CN103575039A - Heat insulating box, and refrigerator with heat insulating box - Google Patents

Heat insulating box, and refrigerator with heat insulating box Download PDF

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Publication number
CN103575039A
CN103575039A CN201310339856.7A CN201310339856A CN103575039A CN 103575039 A CN103575039 A CN 103575039A CN 201310339856 A CN201310339856 A CN 201310339856A CN 103575039 A CN103575039 A CN 103575039A
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Prior art keywords
heat insulating
insulation material
insulating box
heat insulation
vacuum heat
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CN201310339856.7A
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CN103575039B (en
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难波章弘
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Mitsubishi Electric Corp
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Mitsubishi Electric Corp
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D23/00General constructional features
    • F25D23/06Walls
    • F25D23/062Walls defining a cabinet
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2201/00Insulation
    • F25D2201/10Insulation with respect to heat
    • F25D2201/14Insulation with respect to heat using subatmospheric pressure

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Refrigerator Housings (AREA)

Abstract

The invention relates to a heat insulating box, and a refrigerator with the heat insulating box. compared with a former heat insulating box, the heat insulating box can restrain thermal bridge phenomeon in a vacuum thermal insulation material and saves energy more than ever. The heat insulating box (8) is provided with: an inner box (10); outer box (9); and vacuum heat insulating materials (1) and a foamed heat insulating material (11), which are filled into the space between the inner box (10) and the outer box (9). A portion of the lower part of the heat insulating box (8) is recessed inward to form a machine compartment (13) in which a compressor (31) is disposed. A single bent vacuum heat insulating material (1) is disposed so as to extend from the bottom (15) of the heat insulating box (8) to the upright wall (14) of the machine compartment (13), the upright wall (14) being raised from the bottom (15). A protrusion (16a) which protrudes to the inner box (10) side is formed on the outer box (9) in the area thereof which constitutes at least the upright wall (14). The vacuum heat insulating material (1) which is provided so as to extend from the bottom (15) to the upright wall (14) is provided so as to be in contact with the protrusion (16a) and is disposed within the upright wall (14) so as to be away a predetermined distance from the outer box (9) excluding the protrusion (16a).

Description

Heat insulating box and possess the refrigerator of this heat insulating box
Technical field
The present invention relates to the refrigerator that possesses the heat insulating box of foamed heat-insulating material and vacuum heat insulation material and possess this heat insulating box.
Background technology
In recent years, from the viewpoint of the security of the environment of preserving our planet, nuclear power plant, always for saving resource, energy-conservation, especially power saving is carried out various research.
Especially under the angle of energy-conservation, power saving, develop the technology that vacuum heat insulation material is equipped on to heat insulating box always, in No. 4778996 communique of Japan Patent, recording the technology that the bending of a slice vacuum heat insulation material is used.
Fig. 5 means the cutaway view of the structure of common vacuum heat insulation material.
Vacuum heat insulation material 1 forms two outer packaging materials 4 overlapping and make the bag-shaped of a part of peripheral part opening, in the inside of this bag, pack core 2 and drier 3 into, after the inside of bag is evacuated, make peristome deposited, form thus the structure that keeps vacuum.Thus, the pyroconductivity of vacuum heat insulation material 1 is 0.0020W/mK left and right, compares with the foamed heat-insulating materials such as polyurethane foam part that use as heat-barrier material all the time, realizes the heat-proof quality of approximately 10 times.
At this, outer packaging material 4 comprises: for example, and for deposited sealant 5, prevent steam etc. to the gas barrier layer 6 of vacuum heat insulation material 1 interior intrusion and prevent the protective layer 7 that outer packaging material 4 is impaired.Wherein, described gas barrier layer 6 is used aluminium.Therefore, in vacuum heat insulation material 1, confirmation has the face as the side to vacuum heat insulation material 1 to transmit when hot, heat from form this face the aluminium of gas barrier layer 6 of packaging material 4 to the aluminium transmission of gas barrier layer 6 of outer packaging material 4 that forms the opposing party's face, heat is around the heat bridge phenomenon of the face of the opposing party to vacuum heat insulation material 1.Thereby if produce heat bridge phenomenon, the actual effect Area Ratio of vacuum heat insulation material 1 seems little.Degree because of the kind of outer packaging material 4 different different, but the in the situation that of disposing vacuum heat insulation material 1 in polyurethane foam, if use the words of the vacuum heat insulation material 1 below width 200mm, heat based on heat bridge phenomenon is invaded the heat intrusion amount being greater than based on vacuum heat insulation material 1 and is reduced, and becomes reverse effect.
Method as suppressing heat bridge phenomenon, can suppress heat bridge phenomenon by increasing the area of every vacuum heat insulation material 1.Therefore, when when step part carries vacuum heat insulation material, use and vacuum heat insulation material 1 is divided into a plurality of comparing, by the using method of the more efficient vacuum heat insulation material 1 of 1 bending of a slice vacuum heat insulation material lift-launch.
Technical literature formerly
Patent documentation
Patent documentation 1: No. 4778996 communique of Japan Patent
Summary of the invention
The problem that invention will solve
Yet, in the situation that vacuum heat insulation material 1 is directly attached to the wall of the interior case, outer container etc. that form heat insulating box, the edge of vacuum heat insulation material 1 contacts with this wall, because the aluminium of the gas barrier layer 6 of outer packaging material 4 easily absorbs the temperature of this wall from the edge of vacuum heat insulation material 1, therefore easily produce heat bridge phenomenon, exist the heat-proof quality of heat insulating box to reduce such problem.
The present invention is in order to solve problem as described above, and its object is the refrigerator that heat insulating box is provided and possesses this heat insulating box, and this heat insulating box vacuum heat insulation material that can be suppressed at compared with the past produces heat bridge phenomenon, and more energy-conservation than in the past.
Solve the technical scheme of problem
Heat insulating box involved in the present invention possesses: interior case, outer container, the vacuum heat insulation material of filling in the space between interior case and outer container and foamed heat-insulating material, a part for bottom falls in towards inner side, be formed with the Machine Room for compressor configuration, wherein, in the bottom of this heat insulating box with erect the inside of wall of the described Machine Room of setting from this bottom, from described bottom until described wall disposes the vacuum heat insulation material of a bending tablet, described outer container forms at least one outstanding first protuberance of described inner box side in the scope that at least forms described wall, the described vacuum heat insulation material that is always set to described wall from described bottom contacts and is arranged between described interior case and described outer container with described the first protuberance, in described wall, partly separate the distance configuration of regulation with the described outer container of described vacuum heat insulation material except described the first protuberance.
In addition, refrigerator involved in the present invention possesses: heat insulating box and cooling device as described in the present invention, this cooling device have air that storeroom that compressor and subtend be formed at described heat insulating box supplies with carry out cooling, by the compressor configuration of described cooling device in described Machine Room.
Invention effect
The present invention outside box-shaped becomes the first side-prominent protuberance of inside case.And the present invention makes vacuum heat insulation material contact and be arranged between interior case and outer container with the first protuberance in the scope that is formed with the first protuberance.Therefore, in the present invention, owing to being configured in the edge of the vacuum heat insulation material of this scope, do not contact with the wall of outer container, interior case, therefore compared with the pastly can suppress heat bridge phenomenon.Therefore, the present invention can obtain than in the past more energy-conservation heat insulating box and possess the refrigerator of this heat insulating box.
Particularly, the present invention partly forms the first protuberance at the outer container that forms the wall of Machine Room, makes vacuum heat insulation material contact and be arranged between interior case and outer container with the first protuberance in wall.At this, the wall of Machine Room be because compressor causes temperature, easily raise, with heat insulating box inner (space of the inner circumferential side of interior case be for example storeroom in the situation that of refrigerator) between the temperature difference part that easily change is large.The present invention is due to the hot intrusion amount that can reduce from the part of the wall of above-mentioned Machine Room, therefore can obtain more energy-conservation heat insulating box and possess the refrigerator of this heat insulating box.
In addition, the present invention does not increase new parts and just can prevent that the edge of vacuum heat insulation material from contacting with the wall of outer container, interior case.Therefore, the present invention can obtain more cheap more energy-conservation heat insulating box compared with the past and possess the refrigerator of this heat insulating box.
Accompanying drawing explanation
Fig. 1 means the side sectional view of the refrigerator that embodiments of the present invention 1 are related.
Fig. 2 is the key diagram (stereogram) for the manufacturing process of the heat insulating box that embodiments of the present invention 1 are related is described.
Fig. 3 means near the enlarged drawing (side sectional view) of the major part that the bottom of the refrigerator that present embodiment 1 is related is.
Fig. 4 means near the enlarged drawing (side sectional view) of the major part that the bottom of the refrigerator that present embodiment 2 is related is.
Fig. 5 means the cutaway view of the structure of common vacuum heat insulation material.
The specific embodiment
Below, with reference to accompanying drawing to describing based on heat insulating box of the present invention and the embodiment that possesses the refrigerator of this heat insulating box.
Embodiment 1.
Fig. 1 means the side sectional view of the refrigerator that embodiments of the present invention 1 are related.It should be noted that, the left side of Fig. 1 is the front face side of refrigerator 100.
The heat insulating box 8 of the refrigerator 100 that present embodiment 1 is related mainly comprises: the outer container 9 that forms the outer peripheral face of heat insulating box 8; Vacuum heat insulation material 1 and the foamed heat-insulating material 11 of the space-filling between the inner circumferential side of outer container 9 and the outer circumferential side of interior case 10.Vacuum heat insulation material 1 is arranged on such as the top of heat insulating box 8, left and right sidewall, back part and bottom etc.It should be noted that, vacuum heat insulation material 1 is the vacuum heat insulation material shown in Fig. 5.In addition, foamed heat-insulating material 11 is hard polyurethane foams for example.
Heat insulating box 8 its inside that form like this (inner circumferential side of case 10 namely) are divided by a plurality of demarcation strips 21, coordinate the utilizing mode of user such as refrigerating chamber 22, refrigerating chamber 23 and vegetable compartment 24 and are formed with the different a plurality of storerooms 20 of temperature band.The front openings of above-mentioned each storeroom 20, the peristome in the place ahead of each storeroom 20 opens and closes and by door 25, is sealed freely.
In addition, heat insulating box 8 is formed with the Machine Room 13 that the part of bottom falls in towards front face side (that is to say the inner side of heat insulating box 8) in the bottom of side overleaf.In this Machine Room 13, dispose the compressor 31 of cooling device 30 described later.
Cooling device 30 is by formations such as compressor 31, not shown condensation pipe arrangement, not shown decompressor (expansion valve, capillary etc.) and coolers 32.In the inscape of above-mentioned cooling device 30, compressor 31 and decompressor be located at the Machine Room 13 forming in the rear side bottom of heat insulating box 8.Condensation pipe arrangement is located at for example side surface part of heat insulating box 8.Cooler 32 is located at the cooling chamber 35 being formed with fan grill 36 encirclements by interior case 10.In addition, at this cooling chamber 35, be also provided with for by the cooler fan 38 of being carried to each storeroom 20 by the cooled air of cooler 32.
The heat insulating box 8 of said structure is for example manufactured as follows.First, in advance vacuum heat insulation material 1 is adhesively fixed in outer container 9.Then, outer container 9 and interior case 10 are for example adhesively fixed.Then, as shown in Figure 2, under the rear side that makes heat insulating box 8 state upward, idiomorphism be formed in rear side inlet 18 filling liquid shapes foamed heat-insulating material 11 raw material and carry out foaming, in the space of being filled between outer container 9 and interior case 10 by foamed heat-insulating material 11 thus.
As described above, in Machine Room 13, dispose the compressor 31 of cooling device 30.Therefore,, by making compressor 31 runnings, the temperature in Machine Room 13 raises.Thereby, worry that a large amount of heat 13 erects the wall of setting via the wall 14(of wall that becomes the front side of Machine Room 13 from Machine Room from the bottom of heat insulating box 8) to storeroom 20, flow into.
Therefore, as shown in the following, at the heat insulating box 8 of the related refrigerator 100 of present embodiment 1, be provided with vacuum heat insulation material 1.
Fig. 3 means near the enlarged drawing (side sectional view) of the major part that the bottom of the refrigerator that present embodiment 1 is related is.It should be noted that, the left side of Fig. 3 is the front face side of refrigerator 100.
As shown in Figure 3, the related heat insulating box 8 of present embodiment 1 improves in order to make to become the heat-proof quality of wall 14 of wall of the front side of Machine Room 13, at wall 14, is provided with vacuum heat insulation material 1.At this, if vacuum heat insulation material 1 is formed littlely, easily produce heat bridge phenomenon.Therefore,, in present embodiment 1, the vacuum heat insulation material 1 of being located at the bottom 15 of heat insulating box 8 is formed as parts with the vacuum heat insulation material 1 of being located at wall 14.That is to say, make vacuum heat insulation material 1 bend to roughly L font, this vacuum heat insulation material 15 is configured to wall 14 from bottom always.Thus, can increase the size of vacuum heat insulation material 1 integral body of being located at wall 14, the part that is disposed at wall 14 in the edge of vacuum heat insulation material 1 tails off, and therefore can be suppressed at the heat bridge phenomenon at this vacuum heat insulation material 1 place.
In addition, owing to forming the scope of the wall 14 of outer container 9, face Machine Room 13, so its temperature uprises.Therefore, also worry situation as described below, when when the scope that forms the wall 14 of outer container 9 is pasted vacuum heat insulation material 1, the edge of vacuum heat insulation material 1 contacts with the scope that forms the wall 14 of outer container 9, from this edge, absorb the temperature of the scope of the wall 14 that forms outer container 9, at vacuum heat insulation material, 1 place produces heat bridge phenomenon.Therefore,, in present embodiment 1, in the scope that forms the wall 14 of outer container 9, form the protuberance 16a of side-prominent at least one of case 10 inwardly.In addition, that the leading section of protuberance 16a forms is circular-arc, flat shape etc., even if protuberance 16a forms, contacts the shape that is also difficult to make this vacuum heat insulation material 1 breakage with vacuum heat insulation material 1.And the part that is configured in wall 14 in vacuum heat insulation material 1 sticks on protuberance 16a upper (16a contacts with protuberance).By forming said structure, in wall 14, the distance configuration that outer container 9 parts except protuberance 16a and vacuum heat insulation material 1 separate regulation.Therefore, can prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the wall 14 of outer container 9, thereby can further be suppressed at the heat bridge phenomenon at vacuum heat insulation material 1 place.
At this, protuberance 16a is equivalent to the first protuberance in the present invention.
In addition, in present embodiment 1, in the scope that forms the bottom 15 of outer container 9, also form at least one side-prominent protuberance 16b(of case 10 inwardly in Fig. 3, record four protuberance 16b).In addition, the leading section of protuberance 16b forms circular-arc or flat shape etc., even if protuberance 16b forms, contacts the shape that is also difficult to make this vacuum heat insulation material 1 breakage with vacuum heat insulation material 1.And the part that is configured in bottom 15 in vacuum heat insulation material 1 sticks on protuberance 16b upper (16b contacts with protuberance).By forming said structure, in bottom 15, the distance configuration that outer container 9 parts except protuberance 16b and vacuum heat insulation material 1 separate regulation.Therefore, can prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the bottom 15 of outer container 9, thereby can further be suppressed at the heat bridge phenomenon at vacuum heat insulation material 1 place.
At this, protuberance 16b is equivalent to the second protuberance in the present invention.
Above, in present embodiment 1, in wall 14, the distance configuration that outer container 9 parts except protuberance 16a and vacuum heat insulation material 1 separate regulation, thus prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the wall 14 of outer container 9.Therefore, the heat insulating box 8 that present embodiment 1 is related and possess the refrigerator 100 of this heat insulating box 8 heat that can suppress compared with the past and invade in storeroom 20 via wall 14 from Machine Room 13, thus can be configured to than in the past more energy-conservation.
In addition, in present embodiment 1, in bottom 15, similarly 9 parts of the outer container except protuberance 16b and vacuum heat insulation material 1 separate the distance configuration of regulation, thereby prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the bottom 15 of outer container 9.Therefore, the heat insulating box 8 that present embodiment 1 is related and possess the refrigerator 100 of this heat insulating box 8 heat that can suppress compared with the past and invade in storeroom 20 from outside via bottom 15, thus can be configured to than in the past more energy-conservation.
In addition, in present embodiment 1, when by the outer container of formation wall 14 and bottom 15 9 and vacuum heat insulation material configured separate, use the protuberance 16a and the protuberance 16b that are formed on outer container 9.Therefore, when by the outer container of formation wall 14 and bottom 15 9 and vacuum heat insulation material configured separate, due to without appending new parts, therefore can form the related heat insulating box of present embodiment 18 cheaply and energy-conservation and possess the refrigerator 100 of this heat insulating box 8.
It should be noted that, be any in the formation number of the protuberance 16a shown in present embodiment 1 and protuberance 16b.As long as can, by forming the outer container 9 and vacuum heat insulation material configured separate of wall 14 and bottom 15, also can respectively configure one.Now, preferably near the leading section with vacuum heat insulation material 1, relative position arranges protuberance 16a and protuberance 16b.Thereby contacting between the edge that can more easily prevent vacuum heat insulation material 1 and outer container 9.
Embodiment 2.
Structure to the wall 14 of heat insulating box 8 and bottom 15 configuration vacuum heat insulation materials 1, is not limited in the structure shown in embodiment 1, also can form in for example following mode.It should be noted that, in present embodiment 2, the not special structure of describing is identical with embodiment 1, and identical function, structure are marked identical Reference numeral and described.
Fig. 4 means near the enlarged drawing (side sectional view) of the major part that the bottom of the refrigerator that present embodiment 2 is related is.It should be noted that, the left side of Fig. 4 is the front face side of refrigerator 100.
The related heat insulating box 8 of present embodiment 2 is configured to, and in the scope that forms the bottom 15 of outer container 9, does not form protuberance 16b.In addition, the vacuum heat insulation material 1 that is always configured to wall 14 from bottom 15 near the leading section of part that is disposed at bottom 15, be wound with form banded such as the heat-barrier materials such as flexible polyurethane foams 19.Therefore, from bottom, 15 vacuum heat insulation materials 1 that are always configured to wall 14 are set to the scope (contacting with the scope that forms the bottom 15 of outer container 9) that its part that is disposed at bottom 15 is bonded in the bottom 15 that forms outer container 9.Now, vacuum heat insulation material 1 is wound with heat-barrier material 19 near the leading section of part that is disposed at bottom 15, therefore can prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the bottom 15 of outer container 9, thereby can suppress heat bridge phenomenon.
When foamed heat-insulating material 11 being filled between outer container 9 and interior case 10, if the narrow space of filling-foam heat-barrier material 11, the not filling generation rate of foamed heat-insulating material 11 raises sharp.Therefore, the space requirement of filling-foam heat-barrier material 11 is guaranteed MIN width (for example 5mm).At this, as Embodiment 1 in the situation that the bottom of heat insulating box 8 arranges vacuum heat insulation material 1, need to be at the two space-filling foamed heat-insulating material 11 between vacuum heat insulation material 1 and outer container 9 and between vacuum heat insulation material 1 and interior case 10.Therefore, as Embodiment 1, in the situation that the bottom of heat insulating box 8 arranges vacuum heat insulation material 1, need outer container 9 and the space between interior case 10 at 15 places, bottom to guarantee the space that at least for example width is 10mm on the thickness direction (above-below direction) of bottom 15.On the other hand, as present embodiment 2 in the situation that the bottom of heat insulating box 8 arranges vacuum heat insulation material 1, the space-filling foamed heat-insulating material 11 between vacuum heat insulation material 1 and interior case 10 only.Therefore, as present embodiment 2 in the situation that the bottom of heat insulating box 8 arranges vacuum heat insulation material 1, only need on outer container 9 and the space between interior case 10 thickness direction (above-below direction) in bottom 15 at 15 places, bottom, guarantee the space that for example width is 5mm.Thereby, by form heat insulating box 8 as present embodiment 2, compare with embodiment 1, can reduce the thickness of bottom 15.
Above, in the heat insulating box 8 forming as present embodiment 2 and the refrigerator 100 that possesses this heat insulating box 8, in wall 14, the distance configuration that outer container 9 parts except protuberance 16a and vacuum heat insulation material 1 separate regulation, thus prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the wall 14 of outer container 9.Therefore, with embodiment 1 in the same manner, the heat insulating box 8 that present embodiment 2 is related and possess the refrigerator 100 of this heat insulating box 8 heat that can suppress compared with the past and invade in storeroom 20 via wall 14 from Machine Room 13, thus can form than in the past more energy-conservation.
In addition, in present embodiment 2, near the leading section that is disposed at bottom 15 part of vacuum heat insulation material 1, be wound with heat-barrier material 19, thereby prevent that the edge of vacuum heat insulation material 1 from contacting with the scope of the bottom 15 of formation outer container 9.Therefore, the heat insulating box 8 that present embodiment 2 is related and possess the refrigerator 100 of this heat insulating box 8 heat that also can suppress compared with the past and invade in storeroom 20 from outside via bottom 15, thus can form than in the past more energy-conservation.
In addition, the heat insulating box 8 that present embodiment 2 is related and the refrigerator 100 that possesses this heat insulating box 8 are compared with embodiment 1, can reduce the thickness of the bottom 15 of heat insulating box 8, therefore can not change apparent size and increase the internal capacity of storeroom 20, thereby can improve the taking in property of food etc.
It should be noted that, in present embodiment 2, near the banded heat-barrier material 19 of reeling the leading section that is disposed at bottom 15 part of vacuum heat insulation material 1.But be not limited to this, near the leading section that is disposed at bottom 15 part of vacuum heat insulation material 1, also banded heat-barrier material 19 can be pasted to the scope relative with outer container 9.Even if form like this, also can prevent that the edge of vacuum heat insulation material 1 from contacting with the scope that forms the bottom 15 of outer container 9.
Description of reference numerals is as follows:
1 vacuum heat insulation material, 2 cores, 3 drier, 4 outer packaging materials; 5 sealants, 6 gas barrier layers, 7 protective layers; 8 heat insulating boxes, 9 outer containers, 10 interior casees; 11 foamed heat-insulating materials, 13 Machine Rooms, 14 walls; 15 bottoms, 16a protuberance (the first protuberance), 16b protuberance (the second protuberance); 18 inlets, 19 heat-barrier materials, 20 storerooms; 21 demarcation strips, 22 refrigerating chambers, 23 refrigerating chambers; 24 vegetable compartment, 25,30 cooling devices; 31 compressors, 32 coolers, 35 cooling chambers; 36 fan grills, 38 cooler fans, 100 refrigerators.

Claims (6)

1. a heat insulating box, this heat insulating box possesses: vacuum heat insulation material and the foamed heat-insulating material of in interior case, outer container, the space between interior case and outer container, filling,
A part for bottom inwards falls in, and forms the Machine Room for compressor configuration, it is characterized in that,
In the bottom of this heat insulating box with erect the inside of wall of the described Machine Room of setting from this bottom, from described bottom until described wall disposes the vacuum heat insulation material of a bending tablet,
Described outer container forms at least one outstanding first protuberance of described inner box side in the scope that at least forms described wall,
The described vacuum heat insulation material that is always set to described wall from described bottom contacts and is arranged between described interior case and described outer container with described the first protuberance,
In described wall, described vacuum heat insulation material and the described outer container except described the first protuberance partly separate the distance configuration of regulation.
2. heat insulating box according to claim 1, is characterized in that,
Second protuberance of at least one that described outer container is given prominence to described inner box side in the scope formation that forms described bottom,
From described bottom, be set to the described vacuum heat insulation material of described wall always, be arranged between described interior case and described outer container, the part of being located at described wall is contacted with described the first protuberance, the part of being located at described bottom contacts with described the second protuberance,
In described wall, described vacuum heat insulation material and the described outer container except described the first protuberance partly separate the distance configuration of regulation, in described bottom, described vacuum heat insulation material and the described outer container except described the second protuberance partly separate the distance configuration of regulation.
3. heat insulating box according to claim 1, is characterized in that,
Described outer container does not form to the outstanding protuberance of described inner box side in the scope that forms described bottom,
From described bottom, be set to the described vacuum heat insulation material of described wall always, near the leading section of part that is disposed at described bottom, be wound with banded heat-barrier material, or near the leading section of part that is disposed at described bottom, in the scope relative with described outer container, be pasted with banded heat-barrier material.
4. according to the heat insulating box described in any one in claims 1 to 3, it is characterized in that,
Described the first protuberance be arranged on be disposed at the leading section of described vacuum heat insulation material part of described wall near relative position.
5. heat insulating box according to claim 2, is characterized in that,
Described the second protuberance be arranged on be disposed at the leading section of described vacuum heat insulation material part of described bottom near relative position.
6. a refrigerator, is characterized in that,
Described refrigerator possesses:
Heat insulating box as claimed in claim 1 and cooling device, this cooling device have air that storeroom that compressor and subtend be formed at described heat insulating box supplies with carry out cooling,
By the compressor configuration of described cooling device in described Machine Room.
CN201310339856.7A 2012-08-08 2013-08-07 Heat insulating box and possess the refrigerator of this heat insulating box Expired - Fee Related CN103575039B (en)

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Application Number Priority Date Filing Date Title
JP2012176132A JP5822798B2 (en) 2012-08-08 2012-08-08 Insulated box and refrigerator provided with the insulated box
JP2012-176132 2012-08-08

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Publication Number Publication Date
CN103575039A true CN103575039A (en) 2014-02-12
CN103575039B CN103575039B (en) 2016-10-12

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CN201310339856.7A Expired - Fee Related CN103575039B (en) 2012-08-08 2013-08-07 Heat insulating box and possess the refrigerator of this heat insulating box

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CN (2) CN203478809U (en)
AU (1) AU2013300887B2 (en)
SG (1) SG11201500008YA (en)
TW (1) TWI544195B (en)
WO (1) WO2014024601A1 (en)

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WO2014024601A1 (en) 2014-02-13
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