CN103575039B - Heat insulating box and possess the refrigerator of this heat insulating box - Google Patents

Abstract

The present invention relates to a kind of heat insulating box and possess the refrigerator of this heat insulating box, this heat insulating box is compared with the past can be suppressed to produce heat bridge phenomenon and the most more energy efficient at vacuum heat insulation material.Heat insulating box (8) possesses interior case (10), outer container (9), space between are filled vacuum heat insulation material (1) and foamed heat-insulating material (11), a part for bottom falls in inner side and forms the Machine Room (13) that configures for compressor (31).In the bottom (15) of this heat insulating box (8) and erect the wall (14) of Machine Room of setting bottom this from bottom until wall is configured with the vacuum heat insulation material of a bending tablet.It addition, outer container is formed with, in the scope at least constituting wall, the protuberance (16a) that inside case side is prominent.Arranging the vacuum heat insulation material of wall and protrusions contact from bottom always and arrange, in wall, vacuum heat insulation material and the outer container in addition to protuberance separate the distance configuration of regulation.

Description

Heat insulating box and possess the refrigerator of this heat insulating box

Technical field

The present invention relates to possess foamed heat-insulating material and vacuum heat insulation material heat insulating box and Possesses the refrigerator of this heat insulating box.

Background technology

In recent years, from environment of preserving our planet, nuclear power plant safety from the viewpoint of, exist always For saving resource, energy-conservation, especially power saving carries out various research.

Especially under the angle of energy-conservation, power saving, developing always and vacuum heat insulation material is being joined It is located at the technology of heat insulating box, is having a piece of described in No. 4778996 publications of Japanese Patent No. Vacuum heat insulation material bending and carry out the technology used.

Fig. 5 is the sectional view of the structure representing common vacuum heat insulation material.

Vacuum heat insulation material 1 is formed as outer for two panels packaging material 4 overlap is made the peripheral part of a part Opening bag-shaped, loads core 2 and desiccant 3, by the inside of bag in the inside of this bag It is evacuated and makes peristome deposition afterwards, be consequently formed the structure into keeping vacuum.Thus, very The pyroconductivity of empty heat-barrier material 1 is about 0.0020W/mK, and all the time as heat insulation Material and the foamed heat-insulating material such as polyurethane foam foam member of using are compared, it is achieved about 10 times heat insulation Performance.

Here, outer packaging material 4 includes: such as, for deposition sealant 5, prevent steam Deng the gas barrier layer 6 invaded in vacuum heat insulation material 1 and prevent the impaired protection of outer packaging material 4 Layer 7.Wherein, described gas barrier layer 6 uses aluminum.Therefore, in vacuum heat insulation material 1, it was demonstrated that Having when to the face of a side of vacuum heat insulation material 1 transmission heat, heat is from the outer packaging material constituting this face The aluminum of the gas barrier layer 6 of 4 transmits to the aluminum of the gas barrier layer 6 of the outer packaging material 4 in the face constituting the opposing party, Heat is around the heat bridge phenomenon in the face of the opposing party of vacuum heat insulation material 1.Thus, if producing heat bridge Phenomenon, then the actual effect area ratio of vacuum heat insulation material 1 seems little.Degree is because of outer packaging material 4 Kind is different and different, but is configured with the feelings of vacuum heat insulation material 1 in polyurethane foam Under condition, if if using the vacuum heat insulation material 1 of below width 200mm, existing based on heat bridge The heat of elephant invades and reduces more than hot intrusion volume based on vacuum heat insulation material 1, becomes contrary effect Really.

As the method for suppression heat bridge phenomenon, can be by increasing every vacuum heat insulation material 1 Area suppresses heat bridge phenomenon.Therefore, when carrying vacuum heat insulation material at step part, make With with vacuum heat insulation material 1 is divided into multiple compared with, by the bending of a piece of vacuum heat insulation material 1 And the using method of the more efficient vacuum heat insulation material 1 carried.

Citation

Patent documentation

Patent documentation 1: No. 4778996 publications of Japanese Patent No.

Summary of the invention

The problem that invention is to be solved

But, it is placed directly against the composition interior case of heat insulating box, outer container etc. at vacuum heat insulation material 1 Wall and in the case of the edge of vacuum heat insulation material 1 contacts with this wall, due to outer packaging material The aluminum of the gas barrier layer 6 of 4 easily from the temperature of this wall of edge absorption of vacuum heat insulation material 1, The most easily producing heat bridge phenomenon, the heat-proof quality that there is heat insulating box reduces such problem.

The present invention is to solve problem as described above, its object is to provide heat insulating box and tool The refrigerator of this heat insulating box standby, this heat insulating box is compared with the past can be suppressed at vacuum insulation material Material produces heat bridge phenomenon, and the most more energy efficient.

Solve the technical scheme of problem

Heat insulating box involved in the present invention possesses: interior case, outer container, between interior case and outer container Space in fill vacuum heat insulation material and foamed heat-insulating material, a part for bottom is towards interior Side falls in, and is formed for the Machine Room of compressor configuration, wherein, at the end of this heat insulating box Portion and erect the inside of wall of described Machine Room of setting bottom this, from described bottom until Described wall is configured with the vacuum heat insulation material of a bending tablet, described outer container at least constitute described The scope of wall forms at least one first protuberance prominent to described inner box side, from described bottom Described vacuum heat insulation material and described first protrusions contact of described wall is set to always and arranges Between described interior case and described outer container, with described vacuum heat insulation material except institute in described wall State the distance configuration that the described outer container spaced-apart beyond the first protuberance specifies.

It addition, refrigerator involved in the present invention possesses: as described in the present invention heat insulating box and cold Radiator cooler, this chiller has compressor and to the storeroom being formed at described heat insulating box The air of supply cools down, and is configured in described Machine Room by the compressor of described chiller.

Invention effect

Present invention box-shaped outside becomes the first protuberance that inside case side is prominent.And, the present invention is in shape Become to have the scope of the first protuberance to make vacuum heat insulation material and the first protrusions contact and be arranged on interior case and Between outer container.Therefore, in the present invention, owing to being arranged in the vacuum heat insulation material of this scope Edge not wall with outer container, interior case contacts, and the most compared with the past can suppress heat bridge phenomenon. Therefore, the present invention is obtained in that the most more energy efficient heat insulating box and possesses this heat insulating box Refrigerator.

Particularly, the present invention forms the first protuberance in the outer container part of the wall constituting Machine Room, Vacuum heat insulation material and the first protrusions contact is made to be arranged between interior case and outer container in wall. Here, the wall of Machine Room is because compressor causes temperature easily to raise and inside heat insulating box The temperature difference between (space of the inner circumferential side of interior case is storeroom the most in the case of a refrigerator) is held Variable big part.Due to the fact that the part that can reduce the wall from above-mentioned Machine Room Heat intrusion volume, therefore, it is possible to obtain more energy efficient heat insulating box and possess this heat insulating box Refrigerator.

It addition, the present invention do not increase new parts be just prevented from the edge of vacuum heat insulation material with Outer container, the wall contact of interior case.Therefore, the present invention be obtained in that compared with the past more cheap more Energy-conservation heat insulating box and possess the refrigerator of this heat insulating box.

Accompanying drawing explanation

Fig. 1 is the side sectional view representing the refrigerator involved by embodiments of the present invention 1.

Fig. 2 is the manufacture work for the heat insulating box involved by embodiments of the present invention 1 is described The explanatory diagram (axonometric chart) of sequence.

Fig. 3 is the major part of the adjacent bottom portions representing the refrigerator involved by present embodiment 1 Enlarged drawing (side sectional view).

Fig. 4 is the major part of the adjacent bottom portions representing the refrigerator involved by present embodiment 2 Enlarged drawing (side sectional view).

Fig. 5 is the sectional view of the structure representing common vacuum heat insulation material.

Detailed description of the invention

Hereinafter, referring to the drawings to heat insulating box based on the present invention and the ice that possesses this heat insulating box The embodiment of case illustrates.

Embodiment 1.

Fig. 1 is the side sectional view representing the refrigerator involved by embodiments of the present invention 1.Need It is noted that the front face side that left side is refrigerator 100 of Fig. 1.

The heat insulating box 8 of the refrigerator 100 involved by present embodiment 1 specifically include that formation every The outer container 9 of the outer peripheral face of hot tank body 8；The inner circumferential side of outer container 9 and interior case 10 outer circumferential side it Between space fill vacuum heat insulation material 1 and foamed heat-insulating material 11.Vacuum heat insulation material 1 It is arranged on the such as top of heat insulating box 8, left and right sidewall, back part and bottom etc..Need Bright, vacuum heat insulation material 1 is the vacuum heat insulation material shown in Fig. 5.It addition, foaming every Hot material 11 is such as hard polyurethane foams.

The heat insulating box 8 so constituted its internal (inner circumferential side of case 10 in namely) is multiple Demarcation strip divides, and coordinates the utilization of the user such as cold room 22, refrigerating chamber 23 and vegetable compartment 24 Mode and be formed with multiple storerooms 20 that temperature band is different.The front of above-mentioned each storeroom 20 Opening, the peristome opening and closing in the front of each storeroom 20 is closed by door 25 freely.

It addition, the bottom of heat insulating box 8 side overleaf is formed with a part for bottom towards above The Machine Room 13 that side (it is to say, inner side of heat insulating box 8) falls in.In this Machine Room 13 compressors 31 being configured with chiller 30 described later.

Chiller 30 is by compressor 31, not shown condensation pipe arrangement, not shown decompression dress Put (expansion valve, capillary tube etc.) and cooler 32 etc. to constitute.The structure of above-mentioned chiller 30 Become in key element, compressor 31 and decompressor are located at and are formed in the rear side bottom of heat insulating box 8 Machine Room 13.The such as side surface part of heat insulating box 8 is located at by condensation pipe arrangement.Cooler 32 sets In the cooling chamber 35 surrounded with fan grill 36 by interior case 10 and formed.It addition, in this cooling Room 35 be additionally provided with the air after being cooled down by cooler 32 to each storeroom 20 carry cold But device fan 38.

The heat insulating box 8 of said structure manufactures the most as follows.First, in advance by vacuum Heat-barrier material 1 is adhesively fixed in outer container 9.Then, outer container 9 is such as glued with interior case 10 Close fixing.Then, as in figure 2 it is shown, when making the rear side of heat insulating box 8 upward, Self-forming injects the raw material of liquid foamed heat-insulating material 11 also in the inlet 18 of rear side Carry out foaming, thus, foamed heat-insulating material 11 fill between outer container 9 and interior case 10 Space in.

As described above, in Machine Room 13, it is configured with the compressor 31 of chiller 30.Cause This, by making compressor 31 operate, the temperature in Machine Room 13 raises.Thus, worry big The heat of amount from Machine Room 13 via the wall 14 of the wall of the front side becoming Machine Room 13 (from heat insulation The bottom of casing 8 erects the wall of setting) flow into storeroom 20.

Therefore, as shown in the following, the refrigerator 100 involved by present embodiment 1 every Hot tank body 8 is provided with vacuum heat insulation material 1.

Fig. 3 is the major part of the adjacent bottom portions representing the refrigerator involved by present embodiment 1 Enlarged drawing (side sectional view).It should be noted that the left side of Fig. 3 is before refrigerator 100 Side.

As it is shown on figure 3, the heat insulating box 8 involved by present embodiment 1 is in order to become machinery The heat-proof quality of the wall 14 of the wall of the front side of room 13 improves, and is provided with vacuum heat-insulation at wall 14 Material 1.If here, formed less by vacuum heat insulation material 1, the most easily produce heat bridge existing As.Therefore, in present embodiment 1, by be located at the vacuum of the bottom 15 of heat insulating box 8 every Hot material 1 and the vacuum heat insulation material 1 being located at wall 14 are formed as parts.The most just It is to say, makes vacuum heat insulation material 1 bend to substantially L font, by this vacuum heat insulation material the end of from Portion 15 is configured to wall 14 always.Thereby, it is possible to increase the vacuum insulation material being located at wall 14 Expect that the size of 1 entirety, the part being configured at wall 14 in the edge of vacuum heat insulation material 1 tail off, Therefore, it is possible to the heat bridge phenomenon that suppression is at this vacuum heat insulation material 1.

Further, since constitute the scope of the wall 14 of outer container 9 in the face of Machine Room 13, therefore its Temperature uprises.Therefore, also worry situation as described below, when at the wall 14 constituting outer container 9 Scope paste vacuum heat insulation material 1 time, the edge of vacuum heat insulation material 1 with constitute outer container 9 The range contact of wall 14, constitute the scope of the wall 14 of outer container 9 from this edge absorption Temperature, produces heat bridge phenomenon at vacuum heat insulation material 1.Therefore, in present embodiment 1, The convex of prominent at least one in case 10 side inwardly is formed in the scope of wall 14 constituting outer container 9 Portion 16a.It addition, the leading section of protuberance 16a is formed as arc-shaped, flat shape etc., protuberance Also it is difficult to make this vacuum heat insulation material 1 break even if 16a is formed as contacting with vacuum heat insulation material 1 The shape damaged.And, vacuum heat insulation material 1 is arranged in the bonding partially of wall 14 at protuberance 16a upper (contacting with protuberance 16a).By being formed as said structure, in wall 14, remove Outer container 9 part beyond protuberance 16a and vacuum heat insulation material 1 separate the distance configuration of regulation. Therefore, it is possible to prevent the edge of vacuum heat insulation material 1 and the scope of the wall 14 constituting outer container 9 Contact such that it is able to suppression heat bridge phenomenon at vacuum heat insulation material 1 further.

Here, protuberance 16a is equivalent to the first protuberance in the present invention.

Additionally, in present embodiment 1, the scope in the bottom 15 constituting outer container 9 is also formed At least one protuberance 16b that case 10 side is prominent inwardly (in figure 3, records four protuberances 16b).It addition, the leading section of protuberance 16b is formed as arc-shaped or flat shape etc., protuberance 16b Also it is difficult to make this vacuum heat insulation material 1 breakage even if being formed as contacting with vacuum heat insulation material 1 Shape.And, vacuum heat insulation material 1 is arranged in the bonding partially of bottom 15 at protuberance 16b Upper (contacting with protuberance 16b).By being formed as said structure, in bottom 15, except protuberance Outer container 9 part beyond 16b and vacuum heat insulation material 1 separate the distance configuration of regulation.Therefore, It is prevented from the edge of vacuum heat insulation material 1 and the range contact of the bottom 15 constituting outer container 9, It is thus possible to suppress the heat bridge phenomenon at vacuum heat insulation material 1 further.

Here, protuberance 16b is equivalent to the second protuberance in the present invention.

Above, the outer container in present embodiment 1, in wall 14, in addition to protuberance 16a 9 parts and vacuum heat insulation material 1 separate the distance configuration of regulation, thus prevent vacuum insulation material The edge of material 1 and the range contact of the wall 14 of composition outer container 9.Therefore, present embodiment 1 Involved heat insulating box 8 and possess that the refrigerator 100 of this heat insulating box 8 is compared with the past can Suppression heat invades in storeroom 20 via wall 14 from Machine Room 13 such that it is able to be configured to The most more energy efficient.

It addition, in present embodiment 1, in bottom 15, similarly in addition to protuberance 16b Outer container 9 part and vacuum heat insulation material 1 separate the distance configuration of regulation, thus prevent vacuum The range contact of the bottom 15 of the edge of heat-barrier material 1 and composition outer container 9.Therefore, this enforcement Heat insulating box 8 involved by mode 1 and possess the refrigerator 100 of this heat insulating box 8 and conventional phase Invade storeroom 20 in via bottom 15 from outside than heat can be suppressed such that it is able to structure Become the most more energy efficient.

It addition, in present embodiment 1, when constituting wall 14 and the outer container 9 of bottom 15 During with vacuum heat insulation material configured separate, use protuberance 16a and the protuberance being formed at outer container 9 16b.Therefore, when the outer container 9 constituting wall 14 and bottom 15 is separated with vacuum heat insulation material During configuration, due to without adding new parts, therefore, it is possible to cheap and energy-conservation landform cost is implemented Heat insulating box 8 involved by mode 1 and possess the refrigerator 100 of this heat insulating box 8.

It should be noted that protuberance 16a shown in present embodiment 1 and protuberance 16b It is any for forming number.As long as wall 14 and the outer container 9 of bottom 15 and vacuum can will be constituted Heat-barrier material configured separate, it is also possible to each configuration one.Now, preferably with vacuum insulation material Material 1 leading section near relative to position protuberance 16a and protuberance 16b is set.It is thus possible to more It is easily prevented from contacting between the edge of vacuum heat insulation material 1 and outer container 9.

Embodiment 2.

The structure of vacuum heat insulation material 1 is configured to the wall 14 of heat insulating box 8 and bottom 15, It is not limited to the structure shown in embodiment 1, it is also possible to constitute for example, in the following way. It should be noted that the structure not described especially in present embodiment 2 and embodiment 1 phase With, identical function, structure are marked identical reference and illustrate.

Fig. 4 is the major part of the adjacent bottom portions representing the refrigerator involved by present embodiment 2 Enlarged drawing (side sectional view).It should be noted that the left side of Fig. 4 is before refrigerator 100 Side.

Heat insulating box 8 involved by present embodiment 2 is configured to, in the bottom constituting outer container 9 The scope of 15 is formed without protuberance 16b.It addition, be configured to the true of wall 14 from bottom 15 always Empty heat-barrier material 1 is wound with near the leading section of part being configured at bottom 15 and is formed as banding The heat-barrier material 19 such as such as flexible polyurethane foams.Therefore, it is configured to from bottom 15 always The vacuum heat insulation material 1 of wall 14 is set to its part being configured at bottom 15 and is bonded in composition The scope (with the range contact of the bottom 15 constituting outer container 9) of the bottom 15 of outer container 9.Now, Vacuum heat insulation material 1 is wound with heat-barrier material near the leading section of part being configured at bottom 15 19, therefore, it is possible to prevent the edge of vacuum heat insulation material 1 and the model of the bottom 15 constituting outer container 9 Enclose contact such that it is able to suppression heat bridge phenomenon.

When foamed heat-insulating material 11 is filled between outer container 9 and interior case 10, send out if filling Bubble heat-barrier material 11 narrow space, then foamed heat-insulating material 11 be not filled by generation rate drastically Ground raises.Therefore, the space requirement of filling-foam heat-barrier material 11 guarantees MIN width (such as 5mm).Here, arrange very in bottom at heat insulating box 8 as Embodiment 1 In the case of empty heat-barrier material 1, need between vacuum heat insulation material 1 and outer container 9 and vacuum The space filling-foam heat-barrier material 11 of both between heat-barrier material 1 and interior case 10.Therefore, The situation of vacuum heat insulation material 1 is set in bottom at heat insulating box 8 as Embodiment 1 Under, bottom needs, space between outer container 9 and interior case 10 at 15 is in the thickness side of bottom 15 On (above-below direction), guarantee that the most such as width is the space of 10mm.On the other hand, exist As present embodiment 2, bottom at heat insulating box 8 arranges the situation of vacuum heat insulation material 1 Under, the only space filling-foam heat-barrier material 11 between vacuum heat insulation material 1 and interior case 10 ?.Therefore, arrange in bottom at heat insulating box 8 as present embodiment 2 vacuum every In the case of hot material 1, only need to space between outer container 9 and the interior case 10 at bottom 15 The thickness direction (above-below direction) of bottom 15 guaranteeing, the space that such as width is 5mm is Can.Thus, by forming heat insulating box 8 as present embodiment 2, with embodiment 1 Compare, it is possible to the thickness of 15 bottom reduction.

Above, the heat insulating box 8 that constitutes as present embodiment 2 and possess this heat insulating box In the refrigerator 100 of 8, in wall 14, outer container 9 part in addition to protuberance 16a and vacuum Heat-barrier material 1 separates the distance configuration of regulation, thus prevent the edge of vacuum heat insulation material 1 with Constitute the range contact of the wall 14 of outer container 9.Therefore, identically with embodiment 1, this reality Execute the heat insulating box 8 involved by mode 2 and possess the refrigerator 100 of this heat insulating box 8 with in the past Compare and heat can be suppressed to invade in storeroom 20 via wall 14 from Machine Room 13, it is thus possible to Enough be formed as the most more energy efficient.

It addition, in present embodiment 2, it is configured at bottom 15 at vacuum heat insulation material 1 Part leading section near be wound with heat-barrier material 19, thus prevent vacuum heat insulation material 1 The range contact of the bottom 15 of edge and composition outer container 9.Therefore, involved by present embodiment 2 Heat insulating box 8 and possess that the refrigerator 100 of this heat insulating box 8 is compared with the past also is able to suppression Heat invades in storeroom 20 via bottom 15 from outside such that it is able to be formed as than ever More energy efficient.

It addition, heat insulating box 8 involved by present embodiment 2 and possess this heat insulating box 8 Refrigerator 100 is compared with embodiment 1, it is possible to reduce the thickness of the bottom 15 of heat insulating box 8, Therefore, it is possible to do not change apparent size and increase the internal capacity of storeroom 20 such that it is able to improve The storage of food etc..

It should be noted that in present embodiment 2, being configured at of vacuum heat insulation material 1 The heat-barrier material 19 of winding banding near the leading section of the part of bottom 15.But it is not limited to this, Near the leading section of the part being configured at bottom 15 of vacuum heat insulation material 1, it is also possible to will band The heat-barrier material 19 of shape pastes the scope relative with outer container 9.Even if so constituting, it is also possible to Prevent the edge of vacuum heat insulation material 1 and the range contact of the bottom 15 constituting outer container 9.

Description of reference numerals is as follows:

1 vacuum heat insulation material, 2 cores, 3 desiccant, 4 outer packaging materials, 5 seal Layer, 6 gas barrier layers, 7 protective layers, 8 heat insulating boxes, 9 outer containers, case in 10,11 Foamed heat-insulating material, 13 Machine Rooms, 14 walls, bottom 15,16a protuberance (the One protuberance), 16b protuberance (the second protuberance), 18 inlets, 19 heat-barrier materials, 20 storages Hiding room, 22 cold rooms, 23 refrigerating chambers, 24 vegetable compartment, 25,30 cool down Device, 31 compressors, 32 coolers, 35 cooling chambers, 36 fan grills, 38 is cold But device fan, 100 refrigerators.

Claims (4)

1. a heat insulating box, this heat insulating box possesses: interior case, outer container, at interior case and outer container Between space in fill vacuum heat insulation material and foamed heat-insulating material,

A part for bottom inwards falls in, and forms the Machine Room for compressor configuration, and it is special Levy and be,

Wall in the bottom of this heat insulating box and the described Machine Room erecting setting bottom this Inside, from described bottom until described wall is configured with the vacuum heat insulation material of a bending tablet,

Described outer container is formed prominent extremely to described inner box side in the scope at least constituting described wall Few first protuberance,

The described vacuum heat insulation material and described first of described wall is set from described bottom always Protrusions contact and be arranged between described interior case and described outer container,

In described wall, described vacuum heat insulation material with described in addition to described first protuberance The distance configuration that outer container spaced-apart specifies,

Wind near the leading section of the part being configured at described bottom of described vacuum heat insulation material There are the heat-barrier material of banding, or the portion being configured at described bottom at described vacuum heat insulation material Near the leading section divided, it is pasted with the heat-barrier material of banding in the scope relative with described outer container.

Heat insulating box the most according to claim 1, it is characterised in that

Described outer container is constituting the scope of described bottom, from described bottom until described wall The scope of described vacuum heat insulation material is set, is formed without the protuberance prominent to described inner box side.

Heat insulating box the most according to claim 1 and 2, it is characterised in that

Described first protuberance is arranged on and is configured at the described vacuum heat insulation material part of described wall Leading section near relative to position.

4. a refrigerator, it is characterised in that

Described refrigerator possesses:

Heat insulating box and chiller, this cooling as claimed any one in claims 1 to 3 Device has compressor and carries out the air supplied to the storeroom being formed at described heat insulating box Cooling,

The compressor of described chiller is configured in described Machine Room.