person having ordinary skill in the art. “Implemented integrally” could in particular mean made of one piece. “Made of one piece” is, in particular, to mean, in this context, manufactured from one single piece, e.g. by production from one single cast and/or by manufacturing in a one-component or multi-component injection-molding process, for example from a single blank. The fixing unit comprises in particular a first fixing element and a corresponding second fixing element, which cooperate for fixing the heat transfer element to the housing, for example to the side element. The heat transfer element can comprise a second section which at least partly embodies the first fixing element. The housing, in particular the side element, can comprise a first section which at least partly embodies the second fixing element. The second section can at least be substantially u-shaped. The side element may at least partly encompass the heat transfer element. For example, the first section of the side element may encompass the second section of the heat transfer element. As a result, in particular the heat transfer element can be fixed to the housing in a simple way.
Herein the home appliance device is not to be limited to the application and implementation described above. In particular, for the purpose of fulfilling a functionality herein described, the home appliance device may comprise a number of respective elements, structural components and units that differs from the number mentioned herein. Furthermore, regarding the value ranges mentioned in this disclosure, values within the limits mentioned are to be understood to be also disclosed and to be used as applicable.
Further details may become apparent from the following description of the drawing. In the drawing exemplary embodiments of the invention are shown. The drawing, the description and the claims contain a plurality of features in combination. The person having ordinary skill in the art will purposefully also consider the features separately and will find further expedient combinations.
If there is more than one specimen of a certain object, only one of these is given a reference numeral in the figures and in the description. The description of this specimen may be correspondingly transferred to the other specimens of the object.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

FIG. 1 a home appliance comprising a home appliance device, in a schematic perspective view,

FIG. 2 a portion of the home appliance device, comprising a housing, in a cross-sectional top view, and

FIG. 3 a portion of the home appliance device, comprising the housing, in a cross-sectional perspective view, and

FIG. 4. a portion of an alternative home appliance device, comprising a housing, in a cross-sectional perspective view.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows a home appliance 34 a comprising a home appliance device, in a schematic perspective view. The home appliance 34 a is embodied as a refrigerator. The home appliance 34 a could further be embodied as any other home appliance deemed advantageous by someone skilled in the art, e.g. a climate cabinet, an ice-box, a freezer, a wine-cooler and/or a refrigerator-freezer combination.
The home appliance device comprises a housing 10 a. The housing 10 a comprises two side walls 44 a. For the sake of clarity, in the following only one side wall 44 a is given a reference numeral and is described in detail. The following description may be transferred to the further side wall 44 a accordingly. The two side walls 44 a are arranged opposite one another. The housing 10 a further comprises a bottom wall 46 a, a top wall 48 a and a rear wall 50 a. The home appliance device comprises a home appliance door 36 a.
The housing 10 a comprises an inner liner 40 a. The inner liner 40 a delimits a storage space 38 a of the home appliance device. The storage space 38 a is a space inside the home appliance device and is provided for storing victuals. The inner liner 40 a is at least partly, preferably at least mostly and advantageously entirely made of metal, in particular sheet metal. Alternatively or additionally the inner liner and/or the outer liner may be at least partly, preferably at least mostly and advantageously entirely made of plastic, in particular a thermoplastic.
The housing 10 a comprises an outer liner 42 a. The outer liner 42 a delimits the home appliance device to an environment. The outer liner 42 a is at least partly, preferably at least mostly and advantageously entirely made of metal, in particular sheet metal. Alternatively or additionally the inner liner and/or the outer liner may be at least partly, preferably at least mostly and advantageously entirely made of plastic, in particular a thermoplastic.
Further the housing 10 a comprises a door frame 52 a. In a closed state of the home appliance door 36 a, the home appliance door 36 a rests in a flat position on the door frame 52 a. Advantageously the door frame is at least partly, preferably at least mostly and advantageously entirely made of plastic, in particular a thermoplastic. Alternatively or additionally the inner liner and/or the outer liner may be at least partly, preferably at least mostly and advantageously entirely made of plastic, in particular a thermoplastic. The door frame 52 a is directly connected to the inner liner 40 a. The door frame 52 a is indirectly connected to the outer liner 42 a.
The housing 10 a comprises in particular a side element 32 a. The side element 32 a is in particular configured for reducing a heat transfer between the inner liner 40 a and the outer liner 42 a. The side element 32 a connects the door frame 52 a to the outer liner 42 a. The side element 32 a is at least partly, preferably at least mostly and advantageously entirely made of plastic, in particular thermoplastic. The side element 32 a is manufactured by means of extrusion, in particular plastic extrusion.
FIGS. 2 and 3 show different cross-sectional views of the side wall 44 a of the home appliance device. The housing 10 a, in particular the outer liner 42 a, the inner liner 40 a, the side element 32 a and/or the door frame 52 a defines an insulation space 12 a. The insulation space 12 a is configured for reducing a heat transfer from an environment of the home appliance device to the storage space 38 a of the home appliance device. The insulation space 12 a is filled with an insulation means, in particular foam, preferably polymer foam, in particular polyurethane foam.
The home appliance device comprises a heating unit 14 a. The heating unit 14 a is arranged inside the insulation space 12 a. The heating unit 14 a contacts the housing 10 a, in particular the door frame 52 a. The heating unit 14 a is configured for producing heat and is specifically used to prevent further components of the home appliance device, in particular of the home appliance door 36 a and/or the housing 10 a, in particular the side element 32 a, from condensing and/or icing up. The heating unit 14 a is embodied as a heat pipe. The heating unit 14 a extends at least substantially parallel to a main extension direction of the housing 10 a. Further, the heating unit 14 a extends alongside the door frame 52 a.
The home appliance device comprises a heat transfer element 16 a. The heat transfer element 16 a is arranged inside the insulation space 12 a. The heat transfer element 16 a is configured for transferring heat. The heat transfer element 16 a has a thermal conductivity of at least 10 W/(m·K). The heat transfer element 16 a is implemented separately from the housing 10 a. The heat transfer element 16 a is implemented separately from the heating unit 14 a. The heat transfer element 16 a is at least partly made of steel.
The heat transfer element 16 a contacts at least partly the heating unit 14 a. The heat transfer element 16 a contacts at least partly the housing 10 a, in particular the side element 32 a. The heat transfer element 16 a transfers heat from the heating unit 14 a to the housing 10 a, in particular the side element 32 a. For contacting the heat transfer element 16 a, the side element 32 a comprises a plurality of protrusions 26 a. The protrusions 26 a protrude towards the insulation space 12 a. The protrusions 26 a each provide a contact area 22 a for contacting the heat transfer element 16 a. In the present case the heat transfer element 16 a has at least two contact areas 22 a with the side element 32 a.
The home appliance device comprises a fixing unit 33 a for fixing the heat transfer element 16 a to the housing 10 a, in particular the side element 32 a. The fixing unit 33 a fixes the heat transfer element 16 a to the housing 10 a, in particular to the side element 32 a, at least in a form-fit manner. Alternatively or additionally the fixing unit fixes the heat transfer element to the housing in a force-fit manner. The fixing unit 33 a is in particular at least partly implemented integrally with the heat transfer element 16 a and at least partly implemented integrally with the housing 10 a, in particular the side element 32 a. The fixing unit 33 a comprises a first fixing element 54 a. The fixing unit 33 a comprises a second fixing element 56 a. The second fixing element 56 a contacts the first fixing element 54 a. The first fixing element 54 a and the second fixing element 56 a cooperate for fixing the heat transfer element 16 a to the housing 10 a, in particular to the side element 32 a.
The side element 32 a embodies the second fixing element 54 a. The side element 32 a comprises a first section which embodies the second fixing element 54 a. The second fixing element 54 a least partly encompassing the heat transfer element 16 a. The heat transfer 16 a embodies the first fixing element 56 a. The heat transfer element 16 a comprises a second section which at least partly embodies the first fixing element 56 a. In particular the second section is at least substantially u-shaped. The second section of the heat transfer element 16 a encompasses the first section of the side element 32 a.
The heat transfer element 16 a has at least one undulation 18 a. The undulation 18 a is at least section-wise at least substantially meander-shaped. The undulation 18 a has an amplitude 20 a. The amplitude 20 a extends at least substantially perpendicularly to a main extension of the heat transfer element 16 a. The amplitude 20 a extends at least substantially perpendicularly to a main direction of a heat transfer.
The home appliance device further comprises a supporting element 30 a. The supporting element 30 a supports the housing 10 a. The supporting element 30 a is embodied by the heat transfer element 16 a.
FIG. 4 shows a further exemplary embodiment of the invention. The following description is substantially limited to the differences between the exemplary embodiments, wherein regarding structural elements, features and functions that remain the same, the description of the other exemplary embodiment, in particular the exemplary embodiment of FIGS. 1 to 3, may be referred to. For distinguishing the exemplary embodiments, the letter a of the reference numerals in the exemplary embodiment of FIGS. 1 to 3 has been substituted by the letter b in the reference numerals of the exemplary embodiment of FIG. 4. Regarding structural elements having the same denomination, in particular regarding structural elements having the same reference numerals, principally the drawing and/or the description of the other exemplary embodiment, in particular of the exemplary embodiment of FIGS. 1 to 3, may be referred to.
FIG. 4 shows a portion of a further home appliance device comprising a heat transfer element 16 b. The exemplary embodiment of FIG. 4 differs from the preceding exemplary embodiment at least substantially by the implementation of the heat transfer element 16 b. The heat transfer element 16 b contacts a heating unit 14 b of the home appliance device from a lateral side. The heat transfer element 16 b further contacts a door frame 52 b. The heat transfer element 16 b contacts the door frame 52 b in a vicinity of a contact between the heat transfer element 16 b and the heating unit 14 b. In a vicinity of the door frame 52 b the shape of the heat transfer element 16 b is equivalent to a shape of the door frame 52 b.
Further the heat transfer element 16 b comprises at least one embossed element 58 b. The embossed element 58 b is embodied by an undulation 18 b of the heat transfer element 16 b. The undulation 18 b may in particular be produced by a stamping and/or bending process. The heat transfer element 16 b comprises at least one recess 60 b in form of an opening or through-hole. In the present case the heat transfer element 16 b comprises four recesses 60 b. These recesses 60 b allow insulation material to enter a slit-like cavity formed between the side element 32 b and the heat transfer element 16 b. Alternatively or additionally the heat transfer element 16 b may comprise a different number of recesses 60 b and/or embossed elements 58 b, as considered advantageously to someone skilled in the art.
The following is a summary list of reference numerals and the corresponding structure used in the above description of the invention:

- 10 a, 10 b Housing
- 12 Insulation space
- 14 a, 14 b Heating unit
- 16 a, 16 b Heat transfer element
- 18 a, 18 b Undulation
- 20 a, 20 b Amplitude
- 22 a, 22 b Contact area
- 26 a, 26 b Protrusion
- 30 a, 30 b Supporting element
- 32 a, 32 b Side element
- 33 Fixing unit
- 34 a Home appliance
- 36 Home appliance door
- 38 Storage space
- 40 a, 40 b Inner liner
- 42 a, 42 b Outer liner
- 44 a, 44 b Side wall
- 46 Bottom wall
- 48 Top wall
- 50 Rear wall
- 52 a, 52 b Door frame
- 54 a, 54 b Second fixing element
- 56 a, 56 b First fixing element
- 58 b Embossed element
- 60 b Recess

Claims

1. A home appliance device, comprising:

a housing delimiting an insulation space;

a heating unit arranged inside the insulation space and insulating foam filling the insulation space; and

a heat transfer element arranged inside the insulation space, the heat transfer element contacting the heating unit and the housing for transferring heat from the heating unit to the housing, the heat transfer element having at least one undulation.

2. (canceled)

3. The home appliance device according to claim 1, the undulation being at least section-wise meander-shaped.

4. The home appliance device according to claim 3, the undulation having an amplitude extending perpendicularly to a main extension of the heat transfer element.

5. The home appliance device according to claim 1, the undulation having an amplitude extending perpendicularly to a main direction of a heat transfer.

6. The home appliance device according to claim 1, the heat transfer element having at least one contact area with the housing.

7. The home appliance device according to claim 1, the housing comprising at least one protrusion, which protrudes into the insulation space, and providing a contact area for contacting the heat transfer element.

8. The home appliance device according to claim 1, the housing being at least partly made of plastic.

9. The home appliance device according to claim 1, further comprising a supporting element which supports the housing and which is at least partly embodied by the heat transfer element.

10. The home appliance device according to claim 1, further comprising a fixing unit for fixing the heat transfer element to the housing.

11. The home appliance device according to claim 1, the housing comprising a side element which at least partly encompasses the heat transfer element.

12. A home appliance, in particular a home chiller appliance, comprising at least one home appliance device according to claim 1.

13. The home appliance device according to claim 1, configured as a home chiller appliance device.