CN104729196A - Chamber air duct component used for air-cooling refrigerator and air-cooling refrigerator - Google Patents

Abstract

The invention relates to a chamber air duct component used for an air-cooling refrigerator and the air-cooling refrigerator, and particularly provides the chamber air duct component used for the air-cooling refrigerator. The chamber air duct component comprises a wall shell, at least one sub-air-duct and a position fixing structure. A containing space is defined in the radial inner side of the lower portion of the wall shell and used for containing a part to be installed. The sub-air-ducts are located on the lower portion of the containing space. Each sub-air-duct is communicated with a specific storage chamber of the refrigerator so as to supply air flow to the storage chamber. The position fixing structure is arranged on the lower portion of the containing space and is arranged to allow the part to be installed to be installed in the containing space from bottom to top and keep the part to be installed. The invention further provides the air-cooling refrigerator which comprises a refrigerator body with at least one storage chamber defined inside, chamber air duct components and at least one air door assembly correspondingly arranged in the containing space of at least one of the chamber air duct components so that at least one sub-air-duct of the chamber air duct components can be opened and/or blocked.

Description

For air channel, room component and wind cooling refrigerator between wind cooling refrigerator

Technical field

The present invention relates to refrigerator technology, particularly relate to a kind of for air channel, room component and wind cooling refrigerator between wind cooling refrigerator.

Background technology

At present, wind cooling refrigerator due to its exclusive feature ever more popular.The refrigeration modes of wind cooling refrigerator be use fan the cold air that evaporimeter produces to be blown into refrigerator storing between room to reach the effect of cooling refrigeration.Usually, between storing, between the inner bag of room and refrigerator back cover, be filled with foamed material form foaming box body, be provided with in foaming box body and guide air channel, room component between air current flow.Between air channel, room component be communicated with the air inlet that room rear wall between storing is offered, make air-flow can by between air channel, room component blow to refrigerator between storing room.

Existing wind cooling refrigerator generally includes room between multiple storing, such as room, freezing compartment etc. between refrigerator room, alternating temperature.Between multiple storing, room shares a blower fan, therefore, needs the air quantity controlling to be delivered to room between each storing by air door respectively, thus controls the temperature of room between each storing respectively.In existing wind cooling refrigerator, be usually arranged on by air door on the air duct cover board of room air inlet between contiguous storing, air duct cover board to be fixed by screws between storing on the wall of inner container of room.Or, air door is arranged in the middle of air channel, a room component, and with ornamental cover plate, an air outlet for air channel, room component is covered.In above two kinds of structures, the assembling of air door is all very difficult, and the structure of air channel, a room component is very complicated, causes refrigerator cost higher, affects refrigerator appearance.

Summary of the invention

An object of first aspect present invention is intended at least one defect overcoming air channel, existing room component, there is provided a kind of for air channel, room component between wind cooling refrigerator, it can allow air door (or other parts to be installed) to be installed to its inside from the bottom up, structure is simple, cost is lower, is convenient to assemble parts to be installed.

A further object of first aspect present invention to improve the fastness and stability of assembling parts to be installed.

An object of second aspect present invention to provide a kind of wind cooling refrigerator.

According to a first aspect of the invention, the invention provides a kind of for air channel, room component between wind cooling refrigerator, comprising:

Wall shell, its underpart radially inner side is limited with spatial accommodation, for holding parts to be installed;

At least one sub-air channel, be positioned at the top of described spatial accommodation, each described sub-air channel is communicated with room between described refrigerator specific storing, with room supply air flow between described storing; With

Retention system, is arranged on the bottom of described spatial accommodation, and is configured to allow described parts to be installed to be installed to from the bottom up in described spatial accommodation, and keeps described parts to be installed.

Alternatively, described retention system comprises:

Supporting boss, it protrudes extension, to support described parts to be installed by the first inwall of described wall shell towards described spatial accommodation; With

Resilient clamp member, is arranged on second inwall relative with described first inwall of described wall shell, and is configured to be biased described parts to be installed along towards the direction of described first inwall, and coordinates to be clamped with described first inwall and remain in described spatial accommodation.

Alternatively, described resilient clamp member has cantilever section and support section; Wherein

The first end of described cantilever section is fixed on described second inwall, and the second end is tilted to downward-extension; The first end of described support section is connected with the second end of described cantilever section, and the second end extends towards described supporting boss.

Alternatively, the support section of described supporting boss and described resilient clamp member is arranged at interval in the horizontal, to form the installing port passed through for described parts to be installed between, thus described parts to be installed are installed in described spatial accommodation successively by the opening of component lower end, air channel, room between described and described installing port.

Alternatively, described cantilever section is configured to bend extension and curved surface precipitous gradually by its first end to its second end.

Alternatively, described supporting boss comprises:

Support, is configured to by the plane of the first inwall of described wall shell to described spatial accommodation horizontal-extending, to support described parts to be installed; With

Guide portion, is configured to the inclined-plane extended to one end sloped-end that described support extends in described spatial accommodation by described first inwall in the below of described support, to guide the installation of described parts to be installed.

Alternatively, described wall shell comprises:

Respectively on front side of described refrigerator and the first half shell of rear side and later half shell; And

Described supporting boss is arranged on the inwall of described later half shell lower end, and described resilient clamp member is arranged on the inwall of described first half shell lower end.

Alternatively, described at least one sub-air channel comprises two sub-air channels, and described two sub-air channels are by being respectively formed at separating along the axially extended front partition wall of described wall shell and rear partition wall on the inwall of described first half shell and described later half shell.

Alternatively, the inner space of described wall shell radially inner side is configured to by the upper end convergent in extremely described at least one the sub-air channel of described spatial accommodation, with the flow section making the cross-sectional area of described spatial accommodation be greater than described at least one sub-air channel.

According to a second aspect of the invention, the present invention also provides a kind of wind cooling refrigerator, comprising:

Casing, its inside is limited with room between at least one storing;

Air channel, room component between described at least more than one is arbitrary, between the specific storing between described in each between air channel, room component with at least one storing described in room, room is communicated with; With

At least one damper assemblies, correspondence is arranged in the spatial accommodation of at least one air channel, room component described, with conducting and/or block described between at least one sub-air channel of air channel, room component.

Of the present invention in air channel, room component between wind cooling refrigerator and wind cooling refrigerator, the bottom only by the spatial accommodation limited at wall shell radially inner side arranges retention system, and parts to be installed can be made to be arranged in spatial accommodation from the bottom up, and keeps fixing.Between the structure of air channel, room component simple, cost is lower, and is convenient to assemble parts to be installed.

Further, of the present invention for wind cooling refrigerator between in air channel, room component and wind cooling refrigerator, by on the inwall that two at wall shell are relative, supporting boss and resilient clamp member are set respectively, to utilize resilient clamp member to remain in spatial accommodation towards the bias force of supporting boss by member grip to be installed, improve the fastness and stability of assembling parts to be installed.

Further, of the present invention for wind cooling refrigerator between in air channel, room component and wind cooling refrigerator, because assembling parts to be installed is in a spatial accommodation of air channel, room member lower, does not take the volume of room between wind cooling refrigerator storing, improve the aesthetic of refrigerator entirety.

According to hereafter by reference to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present invention more.

Accompanying drawing explanation

Hereinafter describe specific embodiments more of the present invention with reference to the accompanying drawings by way of example, and not by way of limitation in detail.Reference numeral identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not be drawn in proportion.In accompanying drawing:

Fig. 1 be according to an embodiment of the invention between the schematic diagram of air channel, room component;

Fig. 2 be according to an embodiment of the invention between the schematic structure exploded view of air channel, room component;

Fig. 3 be according to an embodiment of the invention between the schematic cross sectional views of air channel, room component;

Fig. 4 is the schematic expanded view at part A place in Fig. 3;

Fig. 5 is the schematic diagram of wind cooling refrigerator according to an embodiment of the invention;

Fig. 6 is the schematic structure exploded view of wind cooling refrigerator according to an embodiment of the invention;

Fig. 7 is the schematic cross sectional views of wind cooling refrigerator according to an embodiment of the invention;

Fig. 8 is the schematic state diagram before parts to be installed are according to an embodiment of the invention mounted to air channel, a room component;

Fig. 9 is the schematic state diagram after parts to be installed are according to an embodiment of the invention mounted to air channel, a room component.

Detailed description of the invention

Fig. 1 be according to an embodiment of the invention between the schematic diagram of air channel, room component, Fig. 2 according to an embodiment of the invention between the schematic structure exploded view of air channel, room component, Fig. 3 be according to an embodiment of the invention between the schematic cross sectional views of air channel, room component.Composition graphs 1, Fig. 2 and Fig. 3, of the present inventionly comprise wall shell 10, at least one sub-air channel 20 and retention system 30 for air channel, room component 100 between wind cooling refrigerator.The bottom radially inner side of wall shell 10 is limited with spatial accommodation 11, for holding parts to be installed, and such as damper assemblies 300 (with reference to figure 7 to Fig. 9).At least one sub-air channel 20 is positioned at the top of spatial accommodation 11, and every room between sub-air channel with wind cooling refrigerator specific storing is communicated with, with air-flow such as the supply of room between this specific storing cold wind, moisture etc.Such as, can be provided with room between a storing in wind cooling refrigerator, at least one air channel 20 can comprise a sub-air channel, and between its with this storing, room is communicated with.Room between multiple storing such as room can also be set in wind cooling refrigerator between refrigerator room, freezing compartment, alternating temperature, at least one sub-air channel 20 can comprise a sub-air channel, between a storing between its with multiple storing in room, room is communicated with, or is communicated with room between at least two storings simultaneously; At least one sub-air channel 20 also can comprise two or more sub-air channels, and every room between sub-air channel with at least one storing is communicated with.Retention system 30 is arranged on the bottom of spatial accommodation 11, and is configured to allow parts to be installed to be installed to from the bottom up in spatial accommodation 11, and keeps this parts to be installed.

Between in the embodiment of the present invention, air channel, room component 100 arranges retention system 30 only by the bottom of the spatial accommodation 11 limited at wall shell 10 radially inner side, and parts to be installed can be made to be arranged on from the bottom up in spatial accommodation 11, and keeps fixing.Between the structure of air channel, room component 100 simple, cost is lower, and is convenient to assemble parts to be installed.

Fig. 4 is the schematic expanded view at part A place in Fig. 3.Composition graphs 3 and Fig. 4, in some embodiments of the invention, retention system 30 can comprise supporting boss 31 and resilient clamp member 32.Supporting boss 31 protrudes extension towards spatial accommodation 11, to support parts to be installed by the first inwall 12 of wall shell 10.Resilient clamp member 32 is arranged on second inwall 13 relative with the first inwall 12 of wall shell 10, and is configured to be biased parts to be installed along towards the direction of the first inwall 12, and coordinates to be clamped with the first inwall 12 and remain in spatial accommodation 11.That is, in embodiments of the present invention, supporting boss 31 and resilient clamp member 32 are separately positioned on the relative inwall of two of wall shell 10, and the two is extended by the radially inner side of the relative inwall of 10 two, wall shell to wall shell 10 respectively, namely extends in spatial accommodation 11.Resilient clamp member 32 can be out of shape towards the radial outside of wall shell 10 under external force, and produces towards the bias force of wall shell 10 radially inner side, and this bias force is the elastic deformation restoring force of resilient clamp member 32.

Further, as shown in Figure 4, resilient clamp member 32 has cantilever section 321 and support section 322, and wherein the first end of cantilever section 321 is fixed on the second inwall 13, and the second end is tilted to downward-extension; The first end of support section 322 is connected with the second end of cantilever section 321, and the second end of support section 322 extends towards supporting boss 31.Particularly, resilient clamp member 32 can roughly in falling " 7 " shape, and its support section 322 can be the flat board extended in the horizontal direction.Further, in embodiments of the present invention, cantilever section 321 can be configured to bend extension and curved surface precipitous gradually by its first end to its second end, with make its second end or near its second end sub-segments close to or trend towards vertically extending, thus the bias force being bordering on horizontal direction can be applied to the parts to be installed be arranged in spatial accommodation 11, and then improve fastness and the stability of parts to be installed installation.In embodiments of the present invention, at least the cantilever section 321 of resilient clamp member 32 can be made up of rubber, plastics elastomeric material, when act on the external force on resilient clamp member 32 disappear or after weakening, its cantilever section 321 can recover deformation.

In some embodiments of the invention, the support section 322 of supporting boss 31 and resilient clamp member 32 is arranged at interval in the horizontal, to form the installing port 33 passed through for parts to be installed between, thus make parts to be installed pass through successively between the opening 40 of component 100 lower end, air channel, room and installing port 33 be installed in spatial accommodation 11.That is, be separated with certain distance between supporting boss 31 and support section 322, the size of this distance is the size of installing port 33 in wall shell 10 radial direction.At resilient clamp member 32 not by during external force or after parts to be installed are installed to spatial accommodation 11, this distance is configured to be less than parts to be installed width in the horizontal.

In some embodiments of the invention, supporting boss 31 can comprise support 311 and guide portion 312.Support 311 is configured to by the plane of the first inwall 12 of wall shell 10 to spatial accommodation 11 horizontal-extending, to support parts to be installed.Guide portion 312 is configured to the inclined-plane extended to one end sloped-end that support 311 extends in spatial accommodation 11 by the first inwall 12 in the below of support, to guide the installation of parts to be installed.That is, support 311 can be the plane of a horizontal-extending, and guide portion 312 can be the inclined-plane extended at support 311 inclined downward.In embodiments of the present invention, supporting boss 31 is roughly just right with the support section 322 of resilient clamp member 32.In other words, the support 311 of supporting boss 31 is roughly concordant with the support section 322 of resilient clamp member 32.

In some embodiments of the invention, as shown in Figure 2, wall shell 10 can comprise respectively on front side of wind cooling refrigerator and the first half shell 14 of rear side and later half shell 15.Supporting boss 31 is arranged on the inwall of later half shell 15 lower end, and resilient clamp member 32 is arranged on the inwall of first half shell 14 lower end.First half shell 14 is provided with buckle 141, and later half shell 15 is provided with the draw-in groove 151 coordinated with buckle 141, thus first half shell 14 and later half shell 15 are fitted together by the clamping of buckle 141 with draw-in groove 151.In embodiments of the present invention, the first inwall 12 of wall shell 10 is the inwall of later half shell 15 lower end, and the second inwall 13 of wall shell 10 is the inwall of first half shell 14 lower end.It will be understood by those skilled in the art that in other embodiment of the present invention, the tubular elements that wall shell 10 can also be formed in one.

Further, in some embodiments of the invention, at least one sub-air channel 20 can comprise two sub-air channels, and two sub-air channels are by being respectively formed at separating along the axially extended front partition wall 142 of wall shell 10 and rear partition wall (not shown) on the inwall of first half shell 14 and later half shell 15.That is, first half shell 14 is provided with front partition wall 142, later half shell 15 is provided with rear partition wall, after first half shell 14 and later half shell 15 are assembled, front partition wall 142 and rear partition wall abutting contact, to be divided into the first sub-air channel 21 and the second sub-air channel 22 by the inner space be positioned at above spatial accommodation 11 in wall shell 10.Further, front partition wall 142 and rear partition wall can be separately positioned on the centre of first half shell 14 and later half shell 15 inwall, to make the first sub-air channel 21 and the second flow section sizableness of sub-air channel 22 in same level.The upper end in every sub-air channel at least one sub-air channel 20 is equipped with the duct outlet being communicated to room between wind cooling refrigerator specific storing respectively, with room supply air flow between this specific storing.

In some embodiments of the invention, the inner space of wall shell 10 radially inner side is configured to by the upper end convergent of spatial accommodation 11 at least one sub-air channel, with the flow section making the cross-sectional area of spatial accommodation 11 be greater than at least one sub-air channel 20.That is, the inner space that wall shell 10 radially inner side limits comprises at least one sub-air channel 20 and spatial accommodation 11, and the flow section at least one sub-air channel 20 is reduced to its upper end gradually by its lower end.In other words, the cross-sectional area of spatial accommodation 11 is greater than the flow section sum at least one any place, sub-air channel 20.The flow section in sub-air channel is the area of sub-air channel along the cross section of wall shell 10 radial direction.

Fig. 5 is the schematic diagram of wind cooling refrigerator according to an embodiment of the invention, and Fig. 6 is the schematic structure exploded view of wind cooling refrigerator according to an embodiment of the invention, and Fig. 7 is the schematic cross sectional views of wind cooling refrigerator according to an embodiment of the invention.Clearly illustrate the internal structure of wind cooling refrigerator 1 for simplicity, in Fig. 6, eliminate the structures such as the back cover of wind cooling refrigerator.Composition graphs 5, Fig. 6 and Fig. 7, wind cooling refrigerator 1 can comprise inside and be limited with the casing 200 of room between at least one storing, at least one air channel, room component 100 and at least one damper assemblies 300.Air channel, each room component 100 is communicated with room between the specific storing in room between at least one storing.At least one damper assemblies 300 correspondence is arranged in the spatial accommodation 11 of at least one air channel, room component 100, with at least one sub-air channel 20 of air channel, room component 100 between conducting and/or blocking-up.

In some embodiments of the invention, casing 200 inside to be limited with between refrigerator room 201, alternating temperature room between 203 3 storings in room 202 and freezing compartment.Between air channel, room component 100 be arranged on the foam chamber be positioned between refrigerator room 201 and alternating temperature on rear side of room 202.

In some embodiments of the invention, wind cooling refrigerator 1 also comprises refrigeration compartment 204, be provided with in it for carry out heat exchange through air wherein and change the evaporimeter 400 of temperature and the blower fan 500 for driving air to flow in the inner loop of wind cooling refrigerator 1 to make air.Refrigeration compartment 204 is arranged on a below for air channel, room component 100, and is communicated with an opening 40 for component 100 lower end, air channel, room, with to the air-flow such as transporting cold wind, moisture in air channel, a room component 100.The rear of refrigerator room 201 is provided with refrigeration air intake passage 201a, and its upper end is communicated with the refrigeration air inlet being opened in inner bag rear wall top, refrigerator room 201, and its lower end is communicated with one of them the sub-air channel at least one sub-air channel 20.Between alternating temperature, the inner bag rear wall top of room 202 is provided with alternating temperature air inlet, and it is communicated with one of them the sub-air channel at least one sub-air channel 20.Particularly, in embodiments of the present invention, between air channel, room component 100 comprise two sub-air channels, the duct outlet being wherein positioned at the first upper end, sub-air channel 21 is communicated with the lower ending opening of refrigeration air intake passage 201a, to provide air-flow by the first sub-air channel 21 to refrigerator room 201; The duct outlet being positioned at the second upper end, sub-air channel 22 is communicated with the alternating temperature air inlet on the inner bag rear wall top of room between alternating temperature 202, to provide air-flow by the second sub-air channel 22 to room 202 between alternating temperature.It will be understood by those skilled in the art that in other embodiment of the present invention, every sub-air channel can also be communicated with room between two or more storing, to provide air-flow to indoor between two or more storing simultaneously.

In some embodiments of the invention, damper assemblies 300, for being arranged on the combined type air door in spatial accommodation 11, comprises two damper unit, to control conducting and/or the blocking-up in the first sub-air channel 21 and the second sub-air channel 22 simultaneously.That is, two damper unit of combined type air door control conducting and/or the blocking-up in the first sub-air channel 21 and the second sub-air channel 22 respectively.In other embodiment of the present invention, damper assemblies 300 can also comprise at least one independently air door, and each independently air door is arranged in the spatial accommodation below every sub-air channel, to control separately conducting and/or the blocking-up in corresponding sub-air channel.

Fig. 8 parts to be installed are according to an embodiment of the invention mounted to the schematic state diagram before air channel, a room component.In embodiments of the present invention, parts to be installed are damper assemblies 300.When damper assemblies 300 is installed, first, user can manual toggle or pressing resilient clamp member 32, make it towards near direction of the second inwall 13, elastic deformation (as shown in arrow B in Fig. 8) occur, thus the size of the installing port 33 between support section 322 and supporting boss 31 is increased to be enough to make damper assemblies 300 by wherein.In this operating process, also can directly place damper assemblies 300, make it be out of shape by damper assemblies 300 extruding resilient clamp member 32 itself.Then, by installing port 33, damper assemblies 300 is mounted in spatial accommodation 11.In this operating process, can, along direction at right angle setting damper assemblies 300 straight up, damper assemblies 300 also can be made to keep installing from the bottom up obliquely (as shown in arrow C in Fig. 8).

Fig. 9 is the schematic state diagram after parts to be installed are according to an embodiment of the invention mounted to air channel, a room component.After damper assemblies 300 is mounted to a spatial accommodation 11 of air channel, room component 100, cancel the external force (manual toggle power or pressing force) be applied on resilient clamp member 32, or the extruding force of damper assemblies 300 pairs of resilient clamp member 32 weakens.Therefore, resilient clamp member 32 recovers its elastic deformation to a certain extent, or there is its elastically-deformable trend of recovery, to produce towards the bias force (as shown in arrow D in Fig. 9) in the first inwall 12 direction, thus damper assemblies 300 is clamped and remains in spatial accommodation 11, aspect simple to operate.

It will be understood by those skilled in the art that, " wind cooling refrigerator " alleged by the present invention be not defined as in general sense there is refrigerating chamber and refrigerating chamber and for the refrigerator of storage food, can also be that other have the fridge-freezer of supply air duct, such as refrigerator-freezer, wine cabinet, cold-storage jar etc.

So far, those skilled in the art will recognize that, although multiple exemplary embodiment of the present invention is illustrate and described herein detailed, but, without departing from the spirit and scope of the present invention, still can directly determine or derive other modification many or amendment of meeting the principle of the invention according to content disclosed by the invention.Therefore, scope of the present invention should be understood and regard as and cover all these other modification or amendments.

Claims (10)

1., for air channel, a room component between wind cooling refrigerator, comprising:

Wall shell, its underpart radially inner side is limited with spatial accommodation, for holding parts to be installed;

At least one sub-air channel, be positioned at the top of described spatial accommodation, each described sub-air channel is communicated with room between described refrigerator specific storing, with room supply air flow between described storing; With

Retention system, is arranged on the bottom of described spatial accommodation, and is configured to allow described parts to be installed to be installed to from the bottom up in described spatial accommodation, and keeps described parts to be installed.

2. air channel, according to claim 1 room component, wherein, described retention system comprises:

Supporting boss, it protrudes extension, to support described parts to be installed by the first inwall of described wall shell towards described spatial accommodation; With

Resilient clamp member, is arranged on second inwall relative with described first inwall of described wall shell, and is configured to be biased described parts to be installed along towards the direction of described first inwall, and coordinates to be clamped with described first inwall and remain in described spatial accommodation.

3. air channel, according to claim 2 room component, wherein,

Described resilient clamp member has cantilever section and support section; Wherein

The first end of described cantilever section is fixed on described second inwall, and the second end is tilted to downward-extension; The first end of described support section is connected with the second end of described cantilever section, and the second end extends towards described supporting boss.

4. air channel, according to claim 3 room component, wherein,

The support section of described supporting boss and described resilient clamp member is arranged at interval in the horizontal, to form the installing port passed through for described parts to be installed between, thus described parts to be installed are installed in described spatial accommodation successively by the opening of component lower end, air channel, room between described and described installing port.

5. air channel, according to claim 3 room component, wherein,

Described cantilever section is configured to bend extension and curved surface precipitous gradually by its first end to its second end.

6. air channel, according to claim 2 room component, wherein, described supporting boss comprises:

Support, is configured to by the plane of the first inwall of described wall shell to described spatial accommodation horizontal-extending, to support described parts to be installed; With

Guide portion, is configured to the inclined-plane extended to one end sloped-end that described support extends in described spatial accommodation by described first inwall in the below of described support, to guide the installation of described parts to be installed.

7. air channel, according to claim 2 room component, wherein, described wall shell comprises:

Respectively on front side of described refrigerator and the first half shell of rear side and later half shell; And

Described supporting boss is arranged on the inwall of described later half shell lower end, and described resilient clamp member is arranged on the inwall of described first half shell lower end.

8. air channel, according to claim 7 room component, wherein,

Described at least one sub-air channel comprises two sub-air channels, and described two sub-air channels are by being respectively formed at separating along the axially extended front partition wall of described wall shell and rear partition wall on the inwall of described first half shell and described later half shell.

9. air channel, according to claim 1 room component, wherein,

The inner space of described wall shell radially inner side is configured to by the upper end convergent in extremely described at least one the sub-air channel of described spatial accommodation, with the flow section making the cross-sectional area of described spatial accommodation be greater than described at least one sub-air channel.

10. a wind cooling refrigerator, comprising:

Casing, its inside is limited with room between at least one storing;

Air channel, room component between described at least one claim 1-9 is arbitrary, between the specific storing between described in each between air channel, room component with at least one storing described in room, room is communicated with; With

At least one damper assemblies, correspondence is arranged in the spatial accommodation of at least one air channel, room component described, with conducting and/or block described between at least one sub-air channel of air channel, room component.