WO2013084582A1 - Refrigerator - Google Patents

Abstract

A refrigerator is provided with a thermal insulation cabinet, a pair of reinforcing-member attachment parts, and a bridge-shaped reinforcing member. The thermal insulation cabinet is configured into a box-shape, and has a thermal insulation material sandwiched between an outer plate for configuring the outside surface of the refrigerator, and an inner plate for configuring the inside surface of the refrigerator. The pair of reinforcing-member attachment parts are respectively positioned on the pair of inner plates which face one another inside the refrigerator. One end of the bridge-shaped reinforcing member is connected to one of the reinforcing-member attachment parts in the pair, while the other end thereof is connected to the other reinforcing-member attachment part.

Description

refrigerator

Embodiment of this invention is related with a refrigerator.

The heat insulation cabinet which is the main body of the refrigerator has an outer box, an inner box, and a heat insulating material provided between the outer box and the inner box, and is configured in a substantially box shape as a whole. An outer box comprises the outer surface which is the outer side of a heat insulation cabinet. An inner box comprises the inner surface which is the warehouse inner side of a heat insulation cabinet.

When the inside of the refrigerator is cooled, the inside of the heat-insulating cabinet, that is, the inner side of the refrigerator shrinks. At this time, when the thickness of the wall of the heat insulation cabinet is thin, the wall of the heat insulation cabinet may be bent so as to bulge outward due to a difference in shrinkage rate from the outer portion of the heat insulation cabinet. This bending state is shown in FIGS. In this case, the heat insulation cabinet 111 is curved outward as indicated by a two-dot chain line in FIGS. 27 and 28, for example. Note that the degree of the curvature is shown larger than the actual degree for easy understanding.

JP 2006-153443 A JP 2011-995611 A

Therefore, a refrigerator capable of suppressing the wall of the heat insulation cabinet from expanding outward is provided.

The refrigerator of the embodiment includes a heat-insulating cabinet, a pair of reinforcing member mounting portions, and a bridge-shaped reinforcing member. The said heat insulation cabinet has a heat insulating material between the outer plate which is comprised in box shape, and comprises the surface outside a warehouse, and the inner plate which comprises the surface inside a warehouse. The pair of reinforcing member attachment portions are respectively provided on a pair of inner plates facing each other in the warehouse. The bridge-shaped reinforcing member has one end connected to one reinforcing member attaching portion of the pair of reinforcing member attaching portions and the other end connected to the other reinforcing member attaching portion.

The perspective view which shows the external appearance of the refrigerator by 1st embodiment. The perspective view which shows the external appearance which looked at the heat insulation cabinet from upper direction The perspective view which shows the external appearance which looked at the heat insulation cabinet from the lower part An exploded perspective view of an insulated cabinet The perspective view which decomposes | disassembles and shows the heat insulation panel for left side walls Transverse plan view of insulated cabinet Longitudinal front view of the corners of the left side wall insulation panel and ceiling wall insulation panel The perspective view of the heat insulation cabinet before hinge member attachment which illustrated the vertical reinforcement member and the upper reinforcement member The perspective view of the heat insulation cabinet before the front partition member attachment in the state which isolate | separated the upper reinforcement member Transverse plan view of the front part of the left side wall insulation panel Fig. 10 is a cross-sectional plan view of the front portion of the left-side wall heat insulation panel at a portion different from Fig. 10. Front view of hinge part Transverse plan view taken along section line X13-X13 in FIG. Cross-sectional plan view along section line X14-X14 in FIG. Longitudinal side view taken along section line X15-X15 in FIG. Vertical side view taken along section line X16-X16 in FIG. Perspective view of shelf receiving member Longitudinal side view of the mounting member part for the bottom plate of the refrigerator compartment in the heat insulation panel for the left side wall The perspective view of the attachment member part for the refrigerator compartment bottom board in the state which separated the bridge-shaped reinforcement member Vertical side view of the first rail mounting member in the left side wall insulation panel Longitudinal side view with rail mounted on first rail mounting member Perspective view of partition wall mounting member Vertical side view of the partition wall mounting member in the left side wall insulation panel FIG. 18 equivalent diagram showing the second embodiment. FIG. 18 equivalent diagram showing the third embodiment. Vertical front view of the heat insulation panel for the left wall, the heat insulation panel for the bottom wall, and the heat insulation panel for the right wall showing the fourth embodiment Cross-sectional plan view of an insulated cabinet showing a reference example Longitudinal front view of insulated cabinet

The first embodiment will be described with reference to FIGS. As shown in FIG. 1, the refrigerator 1 is mainly composed of a heat insulating cabinet 2. As shown in FIG. 2, the heat insulating cabinet 2 includes a refrigerated room 3, a vegetable room 4, an ice making room 5, a small freezer room 6, and a main freezer room 7. The refrigerator compartment 3 is provided in the uppermost part of the heat insulation cabinet 2. The vegetable compartment 4 is provided below the refrigerator compartment 3. The ice making room 5 and the small freezer room 6 are provided side by side on the lower side of the vegetable room 4. The main freezer compartment 7 is provided below the ice making compartment 5 and the small freezer compartment 6, that is, at the lowermost part of the heat insulation cabinet 2.

Refrigerated room 3, vegetable room 4, ice making room 5, small freezer room 6, and main freezer room 7 each form a storage room. Among these, the refrigerator compartment 3 and the vegetable compartment 4 are storage compartments in a refrigerator temperature zone, and the internal temperature is controlled to 0 ° C. to 10 ° C., for example. For this reason, the refrigerator compartment 3 and the vegetable compartment 4 should just be able to ensure a certain amount of heat insulation, for example, it is partitioned off by the synthetic resin refrigerator compartment bottom board 8 which is a board member. The ice making room 5, the small freezer room 6, and the main freezer room 7 are storage rooms in a freezing temperature zone, and the internal temperature is controlled to be, for example, −18 ° C. or lower, which is a freezing temperature zone. The vegetable compartment 4 in the refrigerated temperature zone and the ice making chamber 5 and the small freezer compartment 6 in the freezing temperature zone are partitioned vertically by a heat insulating partition wall 9 having heat insulating properties. The heat insulating partition wall 9 reduces heat leakage between the refrigerated temperature zone vegetable room 4 and the freezing temperature zone ice making room 5 and small freezer room 6. The refrigerator compartment bottom plate 8 constitutes the bottom plate of the refrigerator compartment 3, and stored items are placed thereon.

As shown in FIGS. 2 and 3, front partition members 10, 11, 12, and 13 are provided at the front portion of the heat insulation cabinet 2. The front partition member 10 is positioned in front of the refrigerator compartment bottom plate 8 and extends in the left-right lateral direction. The front partition member 11 is positioned in front of the heat insulating partition wall 9 and extends in the left-right lateral direction. Further, the front partition member 12 is positioned between the ice making chamber 5 and the small freezer compartment 6 and extends in the vertical direction. The front partition member 13 is located between the ice making chamber 5 and the small freezer compartment 6 and the main freezer compartment 7 and extends in the horizontal direction.

As shown in FIG. 1, the refrigerator compartment 3 includes two left and right rotating doors 15 and 16. The rotary doors 15 and 16 open and close the front surface of the refrigerator 3. As shown in FIGS. 2 and 3, the heat insulating cabinet 2 has hinge members 17 a, 17 b, 18 a, and 18 b provided at the upper and middle portions of the left and right ends. The revolving doors 15 and 16 are double doors that are rotated in the front-rear direction around the hinge members 17a, 17b, 18a, and 18b.

The front of the vegetable compartment 4 is opened and closed by a pull-out door 19. A vegetable storage container (not shown) is provided on the back side of the door 19. The front surface of the ice making chamber 5 is opened and closed by a drawer-type door 20. The ice making chamber 5 is provided with an ice making device (not shown). An ice storage container (not shown) is provided on the back side of the door 20. The front surface of the small freezer compartment 6 is opened and closed by a drawer-type door 21. A storage container (not shown) is provided on the back side of the door 21. The front surface of the main freezer compartment 7 is also opened and closed by a drawer type door 22. A storage container (not shown) is provided on the back side of the door 22.

As shown in FIG. 4, the heat insulation cabinet 2 as a heat insulation box includes a plurality of heat insulation walls, in this case, a rear wall heat insulation panel 25, a left wall heat insulation panel 26, a right wall heat insulation panel 27, and a ceiling. By combining the heat insulation panel 28 for walls and the heat insulation panel 29 for bottom walls, it is comprised in the rectangular box shape long in the up-down direction which the front surface opened. In this case, the heat insulation panel 25 for the rear wall constitutes the rear wall of the heat insulation cabinet 2. The left side wall heat insulation panel 26 constitutes the left side wall of the heat insulation cabinet 2. The heat insulation panel 27 for the right side wall forms the right side wall of the heat insulation cabinet 2. The heat insulating panel 28 for the ceiling wall forms the ceiling wall of the heat insulating cabinet 2. The heat insulating panel 29 for the bottom wall constitutes the bottom wall of the heat insulating cabinet 2.

All of the heat insulating panels 25 to 29 have vacuum heat insulating panels. Since the basic schematic configurations of the rear wall heat insulation panel 25, the left wall heat insulation panel 26, and the right wall heat insulation panel 27 are the same, the left wall heat insulation panel 26 will be described as a representative. As shown in FIG. 5, the left-side wall heat insulation panel 26 includes an outer plate 30 </ b> B, an inner plate 31 </ b> B, and a vacuum heat insulation panel 32. The vacuum heat insulation panel 32 is configured in a plate shape and is provided between the outer plate 30B and the inner plate 31B and functions as a heat insulating material. That is, the left-side wall heat insulating panel 26 has a configuration in which the vacuum heat insulating panel 32 is interposed between the outer plate 30B and the inner plate 31B. The outer plate 30 </ b> B is a metal plate and constitutes an outer box of the heat insulating cabinet 2. The inner plate 31B is a sheet-like member made of synthetic resin, for example, and constitutes an inner box of the heat insulating cabinet 2. In addition, about the inner plate 31B, when referring to the surface, it refers to the surface inside the refrigerator, and when referring to the back surface, it refers to the surface opposite to the interior of the refrigerator, that is, the surface on the vacuum heat insulation panel 32 side.

As shown in FIG. 5, the inner plate 31 </ b> B of the left side wall heat insulating panel 26 includes a shelf receiving member 40, a refrigerator compartment bottom plate mounting member 41, a first rail mounting member 42, a partition wall mounting member 43, a second A rail attachment member 44 and a support 65 are attached. The inner plate 31B integrally includes the shelf receiving member 40, the refrigerator compartment bottom plate mounting member 41, the first rail mounting member 42, the partition wall mounting member 43, the second rail mounting member 44, and the support 65. In the state, it is bonded to the vacuum heat insulation panel 32.

As shown in FIGS. 7, 16, and 18, one surface of the vacuum heat insulation panel 32 is bonded to the back surface of the inner plate 31B with an adhesive (not shown). Moreover, the vacuum heat insulation panel 32 has the other surface opposite to the one surface bonded to the inner surface of the outer plate 30B with an adhesive (not shown). Thereby, the vacuum heat insulation panel 32 is being fixed in the state pinched | interposed between the inner board 31B and the outer board 30B.

The vacuum heat insulation panel 32 is comprised from the core material 35, such as glass wool, and the packaging material 38 which has gas barrier property, as shown in FIG. 16, FIG. The vacuum heat insulating panel 32 is configured in a panel shape, that is, a plate shape by housing the core material 35 in the packaging material 38 and evacuating the packaging material 38 in this state.

Although not shown, the inner plate 31C of the right side wall heat insulation panel 27 facing the inner plate 31B of the left side wall heat insulation panel 26 is also provided with a shelf receiving member 40, a cold room bottom plate attachment member 41, and a first rail use. An attachment member 42, a partition wall attachment member 43, a second rail attachment member 44, and a support 65 are provided. The shelf receiving member 40 of the right-side wall heat insulating panel 27 faces the shelf receiving member 40 of the left-side wall heat insulating panel 26. The refrigerating chamber bottom plate mounting member 41 of the right side wall heat insulating panel 27 faces the refrigerating chamber bottom plate mounting member 41 of the left side wall heat insulating panel 26. The first rail mounting member 42 of the right-side wall heat insulation panel 27 faces the first rail mounting member 42 of the left-side wall heat insulation panel 26. The partition wall mounting member 43 of the right side heat insulating panel 27 faces the partition wall mounting member 43 of the left side wall heat insulating panel 26. The second rail mounting member 44 of the right side wall heat insulation panel 27 faces the second rail mounting member 44 of the left side wall heat insulation panel 26. The support member 65 of the right side wall heat insulation panel 27 faces the support member 65 of the left side wall heat insulation panel 26. As shown in FIG. 6, the rear wall heat insulation panel 25 is also configured with a vacuum heat insulation panel 32 between the outer plate 30 </ b> A and the inner plate 31 </ b> A, similarly to the left wall heat insulation panel 26.

As shown in FIG. 7, the heat insulating panel 28 for the ceiling wall includes an outer plate 30 </ b> D, an inner plate 31 </ b> D, a vacuum heat insulating panel 32, and a urethane foam 33 that is a heat insulating material. The outer plate D is composed of a metal plate. The inner plate 31D is formed of an integrally molded product of synthetic resin. The vacuum heat insulation panel 32 of the heat insulation panel 28 for ceiling walls is fixed to the back surface of the inner plate 31D by adhesion or the like. Between the vacuum heat insulation panel 32 and the outer plate 30D, foamed urethane 33 is filled. The vacuum heat insulation panel 32 has a lower thermal conductivity and higher heat insulation performance than the urethane foam 33. As shown in FIG. 1, the heat insulating panel 28 for the ceiling wall has a machine room 28 k that is in the upper rear part and is recessed in an L shape. A compressor 36 of the refrigeration cycle is accommodated in the machine room 28k.

Although the shape of the bottom wall heat insulation panel 29 is different from that of the ceiling wall heat insulation panel 28, the bottom wall heat insulation panel 29 has a vacuum heat insulation panel and urethane foam between the outer plate 30E and the inner plate 31E, similarly to the heat insulation panel 28 for the ceiling wall. ing. The outer plates 30A to 30E constitute the outer surface of the heat insulating cabinet 2, that is, the cabinet outer surface. The inner plates 31A to 31B constitute the inner surface of the heat insulating cabinet 2.

As shown in FIG. 6, the rear wall heat insulation panel 25 and the left wall heat insulation panel 26 are connected to each other by a fixture 23 </ b> A, a screw (not shown), or the like at the left rear corner. In addition, the rear wall heat insulation panel 25 and the right wall heat insulation panel 27 are connected to each other at the corner portion of the right rear portion by a fixture 23B similar to the fixture 23A, screws, or the like. In this corner portion, heat insulating materials 34a to 34c such as foamed polystyrene, soft tape, and sponge tape are appropriately provided. Also, the heat insulating panel 28 for the ceiling wall and the heat insulating panel 29 for the bottom wall are connected to the heat insulating panels 25 to 27 as appropriate. Furthermore, the front part of the left-side wall heat insulation panel 26 and the front part of the right-side wall heat insulation panel 27 are connected by front partition members 10, 11, 12, and 13.

As shown in FIGS. 8 and 9, among the edges of the opening on the front surface of the heat insulation cabinet 2, the left and right front edges, that is, the front edge of the left wall heat insulation panel 26 and the front edge of the right wall heat insulation panel 27 are These are reinforced by the longitudinal reinforcing members 51, 51. Further, the upper reinforcing member 52 reinforces the upper front edge and the left and right front edges. In FIGS. 8 and 9, the members 40 to 44 and 65 are not shown in order to avoid complexity of the drawings.

Since the left and right vertical reinforcing members 51 are symmetrical, the left vertical reinforcing member 51 will be described. The vertical dimension of the vertical reinforcing member 51 is set to be approximately the same as the vertical dimension of the left side wall heat insulation panel 26. As shown in FIG. 11, the cross-sectional shape of the vertical reinforcing member 51 is configured as a groove having an outer plate portion 51a, an intermediate plate portion 51b, and an inner plate portion 51c, with the rear side being opened. However, a part of the vertical reinforcing member 51, that is, a connecting portion with the front partition members 10, 11, 13 is formed in an L shape with the inner plate portion 51c cut away as shown in FIGS. Yes.

As shown in FIG. 10, the vertical reinforcing member 51 is inserted into the front edge portion of the left-side wall heat insulation panel 26 from above or from below. At the front edge of the left side wall heat insulation panel 26, the front portion 30 b of the outer plate 30 </ b> B is separated from the front end portion of the vacuum heat insulation panel 32 and wraps around the front side. That is, the front portion 30b of the outer plate 30B has an outer bulging portion 30b1, an intermediate portion 30b2, and an inner extending portion 30b3. The outer bulging portion 30b1 bulges slightly outside the front portion 30a of the outer plate 30B and is separated from the vacuum heat insulating panel 32. The intermediate portion 30b2 is bent inward at the front end of the outer bulging portion 30b1. The inner extending portion 30b3 is formed in an L shape that is bent backward from the inner end of the intermediate portion 30b2. Thereby, the front part 30b of the outer plate 30B is configured in a groove shape with the rear side opened.

The vertical reinforcing member 51 is inserted in a form that fits inside the groove shape of the front portion 30b, and is connected to the outer plate 30B by bonding or screwing. Further, the vertical reinforcing member 51 is separated from the inner plate 31B. That is, the vertical reinforcing member 51 is not connected to the inner plate 51B. In FIG. 10, a heat radiating pipe 53 for the refrigeration cycle is disposed between the vacuum heat insulation panel 32 and the outer bulging portion 30b1.

Between the inner plate 31B and the front portion 30b of the outer plate 30B, there is provided a synthetic resin sealing member 54 for sealing the space therebetween. The seal member 54 has a pipe holder portion 54 a that fixes a dew-proof pipe 55 that prevents condensation on the front surface of the heat-insulating cabinet 2. The dewproof pipe 55 is constituted by a part of the heat radiating pipe of the refrigeration cycle. In addition, the heat radiating pipe 53 is also provided in the rear part of the heat insulation panel 26 for left side walls, and the heat insulation panel 27 for right side walls, as shown in FIG. Further, in the front portion 30a of the outer plate 30B, heat insulating materials 37 and 37 made of, for example, soft tape are provided.

As shown in FIGS. 8 and 9, the upper reinforcing member 52 includes an intermediate plate portion 52a, a left plate portion 52b, and a right plate portion 52c. The left plate portion 52b and the right plate portion 52c are configured to hang at right angles from both end portions of the intermediate plate portion 52a. The left and right plate portions 52b and 52c are inserted into the front portions of the left-side wall heat insulation panel 26 and the right-side wall heat insulation panel 27 from above. As a result, the left and right plate portions 52b and 52c are fixed in contact with the inner surface of the vertical reinforcing member 51, as shown in FIG. In this way, the intermediate plate portion 52a is fixed to the front edge portion of the ceiling wall heat insulating panel 28.

In this case, the relatively heavy compressor 36 is provided at the rear of the heat insulating cabinet 2. On the other hand, the vertical reinforcing member 51 and the upper reinforcing member 52 are provided in front of the heat-insulating cabinet 2, that is, in front of the compressor 36. For this reason, the vertical reinforcing member 51 and the upper reinforcing member 52 contribute to the equalization of the front and rear weights in the heat insulating cabinet 2.

As shown in FIGS. 12 and 13, the hinge member 17 b is provided at a connection portion between the left side wall heat insulation panel 26 of the heat insulation cabinet 2 and the front partition member 10. Further, as shown in FIG. 2, the hinge member 18 b is provided at a connecting portion between the right-side heat insulating panel 27 and the front partition member 10. Since the attachment structure of each hinge member 17b, 18b is bilaterally symmetrical, the hinge member 17b part is demonstrated. The vertical reinforcing member 51 is formed in an L shape by cutting off a part of the inner plate portion 51c shown in FIG. Similarly, the inner extension 30b3 of the outer plate 30B shown in FIG. 10 is also cut away.

As shown in FIG. 13, a reinforcing connecting member 56 is provided across the back surface of the left vertical reinforcing member 51 and the back surface of the front partition member 10. Further, the hinge member 17 b is provided across the front surface of the left-side wall heat insulation panel 26 and the front surface of the front partition member 10. That is, for example, three screw insertion holes 17b1, 17b2, and 17b3 are formed in the hinge member 17b. A screw insertion hole 30m is formed in the intermediate portion 30b2 of the outer plate 30B. A screw insertion hole 51b1 is formed in the intermediate plate portion 51b of the vertical reinforcing member 51.

Furthermore, three screw screw holes 56a, 56b, and 56c are formed in the reinforcing connecting member 56. The screw screw holes 56a, 56b and 56c include a female screw part and a tapping hole part. Further, the reinforcing connecting member 56 is formed with a recessed portion 56d that is recessed in a dish shape. A screw insertion hole 56e is formed at the bottom of the recess 56d. The front partition member 10 is formed with screw insertion holes 10a and 10b.

Here, attachment of the reinforcing connecting member 56 and the hinge member 17b will be described. First, the reinforcing connecting member 56 is disposed on the back side of the vertical reinforcing member 51 and the front partition member 10. Then, the hinge member 17b is disposed on the front surface of the intermediate portion 30b2 of the outer plate 30B and the front surface of the front partition member 10. Thereafter, the screw 57a is passed through the screw insertion hole 17b1 of the hinge member 17b, the screw insertion hole 30m of the outer plate 30B, and the screw insertion hole 51b1 of the vertical reinforcing member 51. Then, the screw 57 a is screwed into the screw screw hole 56 a of the reinforcing connecting member 56. Further, the screw 57 b is passed through the screw insertion hole 17 b 2 of the hinge member 17 b and the screw insertion hole 10 a of the front partition member 10. Then, the screw 57 b is screwed into the screw screw hole 56 b of the reinforcing connecting member 56. Similarly, the screw 57c is passed through the screw insertion hole 17b3 of the hinge member 17b and the screw insertion hole 10b of the front partition member 10. Then, the screw 57 c is screwed into the screw screw hole 56 c of the reinforcement connecting member 56.

Thereby, the hinge member 17b is fixed to a connecting portion between the front partition member 10 and the left-side wall heat insulating panel 26. In this case, a part of the hinge member 17 b is fixed to the vertical reinforcing member 51. In other words, a part of the hinge portion 17 b is connected to the vertical reinforcing member 51 via the reinforcing contact member 56. Further, the upper hinge members 17a and 18a are provided on the upper surface side of the ceiling wall heat insulating panel 28 at the left and right corner portions of the upper reinforcing member 52, that is, the connection portions between the intermediate plate portion 52a and the left and right plate portions 52b and 52c. It is fixed in the vicinity by screws.

A partition back cover 58 made of synthetic resin is provided on the back side of the front partition member 10. The partition back cover 58 is provided in advance on the reinforcing connecting member 56 before the front partition member 10 is attached to the reinforcing connecting member 56. In this case, the reinforcing connecting member 56 is formed with a screw insertion hole 56e. A countersunk screw 59 is passed through the screw insertion hole 56e. Then, the countersunk screw 59 passed through the screw insertion hole 56 e is screwed into the partition back cover 58 disposed on the back side of the reinforcing connecting member 56. Thereafter, the front partition member 10 is attached to the reinforcing connecting member 56. Thereby, the partition back cover 58 is fixed to the front partition member 10 through the reinforcing connecting member 56.

Next, with respect to the connection portion between the front partition member 11 and the left side wall heat insulation panel 26 and the connection portion between the front partition member 11 and the right side wall heat insulation panel 27, the front partition member 11 and the left side wall heat insulation panel 26 are connected. The connection portion will be described as a representative with reference to FIGS. In addition, the connection part of the front partition member 11 and the heat insulation panel 27 for right side walls is comprised symmetrically with the connection part of the front partition member 11 and the heat insulation panel 26 for left side walls.

The vertical reinforcing member 51 is formed in an L shape in which a part of the inner plate portion 51c shown in FIG. Further, the outer plate 30B is also cut away from the inner extending portion 30b3 shown in FIG. A reinforcing contact member 61 is provided across the back surface of the vertical reinforcing member 51 and the back surface of the front partition member 11. The front partition member 11 is connected to the vertical reinforcing member 51 via the reinforcing contact member 61.

That is, a screw insertion hole 30n is formed in the intermediate portion 30b2 of the outer plate 30B. A screw insertion hole 51b2 is formed in the intermediate plate portion 51b of the vertical reinforcing member 51. Further, the reinforcing abutting member 61 is formed with three screw threaded hole portions 61a, 61b, 61c and a recessed portion 61d that is recessed in a dish shape. A screw insertion hole 61e is formed at the bottom of the recess 61d. The front partition member 11 is formed with screw insertion holes 11a and 11b.

In this case, first, the reinforcing contact member 61 is disposed behind the longitudinal reinforcing member 51 and the front partition member 11. Then, the screw 62a is passed through the screw insertion hole 30n of the outer plate 30B and the screw insertion hole 51b2 of the vertical reinforcing member 51. Then, the screw 62 a is screwed into the screw screw hole 61 a of the reinforcing member 61. Similarly, the screw 62 b is passed through the screw insertion hole 11 a of the front partition member 11, and the screw 62 c is passed through the screw insertion hole 11 b of the front partition member 11. Then, the screw 62 b is screwed into the screw screw hole 61 b of the reinforcing pad 61 and the screw 62 c is screwed into the screw screw hole 61 c of the reinforcing pad 61. Thereby, the front partition member 11 and the vertical reinforcing member 51 are fixed to each other by the reinforcing contact member 61.

On the back side of the front partition member 11, a partition back cover 63 made of synthetic resin is provided. The partition back cover 63 is provided in the reinforcing contact member 61 in advance when the front partition member 11 is attached to the left-side wall heat insulation panel 26. In this case, the reinforcing abutting member 61 is formed with a screw insertion hole 61e. A countersunk screw 64 is passed through the screw insertion hole 61e. Then, the countersunk screw 64 passed through the screw insertion hole 61 e is screwed into the partition back cover 63 disposed on the back side of the reinforcing pad member 61. Thereafter, the front partition member 11 is attached to the reinforcing member 61. Thereby, the partition back cover 63 is fixed to the front partition member 11 via the reinforcing contact member 61.

The partition back cover 63 is supported by a support 65 provided on the left-side wall heat insulation panel 26. As shown in FIG. 15, the support tool 65 is made of, for example, a synthetic resin, and integrally includes a protruding portion 65a and extending portions 65b and 65c. The protrusion 65a is configured in a rectangular block shape. The protrusion 65a has a screw insertion hole 65d and a counterbore 65e. The screw insertion hole 65d is formed by penetrating the protrusion 65a in a vertical direction in a circular shape. The screw insertion hole 65d is formed in a long hole shape that is slightly longer in the left-right direction. The counterbore part 65e has an inner diameter larger than the inner diameter of the screw insertion hole part 65d, and is formed so as to be recessed from the lower surface of the protrusion part 65a upward to the middle part of the thickness of the protrusion part 65a.

The extending portions 65b and 65c are formed in a rectangular plate shape extending in the vertical direction from the horizontal end portion of the protruding portion 65a, in this case, the end portion on the inner plate 31B side. The thickness dimension of the extending parts 65b and 65c in the horizontal direction is smaller than the thickness dimension of the protruding part 65a in the vertical direction. Further, a hole 31k is formed in the inner plate 31B. The hole 31k is formed through the inner plate 31B in a rectangular shape that is slightly larger than the protruding portion 65a and smaller than the outer shape of the extending portions 65b and 65c.

The support 65 is provided on the inner plate 31B when the left-side wall heat insulation panel 26 is assembled. In this case, the protrusion 65a of the support tool 65 is passed through the hole 31k of the inner plate 31B from the inner side to the outer side of the left side wall heat insulating panel 26, that is, from the vacuum heat insulating panel 32 side toward the inner side. An adhesive or the like is provided between the extending portions 65b and 65c and the inner plate 31B and between the extending portions 65b and 65c and the vacuum heat insulating panel 32. Thereby, the support tool 65 is bonded and fixed to the inner plate 31B and the vacuum heat insulation panel 32 in a state where the extension portions 65b and 65c are sandwiched between the inner plate 31B and the vacuum heat insulation panel 32.

The partition back cover 63 has a supported portion 63a. The supported portion 63a is formed in the lower part of the partition back cover 63, and a portion corresponding to the support 65 is recessed from below to above. The supported portion 63a has a screw screw hole portion 63b formed from the lower side toward the upper side. The protruding portion 65a of the support tool 65 enters the supported portion 63a. A screw 66 passed through the screw insertion hole portion 65d is screwed into the screw screw hole portion 63b of the supported portion 63a. Accordingly, the supported portion 63 a provided at the lower portion of the partition back cover 63 is supported by the support tool 65, and is fixed to the support tool 65 by the screw 66.

The left and right length dimensions of the partition back cover 63 are set so that a gap G is generated in advance between the left side wall heat insulation panel 26 and the right side wall heat insulation panel 27. That is, the left side wall heat insulation panel 26 and the right side wall heat insulation panel 27 are assembled on the basis of the width dimension Hs outside the heat insulation cabinet 2 shown in FIG. In this case, the variation in the thickness dimension generated in the left-side wall heat insulation panel 26 and the right-side wall heat insulation panel 27 is absorbed by changing the width dimension Hu inside the heat insulation cabinet 2. Thereby, the variation in the thickness dimension of the right and left side heat insulating panels 26 and 27 that occurs in the manufacturing process of the left and right side heat insulating panels 26 and 27 is allowed to some extent.

In this case, when the thickness dimension of the heat insulation panels 26 and 27 for the left and right side walls becomes the maximum value in the allowable range, the width dimension Hu inside the heat insulation cabinet 2 becomes the minimum value. The left and right length dimensions of the partition back cover 63 are set so that the gap G is generated even when the inner width dimension Hu of the heat insulating cabinet 2 is the minimum value. However, this gap G is slight. The gap G may be filled with a heat insulating material such as soft tape.

Next, a shelf receiving member 40, a refrigerator compartment bottom plate mounting member 41, a first rail mounting member 42, a partition wall mounting member 43, and a second rail mounting provided on the left side wall heat insulation panel 26 The member 44 will be described.

As shown in FIGS. 16 and 17, the shelf receiving member 40 has a plurality of projecting portions 40 a and 40 b and an extending portion 40 c. The extending part 40c is configured in a rectangular plate shape that is long in the vertical direction. The protruding portions 40a and 40b are formed in a bowl shape facing upward, and protrude from the left and right ends of the extending portion 40c to the inside of the warehouse. The protrusions 40a are paired with two left and right protrusions 40a. Similarly, the protrusions 40b are paired with two left and right protrusions 40b. The protrusion 40b is provided below the protrusion 40a. In this case, the shelf receiving member 40 is configured, for example, by punching the protruding portions 40a and 40b and the extending portion 40c from a metal plate, and then bending the protruding portions 40a and 40b. A shelf (not shown) is placed on the bowl-shaped protrusions 40 a and 40 b of the shelf receiving member 40.

The inner plate 31B is formed with holes 31a and 31b that are separated from each other in the vertical direction. The holes 31a and 31b are formed by penetrating the inner plate 31B into a rectangular shape into which the pair of protrusions 40a and 40b can be inserted. The protruding portions 40a and 40b of the shelf receiving member 40 are inserted into the holes 31a and 31b from the back surface side of the inner plate 31B and protrude to the front surface side of the inner plate 31B. The extending part 40c is bonded to the rear surface of the inner plate 31B and the peripheral parts of the hole parts 31a and 31b. As shown in FIG. 5, the back surface of the inner plate 31 </ b> B provided with the extending portion 40 c is bonded to the vacuum heat insulating panel 32. Thus, as shown in FIG. 16, the shelf receiving member 40 is fixed in a state where the extending portion 40 c is sandwiched between the inner plate 31 </ b> B and the vacuum heat insulating panel 32.

The refrigerating room bottom plate mounting member 41 also serves as a reinforcing member mounting portion, and is provided on the lower side of the refrigerating room bottom plate 8 as shown in FIG. As shown in FIGS. 18 and 19, the refrigerator compartment bottom plate mounting member 41 is formed in a long shape extending in the front-rear direction as a whole. The refrigerator compartment bottom plate mounting member 41 integrally includes a projecting portion 41a, an extending portion 41b, and an engaging portion 41c. The protruding portion 41a, the extending portion 41b, and the engaging portion 41c are integrally formed, for example, by bending a metal plate. The extending portion 41b is formed in a rectangular plate shape that is parallel to the inner plate 31B, that is, substantially perpendicular and long in the front-rear direction. The protruding portion 41a is formed by being bent substantially horizontally from the upper edge portion of the extending portion 41b to the inside of the warehouse. The engaging portion 41c is formed by being bent substantially horizontally from the lower edge portion of the extending portion 41b toward the inside of the cabinet, and further, the end portion inside the warehouse is bent substantially vertically downward. In this refrigerator compartment bottom plate mounting member 41, the longitudinal section from the projecting portion 41a to the extending portion 41b is formed in an L shape. In other words, the protruding portion 41a and the extending portion 41b are continuous so that the longitudinal section thereof is L-shaped. Moreover, the vertical cross-section of the refrigerator compartment bottom plate mounting member 41 has a groove shape in which the inside of the refrigerator is opened as a whole.

As shown in FIG. 19, a plurality of arrangement hole portions 41d and a plurality of screw insertion hole portions 41e are formed in the protruding portion 41a. The arrangement hole 41d is a slit-shaped connecting hole extending in the longitudinal direction of the protrusion 41a, that is, extending in the front-rear direction. The screw insertion hole 41e is a connecting hole made of a long hole that is long in the left-right direction. Further, as shown in FIG. 18, holes 31d and 31e are formed in the inner plate 31B. The holes 31d and 31e are formed in a slit shape. A protrusion 41a is inserted into the hole 31d from the back side of the inner plate 31B. The engaging portion 41c is inserted into the hole portion 31e from the back side of the inner plate 31B. And the extension part 41b of the attachment member 41 for cold room bottom plates is adhere | attached on the back surface of the inner plate 31B, and the vacuum heat insulation panel 32 in the state pinched by the back surface of the inner plate 31B, and the vacuum heat insulation panel 32. In this case, the attachment member 41 for the refrigerator compartment bottom plate is improved in attachment strength to the left-side wall heat insulation panel 26 by engaging the engaging portion 41c and the hole portion 31e.

The refrigerator compartment bottom plate mounting member 41 is provided to be paired with the left and right inner plates 31B and 31C. One end and the other end of a bridge-shaped reinforcing member 71 are connected to the left and right refrigerator compartment bottom plate mounting members 41, 41. The bridge-shaped reinforcing member 71 is configured, for example, by bending upward both ends of a rectangular metal plate that is long in the left-right direction. One end portion and the other end portion of the bridge-shaped reinforcing member 71 are provided in the central portion in the front-rear direction of the refrigerator compartment bottom plate mounting members 41, 41. A screw 72 is passed from below through the screw insertion hole 41e at the center in the front-rear direction of the mounting members 41, 41 for the refrigerator compartment bottom plate. The screw 72 is screwed into the bridge-shaped reinforcing member 71. Thereby, the both ends of the bridge-like reinforcing member 71 are fixed to the left and right refrigerator compartment bottom plate mounting members 41, 41. In this way, the left and right refrigerator compartment bottom plate attachment members 41, 41 are connected to each other by the bridge-like reinforcing member 71.

In this case, the screw insertion hole 41e is formed of a long hole that is long in the left-right direction. Therefore, the connecting position of the bridge-shaped reinforcing member 71 can be adjusted with respect to the left and right refrigerator compartment bottom plate attachment members 41. Therefore, the bridge-shaped reinforcing member 71 can be satisfactorily attached to the left and right refrigerator compartment bottom plate attachment members 41 even if the thickness dimensions of the left and right side heat insulating panels 26 and 27 vary.

That is, the heat insulation panels 26 and 27 for the left and right side walls are assembled on the basis of the width dimension Hs outside the heat insulation cabinet 2 shown in FIG. In this case, the variation in the thickness dimension of the left and right side heat insulating panels 26 and 27 is absorbed by changing the inner width dimension Hu of the heat insulating cabinet 2. The screw insertion hole 41e is formed as a long hole that is larger than the diameter of the screw 72 and long in the left-right direction in order to cope with a change in the width dimension Hu inside the heat insulating cabinet 2. Thereby, the attachment position of the bridge-shaped reinforcement member 71 with respect to the attachment member 41 for refrigerator compartment bottom plates can be adjusted according to the change of the width dimension Hu inside the heat insulation cabinet 2. FIG. The bridge-shaped reinforcing member 71 is firmly connected to the refrigerator compartment bottom plate attachment member 41 by screws 72 after the attachment positions of the left and right refrigerator compartment bottom plate attachment members 41 and 41 are adjusted. For this reason, it can suppress effectively that the heat insulation panels 26 and 27 for right and left side walls deform | transform into a curve direction.

The refrigerator compartment bottom plate 8 has an engaging projection (not shown) protruding downward from the lower surface side. The refrigerator compartment bottom plate 8 is arranged by fitting the engaging protrusions into the arrangement hole 41 d from above the refrigerator compartment bottom plate attachment member 41. In this case, the relatively heavy compressor 36 is provided near the rear part of the heat insulating cabinet 2. On the other hand, the bridge-shaped reinforcing member 71 is provided near the front portion of the heat-insulating cabinet 2. Therefore, the bridge-like reinforcing member 71 contributes to the equalization of the front and rear weights in the heat insulating cabinet 2.

As shown in FIG. 5, two first rail mounting members 42 are provided on the left and right sides of the vegetable compartment 4 in the front-rear direction. The first rail mounting member 42 will be described with reference to FIGS. The first rail mounting member 42 is configured by integrally including a protruding portion 42a, an extending portion 42b, an upper engaging portion 42c, and a lower engaging portion 42d, for example, using a metal plate. ing. The protruding part 42a protrudes inward from the inner plate 31B and is formed in a substantially cylindrical shape with the bottom on the inner side closed. In this case, the protrusion 42a is formed in a cylindrical shape close to a bowl shape.

The extending part 42b is formed in a plate shape extending in the vertical direction around the skirt of the protruding part 42a. One upper engaging portion 42c is provided at the center of the extending portion 42b in the front-rear direction at the upper portion of the extending portion 42b. The upper engaging portion 42c protrudes upward in an L shape. That is, the upper engaging portion 42c is bent so as to protrude from the upper end portion of the extending portion 42b to the inside of the warehouse, and the protruding tip portion is bent upward. Two lower engaging portions 42d are provided in the lower part of the extending portion 42b and in the front-rear direction of the extending portion 42b. The lower engaging portion 42d is bent so as to protrude from the lower end portion of the extending portion 42b to the inside of the warehouse. A screw screw hole 42e is formed in the protruding portion 42a.

The inner plate 31B has a hole 31f formed through the inner plate 31B in a circular shape. The protrusion 42a of the first rail mounting member 42 is inserted into the hole 31f from the back side of the inner plate 31B and protrudes from the hole 31f to the inside of the warehouse. The inner plate 31B is formed with an upper engagement hole 31g and a lower engagement hole 31h. The upper engagement hole 31g and the lower engagement hole 31h are formed through the inner plate 31B in a slit shape that is long in the front-rear direction. The upper engagement hole 31g is formed at one place above the hole 31f. The lower engagement hole 31h is formed below the hole 31f and at two locations in the front-rear direction.

In this case, the attachment of the first rail attachment member 42 to the inner plate 31B is performed as follows. First, the upper engaging portion 42c of the first rail mounting member 42 is inserted into the upper engaging hole portion 31g from the back surface side of the inner plate 31B. And while rotating the 1st rail attachment member 42 to the inner-plate 31B side centering | focusing on the upper side engaging part 42c, while inserting the protrusion part 42a in the hole 31f, the lower side engaging part 42d is made lower side Insert into the engaging hole 31h. At this time, an adhesive is applied between the extending portion 42b and the back surface of the inner plate 31B, whereby the extending portion 42b is bonded to the back surface of the inner plate 31B. The extending part 42b is also bonded to the vacuum heat insulating panel 32 with an adhesive or the like. Thus, the extending part 42b is fixed to the inner plate 31B and the vacuum heat insulation panel 32 by adhesion in a state sandwiched between the inner plate 31B and the vacuum heat insulation panel 32.

21. A rail 45 is attached to the first rail attachment member 42 as shown in FIG. The rail 45 extends in the front-rear direction, and guides the movement in the front-rear direction of a support frame (not shown) attached to the back side of the door 19 of the vegetable compartment 4. The rail 45 is fixed by screwing a screw into a screw screw hole 42e formed in the protrusion 42a of the first rail mounting member 42.

The partition wall mounting member 43 also serves as a reinforcing member mounting portion, and as shown in FIG. 3, in the vicinity of the heat insulating partition wall 9, in this case, below the heat insulating partition wall 9 and extending in the front-rear direction. Is provided. The partition wall mounting member 43 will be described with reference to FIGS. 22 and 23. The partition wall mounting member 43 is configured similarly to the refrigerator compartment bottom plate mounting member 41. That is, the partition wall attachment member 43 is formed in a long shape extending in the front-rear direction as a whole from, for example, a metal plate. The partition wall mounting member 43 includes a protruding portion 43a, an extending portion 43b, and an engaging portion 43c. The projecting portion 43a, the extending portion 43b, and the engaging portion 43c are integrally formed, for example, by bending a metal plate.

The extending portion 43b is formed in a rectangular plate shape that is parallel to the inner plate 31B, that is, substantially perpendicular and long in the front-rear direction. The protruding portion 43a is formed by being bent substantially horizontally from the upper edge portion of the extending portion 43b to the inside of the warehouse. The engaging portion 43c is formed by being bent substantially horizontally from the lower edge portion of the extending portion 43b toward the inside of the cabinet, and further, the end portion inside the cabinet is bent substantially vertically downward. In this case, the longitudinal section from the protruding portion 43a to the extending portion 43b is formed in an L shape. That is, the projecting portion 43a and the extending portion 43b are continuous so that the longitudinal section thereof is L-shaped. Further, the vertical cross section of the partition wall mounting member 43 has a groove shape in which the inner side is opened as a whole.

A plurality of arrangement holes 43d are formed in the protrusion 43a. The arrangement hole 43d is a slit-like connection hole extending in the longitudinal direction of the protrusion 43a, that is, extending in the front-rear direction. Further, holes 31i and 31j are formed in the inner plate 31B. The holes 31i and 31j are formed in a slit shape. A protrusion 43a is inserted into the hole 31i from the back side of the inner plate 31B. The engaging portion 43c is inserted into the hole portion 31j from the back side of the inner plate 31B. The extending portion 43 b of the partition wall mounting member 43 is bonded to the back surface of the inner plate 31 </ b> B and the vacuum heat insulation panel 32 while being sandwiched between the back surface of the inner plate 31 </ b> B and the vacuum heat insulation panel 32. In this case, in the partition wall mounting member 43, the engaging portion 43c and the hole portion 31j are engaged. Thereby, the attachment strength with respect to the heat insulation panel 26 for left side walls of the attachment member 43 for partition walls improves.

As shown in FIG. 23, the heat insulating partition wall 9 has a heat insulating material 9b such as urethane foam inside the outer casing portion 9a. A protruding portion 9c is formed integrally with the outer casing portion 9a. The protruding portion 9c is formed in a cylindrical shape that protrudes downward from the lower side surfaces of the left and right ends of the outer casing portion 9a. In FIG. 23, only the protrusion 9c at the left end is shown. The protrusion 9c is inserted into and engaged with the arrangement hole 43d of the partition wall attachment member 43 attached to the left and right side heat insulating panels 26 and 27. Thereby, the heat insulation partition wall 9 is provided in the heat insulation cabinet 2 so that the inside of the heat insulation cabinet 2 may be divided up and down. In this case, the heat insulating partition wall 9 also serves as a bridge-shaped reinforcing member.

The left and right lengths of the heat insulating partition wall 9 are set to lengths in which the gap G is generated in consideration of variations in the thickness dimensions of the left side wall heat insulating panel 26 and the right side wall heat insulating panel 27 in the same manner as the partition back cover 63. Has been. For the same reason, the inner diameter dimension in the left-right direction of the arrangement hole 43d is set to be slightly larger than the outer diameter dimension in the left-right direction of the protrusion 9c of the heat insulating partition wall 9. Thereby, the heat insulation partition wall 9 can adjust the connection position with respect to the partition wall attachment member 43.

As shown in FIG. 3, two second rail mounting members 44 are provided on the left and right sides of the main freezer compartment 7 in the front-rear direction. The second rail mounting member 44 has the same configuration as the first rail mounting member 42, and is similarly mounted on the inner plate 31B. Note that the gap G may be appropriately filled with a heat insulating material such as soft tape.

According to this, the heat insulation cabinet 2 has the attachment member 41 for the refrigerator compartment bottom plate which is a pair of reinforcement member attaching part. The refrigerator compartment bottom plate mounting member 41 is provided on the inner surfaces of the inner plates 31 </ b> B and 31 </ b> C facing each other in the heat-insulating cabinet 2. The pair of refrigerator compartment bottom plate mounting members 41 are connected by a bridge-shaped reinforcing member 71. In other words, one end of the bridge-shaped reinforcing member 71 is connected to the left-side refrigerator compartment bottom plate mounting member 41 in this case. On the other hand, the other end portion of the bridge-shaped reinforcing member 71 is connected to the right refrigeration chamber bottom plate mounting member 41 in this case. Thereby, the heat insulation panels 26 and 27 for right and left side walls, which are heat insulation walls, are attracted to each other by the bridge-shaped reinforcing member 71. That is, the right and left side heat insulating panels 26 and 27 are subjected to a force that is pulled to the side opposite to the deformation, that is, the inner side of the deformation, which is to be curved outward. Therefore, the left and right side wall heat insulating panels 26 and 27 are prevented from being bent and deformed outward.

The deformation of the left and right side wall heat insulation panels 26 and 27 in the bending direction by the cold room bottom plate mounting member 41 and the bridge-shaped reinforcing member 71 is suppressed when the thickness dimension of the left and right side wall heat insulation panels 26 and 27 is 35 mm or less. It is particularly effective. In the present embodiment, the vacuum heat insulation panel 32 has a thickness dimension of 20 mm, and the total thickness dimension of the outer plate 30B and the inner plate 31B is 1.5 mm. Therefore, the overall thickness dimension of the left and right side heat insulating panels 26 and 27 is 21.5 mm, which is an effective thickness dimension of 25 mm or less.

Further, each of the heat insulating panels 25 to 29 has a vacuum heat insulating panel 32 so as to be thinned. Here, since the heat insulation panels 26 and 27 for right and left side walls form the opening of the front surface of the heat insulation cabinet 2, the front edge part is not connected with other members. Therefore, if the left and right side wall heat insulation panels 26 and 27 are simply thin, the left and right side wall heat insulation panels 26 and 27 are easily deformed to be curved. In the present embodiment, the left and right side heat insulating panels 26 and 27 are connected by a bridge-shaped reinforcing member 71. Therefore, the deformation of the left and right side wall heat insulation panels 26 and 27 in the bending direction can be effectively suppressed, which is effective for reducing the thickness of the left and right side wall heat insulation panels 26 and 27.

The heat insulation cabinet may be one in which urethane foam is filled between the outer plate, that is, the outer box, and the inner plate, that is, the inner box. Even the heat insulation cabinet having this configuration is very effective in reducing the thickness of the heat insulation wall.

As shown in FIGS. 3, 18, and 19, the heat insulation cabinet 2 is provided with a refrigerator compartment bottom plate 8 as a plate member and a refrigerator compartment bottom plate attachment member 41 that is a pair of reinforcing member attachment portions. Yes. The refrigerator compartment bottom plate 8 is a separate member from the heat insulation cabinet 2 and divides the interior of the refrigerator vertically. Stored items are arranged in the refrigerator compartment bottom plate 8. The refrigerating chamber bottom plate mounting member 41 is provided in the vicinity of the left and right ends of the refrigerating chamber bottom plate 8 and on the lower side of the refrigerating chamber bottom plate 8 on the inner surface facing the inner plates 31B and 31C. And both ends of the bridge-shaped reinforcing member 71 are connected to the refrigerator compartment bottom plate mounting member 41. According to this, the storage space for stored items is not compressed by the bridge-shaped reinforcing member 71.

The left and right side heat insulating panels 26 and 27 are prevented from being deformed to be bent outward at the bottom plate 8 portion of the refrigerator compartment. Therefore, it is possible to suppress a gap from being generated between the refrigerating chamber bottom plate 8 and the left and right side wall heat insulation panels 26 and 27 by curving these left and right side wall heat insulation panels 26 and 27.

The bridge-shaped reinforcing member 71 is formed in an elongated rod shape. The bridge-shaped reinforcing member 71 is provided at an approximately middle portion at least in the front-rear direction of the inner plate 31B of the left-side wall heat insulation panel 26 and the inner plate 31C of the right-side wall heat insulation panel 27 facing left and right. According to this, the inner plates 31B and 31C can be fixed at the intermediate portion in the front-rear direction of the inner plates 31B and 31C, which are predicted to be greatly deformed in the bending direction. Therefore, the deformation of the inner plates 31B and 31C in the bending direction can be more effectively suppressed.

The left and right side wall heat insulation panels 26 and 27 are connected by the bridge-like reinforcing member 71 at the middle part in the front-rear direction, the rear part by the rear wall heat insulation panel 25, and the front part at the front partition member 10. Are connected by Therefore, it is possible to more effectively suppress the deformation of the left and right heat insulating panels 26 and 27 in the bending direction.
Note that the bridge-shaped reinforcing member 71 is not limited to an elongated rod shape, and may have a wide structure in the front and rear.

Further, as shown in FIGS. 3, 22, and 23, the heat insulating cabinet 2 is provided with a heat insulating partition wall 9 and a partition wall mounting member 43 that is a pair of reinforcing member mounting portions. The heat insulating partition wall 9 is a separate member from the heat insulating cabinet 2 and partitions the inside of the cabinet up and down. The partition wall mounting member 43 is provided in the vicinity of the left and right end portions of the heat insulating partition wall 9 on the inner surfaces facing the inner plates 31B and 31C. According to this, since the heat insulating partition wall 9 is connected to the pair of partition wall mounting members 43, the heat insulating partition wall 9 can be used as a bridge-shaped reinforcing member. Therefore, the heat insulation partition wall 9 can also suppress the left and right heat insulation panels 26 and 27 from being deformed so as to be curved.

The left and right side wall heat insulation panels 26 and 27 are prevented from being deformed to be bent outward by the heat insulation partition wall 9. According to this, it is suppressed that a clearance gap produces between the heat insulation partition wall 9 and the heat insulation panels 26 and 27 for right and left side walls by curving the heat insulation panels 26 and 27 for right and left side walls.

Since the left and right side wall heat insulating panels 26 and 27 are connected by the two members of the bridge-shaped reinforcing member 71 and the heat insulating partition wall 9, the deformation in the bending direction is more effectively suppressed. In addition, in order to suppress the deformation | transformation to the curve direction of the heat insulation panels 26 and 27 for right and left side walls, at least any one among the bridge-shaped reinforcement member 71 and the heat insulation partition wall 9 should just exist.

The refrigerating chamber bottom plate mounting member 41 and the partition wall mounting member 43, which are reinforcing member mounting portions, are configured by members different from the inner plates 31B and 31C. The refrigerator compartment bottom plate mounting member 41 integrally includes a projecting portion 41a and an extending portion 41b extending from the projecting portion 41a. And the protrusion part 41a and the extension part 41b are continuing so that a longitudinal section may become L shape. Holes 31d are formed in the inner plates 31B and 31C. And the extension part 41b of the attachment member 41 for cold room bottom plates is adhere | attached on the peripheral part of the hole part 31d of the back surface of the inner boards 31B and 31C, and the vacuum heat insulation panel 32. FIG. Moreover, the protrusion part 41a protrudes from the hole part 31d to the warehouse inner side. According to this, the mounting member 41 for the refrigerator compartment bottom plate separate from the inner plates 31 </ b> B and 31 </ b> C can be firmly attached to the heat insulating panel 26 for the left side wall and the heat insulating panel 27 for the right side wall.

The refrigerator compartment bottom plate mounting member 41 includes an engaging portion 41c extending substantially horizontally at the lower end of the extending portion 41b in addition to the protruding portion 41a. The engaging portion 41c is also inserted and engaged with the hole 31e formed in the inner plates 31B and 31C from the back side of the inner plates 31B and 31C. Thereby, the attachment intensity | strength of the attachment member 41 for the refrigerator compartment bottom board with respect to the heat insulation panel 26 for left side walls and the heat insulation panel 27 for right side walls improves further.
Since the partition wall mounting member 43 has the same configuration as the refrigerator compartment bottom plate mounting member 41, the same effect can be obtained.

As shown in FIG. 23, the projecting portion 43a of the partition wall mounting member 43, which is a reinforcing member mounting portion, is provided with an arrangement hole portion 43d, which is a connecting hole portion. Protrusions 9c are formed at both ends of the heat insulating partition wall 9 that is a bridge-shaped reinforcing member. The protrusion 9c is inserted and engaged with the arrangement hole 43d. Therefore, the heat insulating partition wall 9 can be connected to the partition wall mounting member 43 without using a screw or the like.

The compressor 36 is provided at the upper rear part of the heat insulation cabinet 2. The bridge-shaped reinforcing member 71 is provided on the front side of the compressor 36. That is, the relatively heavy compressor 36 is provided at the rear part of the heat insulation cabinet 2, while the bridge-shaped reinforcing member 71 is provided at the front part of the heat insulation cabinet 2. Therefore, this bridge-shaped reinforcing member 71 contributes to equalization of the weight in the front-rear direction in the heat-insulating cabinet 2.

As shown in FIG. 18, the screw insertion hole 41e of the cold room bottom plate mounting member 41 is formed as a long hole that is long in the left-right direction. According to this, the bridge-shaped reinforcing member 71 can adjust the connecting position in the left-right direction with respect to the refrigerating room bottom plate mounting member 41. Therefore, even when the thickness dimensions of the left and right side heat insulating panels 26 and 27 vary, the bridge-shaped reinforcing member 71 can be attached to the left and right refrigerator compartment bottom plate mounting members 41 in a satisfactory manner.

As shown in FIG. 23, the inner diameter dimension in the left-right direction of the arrangement hole 43d of the partition wall mounting member 43 is set to be slightly larger than the outer diameter dimension in the left-right width direction of the protrusion 9c of the heat insulating partition wall 9. ing. Therefore, even if the thickness dimensions of the heat insulating panels 26 and 27 for the left and right side walls vary, the heat insulating partition wall 9 can be favorably attached to the left and right partition wall mounting members 43.

A bridge-shaped reinforcing member is constituted by a heat insulating partition wall 9 which is a separate member from the heat insulating cabinet 2 and partitions the inside of the cabinet up and down. Therefore, the left and right side wall heat insulating panels 26 and 27 are connected to each other by the heat insulating partition wall 9 and are attracted to each other, so that deformation that curves outward is suppressed.

(Second embodiment)
Next, a second embodiment will be described with reference to FIG. The refrigerator 1 according to the second embodiment includes a refrigerator compartment bottom plate mounting member 81. The refrigerator compartment bottom plate attachment member 81 corresponds to the refrigerator compartment bottom plate attachment member 41 of the first embodiment. The refrigerator compartment bottom plate mounting member 81 is made of, for example, metal, and integrally includes a protruding portion 81a and extending portions 81b and 81c. The protruding portion 81a is formed in a rectangular plate shape that is long in the front-rear direction facing substantially the horizontal direction. The extending portions 81b and 81c are rectangular plate shapes extending in the front-rear direction continuously extending from the base end portion of the projecting portion 81a and facing the projecting portion 81a at a right angle. The refrigerator compartment bottom plate mounting member 81 has a T-shaped longitudinal section from the projecting portion 81a to the extending portion 81b and the extending portion 81c. A screw insertion hole 81d is formed in the protrusion 81a. The screw insertion hole 81d corresponds to the screw insertion hole 41e of the first embodiment.

According to the second embodiment, the refrigerating chamber bottom plate mounting member 81 has a left and right side as compared with a configuration in which the protruding portion 81a and the extending portion 81b, or the protruding portion 81a and the extending portion 81c are configured in an L shape. The attachment strength with respect to the side wall heat insulating panels 26 and 27 can be improved.

(Third embodiment)
Next, a third embodiment will be described with reference to FIG. In the third embodiment, the inner plate 31B, 31C is integrally formed with a refrigerator compartment bottom plate attachment member 83 which is a reinforcing member attachment portion. In this case, the inner plates 31B and 31C are not a sheet member but an integrally formed product by vacuum forming or the like, that is, a molded product. The refrigerator compartment bottom plate mounting member 83 has a screw threaded hole 83a. The bridge-shaped reinforcing member 84 is formed with a screw insertion hole 84a. The screw insertion hole 84a is formed as a long hole that is long in the left-right direction. A screw 72 is passed through the screw insertion hole 84 a from the upper side of the bridge-shaped reinforcing member 84. The screw 72 is screwed into the screw screw hole 83a. As a result, the bridge-shaped reinforcing member 84 is fixed to the refrigerator compartment bottom plate mounting member 83. According to the third embodiment, the number of parts can be reduced.

(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIG. The fourth embodiment differs from the first embodiment in the following points. That is, in the first embodiment, the outer box of the heat insulation cabinet 2 includes a plurality of divided outer plates, in this case, the outer plate 30A of the rear wall heat insulation panel 25 and the outer plate 30B of the left wall heat insulation panel 26. The outer plate 30C of the right side wall heat insulation panel 27, the outer plate 30D of the ceiling wall heat insulation panel 28, and the outer plate 30E of the bottom wall heat insulation panel 29 are combined. On the other hand, the outer box of the heat insulation cabinet 2 in the fourth embodiment is the left wall heat insulation panel 26, the right wall heat insulation panel 27, and the bottom wall heat insulation among the outer plates constituting the outer box of the heat insulation cabinet 2. A part of the outer plate corresponding to the panel 29 is constituted by a single outer plate 85.

Here, the refrigerator compartment bottom plate 8 may be configured to also serve as a bridge-like reinforcing member. According to this, the refrigerating room bottom plate 8 can suppress deformation of the left-side wall heat insulation panel 26 and the right-side wall heat insulation panel 27 in the bending direction. Further, the shelf receiving member 40 may be configured to also serve as a reinforcing member mounting portion. In this case, the shelf board received by the shelf receiving member 40 may be a bridge-shaped reinforcing member.

In the first embodiment, the heat-insulating cabinet 2 is rearward, left and right, and upper and lower walls, that is, the heat insulating panel 25 for the rear wall, the heat insulating panel 26 for the left side wall, the heat insulating panel 27 for the right side wall, and the ceiling wall. It divided | segmented into the heat insulation panel 28 for walls, and the heat insulation panel 29 for bottom walls. However, the present invention is not limited to this. For example, the rear wall portion and the upper wall portion may be a single wall portion, and the left wall portion and the right wall portion may be connected thereto. Also good. In this case, the vacuum heat insulating panel may have a flat plate shape corresponding to each wall portion, or may be bent to cover a plurality of wall portions.

Moreover, you may arrange | position suitably a vacuum heat insulation panel, foaming urethane, etc. between each outer wall and an inner board on each wall part of a heat insulation cabinet.
Further, as the heat insulating material for the heat insulating cabinet, a foamed urethane may be used instead of the vacuum heat insulating panel.

The refrigerator according to the embodiment described above has a heat insulating cabinet having a heat insulating material between an outer plate that is configured in a box shape and forms a surface on the outside of the box, and an inner plate that forms a surface on the inside of the box, and is opposed to the inside of the box. A pair of reinforcing member mounting portions respectively provided on the pair of inner plates, one end of which is connected to one of the pair of reinforcing member mounting portions, and the other reinforcing member mounting portion A bridge-shaped reinforcing member having ends connected to each other. According to this, it can suppress that the wall of a heat insulation cabinet swells outside.

Although several embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

Claims (13)

1. A heat-insulating cabinet having a heat insulating material between an outer plate that is configured in a box shape and forms an outer surface of the cabinet, and an inner plate that forms an inner surface of the warehouse;
   A pair of reinforcing member mounting portions respectively provided on a pair of inner plates facing each other in the storage;
   A bridge-shaped reinforcing member having one end connected to one reinforcing member attaching portion of the pair of reinforcing member attaching portions and the other end connected to the other reinforcing member attaching portion;
   Refrigerator.
2. It is a separate member from the heat-insulating cabinet, and includes a plate member that vertically divides the inside of the cabinet and on which stored items are arranged,
   The pair of reinforcing member mounting portions are surfaces on the inner side of the pair of inner plates and are provided in the vicinity of the left and right end portions of the plate member and below the plate member, respectively, and the bridge-shaped reinforcing member The refrigerator according to claim 1, wherein the refrigerators are connected to each other.
3. As the bridge-shaped reinforcing member, it is a separate member from the heat-insulating cabinet, and includes a heat-insulating partition wall that partitions the inside of the cabinet up and down,
   The pair of reinforcing member mounting portions are provided on the inner surface of the pair of inner plates in the vicinity of the left and right end portions of the heat insulating partition wall, and are connected to each other by the bridge-shaped reinforcing member. The refrigerator according to claim 1.
4. The refrigerator according to claim 1 or 2, wherein the bridge-shaped reinforcing member is provided at least in an intermediate portion in the front-rear direction on the inner plate facing left and right.
5. The refrigerator according to any one of claims 1 to 4, wherein the heat insulation cabinet includes a vacuum heat insulation panel.
6. A hole is formed in the inner plate,
   The reinforcing member mounting portion is a member separate from the inner plate, and is a protrusion projecting from the back side of the inner plate through the hole and projecting into the inner side of the inner plate. An extending portion extending from the portion,
   The refrigerator according to claim 5, wherein the extending portion is bonded to a peripheral portion of the hole on the back surface of the inner plate and the vacuum heat insulating panel.
7. 7. The reinforcing member attaching portion is made of metal and integrally configured with the protruding portion and the extending portion, and a cross section from the protruding portion to the extending portion is L-shaped. The refrigerator described.
8. 7. The reinforcing member mounting portion is made of metal and integrally includes the protruding portion and the extending portion, and a cross section from the protruding portion to the extending portion is T-shaped. The refrigerator described.
9. A connecting hole is formed in the protruding portion of the reinforcing member mounting portion,
   The refrigerator according to any one of claims 6 to 8, wherein protrusions that are inserted into and engaged with the connecting hole are formed at both ends of the bridge-shaped reinforcing member.
10. The refrigerator according to any one of claims 1 to 9, wherein the bridge-shaped reinforcing member can be adjusted in a lateral direction in connection with the pair of reinforcing member mounting portions.
11. A compressor is provided at the upper rear part of the heat insulation cabinet,
    The refrigerator according to any one of claims 1 to 10, wherein the bridge-shaped reinforcing member is provided in front of the compressor.
12. The refrigerator according to any one of claims 1 to 11, wherein the bridge-shaped reinforcing member is a member separate from the heat-insulating cabinet, and is configured by a plate member that vertically divides the inside of the cabinet and on which stored items are arranged. .
13. The refrigerator according to any one of claims 1 to 11, wherein the bridge-shaped reinforcing member is a separate member from the heat insulating cabinet and is configured by a heat insulating partition wall that partitions the interior of the cabinet vertically.

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