CN104236205A - Refrigerator - Google Patents

Abstract

An object of the invention is to provide a refrigerator capable of increasing the volume of a storage compartment while suppressing an increase in passage resistance of a cold air discharge passage. A refrigerator (1) is provided with: a cold storage compartment (20) defined and formed by a thermally insulating wall and having an open front face; a vertically extending cold air discharge duct (30) provided on the inner end-side inner wall surface (20a) of the cold storage compartment (20) at the center thereof in the left-right direction thereof and having formed therein a cold air discharge passage (31) through which cold air is caused to flow; and a cold air discharge opening (32) for discharging the cold air, which has flowed through the cold air discharge passage (31), into the cold storage compartment (20). The cold air discharge passage (31) has an elliptical cross-sectional shape.

Description

Refrigerator

Technical field

The present invention relates to a kind of refrigerator.

Background technology

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

Prior art document

Patent document 1: Japanese Unexamined Patent Publication 2004-61014 publication

Brief summary of the invention

Invent problem to be solved

But, in the refrigerator of patent document 1, wind path resistance can be reduced when there is jut in cooling pipe, and wind path resistance can not be reduced when there is not jut in cooling pipe.Usually, discharging the wind path resistance of wind path to reduce cold air, needing to increase the sectional area that cold air discharges wind path.But when increasing cold air and discharging the sectional area of wind path, the volume that cold air discharges wind path becomes large, and the capacity of storeroom correspondingly reduces.

Summary of the invention

The present invention researches and develops to solve above-mentioned problem, its object is to provide a kind of refrigerator, can increase the capacity of storeroom while suppressing cold air to discharge the increase of the wind path resistance of wind path.

Refrigerator of the present invention has storeroom, cold air delivery pipe road and cold gas exhausting outlet, described storeroom is divided by thermal wall and is formed and front surface opening, the internal face of described cold air delivery pipe road in the inner side of described storeroom extended along the vertical direction and have in inside cold air is circulated cold air discharge wind path, described cold gas exhausting outlet is discharged in described storeroom by discharging at described cold air the cold air circulated in wind path, the feature of described refrigerator is, described cold air is discharged wind path and had oval cross section.

According to the present invention, discharge wind path due to cold air and there is oval cross section, so the cold air identical with the wind path resistance in the cross section with rectangular shape is discharged compared with wind path, the sectional area that cold air discharges wind path can be reduced, and the volume that cold air discharges wind path can be reduced.Therefore, it is possible to increase the capacity of storeroom while suppressing cold air to discharge the increase of the wind path resistance of wind path.

Accompanying drawing explanation

Fig. 1 is the front view of the schematic configuration of the refrigerator representing embodiments of the present invention 1.

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

The explanation of Reference numeral

In 1 refrigerator, 10 heat insulating boxes, 11 outer containers, 12, case, 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 discharge wind path, 32 cold gas exhausting outlets

Detailed description of the invention

Embodiment 1

The refrigerator of embodiments of the present invention 1 is described.Fig. 1 is the front view of the schematic configuration of the refrigerator 1 representing present embodiment.Fig. 2 is the sectional view of the cross section structure representing the refrigerator 1 after with II-II line cutting of Fig. 1.In addition, in fig. 1 and 2, the relation and shape etc. of the size of each component parts are 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 has the outer container 11 of steel plate, resinous interior case 12, is filled in heat-barrier material 13 between outer container 11 and interior case 12, plays a role as making the thermal wall of 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 storeroom by the partition wall 21 (thermal wall) using heat-barrier material to be formed, and described multiple storeroom keeps the cold insulation temperature specified respectively.The refrigerator 1 of this example has refrigerating chamber 20, refrigerating chamber, vegetable compartment, ice-making compartment and switching chamber etc. as multiple storeroom.Each storeroom such as can keep mutually different cold insulation temperature.In FIG, in multiple storerooms that refrigerator 1 has, illustrate only the refrigerating chamber 20 being configured in topmost as an example.The opening of the front surface of refrigerating chamber 20 is closed by the insulated door of rotary type (not shown) 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 along this internal face 20a.Two parts 30a, 30b of cold air delivery pipe road 30 combination resin of this example also have the structure of tubular, form the outer wall that cold air described later discharges wind path 31.Cold air delivery pipe road 30 is configured in the left and right directions central portion of refrigerating chamber 20, extended at above-below direction.In addition, cold air delivery pipe road 30 is arranged from the internal face 20a of the inner side of refrigerating chamber 20 outstanding to indoor (stretching out).

In cold air delivery pipe road 30, the cold air that cold air is circulated is discharged wind path 31 and is arranged with extending in the vertical direction.Cold air is discharged the through partition wall of wind path 31 21 and is connected with the wind path in cooler room (not shown).In addition, indoor at cooler, be provided with evaporimeter (cooler) and the fan of the part forming kind of refrigeration cycle, the cold air by evaporator cools is transported in each storeroom of refrigerating chamber 20 grade by described fan.Discharge between wind path 31 in cooler room and cold air, be provided with the air-valve of the aperture of adjustment wind path.

Cold air is discharged wind path 31 and is had oval cross section (with reference to Fig. 2).When setting the ratio b/a of oval minor axis b and major axis a as ellipticity (ellipticity of positive round is 1), the ellipticity of the ellipse of the cold air discharge wind path 31 of this example is less than more than 0.36 1.In addition, the cold air of this example discharges wind path 31, and to be arranged to oval major axis parallel with the left and right directions of refrigerating chamber 20, and the minor axis of ellipse is parallel with the depth direction (fore-and-aft direction) of refrigerating chamber 20.

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

In refrigerating chamber 20, erection has the container-like or flat multiple shelf 22 in the shallow end of mounting reserve in the horizontal direction.Shelf 22 is such as formed by transparent resin.Space in refrigerating chamber 20 is divided into multiple level by shelf 22.Shelf 22 has the flat shape on the surface (internal face of refrigerating chamber 20) along interior case 12, abuts or close in the inner side of refrigerating chamber 22 with internal face 20a.In addition, shelf 22 has notch 22a in the position corresponding with cold air delivery pipe road 30, and the outstanding shape that notch 22a corresponds to cold air delivery pipe road 30 is cut off.The end face of notch 22a abuts with the front surface in cold air delivery pipe road 30 or close.

In the refrigerator 1 with said structure, in the evaporimeter of cooler indoor, chilled Quilt with air conditioning fan is sent.Discharged wind path 31 by the cold air that fan is sent by cold air and be blown out to each storeroom such as refrigerating chamber 20 grade with other wind paths.The aperture of being carried out wind path by air-valve is adjusted thus controls to be blown out to the air quantity of the cold air of each storeroom.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 by thermal wall and is formed and front surface opening, described cold air delivery pipe road 30 the internal face 20a of the inner side of refrigerating chamber 20 extended along the vertical direction and have in inside cold air is circulated cold air discharge wind path 31, the cold air of discharging circulation in wind path 31 at cold air is discharged in refrigerating chamber 20 by described cold gas exhausting outlet 32, the feature of refrigerator 1 is, cold air is discharged wind path 31 and is had oval cross section.

According to this structure, discharge wind path 31 due to cold air and there is oval cross section, so the cold air of identical with the wind path resistance with square-section (pressure loss is identical) is discharged compared with wind path, the sectional area that cold air discharges wind path 31 can be reduced.In addition, discharging the sectional area of wind path 31 by reducing cold air, can also reduce to become the sectional area that cold air discharges the cold air delivery pipe road 30 of the outer wall of wind path 31.Thereby, it is possible to the volume that reduction cold air discharge wind path 31 and cold air delivery pipe road 30 occupy in refrigerating chamber 20 while suppressing cold air to discharge the increase of the wind path resistance of wind path 31.Therefore, according to the present embodiment, the capacity of refrigerating chamber 20 can be increased while the cooling performance maintaining refrigerator 1 (refrigerating chamber 20).

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

In addition, the feature of the refrigerator 1 of present embodiment is, set oval minor axis relative to the ratio of major axis as ellipticity time, the ellipticity of the ellipse that cold air is discharged in the cross section of wind path 31 is less than more than 0.36 1.

The ellipticity that cold air discharges the cross section of wind path 31 is less, and the volume that cold air discharges 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 less than more than 0.36 1 by the ellipticity making cold air discharge the cross section of wind path 31, the capacity of refrigerating chamber 20 can be increased while the cooling performance maintaining refrigerator 1 (refrigerating chamber 20).

In addition, the feature of the refrigerator 1 of present embodiment is, it is parallel with the left and right directions of refrigerating chamber 20 that cold air discharge wind path 31 is set to oval major axis.

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

In addition, the feature of the refrigerator 1 of present embodiment is, cold air delivery pipe road 30 is arranged highlightedly from the internal face 20a of the inner side of refrigerating chamber 20 to the indoor of refrigerating chamber 20, in refrigerating chamber 20, arrange shelf 22, shelf 22 has the notch 22a excised corresponding to cold air delivery pipe road 30.

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

Other embodiments

The present invention is only defined in above-mentioned embodiment, but can carry out various distortion.

Such as, in the above-described embodiment, the cross section listing the cold air discharge wind path 31 of refrigerating chamber 20 is oval, but, when the cold air arranging multiple storeroom comprising refrigerating chamber 20 and the cold air circulation making to be discharged to storeroom respectively discharges wind path, multiple cold air discharges wind paths can have oval cross section respectively.Thereby, it is possible to the cold air reducing each storeroom discharges the volume in wind path and cold air delivery pipe road, therefore, it is possible to while the cooling performance maintaining each storeroom, increase the capacity of each storeroom.

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

Claims (6)

1. a refrigerator, has:

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

Cold air delivery pipe road, described cold air delivery pipe road is extended along the vertical direction on the internal face of the inner side of described storeroom, and has the cold air discharge wind path that cold air is circulated in inside,

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

It is characterized in that, described cold air is discharged wind path and is had oval 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,

Set the minor axis of described ellipse relative to the ratio of the major axis of described ellipse as ellipticity time, the ellipticity of described ellipse is less than more than 0.36 1.

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

The major axis that described cold air discharge wind path is set to described ellipse is parallel with the left and right directions of described storeroom.

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

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

In described storeroom, be provided with shelf,

Described shelf has the notch excised corresponding to described cold air delivery pipe road.

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

The described cold air of the cold air circulation arranging multiple described storeroom respectively and make to be discharged to described storeroom discharges wind path,

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