CN204006909U

CN204006909U - Refrigerator

Info

Publication number: CN204006909U
Application number: CN201420305390.9U
Authority: CN
Inventors: 谷川贵纪; 中津哲史; 饭田沙织
Original assignee: Mitsubishi Electric Corp
Current assignee: Mitsubishi Electric Corp
Priority date: 2013-06-10
Filing date: 2014-06-10
Publication date: 2014-12-10
Anticipated expiration: 2024-06-10
Also published as: AU2014279424A1; TW201512618A; WO2014199743A1; CN104236205A; MY179405A; RU2015156498A; AU2014279424B2; RU2628430C2; JP2014238245A; SG11201509111UA

Abstract

The purpose of this utility model is to provide a kind of refrigerator that can increase the volume of storeroom in the increase of wind path resistance that suppresses cold air discharge wind path.Refrigerator (1) has refrigerating chamber (20), cold air delivery pipe road (30) and cold gas exhausting outlet (32), described refrigerating chamber (20) is divided and is formed and front surface opening by thermal wall, described cold air delivery pipe road (30) extends at the internal face (20a) of the inner side of refrigerating chamber (20) the left and right directions central portion that arranges and be arranged on refrigerating chamber (20) along the vertical direction, and have in inside and make the cold air of cold air circulation discharge wind path (31), described cold gas exhausting outlet (32) is discharged to the cold air of discharging circulation in wind path (31) at cold air in refrigerating chamber (20), cold air is discharged wind path (31) and is had oval-shaped cross section.

Description

Refrigerator

Technical field

The utility model relates to a kind of refrigerator.

Background technology

In patent documentation 1, a kind of refrigerator of the air by after evaporator cools being delivered to refrigerating chamber by cooling pipe is disclosed.Cooling pipe is formed and is formed with heat-barrier material by interior case and wind path.Form side at wind path structure with the cooling pipe of heat-barrier material, be pasted with the ion sheet for generation of anion.In the interior case relative with ion sheet, be formed with jut.Ion sheet is formed and is fixed with heat-barrier material and jut by wind path.In the document, record following content, that is, by making the shape of jut be formed as cylindric or ellipticity, can reduce the wind path resistance of discharging cold air.

Prior art document

Patent documentation 1: TOHKEMY 2004-61014 communique

Utility model summary

Utility model problem to be solved

But, in the refrigerator of patent documentation 1, the in the situation that of there is jut in cooling pipe, can reduce wind path resistance, and can not reduce wind path resistance there is not jut in cooling pipe in the situation that.Usually, discharge the wind path resistance of wind path in order to reduce cold air, need to increase the sectional area of cold air discharge wind path.But in the time increasing the sectional area of cold air discharge wind path, the volume that cold air is discharged wind path becomes large, the capacity of storeroom correspondingly reduces.

Utility model content

The utility model is researched and developed in order to solve above-mentioned problem, and its object is to provide a kind of refrigerator, can in the increase of wind path resistance that suppresses cold air discharge wind path, increase the capacity of storeroom.

The refrigerator of first method of the present utility model has storeroom, cold air delivery pipe road and cold gas exhausting outlet, described storeroom is divided and is formed and front surface opening by thermal wall, described cold air delivery pipe road extends to arrange and have in inside at the internal face of the inner side of described storeroom along the vertical direction makes the cold air of cold air circulation discharge wind path, described cold gas exhausting outlet is discharged in described storeroom discharging at described cold air the cold air circulating in wind path, described refrigerator is characterised in that, described cold air is discharged wind path and had oval-shaped cross section.

According to the utility model, because cold air discharge wind path has oval-shaped cross section, so the cold air identical with the wind path resistance in cross section with rectangular shape is discharged wind path and compared, can reduce cold air and discharge the sectional area of wind path, and can reduce cold air and discharge the volume of wind path.Therefore, can in the increase of wind path resistance that suppresses cold air discharge wind path, increase the capacity of storeroom.

The refrigerator of second method of the present utility model is characterised in that, in the refrigerator of first method, described cold air delivery pipe road is arranged on the left and right directions central portion of described storeroom.

The refrigerator of Third Way of the present utility model is characterised in that, in the refrigerator of first method and second method, in the time establishing described oval-shaped minor axis and be ellipticity with respect to the ratio of described oval-shaped major axis, described oval-shaped ellipticity is more than 0.36 below 1.

The refrigerator of cubic formula of the present utility model is characterised in that, in the refrigerator of first method and second method, described cold air is discharged wind path, and to be set to described oval-shaped major axis parallel with the left and right directions of described storeroom.

The refrigerator of the 5th mode of the present utility model is characterised in that, in the refrigerator of first method and second method, described cold air delivery pipe road arranges to the indoor of described storeroom highlightedly from the internal face of the inner side of described storeroom, in described storeroom, be provided with shelf, described shelf has the notch that has carried out excision corresponding to described cold air delivery pipe road.

The refrigerator of the 6th mode of the present utility model is characterised in that, in the refrigerator of first method and second method, multiple described storerooms are set respectively and make the described cold air of the cold air circulation that is discharged to described storeroom discharge wind path, multiple described cold air is discharged wind path and is had respectively oval-shaped cross section.

Brief description of the drawings

Fig. 1 is the front view that represents the schematic configuration of the refrigerator of embodiment 1 of the present utility model.

Fig. 2 is the sectional view of the cross section structure of the refrigerator 1 after representing to dissect with II-II line of Fig. 1.

The explanation of Reference numeral

1 refrigerator, 10 heat insulating boxes, 11 outer containers, 12 interior casees, 13 heat-barrier materials, 20 refrigerating chambers, 20a internal face, 21 partition walls, 22 shelves, 22a notch, 30 cold air delivery pipe roads, 30a, 30b parts, 31 cold air are discharged wind path, 32 cold gas exhausting outlets

Detailed description of the invention

Embodiment 1

Refrigerator to embodiment 1 of the present utility model describes.Fig. 1 is the front view that represents the schematic configuration of the refrigerator 1 of present embodiment.Fig. 2 is the sectional view of the cross section structure of the refrigerator 1 after representing to dissect with II-II line of Fig. 1.In addition, in Fig. 1 and Fig. 2, relation and the shape etc. of the size of each component parts is sometimes different from actual conditions.

As depicted in figs. 1 and 2, refrigerator 1 has the heat insulating box 10 of front surface opening.Heat insulating box 10 have steel plate system outer container 11, resinous interior case 12, be filled in the heat-barrier material 13 between outer container 11 and interior case 12, play a role as the thermal wall that makes inner space and external insulation.As heat-barrier material 13, use polyurathamc or vacuum heat insulation material etc.In addition, the inner space of heat insulating box 10 is separated into multiple storerooms by the partition wall 21 (thermal wall) that uses heat-barrier material to form, and described multiple storerooms keep respectively the cold insulation temperature of regulation.This routine refrigerator 1 has refrigerating chamber 20, refrigerating chamber, vegetable compartment, ice-making compartment and switching chamber etc. as multiple storerooms.Each storeroom for example can keep different cold insulation temperature mutually.In Fig. 1, in the multiple storerooms that have at refrigerator 1, only show as an example the refrigerating chamber 20 that is configured in topmost.The opening of the front surface of refrigerating chamber 20 be rotated formula insulated door (not shown) sealing and can freely openable.

At the internal face 20a (back side of refrigerating chamber 20) of the inner side of refrigerating chamber 20, be provided with the cold air delivery pipe road 30 of refrigerating chamber 20 use along this internal face 20a.Two parts 30a, 30b of these routine cold air delivery pipe road 30 combination resin systems also have the structure of tubular, form cold air described later and discharge the outer wall of wind path 31.Cold air delivery pipe road 30 is configured in the left and right directions central portion of refrigerating chamber 20, extends and arranges at above-below direction.In addition, cold air delivery pipe road 30 is from internal face 20a outstanding (stretching out) setting to indoor of the inner side of refrigerating chamber 20.

In cold air delivery pipe road 30, make the cold air of cold air circulation discharge wind path 31 and on above-below direction, extend and arrange.Cold air is discharged wind path 31 and is connected partition wall 21 and be connected with the wind path in cooler chamber (not shown).In addition, indoor at cooler, be provided with evaporimeter (cooler) and the fan of a part that forms kind of refrigeration cycle, described fan by by evaporator cools cold air be transported in each storeroom of refrigerating chamber 20 grades.Discharge between wind path 31 in cooler chamber and cold air, be provided with the air-valve of the aperture of adjusting wind path.

Cold air is discharged wind path 31 and is had oval-shaped cross section (with reference to Fig. 2).In the time that the ratio b/a that establishes oval-shaped minor axis b and major axis a is ellipticity (just round ellipticity is 1), the oval-shaped ellipticity that this routine cold air is discharged wind path 31 is more than 0.36 below 1.In addition, it is parallel with the left and right directions of refrigerating chamber 20 that this routine cold air discharge wind path 31 is arranged to oval-shaped major axis, and oval-shaped minor axis is parallel with the depth direction (fore-and-aft direction) of refrigerating chamber 20.

Front surface (face of the indoor of refrigerating chamber 20) in cold air delivery pipe road 30 is upper, is formed with multiple cold gas exhausting outlets 32, and described multiple cold gas exhausting outlets 32 are discharged to the cold air of discharging circulation in wind path 31 at cold air in refrigerating chamber 20.Multiple cold gas exhausting outlets 32 are the spread configuration to specify on above-below direction or left and right directions.In this example, multiple cold gas exhausting outlets 32, can be cooled to respectively the nearby mode of side (open side) in the multistage space in the refrigerating chamber 20 of being separated by shelf 22 described later, are configured in the top separately in multistage space.Cold air is discharged to wind path width (wind path sectional area) and the aperture area of cold gas exhausting outlet 32 of wind path 31 and set, thus the non-uniform temperature in each the multistage space in inhibition refrigerating chamber 20.

In refrigerating chamber 20, along continuous straight runs sets up the container-like or flat multiple shelves 22 in the shallow end of mounting reserve.Shelf 22 is for example formed by transparent resin.Space in refrigerating chamber 20 is divided into multiple levels by shelf 22.Shelf 22 has the flat shape of along the surface of interior case 12 (internal face of refrigerating chamber 20), at inner side and the internal face 20a butt or approaching of refrigerating chamber 22.In addition, shelf 22 has notch 22a in the position corresponding with cold air delivery pipe road 30, and notch 22a is cut off corresponding to the outstanding shape in cold air delivery pipe road 30.The front surface butt in the end face of notch 22a and cold air delivery pipe road 30 or approaching.

In the refrigerator 1 with said structure, in the indoor evaporimeter of cooler, chilled Quilt with air conditioning fan is sent.The cold air of being sent by fan discharges wind path 31 by cold air and other wind paths are blown out to refrigerating chamber 20 each storerooms such as grade.Thereby the air quantity of cold air that is blown out to each storeroom is controlled in the aperture adjustment of carrying out wind path by air-valve.Thus, each storeroom is maintained at the cold insulation temperature of regulation.

As described above, the refrigerator 1 of present embodiment has refrigerating chamber 20 (example of storeroom), cold air delivery pipe road 30 and cold gas exhausting outlet 32, described refrigerating chamber 20 is divided and is formed and front surface opening by thermal wall, described cold air delivery pipe road 30 extends to arrange and have in inside at the internal face 20a of the inner side of refrigerating chamber 20 along the vertical direction makes the cold air of cold air circulation discharge wind path 31, described cold gas exhausting outlet 32 is discharged to the cold air of discharging circulation in wind path 31 at cold air in refrigerating chamber 20, refrigerator 1 is characterised in that, cold air is discharged wind path 31 and is had oval-shaped cross section.

According to this structure, because cold air discharge wind path 31 has oval-shaped cross section, so compare with the cold air discharge wind path of the wind path resistance identical (pressure loss is identical) with square-section, can reduce the sectional area of cold air discharge wind path 31.In addition, discharge the sectional area of wind path 31 by reducing cold air, can also reduce the sectional area in the cold air delivery pipe road 30 of the outer wall that becomes cold air discharge wind path 31.Thus, can in the increase of wind path resistance that suppresses cold air discharge wind path 31, reduce the volume that cold air discharge wind path 31 and cold air delivery pipe road 30 occupy in refrigerating chamber 20.Therefore,, according to present embodiment, can in the cooling performance that maintains refrigerator 1 (refrigerating chamber 20), increase the capacity of refrigerating chamber 20.

In addition, the cold air discharge wind path 31 cold air discharge wind path identical with the sectional area with square-section with oval-shaped cross section compared, and can reduce wind path resistance.Therefore, according to present embodiment, compare with the refrigerator with following cold air discharge wind path, can reduce cold air is delivered to the interior required energy of refrigerator 20, cross section and sectional area that above-mentioned cold air discharge wind path has rectangle are identical with present embodiment.

In addition, the refrigerator 1 of present embodiment is characterised in that, in the time establishing oval-shaped minor axis and be ellipticity with respect to the ratio of major axis, it is more than 0.36 below 1 that cold air is discharged oval-shaped ellipticity in the cross section of wind path 31.

The ellipticity in the cross section of cold air discharge wind path 31 is less, and the volume that cold air is discharged wind path 31 and cold air delivery pipe road 30 is larger, and the capacity of refrigerating chamber 20 reduces.In addition, consider the definition of ellipticity, the maximum of ellipticity is 1.Therefore, be more than 0.36 below 1 by the ellipticity in cross section that makes cold air discharge wind path 31, can in the cooling performance that maintains refrigerator 1 (refrigerating chamber 20), increase the capacity of refrigerating chamber 20.

In addition, the refrigerator 1 of present embodiment is characterised in that, cold air is discharged wind path 31, and to be set to oval-shaped major axis parallel with the left and right directions of refrigerating chamber 20.

According to this structure, can suppress cold air discharge wind path 31 and give prominence to (stretching out) to indoor from the internal face 20a of the inner side of refrigerating chamber 20, therefore, the space in refrigerating chamber 20 can be effectively utilized, and the actual capacity of refrigerating chamber 20 can be increased.In addition, the aesthetic property in refrigerating chamber 20 improves.

In addition, the refrigerator 1 of present embodiment is characterised in that, cold air delivery pipe road 30 arranges to the indoor of refrigerating chamber 20 highlightedly from the internal face 20a of the inner side of refrigerating chamber 20, in refrigerating chamber 20, shelf 22 is set, and shelf 22 has the notch 22a that has carried out excision corresponding to cold air delivery pipe road 30.

According to this structure, cold air delivery pipe road 30 from the indoor to refrigerating chamber 20 that can be outstanding corresponding to expands the area of shelf 22 to greatest extent, therefore, can increase the mounting capacity of shelf 22.

Other embodiments

The utility model is not to be only defined in above-mentioned embodiment, but can carry out various distortion.

For example, in the above-described embodiment, the cross section of having enumerated the cold air discharge wind path 31 of refrigerating chamber 20 use is oval, but, discharge wind path at the cold air that multiple storerooms that comprise refrigerating chamber 20 is set respectively and the cold air that is discharged to storeroom is circulated, multiple cold air is discharged wind paths can have respectively oval-shaped cross section.Thus, the cold air that can reduce each storeroom is discharged the volume in wind path and cold air delivery pipe road, therefore, can in maintaining the cooling performance of each storeroom, increase the capacity of each storeroom.

In addition, above-mentioned each embodiment and variation can combine enforcement mutually.

Claims

1. a refrigerator, has:

Storeroom, described storeroom is divided and is formed and front surface opening by thermal wall,

Cold air delivery pipe road, described cold air delivery pipe road extends and arranges along the vertical direction on the internal face of the inner side of described storeroom, and has the cold air discharge wind path that makes cold air circulation in inside,

Cold gas exhausting outlet, described cold gas exhausting outlet is discharged in described storeroom discharging at described cold air the cold air flowing through in wind path,

It is characterized in that, described cold air is discharged wind path and is had oval-shaped cross section.

2. refrigerator as claimed in claim 1, is characterized in that,

Described cold air delivery pipe road is arranged on the left and right directions central portion of described storeroom.

3. refrigerator as claimed in claim 1 or 2, is characterized in that,

In the time establishing described oval-shaped minor axis and be ellipticity with respect to the ratio of described oval-shaped major axis, described oval-shaped ellipticity is more than 0.36 below 1.

4. refrigerator as claimed in claim 1 or 2, is characterized in that,

It is parallel with the left and right directions of described storeroom that described cold air discharge wind path is set to described oval-shaped major axis.

5. refrigerator as claimed in claim 1 or 2, is characterized in that,

Described cold air delivery pipe road arranges to the indoor of described storeroom highlightedly from the internal face of the inner side of described storeroom,

In described storeroom, be provided with shelf,

Described shelf has the notch that has carried out excision corresponding to described cold air delivery pipe road.

6. refrigerator as claimed in claim 1 or 2, is characterized in that,

Multiple described storerooms are set respectively and make the described cold air of the cold air circulation that is discharged to described storeroom discharge wind path,

Multiple described cold air is discharged wind path and is had respectively oval-shaped cross section.