TW201228900A - Adiabatic cabinet - Google Patents

Abstract

An adiabatic cabinet is provided, which has sufficient adiabatic properties and rigidity. The adiabatic cabinet 1 has a top-wall portion 1a, a bottom-wall portion 1b, a left-wall portion 1c, a right-wall portion 1d and an inner-wall portion 1e, wherein both or one of the top-wall portion 1a and the bottom-wall portion 1b are or is constructed by filling a space between each housing 2, 6 and inner housings 3, 7 with first vacuum adiabatic panels 4, 8 and a foaming adiabatic material 5 that is filled to inner sides of the first vacuum adiabatic panels 4, 8, and the left-wall portion 1c, the right-wall portion 1d and the inner-wall portion 1e are constructed by filling a space between each outer housing 17 and inner housings 12, 18 with second vacuum adiabatic panels 19.

Description

201228900 L VI. Description of the Invention: [Technical Field of the Invention] An embodiment of the present invention relates to a heat insulating box (cabinet) suitable for use in, for example, a refrigerator or a heating box. [Prior Art] In recent years, household refrigerators have been increasing in capacity, but this capacity increase is not achieved by increasing the size of the peripheral wall of the heat insulating box of the refrigerator by increasing the size of the refrigerator. At this time, even if the thickness of the peripheral wall of the heat insulating box is thin, the case must sufficiently ensure the heat insulating performance. For this reason, in addition to filling the foamed heat insulating material, the case is also constructed using a vacuum heat insulating panel, and further, a heat insulating box that fills only the peripheral wall of the case with a vacuum heat insulating panel (for example) Refer to Patent Document 1 and Patent Document 2). The vacuum heat insulating panel is, for example, a panel in which a glass fiber of fine glass fiber, that is, glass wool (glass w〇〇1) is formed into a mat shape as a core material. Inserted into a gas barrier container made of a laminate film of aluminum foil and synthetic resin, the inside was evacuated and the opening was blocked to maintain the inside of the gas barrier container in a vacuum decompression state. The vacuum heat insulating panel is thin and has low heat conductivity = (insulation property), so that by using the vacuum heat insulating panel, high heat insulating performance can be obtained. [PRIOR ART DOCUMENT] [Patent Document 1] [Patent Document 1] Japanese Patent No. 2728318 4 201228900 专利 [Patent Document 2] Japanese Patent Laid-Open No. 14 For the combined use of the above-mentioned filaments, a foamed heat insulating material = a void body In the case of the heat insulating box of the peripheral wall of the box body, the heat insulating box of the insulating panel is inferior to the heat insulating panel, and accordingly, only the true peripheral wall thickness is used, and thus the box body cannot be sufficiently obtained; = In the afternoon, the thick box is another - in the case of the heat insulation box Zhao, which uses only the vacuum insulation panel, the heat insulation performance is higher than that of the heat insulation box of the foamed heat insulation material and the second heat panel. The thickness of the partition wall can sufficiently obtain the inner circumference of the casing but the other side Φ, and there is a problem that the rigidity of the casing cannot be sufficiently obtained. SUMMARY OF THE INVENTION Accordingly, the present invention provides a heat insulating box that can be suitably applied to, for example, a refrigerator, which can sufficiently obtain heat insulating properties and rigidity. In the heat insulating box of the present embodiment, the top wall portion, the bottom wall portion, the left side wall portion, the right side wall portion, and the inner wall portion are included, and the top wall portion and the bottom wall portion are At least one of the outer casing and the inner casing is formed by filling a first vacuum insulation panel and a foam heat insulating material filled inside or outside the first vacuum insulation panel, The left side wall portion, the right side wall portion, and the inner wall portion are formed by filling the respective outer casing and the inner casing with a second vacuum heat insulating panel. In this way, a heat-insulating box capable of sufficiently obtaining heat insulation performance and rigidity is provided. [Embodiment] 201228900 - A violent storm (hereinafter, an embodiment will be described with reference to the drawings. First, in FIG. 3, a heat-insulating box is shown. In particular, the heat insulating box 1 of the refrigerator is shown. As shown in FIG. 4, the insulating wall 1 is formed into a top wall portion 1a, a bottom wall portion lb, a left side wall portion lc, and a right side wall portion, respectively. W and the inner wall portion le are formed by assembling the wall portions, and the heat insulating box body 1 as a whole has a box shape of a substantially rectangular parallelepiped having a front surface as shown in Fig. 3. The wall portion is the top wall The portion la, the bottom wall portion lb, the left side wall portion lc, the right side wall portion Id, and the inner wall portion le are detailed. As shown in Fig. 1, the top wall portion 1a includes: a top wall of the outer casing 2 and the inner casing 3; The heat insulating panel (first vacuum heat insulating panel) 4 is disposed between the outer casing 2 and the inner casing 3, and the foamed heat insulating material 5 is filled in the inner side (the inner casing 3 side) space of the vacuum heat insulating panel 4. The bottom wall portion 1b also includes: a casing 6 and an inner casing 7 of the top wall; and a vacuum insulation panel ((first vacuum insulation panel)) 8, 9, 10 Arranged between the peripheral 6 and the inner casing 7; and a foamed heat insulating material 5 filled in the inner side (the inner casing 7 side) of the vacuum heat insulating panels 8, 9, 10. Relative to the top wall portion la, bottom The wall portion 1b and the left side wall portion ic include a casing 11 and an inner casing 12 of the left side wall portion 1c as shown in FIG. 2, and a true heat insulation panel 13 disposed in a space between the outer casing 11 and the inner casing 12. Further, the space between the outer casing 11 and the inner casing 12 is filled only by the vacuum heat insulating panel ((second vacuum heat insulating panel)) 13. The right side wall portion Id is similarly, as shown in Fig. 2, including: right The outer casing 14 and the inner casing 15 of the side wall portion Id and the vacuum heat insulating panel (second vacuum 6 201228900 thermal insulation panel) 16 are disposed in the space between the outer casing 14 and the inner casing 15. And the outer casing 14 and the inner casing The space between the shells 15 is only filled by the vacuum insulation panel 16.

Further, as shown in FIG. 1, the inner wall portion le includes a casing 17 and an inner casing 18 of the inner wall portion le, and a vacuum heat insulating panel (second vacuum heat insulating panel) 19 disposed inside the casing 17 and Within the space between the shells 18. And the space between the outer casing 17 and the inner casing 18 is filled only by the vacuum insulation panel 19. In this case, each of the outer casings 2, 6, 11, 14, and 17 is made of, for example, a steel plate or the like, and each of the inner casings 3, 7, 12, 15, and 18 is made of, for example, plastic. Further, since the top wall portion 1a has a flat wall shape, the outer casing 2 and the inner casing 3 also have a substantially flat shape. The vacuum heat insulating panel 4 is attached to the inner surface of the outer casing 2. However, since the vacuum heat insulating panel 4 is slightly smaller than the outer casing 2, there is a portion where the vacuum heat insulating panel 4 is not attached to the entire peripheral portion of the front and rear. Further, the outer casing 2 and the inner casing 3 are joined to each of the front edge portions, and the inclined portion 20 shown in Fig. 5 is formed on the inner casing 3 over the entire length of the left and right sides in the rear edge portion, and the left side edge portion and The right side edge portion is formed with the inclined portions 21 and 22 shown in FIG. 6 over the entire front and rear sides of the inner casing 3, and the inner casing 3 is separated from the vacuum heat insulating panel 4. The bottom wall portion 1b is formed as a stepped wall having a lower horizontal portion 23, a vertical portion 24 standing from the rear edge portion of the lower horizontal portion 23, and an upper edge portion from the vertical portion 24, as shown in FIG. A machine room 26 is formed on the upper horizontal portion 25 extending rearward, and the machine chamber 26 is capable of accommodating and arranging a compressor (c〇mpress〇r) or the like that is cooled. 201228900.1 Thus, the outer casing 6 and the inner casing 7 of the bottom wall portion 1b are also stepped plates, and the vacuum insulation panels are respectively attached to the lower horizontal portion 23 and the vertical portion 24 and the upper horizontal portion 25 on the inner surface of the outer casing 6 8, 9, 10. Here, the vacuum heat insulating panel 8 is formed slightly smaller than the lower horizontal portion, and the vacuum heat insulating panel 9 is formed slightly smaller than the vertical portion 24, and the vacuum heat insulating panel 1 is formed smaller than the upper horizontal portion 25. . The rear end edge portion of the vacuum heat insulating panel 8 and the lower end edge portion of the vacuum heat insulating panel 9 and the upper end edge portion of the vacuum heat insulating panel 9 and the front end edge portion of the vacuum heat insulating panel 10 are separated by a small distance. . In the vacuum heat insulating panel 10, behind the upper horizontal portion 25, a portion where the vacuum heat insulating panel 10 is not attached is relatively large. Further, the outer casing 6 and the inner casing 7 are joined to each other, and the corner portion between the rear end edge of the vacuum heat insulating panel 8 and the lower end edge of the vacuum heat insulating panel 9 is The inner casing 7 has a full length of left and right to form a sloped portion 27 as shown in Fig. 7 to be spaced apart from the vacuum heat insulating panels 8, 9. The corner portion between the upper end portion of the vacuum heat insulating panel 9 and the end edge portion of the vacuum heat insulating panel 1 is formed on the outer casing 6 so as to extend over the entire length of the left and right sides to form the inclined portion 28 shown in FIG. It is separated from the vacuum insulation panels 9, 1〇. Next, the 'in the trailing edge portion' is formed in the inner shell 7 over the entire length of the left and right sides to form the inclined portion 29 shown in FIG. 7 to be spaced apart from the vacuum heat insulating panel 10, and on the left side edge portion and the right side edge portion on the inner shell portion 7. The inclined portions 30 and 31 shown in FIG. 8 are formed over the entire length of the front and rear to be spaced apart from the vacuum heat insulating panels 8 to 10. As shown in Fig. 2, the left side wall portion 1c has a flat wall shape. Therefore, the outer casing 11201228900 and the inner portion 12 are also substantially flat, and the vacuum heat insulating panel 13 is attached to both inner surfaces of the outer casing 11 and the inner casing 12. As shown in FIG. 6, FIG. 8, and FIG. 9, the vacuum heat insulating panel 13 has a shape that is larger than the inner casing 12 and smaller than the outer casing 11, and is not attached to the upper and lower sides of the outer casing U. A portion of the vacuum insulated panel 13. The V and 11 and the inner casing 12 are provided with the front edge portions of each other, and the upper and lower edge portions and the rear edge portion of the upper and lower sides of the U are respectively formed with a curved portion 32 which is a joint portion at a large right angle. 33, 34, the inner edge of the inner edge of the private J is also formed at a substantially right angle to the joint portion "curve: right, the wall portion id is also recorded as shown in Figure 2, so the outer private 14 and the inner 15 In the case of a substantially flat plate, the vacuum heat insulating panel 16 is attached to the outer casing 14 and the inner surface. However, the vacuum heat insulating panel 16 has a shape larger than that of the outer casing 14 as shown in Figs. 6, 8 and 8 . On the second and rear sides of the outer casing 14, there is a portion where the vacuum heat insulating panel 16 is not attached.

=, the outer casing Μ and the inner casing ls connect each of the front edge portions of each other to the two sides of the 缘 Γή ΐ ^ , , , , , , , , , , , , 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏The inner f9 edge portion also has a substantially right angle forming a joint portion on the inner side, and the 4 f wall portion le also has a flat wall shape as shown in Fig. i. Therefore, the two sets 18 are also substantially flat, and are formed in the outer casing 17 and The inner (four) surface is attached to the vacuum insulation panel 19. As shown in FIG. 5, FIG. 7 and FIG. 9, the vacuum heat insulating panel 19 has a shape larger than the two shells 18 and smaller than the outer casing 17, and is not attached to the rear side of the upper and lower sides of the outer casing 17. A portion of the vacuum heat insulating panel 19 is provided. The substantially straight edges of the n::: upper and lower edges are formed at substantially right angles to form a joint portion (four) ^4(), 41. For example, 1Η 漉.15 le assembles the left side wall lc and the right side to join the assembly, that is, the soft tape on the left and right sides of the outer casing 17 on the inner wall edges m, 17b 42 The weight is: the outer casing U of the continuous seal material, the curved portion 34 of the cymbal = the overlapping portions of the side wall 1C and the right side wall portion 1d are tightly combined, and then passed through the multi (four) wire 43 or the like The left and right edge portions 18a, 18b, and / are overlapped with the left side wall 1C and the right side wall portion of the curved portion of the inner casings 12 and 15 of the inner casing 18 of the morning wall portion 1e. In the assembly of the inner wall of the inner wall, the top wall portion la^ le and the right wall portion ld portion ie are assembled on the assembly of the inner wall of the inner wall portion by a plurality of steps (not shown). In the case of the portion la, the front wall portion 2a of the outer casing 2 of the top wall portion 1a is traversed in two rows with respect to the inner wall __. The curved portion 4 of the outer casing 17 of the inner wall portion k is fixed to the overlapping portion by a special screw (not shown). Further, the end portion of the inclined portion 20 of the inner casing 3 is provided. Through the sealing material 44 = the upper edge portion (8) of the inner casing 18 stacked on the inner wall portion le, and the fastening portion is fastened by a plurality of screws 43 and the like. 201228900 and 'in relation to the left side wall lc and the right side In the case of the top wall portion & of the wall portion ld, the assembly is performed as shown in Fig. 6, that is, the left and right side edges of the outer casing 2 of the top wall portion 1a are added, and The f-curved portion 36 of each of the outer casings u and 14 of the left side wall ie and the right side wall portion ld is folded, and the overlapping portion is fastened by a plurality of screws or the like (not shown) and the inclined portion of the casing 3 is slanted. The ends of 21 and 22 are heavy to the left (four) le and right (four) portions ld of the shells η and 15 of the buckets by the sealing material 44, and the overlapping portions are passed through a plurality of screws 43 and the like. wall As shown in Fig. 7, the bottom wall portion of the portion 16 is assembled by superimposing the rear edge portion 6a of the outer casing 6 on the curved portion 41 of the outer casing n of the inner wall portion u, and is not shown. A plurality of screws 、 and σ Ρ 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Then, the overlapping portion is fastened and joined 18d' and passed through a plurality of portions σ and σ with respect to the left side wall ic and the right side portion. The assembly is as shown in Fig. 8 and is the case of the wall portion lb. The left and right sides of the outer casing 6 of the wall portion 1b are performed by superposing the bottom lc and the right side wall portion 1 (the respective outer casings u, '°', 6c of i on the left side wall through a plurality of screws (not shown), etc. This overlaps and passes and 'the oblique portion 3 of the inner casing 7. And the end 22 material of 31, 201228900 44 overlaps the lower edge portions 12b and 15b of the inner casings 12 and 15 of the left side wall lc and the right side wall portion M, and the overlapping portion is fastened by a plurality of screws 43 or the like. Combine. And then, in the space s2 between the inner casing 3 of the top wall portion 1a and the vacuum heat insulating panel 4 and the inner casing 7 of the bottom wall portion 1b and the vacuum heat insulating panels 8, 9, 10' The foamed heat insulating material 5 is injected into the state of the raw liquid, and the foamed heat insulating material 5 is foamed and filled. The foamed heat insulating material 5 is, for example, a foamed urethane, and is also schematically shown in FIGS. 5 and 7 in a case where it is injected. That is, the injection of the foamed heat insulating material 5 in the top wall portion 1a is performed by an injection head of the injection machine, and in this case, from the rear of the top wall portion 1a and the bottom wall 邛1b, for this purpose, The injection port 45 is formed in advance in the lower portion of the outer casing 17 corresponding to the inner wall portion le of the rear wall portion 1 & and the upper portion of the outer casing 17 corresponding to the bottom wall portion le of the rear portion. In other words, the injection port 45 into which the foam heat insulating material 5 is injected is formed to face the top wall portion 1a and the bottom wall portion 1b, and the top wall portion 1a is housed and placed with the vacuum heat insulating panel 4 and filled in the space. The heat insulating material 5 is configured such that the top wall portion 1a is a wall portion which is formed by filling a vacuum heat insulating panel and a foam heat insulating material. The bottom wall portion 1b is similarly a vacuum heat insulating panel. 8, 9, 10 and a wall portion formed by filling the foamed heat insulating material 5. Further, when the injection port 45 is formed to face the wall portion filled with the vacuum heat insulating panel and the foam heat insulating material, it may be formed at the intermediate portion of the flat portion such as the center portion of the inner shell of the top wall portion 1a. And the portion facing the vacuum heat insulating panel 9 formed in the inner wall λ7 of the bottom wall portion ratio is also in the middle of the flat portion

S 12 201228900 Department. As shown in FIGS. 5 and 6, the thickness of the foamed heat insulating material 5 is smaller than the thickness t2 of the vacuum heat insulating panel 4 in the top wall portion ia filled with the vacuum heat insulating panel 4 and the foamed heat insulating material 5. Further, as shown in FIGS. 7 and 8, the thickness of the foamed heat insulating material 5 is also smaller than that of the bottom wall portion 1b filled with the vacuum heat insulating panels 8, 9, 1 and the foamed heat insulating material 5. The thickness of the insulating rafts 8, 9, 1 is t4. Further, 'as shown in FIG. 6', between the inner wall portion 3 and the vacuum heat insulating panel 4, the top wall portion 1a filled with the vacuum heat insulating panel 4 and the foamed heat insulating material 5 The space Si is filled in the gaps gl and g2 between the end edges of the vacuum heat insulating panel 4 and the vacuum heat insulating panels 3 and 16 of the left and right side wall portions lc and Id. Further, as shown in FIG. 5, the foamed heat insulating material 5 is also filled from the space Si between the inner casing 3 and the vacuum heat insulating panel 4 to the end of the vacuum heat insulating panel 4 and the vacuum heat insulating panel 19 of the wall portion le. The gap between the edges is illusory. On the other hand, as shown in Fig. 8, 'the bottom wall portion 1b filled with the vacuum heat insulating panels 8, 9, 1 and the foamed heat insulating material 5, the foamed heat insulating material 5 from the inner shell 7 and the vacuum The space between the heat insulating panels 8, 9, 1G is filled into the gap between the vacuum insulating panels 8, 9, 1G and the left and right side wall portions, and the edge portions of the vacuum barrier panels 13, 16 of m are ^ . ·, ·, "and f: as shown in Fig. 7, 'foaming_material 5 is filled from the inner shell 7 and the space between the vacuum and the kiln to the vacuum heat insulating panel 10, and the edge portions of the vacuum heat insulating panel 19 are mutually The gap between the ends of the real plates 8, 9, 10 is the gap between the ends g7, 13 201228900l g8 and the ends of the parts 1 = =, 8~1〇, 13, 16, 19 Formed by the inclined portions 20 to 22, the oblique makeup Qiu 27 bubble insulation material ^ S3 ~ Sl ° ' in the space S3 ~ & also filled with the filling material 5 filled with the top:: T: by vacuum insulation The panel 4 and the foamed heat insulating material bubble heat insulating material core to the left side wall portion 1 (and the inner wall portion le 11, the portion _ part and the right seam portion T = 13, 19 end edge panel ΐ 6, ι 9 The inner wall of the 卩1e is vacuum-insulated ==: the upper and lower parts of the sub-section are slightly Γ '= and the right side wall portion ld or the inner wall portion is the same oblique shape: the slanted portion 2 ~2一一部===咖料5峨—and bottom wall 13 f/b diagram 1G and Fig. 11 are only vacuum insulated panels 4, 8~10, and inner shell) '=°=true wall 7 The bubble insulating material 5 (the 遂 5 ' omitting the respective outer casings is shown in '1111 and FIG. 12' The connection tube 47 of the secondary heat-insulated wire 46 or the cold-laid ring in the heat-insulating box 1 and the solution; the row for the discharge of the east water = 48'. These wirings and pipes are filled with the edge portions of the vacuum heat-insulating panel by 4 minutes. Part of the foaming heat insulating material 5. 201228900 At this time, the "the wiring and the piping are arranged in advance in the vacuum of the bottom wall portion ib = the vertical panel U" and the edge portion of the vacuum heat insulating panel 19 of the inner wall portion_le are mutually The portion of the knives filled with the foamed heat insulating H is completely filled around the through portions by the LX foaming slag 5 of the subsequent foaming heat insulating material 5. And 'in Fig. 13, cold is shown A part of the condenser of the ring is the heat pipe 49, and the pipe 49 is disposed on the left_

Id and the inner wall. 1 ^ body - as shown in FIG. 14 , an inwardly facing recessed strip 450 is formed on the outer casing U, 14, 17 of the left side wall portion le, the right side d and the inner wall portion ie, respectively, in which the indented portion 5G is formed A heat dissipation pipe 49 is housed between the vacuum insulation panels i3' i in the interior. Further, in Fig. 13, also shown are doors 5, 52, 53 which open and close the front surface of the heat insulating box manufactured as described above in accordance with the refrigerator compartment, the room, and the fir. Set the decision. In this manner, the heat insulating box body 本 of the present embodiment has the top wall portion u, the portion lb, the left side wall portion ic, the right side wall portion M, and the inner wall portion le, and the outer casing 2 and the inner casing for the top wall portion 1a of the ^ The space of 3 is constituted by a vacuum heat insulating surface: and a foamed heat insulating material 5 filled inside the vacuum heat insulating panel 5, and for the bottom wall portion 1b, a vacuum insulation of the outer casing 6 and the inner casing 7 is completed. The Φ plates 8, 9, 10 and the vacuum insulation plate 8 are filled with the foamed heat insulating material 5 on the inner side of 10. Moreover, for the left side wall portion lc, between the outer casing u and the inner portion 12 is 15

201228900 L The hot panel 13 is filled with ,, for the right side wall id, so that the outer casing is filled between the two and 15 by the k-wide heat insulation panel 16 to form 'and, further, with the shouting 18 by the vacuum insulation panel demon In the structure of the tank, the total sectional area of the bottom wall portion 1 of the top wall portion 1 is smaller in the partition 1. On the other hand, the total cross-sectional area of the left side wall portion lc and the right side wall portion ld the wall portion le is larger in the heat insulating box body i. In addition, the left side wall portion lc and the right side wall portion ld and the summer wall portion le having a large total sectional area are filled only by the vacuum heat insulating panels 13 and 19 having excellent heat insulating properties, so that they can be sufficiently obtained as heat insulation. The overall thermal insulation of the cabinet i. Therefore, it is possible to sufficiently obtain the effect of expanding the internal volume of the heat insulating box 1 without thickening the thickness of the peripheral wall of the heat insulating box 1. In particular, since the inner portion of the heat insulating box 1 can be enlarged in the right and left and the depth direction, the content of the user's hand can be increased, and the usability can be improved. On the other hand, since the top wall portion la and the inner wall portion le are combined with the foam heat insulating material "5 and the vacuum heat insulating panels 4 and 8 to 1〇, the rigidity of the heat insulating phase body 1 can be sufficiently obtained. As described above, according to the present embodiment, it is possible to provide the heat insulating box 1 which can sufficiently obtain the heat insulating properties and the rigidity. Further, in the present embodiment, the injection D 45 into which the foam heat insulating material 5 is injected faces the wall #1 and the bottom wall portion 1b which are filled with the vacuum heat insulating panel and the foam heat insulating material. form. Thereby, it is possible to efficiently inject the foamed heat insulating material 5 in 20122890. Further, in the present embodiment, the vacuum insulating panel and the material are filled with the _ part, that is, the viewing portion la, The degree of the bubble heat insulating material $ is thinner than the thickness t2 of the vacuum heat insulating panel 4, and similarly, the bottom wall portion ib which is a wall portion filled with the straight heat insulating panel and the foam heat insulating material is connected. In the bubble separation, the thickness of the material 5 is thinner than the thickness 4 of the vacuum heat insulating panels 8, 9, and 1Q. Thus, the rigidity of the top wall portion 1a and the bottom wall portion 1b can be obtained. In addition, in the present embodiment, in the ceiling wall portion 1a filled with the vacuum heat insulating panel 4 and the heat insulating material 5, the foamed heat insulating material $ is made from the inner shell. 3, the space Si between the vacuum insulation panel 4 and the vacuum insulation panel 4 and the left and right side wall portions lc, ld of the vacuum insulation panel 13, the edge of the edge of each other __ gl, g2, and from the inner casing The space si between the vacuum heat insulating panel 4 and the vacuum heat insulating panel 4 is filled with a gap g3 between the end edges of the vacuum heat insulating panel 4 and the vacuum heat insulating panel 19 of the inner wall portion le. Further, in the bottom wall portion 1b filled with the vacuum heat insulating panels 8, 9, 10 and the foamed heat insulating material 5, the space S2 from the inner casing 7 and the vacuum heat insulating panels 8, 9, 1 Filling the gaps g4, gs' between the end edges of the vacuum insulation panels 8, 9, 10 and the vacuum insulation panels 13, 16 of the left and right sides i lc, Id and from the inner casing 7 and the vacuum insulation panel The two S2s between 8, 9, and 1 are filled into the gap between the vacuum insulation panel and the end edge portion of the vacuum insulation panel 19 of the inner wall portion and the vacuum insulation panel 8, 9, 1 The gaps g7 and g8 between the end edges of the respective end portions. 17

201228900 L Thus, it is possible to utilize the edge portions of the vacuum heat insulating panels filled in the respective wall portions to foam the heat insulating material 5, and to effectively inject the seals for preventing the external heat from insulating the heat insulating panels. The occurrence of condensation caused by the intrusion of the gap between the edge portions. Further, it is possible to ensure the fluidity of the foamed heat insulating material 5 in the gap between the edges of the green heat-filled panels and the edge portions by the spaces Si and S2 between the vacuum heat insulating panels of the respective wall portions, in particular, Since the spaces ^ and S2 can be easily expanded, the injection port 45 for injecting the foamed heat insulating material 5 is required to be small with respect to each wall portion. For example, as long as each of the injection ports 45 is provided, the injection head of the injection machine is less. For example, as long as each setting is one. Thus, this simplifies the equipment required for the injection of the foamed heat insulating material 5, and the equipment cost can be reduced. In addition, in the present embodiment, the portions between the end edges of the vacuum heat insulating panels 4, 8 to 10, 13, 16, and 19 are formed by the inclined portions 2〇22 to 22 and the oblique portions 27 to 31. The spaces s3 to S10 are formed, and the foam insulating material 5 is filled in the spaces s3 to S1. Thereby, the sealing of the gaps gl to gs between the edge portions of the vacuum heat insulating panels 4, 8 to 10, 13, 16, and 19 can be made more reliable, and the fluidity of the foamed heat insulating material 5 can be ensured. Further, it is also possible to ensure a high rigidity of the heat insulating box 1. Further, 'the wiring of the conductive wire 46 or the pipe connecting the pipe 47 and the drain pipe 48 is disposed in a portion of the portion between the edge portions of the vacuum heat insulating panel filled with the foamed heat insulating material (the vacuum partition of the bottom wall portion 1b) The portion between the end edges of the vacuum heat insulating panel 19 of the heat insulating panel 10 and the inner wall portion le is filled with a portion of the 201228900 foam insulating material 5). The density of the portion that can pass through the tube can be easily achieved by the foamed heat insulating material 5 in the vicinity of the edge portion of the vacuum heat insulating panel, so that it can be realized more reliably: 敎::5 In the embodiment, the portion between the end portion of the portion between the end portions of the vacuum insulation panel 4 and the foamed portion and the end portion of the vacuum insulation panel 13 and 19 is thermally insulated from each other. Panels 16 and 19 Bubble insulation materials: the respective parts of the 5 knives, C2 and C2, filled with the vacuum insulation panels of the left and right side wall portions 1C and the inner wall portion & The gap and the right side wall portion ld and the inner wall portion of the heat insulating material 5 are more reliable, and are sealed accordingly. b » Shortening and simplifying the density achieved by the flexible tape 42 in this portion. In the present embodiment, the heat dissipation pipe 49 is disposed in the left side wall portion 1e and the right side wall portion 1d. Thereby, it is possible to eliminate the problem of the left side wall portion ld and the right wall portion ld which are formed by the true (four) thermal panel 4 between the respective four. Shengya II i space partition - plate 4, 8 ~ 1 〇, 13, 16, 19 in the vacuum degree at the heart of the temple there is the possibility of lowering the thermal insulation performance, but with the vacuum insulation surface 201228900. Plate 4 and foam insulation The top wall portion 1a of the material 5 and the vacuum partition panels 8 to 10 and the bottom wall portion of the foamed heat insulating material 5 reduce the heat insulating performance of the vacuum heat insulating panel*, and can also pass through the heat insulating material of the heat insulating material. 5 to reduce the barrier properties relatively less. On the other hand, the left side wall portion lc and the right side wall portion and the inner wall of the foamed heat insulating material 5 (using only the vacuum heat insulating panels 13, 16, 19) have the following problems, that is, When the heat insulating performance of the vacuum heat insulating panels 13, i6, and 19 is lowered, the heat insulating performance as a wall portion is directly lowered, and the temperature of the wall surface is largely lowered to cause dew condensation. On the other hand, in the present embodiment, the heat dissipation pipe 49 is disposed in the left side wall portion lc and the right side wall portion id and the inner wall portion ie of the foam heat insulating material 5 which are not used in combination. Thereby, it is possible to suppress the occurrence of dew condensation when the heat insulating performance of the vacuum heat insulating surface 4 is lowered by the heat radiation of the heat radiation pipe 49. The heat insulating box 1 described above is not limited to the above-described embodiment, and can be appropriately modified without departing from the scope of the invention. As a first example, the heat radiation pipe 49 may be provided not in the left side wall portion lc and the right side wall portion Id and the inner wall portion le but in any one or two of the wall portions. Further, the top wall portion 1a and the bottom wall portion 1b may also attach the vacuum heat insulating panels 4, 8 to 10 to the outer surfaces of the inner casings 3, 7, and in the respective portions of the vacuum heat insulating panels 4, 8 to 1 The outer side (the outer side of the outer casing 2, 6) is filled with the foamed heat insulating material 5. Further, the foaming heat insulating material 5 and the vacuum heat insulating panel may be any of the top wall portion 1a and the bottom wall portion 1b. 201228900 Further, the heat insulating box 1 itself is not limited to a refrigerator, and may be used as a heating box, a refrigerating showcase or other thermostatic case. In addition, the embodiments of the present invention have been described, but the embodiments are merely illustrative and are not intended to limit the scope of the invention. The present invention can be implemented in various other forms without departing from the spirit and scope of the invention. This embodiment or its aspects are included in the scope and spirit of the invention, and are included in the scope of the invention described in the claims and the equivalents thereof. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a longitudinal sectional side view showing an embodiment. Fig. 2 is a longitudinal sectional front view showing an embodiment. Fig. 3 is a perspective view of the embodiment as viewed from the front. Fig. 4 is an exploded perspective view of an embodiment. Fig. 5 is an enlarged view of a portion V of Fig. 1; Fig. 6 is an enlarged view showing a part of the VI portion of Fig. 2 omitted. Fig. 7 is an enlarged view of a portion VII of Fig. 1; Fig. 8 is an enlarged view showing a part of the portion VIII of Fig. 2 omitted. Fig. 9 is a cross-sectional view, partly omitted, of the inner portion taken along line IX-IX of Fig. 2; Fig. 10 is a perspective view showing each wall portion by a vacuum heat insulating panel and a filled foam heat insulating material, as viewed from the front. Fig. 11 is a perspective view showing each wall portion only by a vacuum heat insulating panel and a filled foam heat insulating material, as viewed from the rear. Fig. 12 is an enlarged view of a portion XII of Fig. 11; 21 1 1201228900 Figure 13 is a perspective view from the rear. Fig. 14 is an enlarged cross-sectional view showing a portion taken along the line XIV-XIV of Fig. 13; [Description of main component symbols] 1 : Insulation case la : Top wall portion lb : Bottom wall portion lc : Left side wall portion Id : Right side wall portion le : Inner wall portion 2, 6, U, 14, 17 : Case 2a 6a: trailing edge portions 2b, 2c, 6b, 6c: left and right side edges 3, 7, 12, 15, 18: inner casings 4, 8 to 10, 13, 16, 19: vacuum insulation panel 5: Foaming heat insulating materials 12a, 15a, 18c: upper edge portions 12b, 15b, 18d: lower edge portions 17a, 17b, 18a, 18b: left and right edge portions 20 to 22, 27 to 31: oblique portion 23: Lower horizontal portion 24: vertical portion 25: upper horizontal portion 26: machine room

S 22 201228900 32~41 : Bending portion 42 : Soft belt 43 : Screw 44 : Sealing material 45 : Injection port 46 : Conducting wire 47 : Connecting pipe 48 : Drain pipe 49 : Heat pipe 50 : Groove portion 51 to 53 : Door T1, t3: thickness t2 of the foamed heat insulating material 5: thickness t4 of the vacuum heat insulating panel 4: thickness of the vacuum heat insulating panels 8, 9, 10: gl to g8: gaps S1 to S10: spaces cn, C2: vacuum partition A portion of a portion of the end portion of the heat panel between each other: the injection head 23

Claims (1)

201228900 --- χ · VII, the scope of application for patents: 1. A heat insulation box, characterized in that it comprises a top wall portion, a bottom wall portion, a left side wall portion, a right side wall portion and a inner wall portion, and the top wall thereof At least one of the portion and the bottom wall portion is formed by filling the outer casing and the inner casing with a first vacuum heat insulating panel and a foam heat insulating material filled inside or outside the first vacuum heat insulating panel. The left side wall portion, the right side wall portion, and the inner wall portion are configured such that a space between the respective outer casing and the inner casing is filled by the second vacuum heat insulating panel. 2. The heat insulating box according to claim 1, wherein the injection port into which the foamed heat insulating material is injected faces the first vacuum heat insulating panel and the foam heat insulating material A wall portion of at least one of the top wall portion and the bottom wall portion is filled. 3. The heat insulating box according to claim 1 or 2, wherein the top wall portion and the bottom portion which are filled by the vacuum heat insulating panel and the foam heat insulating material In the wall portion of at least one of the wall portions, the thickness of the foam heat insulating material is thinner than the thickness of the first vacuum heat insulating panel. 4. The heat insulating box according to claim 1 or 2, wherein the foam heat insulating material is filled from the first vacuum heat insulating panel and the foam heat insulating material The outer casing or inner casing of the wall towel of at least one of the top wall portion and the bottom wall portion and the space between the first vacuum insulation panel and the first vacuum insulation sulfur The gap between the end edges of each other. 5. The heat insulating box according to the fourth aspect of the invention, wherein the portion between the L-ports of the first vacuum insulation panel and the second vacuum insulation panel is formed in a diagonal shape. The space formed by the part is filled with the foamed heat insulating material in the space. 6. The heat insulating box according to claim 4, wherein the wiring and the pipe are the second vacuum insulation panel disposed in the bottom wall portion and the second vacuum in the inner wall portion The portion between the end edges of the heat insulating panel is filled with a portion of the foamed heat insulating material. 7. The heat insulating box according to claim 1, wherein the top wall portion and the bottom portion are filled from the first vacuum heat insulating panel and the foam heat insulating material a wall portion of at least one of the wall portions, a portion between the left side wall portion and the end edge portion of the second vacuum insulation panel of the inner wall portion, and the right side wall portion and the A part of each of the portions between the end edges of the second true heat insulating panel in the inner wall portion is filled with the foam insulation material. 8. The heat insulating box according to claim 2, wherein one of the left side wall portion, the right side wall portion and the inner wall portion is provided with a heat pipe . 25