CN101400957B - A cool air supply structure of storage receptacle for refrigerator - Google Patents

Abstract

A cool air supply structure of a storage receptacle for a refrigerator, which includes a main body having a storage space provided therein and a door for selectively opening or closing the storage space, the cool air supply structure, comprising: one or more receptacle casings detachably installed into the storage space and having a mounting space provided therein so that a storage receptacle is moved into or out of the mounting space; and a channel provided in each of the receptacle casings so that cool air flows in the channel, wherein food received in the storage receptacle is indirectly cooled by the cool air flowing in the channel. According to the present invention, the food received in the storage receptacle of a refrigerator can be kept fresh with a simple configuration.

Description

The cool air supply structure of storage receptacle for refrigerator

Technical field

The present invention relates to a kind of refrigerator, more specifically, relate to a kind of cool air supply structure of storage receptacle for refrigerator, described Supply Structure is used for to storage receptacle for refrigerator supply cold air.

Background technology

Fig. 7 is the front view that the inside of conventional refrigerator is shown.

As shown in Figure 7, the main body 1 of refrigerator comprises refrigerating chamber 3 and the refrigerating chamber (not shown) of separating up and down mutually.Refrigerating chamber 3 and refrigerating chamber respectively by refrigerating-chamber door 5 and 5 ' and refrigerating chamber door 7 be selectively opened or close.Refrigerating-chamber door 5 and 5 ' be mounted to respectively can pivot around their end, make they before draw end and move along forward and backward directions.In addition, refrigerating chamber door 7 is configured to optionally open or close refrigerating chamber in the drawer mode.

Simultaneously, cold-air duct 9 is arranged at the central authorities of the rear surface of refrigerating chamber 3.Cold-air duct 9 is used for supply cold air in refrigerating chamber 3.For this reason, such as among Fig. 7 amplification illustrate, on cold-air duct 9, be provided with a plurality of cold air supply orifice 9A.

In addition, though not shown, be provided with a plurality of cold air return air holes in the bottom of the rear surface of refrigerating chamber 3.The cold air that the cold air return air hole is used for being circulated throughout at refrigerating chamber 3 is sent to the return air duct (not shown).

Simultaneously, a plurality of shelves 11 are set and are used to hold food in refrigerating chamber 3.Shelf 11 is mounted to and can be placed into or be removed refrigerating chamber 3 with removably.Shelf 11 is used for the inside of refrigerated chamber 3 vertically.In addition, food is positioned on the upper surface of shelf 11.

In addition, vegetable container lid 13 is arranged at the bottom of refrigerating chamber 3.Vegetable container lid 13 be in the shelf 11 that is installed in the refrigerating chamber 3 basically by under shelf.Refrigerating chamber 3 is separated into the upper and lower by vegetable container lid 13.At this moment, for simplicity, will be called vegetable compartment corresponding to the bottom that vegetable container builds the refrigerating chamber 3 of the part below 13.

A plurality of vegetable containers 15 are installed in vegetable compartment.Vegetable container 15 is mounted in the drawer mode and is placed into or is removed vegetable compartment.Vegetable container 15 has the spatial accommodation that is arranged at wherein, makes it possible to hold such as food such as vegetables or fruit in spatial accommodation.The spatial accommodation of vegetable container 15 has open upper portion usually, and this open upper portion covers by the bottom surface of another vegetable container that directly is arranged at its top or by the bottom surface of vegetable container lid 13.

But above-mentioned conventional refrigerator has following problem.

As described above, the spatial accommodation of vegetable container 15 covers by the bottom surface of another vegetable container that directly is arranged at its top or by the bottom surface of vegetable container lid 13, but this can not guarantee to seal fully.Therefore, the cold air of circulation is transferred into the spatial accommodation of vegetable container 15 in refrigerating chamber 3, and contacts with the food formation such as vegetables or fruit that is contained in wherein.Therefore, the smell that is stored in other food in the refrigerating chamber 3 can be penetrated in the food that is held in the spatial accommodation of vegetable container 13, thereby food might owe cooling or supercooling, perhaps the water evaporates of food and food is become dry.

Summary of the invention

[technical problem]

The present invention is designed for and solves the aforementioned problems in the prior.The object of the present invention is to provide a kind of cool air supply structure of storage receptacle for refrigerator, the food that described cool air supply structure is configured for being contained in the described tank keeps freshlyer.

Another object of the present invention is to provide a kind of cool air supply structure of storage receptacle for refrigerator, and described cool air supply structure is configured to cool off the food that is contained in the described tank indirectly by simple structure.

[technical scheme]

According to the one aspect of the present invention that is used to realize described purpose, a kind of cool air supply structure of storage receptacle for refrigerator is provided, described refrigerator is included in the main body that wherein is provided with storage space and is used for selectively opened or closes the door of described storage space, described cool air supply structure comprises: one or more container casings, described container casing is installed in the described storage space with removably, and in described container casing, be provided with installing space, so that tank is moved into or shift out described installing space; And passage, described passage is arranged in each described container casing, so that cold air flows in described passage, wherein, the food that is contained in the described tank is cooled off indirectly by the described cold air that flows in described passage.

According to a further aspect in the invention, a kind of cool air supply structure of storage receptacle for refrigerator is provided, described refrigerator is included in the main body that wherein is provided with storage space and is used for selectively opened or closes the door of described storage space, described cool air supply structure comprises: one or more container casings, described container casing is installed in the described storage space with removably, and is provided with installing space in described container casing; Passage, described passage are arranged in each described container casing, so that cold air flows in described passage; And tank, described tank is installed in the described installing space, to be moved into or to shift out described installing space, is limited with spatial accommodation with foodstuff storing in the described tank, wherein, the food that is contained in the described tank is cooled off indirectly by the cold air that flows in described passage.

Among refrigerating chamber and refrigerating chamber that described storage space comprises, described container casing is installed in the described refrigerating chamber with removably.

Described cold air in the described refrigerating chamber is transferred into described passage via the cold-air duct that is installed on refrigerating chamber rear surface central authorities, and described one or more container casing is installed in the described refrigerating chamber.

Described container casing is provided with in pairs with placed side by side in described refrigerating chamber.

The described cold air that flows in described passage is introduced into via the cool air inlet that is arranged on the described container casing rear surface, so that be connected with in the cold air supply orifice of described cold-air duct any one; And the cold air that is contained in the food in the described spatial accommodation with indirect cooling that flows in described passage is discharged to described refrigerating chamber via the cold-air vent that is arranged on the described container casing rear surface.

According to a further aspect in the invention, a kind of cool air supply structure of storage receptacle for refrigerator is provided, described refrigerator is included in the main body that wherein is provided with storage space and is used for selectively opened or closes the door of described storage space, described storage space comprises refrigerating chamber and refrigerating chamber, described cool air supply structure comprises: cold-air duct, described cold-air duct is arranged at the central authorities of the rear surface of described refrigerating chamber, be sent to described refrigerating chamber with cold air with described refrigerating chamber, described cold-air duct comprises one or more cold air supply orifices, and described cold air supply orifice is with acting on the inlet that the cold air of described refrigerating chamber is sent to described refrigerating chamber; One or more container casings, described container casing mounted in pairs in described refrigerating chamber, all are provided with installing space in each described container casing with placed side by side; Passage, described passage are arranged in each described container casing, make via the cold air of any one transmission in the described cold air supply orifice mobile in described passage; And tank, described tank is installed in the described installing space to be moved into or to shift out described installing space, be limited with spatial accommodation with foodstuff storing in the described tank, wherein, the food that is contained in the described tank is cooled off indirectly by the cold air that flows in described passage.

Be respectively arranged with ribs on the top of described container casing both sides, the described ribs slidably track on two side surfaces that are arranged at described storage space is supported.

Described track comprises: housings support track, described housings support track are arranged at removably basal surface central authorities with the shelf that is moved into or shifts out described storage space are installed; Be arranged at the housings support track on two side surfaces of described storage space; And Auxiliary Track, described Auxiliary Track is arranged at housings support track with described storage space and is on two side ends of basal surface of described shelf of sustained height, to extend the housings support track of described storage space.

Cool air supply structure also comprises fixture, and described fixture is used for fixing described container casing, to prevent making described container casing disengaging because of carelessness under the state in described container casing is installed on described storage space.

Described fixture comprises the fixed projection spare that is arranged in described housings support track and the described container casing on any one, and is arranged in described housings support track and the described container casing permanent opening on another; And described fixed projection spare is inserted in the described permanent opening, thus, fixes described container casing under described container casing is housed inside state in the described storage space.

Described cool air supply structure also comprises the cold air guide member that is used for being guided in the mobile cold air of described passage.

The guiding of described cold air guide member is introduced into cold air in the described passage and it is flowed in the fore-end of described passage and discharges from described passage.

Described cold air guide member extends to run through cool air inlet and the cold-air vent that is arranged on the described container casing rear surface towards the outside of described passage.

Described container casing comprises: lower house, and described lower house forms the hexahedral shape of front and opened upper end; Upper shell, described upper shell forms the hexahedral shape of lower open, and is fixed in the top of described lower house; And inner panel, described inner panel is fixed in the inside with the corresponding described lower house in bottom of described upper shell, and described passage is limited by the upper surface of described upper shell and the upper surface of two side surfaces and described inner panel.

Described cool air supply structure also comprises the cold air guide member that is used for being guided in the mobile cold air of described passage.

The upper surface of described cold air guide member and described inner panel is integrally formed, and thus, the top of described cold air guide member forms with the inside upper surface of described upper shell and contacts.

The described cold air that described cold air guide member guiding is introduced in the described passage flows also subsequently from described passage discharge it in the fore-end of described passage.

Described cold air guide member extends to run through cool air inlet and the cold-air vent that is arranged on the described container casing rear surface.

In described lower house and the described upper shell any one is provided with at least one connection slot; In described lower house and the described upper shell another is provided with at least one attachment tabs part; And under described upper shell was positioned over state on the described lower house top, described attachment tabs part was inserted in the described connection slot, and thus, described lower house and described upper shell are fixed to one another.

Described connection slot cutting is arranged at the part of at least one the guide projections part on the described lower house top and is configured as unlimited backward; And described attachment tabs part each from the both side ends of described upper shell respectively stretches out.

Top in two inboards of described lower house is respectively arranged with slot, and described slot extends along fore-and-aft direction; And the both side ends of described inner panel is inserted in the described insertion groove, and thus, described lower house and described upper shell are fixed to one another.

Described cool air supply structure also comprises the guiding device that is used to guide the described tank that is moved into or shifts out described installing space.

Described guiding device comprises back-up roller moving part and guide rail, described back-up roller moving part is arranged at the front end of two inboards of described container casing respectively, be arranged at moving of guiding rib on two outer surfaces of described tank with guiding when described tank is moved into or shifts out described installing space, described guide rail is arranged at respectively on two inner surfaces of described container casing and corresponding position, the rear portion of described back-up roller moving part, makes that the described guiding rib by described back-up roller moving part guiding slides on described guide rail.

Described guide rail comprises upper rail and lower guideway, and described upper rail is horizontal-extending on two inner surfaces of described container casing; And described lower guideway horizontal-extending and downwards separate certain intervals on two inner surfaces of described container casing with the basal surface of described upper rail.

Described guide rail also comprises inclined guide portion, and described inclined guide portion draws end before the described upper rail and extends into forward and be inclined upwardly, and guides the slip of described guiding rib when being housed inside in the described installing space at described tank.

Described guide rail also comprises at least one ribs, and described ribs is arranged on the lower surface of the upper surface of described upper rail and described lower guideway, to strengthen described upper rail and lower guideway.

[beneficial effect]

According to the present invention, there is following advantage, promptly can make the food in the tank that is contained in refrigerator keep fresh-keeping by simple structure.

Description of drawings

Fig. 1 is the exploded perspective view that the major part of refrigerator is shown, and described refrigerator is provided with the preferred implementation according to the cool air supply structure of storage receptacle for refrigerator of the present invention;

Fig. 2 is the exploded perspective view that the container casing of the preferred embodiment for the present invention is shown;

Fig. 3 and Fig. 4 are longitdinal cross-section diagrams, show preferred implementation according to the present invention tank is installed on the container casing;

Fig. 5 is the view that diagram preferred implementation according to the present invention is mounted to vegetable container the process of container casing;

Fig. 6 is a plane, and the cold air passage of flowing through is shown in the embodiment of the present invention; And

Fig. 7 is the front view that the inside of conventional refrigerator is shown.

The specific embodiment

Describe the cool air supply structure of storage receptacle for refrigerator according to the preferred embodiment of the present invention in detail hereinafter with reference to accompanying drawing.In this manual, the vegetable container that is used to hold vegetables or fruit in the storage receptacle for refrigerator will be specified.

Fig. 1 is the exploded perspective view that the major part of refrigerator is shown, described refrigerator is provided with the preferred implementation according to the cool air supply structure of storage receptacle for refrigerator of the present invention, Fig. 2 is the exploded perspective view that the container casing of the preferred embodiment for the present invention is shown, and Fig. 3 and Fig. 4 illustrate according to preferred embodiment for the present invention tank to be installed in longitdinal cross-section diagram on the container casing.

As shown in the figure, refrigerator main body 30 has the predetermined storage space that is arranged in it, is used for foodstuff storing.The storage space of refrigerator main body 30 vertically is divided into refrigerating chamber 31 and refrigerating chamber (not shown).

Refrigerating chamber 31 optionally opens or closes by the refrigerating-chamber door (not shown).Refrigerating-chamber door is installed as and can pivots around their end, make they before draw end and move along forward and backward directions.In addition, refrigerating chamber optionally opens or closes by the refrigerating chamber door (not shown).Refrigerating chamber door is configured to optionally open or close refrigerating chamber in the drawer mode.The refrigerating-chamber door of the structure of refrigerating-chamber door and refrigerating chamber door and the prior art shown in Fig. 7 is identical with the structure of refrigerating chamber door.

Cold-air duct 33 is arranged at the central authorities of the rear surface of refrigerating chamber 31.Cold-air duct 33 forms vertical extension.In addition, on cold-air duct 33, be formed with a plurality of cold air supply orifice 33A, be used for the cold air of refrigerating chamber is supplied to refrigerating chamber 31.Cold air supply orifice 33A plays inlet, and the cold air of refrigerating chamber is provided to refrigerating chamber 31 through entering the mouth thus.

In addition, be provided with a plurality of cold air return air hole (not shown) in the bottom of the rear surface of refrigerating chamber 31.The cold air that the cold air return air hole is used for being circulated throughout at refrigerating chamber 31 is sent to the return air duct (not shown).In addition, the cold air that is transferred into return air duct via the cold air return air hole flow to evaporimeter, thereby allows the circulation of cold air.

Simultaneously, a pair of supporting track is arranged in two side surfaces of refrigerating chamber 31 bottom of each.Supporting track is arranged on two side surfaces of refrigerating chamber 31 to extend along fore-and-aft direction.The direction projection that supporting track faces with each other along the part of the inner housing that limits refrigerating chamber 31 inside.

The lid supporting track 35 that is arranged on higher position place in described supporting track is used to guide and below the vegetable container of describing is covered 40 installation and removal.The two end supports that is installed on the vegetable container lid 40 of refrigerating chamber 31 is being covered on the supporting track 35.In addition, the housings support track 37 that is arranged on the lower position place in described supporting track is used to guide below the immigration of the container casing 50 that will describe or shifts out.The two ends that are contained in the container casing 50 in the refrigerating chamber 31 are supported on respectively on the housings support track 37 of refrigerating chamber 31.

Support bushing 39 is arranged on two side surfaces of refrigerating chamber 31 the anterior corresponding position with lid supporting track 37 respectively.Support bushing 39 is used to guide vegetable container lid 40 so that vegetable container lid 40 is supported by lid supporting track 35.In addition, vegetable container cover 40 basal surfaces both side ends before draw end and be supported in support bushing 39.

In addition, vegetable container lid 40 is arranged at the bottom of refrigerating chamber 31.Vegetable container lid 40 is installed on the bottom of refrigerating chamber 31 with the removably level.Be installed on removably that nethermost shelf can be used as vegetable container lid 40 in the shelf in the refrigerating chamber 31.Vegetable container lid 40 is guided by support bushing 39, and is supported by the support bushing 39 and the lid supporting track 35 of refrigerating chamber 31.

Such as in Fig. 1 amplification illustrate, extension 41 is arranged at the basal surface centre of vegetable container lid 40.Extension 41 forms from the basal surface mediad lower process predetermined altitude of vegetable container lid 40 and along fore-and-aft direction and extends.At this moment, extension 41 before draw end and be positioned at the height place identical with the housings support track 37 of refrigerating chamber 31.

Draw end before the extension 41 and be provided with pair of shells supporting track 43.The housings support track 43 of vegetable container lid 40 is used to guide container casing 50 and moves into or shift out.For this reason, the housings support track 43 of vegetable container lid 40 is positioned at and is used for the identical height place of housings support track 37 that vegetable container builds 40 refrigerating chamber 31.In addition, the housings support track 43 of vegetable container lid 40 be arranged at extension 41 before draw end with along its longitudinal extension, and respectively towards the housings support track 37 projection preset widths of refrigerating chamber 31.One end of each container casing 50 is supported on the housings support track 43 of vegetable container lid 40, and the other end of container casing 50 is supported on the housings support track 37 of refrigerating chamber 31.

In addition, supporting projections part 43A is arranged on each housings support track 43 of vegetable container lid 40.The container casing 50 that support prodger 43A is used for being contained in refrigerating chamber 31 is fixed in the pre-position.Supporting projections part 43A from the basal plane front end of the housings support track 43 of vegetable container lid 40 to the upper process predetermined altitude.

In addition, extend rib 45 and be arranged at the front end place that vegetable container covers the both side ends of 40 basal surfaces.Extend rib 45 covers the both side ends of 40 basal surfaces from vegetable container front end extension downwards and extension 41 corresponding height.That is, extend rib 45 before draw end and be positioned at the height place identical with the housings support track 37 of refrigerating chamber 31.

In addition, Auxiliary Track 47 be arranged at each extend rib 45 before draw end.Auxiliary Track 47 is used for roughly extending along fore-and-aft direction the length of the housings support track 37 of refrigerating chamber 31.For this reason, Auxiliary Track 47 be arranged at respectively extend rib 45 before draw end and sentence along its longitudinal extension, and extend preset width along their relative directions in opposite directions.

In addition, supporting projections part 47A is arranged on each Auxiliary Track 47 of vegetable container lid 40.The container casing 50 that supporting projections part 47A is used for being contained in refrigerating chamber 31 is fixed in the pre-position.Supporting projections part 47A draws end to the upper process predetermined altitude before the basal plane of each Auxiliary Track 47 of vegetable container lid 40.

Preferably, vegetable container lid 40, extension 41, housings support track 43, extension rib 45 and Auxiliary Track 47 are all integrally formed basically.Also can prepare extension 41, housings support track 43 respectively, extend rib 45 and Auxiliary Track 47, and they are fixed to the basal surface of vegetable container lid 40.

Simultaneously, the bottom of the refrigerating chambers of being separated by vegetable container lid 40 31 is commonly referred to as vegetable compartment.In addition, a pair of container casing 50 is installed in the vegetable compartment to be moved into or to shift out vegetable compartment.Though it is placed side by side in vegetable compartment that described in the present embodiment a pair of container casing 50 is installed into, and also can be provided with more or less container casing.

Installing space 50S is arranged in each container casing 50.Below the vegetable container of describing 60 is installed among the installing space 50S of container casing 50, to be moved into or to shift out the installing space 50S of vegetable container 60.Container casing 50 is used for cooling indirectly and is contained in the interior food of spatial accommodation 60S.As shown in Figure 2, container casing 50 comprises lower house 51, upper shell 55 and inner panel 57, and wherein, passage 50P is arranged in the container casing 50.

Lower house 51 forms hexahedral shape, and its front and top are opened wide usually, thereby has corresponding to two side surfaces of vegetable container 60 and the surface of basal surface and rear surface.That is basic two side surfaces of container casings 50 and the outward appearance of basal surface and rear surface of limiting of lower house 51.

Simultaneously, contact flange 51A is arranged on two side surfaces and front end of lower house 51.Contact flange 51A transversely and downward direction extend from described two side surfaces and described front end respectively.The front surface of contact flange 51A forms with the rear surface of the connecting flange 61 of vegetable container 60 and contacts.

Ribs 52A is arranged at respectively on the top of lower house 51 both sides.Ribs 52A is that the top by outwardly-bent lower house 51 both sides forms.The marginal portion of upper shell 55 basal surfaces is supported on the upper surface of ribs 52A.In addition, the basal surface of ribs 52A is slidably supported along the housings support track 37 of refrigerating chamber 31, the housings support track 43 and the Auxiliary Track 47 of vegetable container lid 40.

In addition, a plurality of guide projections part 52B are arranged on the upper surface of each ribs 52A.Each guide projections part 52B all extends and be arranged to the separately predetermined distance of each interval on the upper surface of ribs 52A along fore-and-aft direction.Guide projections part 52B is used to guide the top that upper shell 55 is couple to lower house 51.The both side ends of upper shell 55 forms with the apparent surface of guide projections part 52B respectively and contacts.

Connection slot 52C is arranged on each guide projections part 52B.Connection slot 52C forms

Shape, described connection slot 52C cuts into reservation shape by the front end bottom with guide projections part 52B and opens wide forward.Connection slot 52C is used for fixing upper shell 55.

In addition, support openings 52D is formed at the outside of each ribs 52A front end.Support openings 52D opens wide laterally by partly the outside of ribs 52A being cut into

Shape forms.The supporting projections part 43A of the housings support track 43 of vegetable container lid 40 and the supporting projections part 47A of Auxiliary Track 47 insert respectively in the support openings 52D.

Simultaneously, slot 53A is formed at the top of two inboards of lower house 51 respectively.Slot 53A opens wide along relative direction on the top of two inboards of lower house 51.The both side ends of inner panel 57 is inserted in the slot 53A.Each slot 53A basically forms between a pair of insertion rib 53B and 53C, described insertion rib 53B and 53C be arranged to along lower house 51 vertically extend from the top of two inboards of lower house 51 and along the relative direction projection.

In addition, back-up roller moving part 54R is arranged at the central portion office of the front end of 51 two inboards of lower house respectively.When vegetable container 60 was moved into or is moved out of installing space 50S, each back-up roller moving part 54R was used to guide the guiding rib 63 that below will describe.

Guide rail 54A and 54B are arranged on two inner surfaces of lower house 51 the corresponding position, rear portion with back-up roller moving part 54R.When vegetable container 60 was moved into or is moved out of installing space 50S, the guiding rib 63 that is guided by back-up roller moving part 54R slided along described guide rail.

Guide rail 54A and 54B are made up of upper rail 54A and lower guideway 54B.Therefore, guiding rib 63 slides along the gap between upper rail 54A and the lower guideway 54B basically.Upper rail 54A and lower guideway 54B are arranged on two inner surfaces of lower house 51 with horizontal-extending and the separately predetermined distance of each interval vertically.

A plurality of ribs 54C are arranged on the lower surface of the upper surface of upper rail 54A and lower guideway 54B.Ribs 54C tilts to extend with predetermined angle respectively on the lower surface of the upper surface of upper rail 54A and lower guideway 54B up or down, is used to strengthen upper rail 54A and lower guideway 54B.

In addition, the 54D of inclined guide portion be arranged at each upper rail 54A before draw the end place.The guiding rib 63 that the 54D of inclined guide portion is used for the vegetable container 60 that will slide along described guide rail guides in the gap between upper rail 54A and the lower guideway 54B.For this reason, the 54D of inclined guide portion draws end before the upper rail 54A and extends forward so that be inclined upwardly with predetermined slant.

Upper shell 55 is placed on the top of lower house 51, thereby limits the outward appearance of the upper surface of container casing 50.Upper shell 55 forms the flat hexahedral shape of lower open.

The front surface 55A of upper shell 55 extends downward vertically from the upper surface front end of upper shell 55.In addition, the rear surface 55B of upper shell 55 extends downward vertically from the upper surface rear end of upper shell 55.The lower end of front surface 55A and rear surface 55B forms with the front-end and back-end of inner panel 57 respectively and contacts.

In addition, cool air inlet 50I and cold-air vent 50O are arranged on the rear surface of upper shell 55.Cool air inlet 50I is with acting on cold air via an inlet that is sent to passage 50P among the cold air supply orifice 33A.Cold-air vent 50O is expelled to passage 50P outside and promptly drains into outlet in the refrigerating chamber 31 with acting on cold air with the passage 50P that flows through.

Cool air inlet 50I is formed at the end with the rear surface 55B of the corresponding upper shell 55 of cold air supply orifice 33A.That is, be arranged at container casing 50 under the situation in Fig. 1 left side, cool air inlet 50I is formed at the right-hand end of the rear surface 55B of upper shell 55 among the figure.In addition, be arranged at container casing 50 under the situation on Fig. 1 right side, cool air inlet is formed at the left end of the rear surface of upper shell among the figure.

In addition, cold-air vent 50O is arranged at the end side of the rear surface 55B of upper shell, described opposite side corresponding to a side relative with cool air inlet 50I so that make distance maximum from cool air inlet 50I to cold-air vent 50O.That is, be arranged at container casing 50 under the situation in Fig. 1 left side, cold-air vent 50O is formed at the left end of the rear surface 55B of upper shell 55.In addition, be arranged at container casing 50 under the situation on Fig. 1 right side, cold-air vent 50O is formed at the right-hand end of the rear surface of upper shell among the figure.

A plurality of attachment tabs part 55C are arranged at the both side ends of upper shell 55.Attachment tabs part 55C is from the both side ends of the upper shell 55 predetermined length that stretches out.When on the top that upper shell 55 is positioned over lower house 51, attachment tabs part 55C inserts respectively in the connection slot 52C.

Inner panel 57 levels are installed on the top with the inner corresponding lower house 51 of installing space 50S.Inner panel 57 forms rectangular plate shape.In addition, under situation about the both side ends of inner panel 57 all being inserted in the slot 53A, the both side ends of inner panel 57 is slided along slot 53A.

Basically, passage 50P is limited by the upper surface of the upper surface of upper shell 55 and two side surfaces and inner panel 57.In addition, cold air is transferred into passage 50P via cool air inlet 50I, and the cold air that flows in passage 50P is transferred into the inside of refrigerating chamber 31 via cold-air vent 50O.

In addition, cold air guide member 58 is arranged on the upper surface of inner panel 57.Cold air guide member 58 is used to guide the cold air that is transferred into passage 50P inside via cool air inlet 50I, it is flowed in passage 50P, and then be directed to cold-air vent 50O.Cold air guide member 58 is integrally formed with inner panel 57 basically.

Cold air guide member 58 by a pair of component limit comprises the first guidance part 58A, the second guidance part 58B and the 3rd guidance part 58C, substantially opens wide backward thereby form on the upper surface of inner panel 57

Shape.At this moment, extend back in the rear end of inner panel 57 with the rear end of the corresponding first guidance part 58A in the two ends of cold air guide member 58 and the second guidance part 58B, to run through cool air inlet 50I and cold-air vent 50O.

The first guidance part 58A is arranged on the wherein side of inner panel 57 upper surface both sides, to extend along fore-and-aft direction.The rear end of the first guidance part 58A is connected to the interior top with the corresponding lower house 51 of the both side ends of cool air inlet 50I.The second guidance part 58B is arranged on the front end of inner panel 57 upper surfaces to extend to opposite side from a side.In addition, the end of the second guidance part 58B links to each other with the front end of the first guidance part 58A.The 3rd guidance part 58C is arranged on the opposite side with corresponding inner panel 57 upper surfaces of the opposite side of the first guidance part 58A, to extend along fore-and-aft direction.The front end of the 3rd guidance part 58C links to each other with the other end of the second guidance part 58B.In addition, the rear end of the 3rd guidance part 58C links to each other with interior top corresponding to the lower house 51 of cold-air vent 50O both side ends.

Simultaneously, refer again to Fig. 1, vegetable container 60 is mounted to installing space 50S to be moved into or to shift out installing space 50S.Vegetable container 60 forms the hexahedron form of opened upper end.In addition, Yu Ding spatial accommodation 60S is arranged in the vegetable container 60.Food such as vegetables or fruit is contained among the spatial accommodation 60S of vegetable container 60.

In addition, connecting flange 61 is arranged at the leading edge portion of vegetable container 60.When vegetable container 60 was installed on installing space 50S, the rear surface of connecting flange 61 formed contact with contacting flange 51A, thereby prevents that vegetable container 60 is mounted to installing space 50S inside fully.

Guiding rib 63 is arranged at respectively on two exterior side surfaces of vegetable container 60.Guiding rib 63 forms two side surfaces from vegetable container 60 to outer process predetermined length and horizontal-extending.In addition, each guiding rib 63 vertically highly all is set at less than the spacing between upper rail 54A and the lower guideway 54B.When vegetable container 60 being moved into or shift out installing space 50S, guiding rib 63 is slided along the gap between upper rail 54A and the lower guideway 54B then by back-up roller moving part 54R guiding.

Below, with the operation of describing in more detail according to the preferred implementation of the cool air supply structure of storage receptacle for refrigerator of the present invention.

At first, in preferred implementation, illustrate with reference to the accompanying drawings vegetable container is mounted to process in the container casing according to the cool air supply structure of storage receptacle for refrigerator of the present invention.

Fig. 5 is the view that diagram is mounted to vegetable container according to the preferred embodiment for the present invention process in the container casing.

As shown in the figure, vegetable container 60 moves to right side among the figure towards the inside of the spatial accommodation 50S of container casing 50.Therefore, vegetable container 60 mode that begins to be mounted with the rear end of vegetable container 60 is mounted to the installing space 50S of container casing 50.At this moment, the guiding rib 63 of vegetable container 60 is led to guide rail by the back-up roller moving part 54R of container casing 50, more specifically is led in the gap between upper rail 54A and the lower guideway 54B.

In addition, guiding rib 63 is directed in the gap between upper rail 54A and the lower guideway 54B by the 54D of inclined guide portion of upper rail 54A.Therefore, though tank 60 moves to guiding rib 63 not exclusively and the position that is complementary, the gap between upper rail 54A and the lower guideway 54B towards the inside of the installing space 50S of container casing 50, but guiding rib 63 is led in the gap between upper rail 54A and the lower guideway 54B by the 54D of inclined guide portion, thereby prevents that tank 60 is mounted in the installing space 50S of container casing 50 by wrong.

Simultaneously,, that is, move to right side among the figure, then guide rib 63 and slide along guide rail if vegetable container 60 is continued to move in the installing space 50S of container casing 50.Then, as shown in Figure 4, if vegetable container 60 is mounted in the installing space 50S of container casing 50, then the rear surface of the connecting flange 61 of vegetable container 60 forms contact with the front surface that contacts flange 51A of container casing 50.Therefore, vegetable container 60 can not enter the installing space 50S of container casing 50 fully.

Now, illustrate with reference to the accompanying drawings at state according to the flow of cold air in the preferred implementation of the cool air supply structure of storage receptacle for refrigerator of the present invention.

Fig. 6 is illustrated in the flow through plane of passage of cold air in the embodiment of the present invention.

As shown in the figure, from the cold air of the cold air supply orifice 33A of cold-air duct 33 supply, that is, the cold air in the refrigerating chamber is transferred in the passage 50P via cool air inlet 50I.The cold air that is transferred in the passage 50P flows in passage 50P, then via cold-air vent 50O passing away 50P.

At this moment, the cold air that is transferred in the passage 50P is guided by cold air guide member 58.Promptly, be transferred into cold air in the passage 50P by the first guidance part 58A of cold air guide member 58 guiding via cool air inlet 50I, so that the right front ends of passage 50P in the flow graph, then, by the second guidance part 58B guiding of cold air guide member 58, so that the right front ends of passage 50P flow to left front end from figure.In addition, guide by the second guidance part 58B so that the cold air of the left front end of passage 50P is by the 3rd guidance part 58C guiding of cold air guide member 58, so that the left back end of passage 50P in the flow graph promptly, flows to cold-air vent 50O in the flow graph.

The cold air that flows to cold-air vent 50O as mentioned above is discharged from passage 50P via cold-air vent 50O, that is, be discharged in the refrigerating chamber 31.In addition, cold air is transferred into evaporimeter via the cold air return air hole of refrigerating chamber 31.

Simultaneously, the food that is contained among the spatial accommodation 60S of vegetable container 60 of the installing space 50S that is mounted to container casing 50 is cooled off indirectly by the cold air that flows in passage 50P.Therefore, can prevent to be contained in smell that food among the spatial accommodation 60S of vegetable container 60 is stored in other food in the refrigerating chamber 31 and permeate and owe cooling or supercooling, perhaps can prevent the water evaporates of food.

Obviously, those of ordinary skills can carry out various modifications to the present invention in the scope of technical spirit of the present invention, and real protection scope of the present invention should be explained based on appended claims.

[industrial applicibility]

Cool air supply structure according to the storage receptacle for refrigerator of the present invention of structure like this can be expected to obtain following advantage.

According to the present invention, the food that is contained in the tank is cooled off indirectly by the cold air that flows in the passage in being arranged at container casing. Therefore, can prevent from being stored in the odor permeation of other food in the refrigerating chamber to the food that is contained in the tank, can prevent the moisture evaporation of food, can prevent that also food is owed to cool off or supercooling, thereby the food that is contained in the tank can be kept fresher in long-time.

In addition, in the present invention, be connected with the cool air inlet of passage for the cold air supply orifice that cold air directly is supplied to refrigerating chamber. Therefore, do not need the other structure that is used for cold air is supplied to passage, therefore, can keep fresh with the food that simpler mode will be contained in the tank.

In addition, in the present invention, the cold air guide member that is used for the guiding cold air is arranged at passage. Therefore, be supplied to the interior cold air of passage and in passage, flow equably by the cold air guide member, thereby indirectly cool off the food that is contained in the tank in more effective mode.

Claims (26)

1. the cool air supply structure of a storage receptacle for refrigerator, described refrigerator comprise the main body that wherein is provided with storage space and are used for selectively opened or close the door of described storage space that described cool air supply structure comprises:

One or more container casings, described container casing is installed in the described storage space with removably, and is provided with installing space in described container casing, so that tank is moved into or shift out described installing space; And

Passage, described passage are arranged in each described container casing, so that cold air flows in described passage,

Wherein, the food that is contained in the described tank is cooled off indirectly by the cold air that flows in described passage.

2. cool air supply structure as claimed in claim 1, wherein, among refrigerating chamber and refrigerating chamber that described storage space comprises, described container casing is installed in the described refrigerating chamber with removably.

3. cool air supply structure as claimed in claim 1, wherein, cold air in the described refrigerating chamber is transferred into described passage via the cold-air duct of the rear surface central authorities that are installed on described refrigerating chamber, and described one or more container casing is installed in the described refrigerating chamber.

4. cool air supply structure as claimed in claim 3, wherein, described container casing is provided with in pairs with placed side by side in described refrigerating chamber.

5. cool air supply structure as claimed in claim 3, wherein, the described cold air that flows in described passage is introduced into via the cool air inlet that is arranged on the described container casing rear surface, to be connected with in the cold air supply orifice of described cold-air duct any one; And the cold air that is contained in the food in the described spatial accommodation with indirect cooling that flows in described passage is discharged to described refrigerating chamber via the cold-air vent that is arranged on the described container casing rear surface.

6. the cool air supply structure of a storage receptacle for refrigerator, described refrigerator comprises the main body that wherein is provided with storage space and is used for selectively opened or closes the door of described storage space, described storage space comprises refrigerating chamber and refrigerating chamber, and described cool air supply structure comprises:

Cold-air duct, described cold-air duct is arranged at the central authorities of the rear surface of described refrigerating chamber, be sent to described refrigerating chamber with cold air with described refrigerating chamber, described cold-air duct comprises one or more cold air supply orifices, and described cold air supply orifice is with acting on the inlet that the cold air of described refrigerating chamber is sent to described refrigerating chamber;

One or more container casings, described container casing mounted in pairs in described refrigerating chamber, all are provided with installing space in each described container casing with placed side by side;

Passage, described passage are arranged in each described container casing, make via the cold air of any one transmission in the described cold air supply orifice mobile in described passage; And

Tank, described tank are installed in the described installing space to be moved into or to shift out described installing space, are limited with spatial accommodation with foodstuff storing in the described tank,

Wherein, the food that is contained in the described tank is cooled off indirectly by the cold air that flows in described passage.

7. as each described cool air supply structure in claim 1 and 6, wherein, be respectively arranged with ribs on the top of described container casing both sides, the described ribs slidably track on two side surfaces that are arranged at described storage space is supported.

8. cool air supply structure as claimed in claim 7, wherein, described track comprises: housings support track, described housings support track are arranged at removably basal surface central authorities with the shelf that is moved into or shifts out described storage space are installed; Be arranged at the housings support track on two side surfaces of described storage space; And Auxiliary Track, described Auxiliary Track is arranged at housings support track with described storage space and is on two side ends of basal surface of described shelf of sustained height, to extend the housings support track of described storage space.

9. cool air supply structure as claimed in claim 8 also comprises fixture, and described fixture is used for fixing described container casing, to prevent making described container casing disengaging because of carelessness under the state in described container casing is installed on described storage space.

10. cool air supply structure as claimed in claim 9, wherein, described fixture comprises the fixed projection spare that is arranged in described housings support track and the described container casing on any one, and is arranged in described housings support track and the described container casing permanent opening on another; And described fixed projection spare is inserted in the described permanent opening, thus, fixes described container casing under described container casing is housed inside state in the described storage space.

11., also comprise the cold air guide member that is used for being guided in the mobile cold air of described passage as each described cool air supply structure in claim 1 and 6.

12. cool air supply structure as claimed in claim 11, wherein, the guiding of described cold air guide member is introduced into cold air in the described passage and it is flowed in the fore-end of described passage and discharges from described passage.

13. cool air supply structure as claimed in claim 12, wherein, described cold air guide member extends to run through cool air inlet and the cold-air vent that is arranged on the described container casing rear surface towards the outside of described passage.

14. as each described cool air supply structure in claim 1 and 6, wherein, described container casing comprises: lower house, described lower house forms the hexahedral shape of front and opened upper end; Upper shell, described upper shell forms the hexahedral shape of lower open, and is fixed in the top of described lower house; And inner panel, described inner panel is fixed in the inside with the corresponding described lower house in bottom of described upper shell, and described passage is limited by the upper surface of described upper shell and the upper surface of two side surfaces and described inner panel.

15. cool air supply structure as claimed in claim 14 also comprises the cold air guide member that is used for being guided in the mobile cold air of described passage.

16. cool air supply structure as claimed in claim 15, wherein, the upper surface of described cold air guide member and described inner panel is integrally formed, and thus, the top of described cold air guide member forms with the inside upper surface of described upper shell and contacts.

17. cool air supply structure as claimed in claim 16, wherein, the described cold air that described cold air guide member guiding is introduced in the described passage flows also subsequently from described passage discharge it in the fore-end of described passage.

18. cool air supply structure as claimed in claim 17, wherein, described cold air guide member extends to run through cool air inlet and the cold-air vent that is arranged on the described container casing rear surface.

19. cool air supply structure as claimed in claim 14, wherein, any one in described lower house and the described upper shell is provided with at least one connection slot; In described lower house and the described upper shell another is provided with at least one attachment tabs part; And under described upper shell was positioned over state on the described lower house top, described attachment tabs part was inserted in the described connection slot, and thus, described lower house and described upper shell are fixed to one another.

20. cool air supply structure as claimed in claim 15, wherein, described connection slot is configured as unlimited backward by the part that cutting is arranged at least one the guide projections part on the described lower house top; And described attachment tabs part each from the both side ends of described upper shell stretches out.

21. cool air supply structure as claimed in claim 14 wherein, is respectively arranged with slot on the top of two inboards of described lower house, described slot extends along fore-and-aft direction; And two side ends of described inner panel insert in the described insertion groove, and thus, described lower house and described upper shell are fixed to one another.

22., also comprise the guiding device that is used to guide the described tank that is moved into or shifts out described installing space as each described cool air supply structure in claim 1 and 6.

23. cool air supply structure as claimed in claim 22, wherein, described guiding device comprises back-up roller moving part and guide rail, described back-up roller moving part is arranged at the front end of two inboards of described container casing respectively, be arranged at moving of guiding rib on two outer surfaces of described tank with guiding when described tank is moved into or shifts out described installing space, described guide rail is arranged at respectively on two inner surfaces of described container casing and corresponding position, the rear portion of described back-up roller moving part, makes that the described guiding rib by described back-up roller moving part guiding slides on described guide rail.

24. cool air supply structure as claimed in claim 23, wherein, described guide rail comprises upper rail and lower guideway, and described upper rail is horizontal-extending on two inner surfaces of described container casing; Described lower guideway horizontal-extending and downwards separate certain intervals on two inner surfaces of described container casing with the basal surface of described upper rail.

25. cool air supply structure as claimed in claim 24, wherein, described guide rail also comprises inclined guide portion, described inclined guide portion draws end before the described upper rail and extends into forward and be inclined upwardly, and guides the slip of described guiding rib when being housed inside in the described installing space at described tank.

26. cool air supply structure as claimed in claim 25, wherein, described guide rail also comprises at least one ribs, and described ribs is arranged on the lower surface of the upper surface of described upper rail and described lower guideway, to strengthen described upper rail and lower guideway.

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