JP2014159959A - Refrigerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To secure strength of a load part on which a member partitioning the inside of storage is loaded, without causing complication of structure and cost increase.SOLUTION: A refrigerator comprises: a body 2 having structure in which a vacuum heat insulation panel 5 is arranged between an outer case 3 and an inner case 4; a load part 8 provided in the inner case 4 to protrude toward the inside of the inner case 4; and a reinforcement plate 10 arranged within the load part 8 and reinforcing the load part 8.

Description

  The present invention relates to a refrigerator in which a vacuum heat insulating material is arranged inside a main body composed of an outer box and an inner box.

  Conventionally, a refrigerator in which a vacuum heat insulating material is arranged inside a main body composed of an outer box and an inner box has been provided. As this type of refrigerator, for example, in Patent Document 1, urethane is filled between a placement unit that supports a shelf plate that partitions the interior of the cabinet and a vacuum heat insulating material, and is cured, so that It has been shown to increase rigidity and gain strength to support the shelf.

JP-A-8-82475

  However, in the configuration in which urethane is filled as in Patent Document 1, a urethane seal structure and a dedicated facility for filling with urethane are required, resulting in a complicated structure and high cost.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a refrigerator capable of ensuring the strength of the mounting portion without incurring complicated structures and high costs.

  The refrigerator of the present invention includes a main body configured by disposing a vacuum heat insulating material between an outer box and an inner box, a mounting part provided to protrude to the inner side of the inner box, and the inside of the mounting part And a reinforcing member that reinforces the mounting portion.

  According to the refrigerator of the present invention, since the reinforcing member that reinforces the mounting portion is arranged inside the mounting portion, the structure is complicated and the cost is high with a simple configuration that does not use such urethane. The strength of the placing portion can be ensured without incurring.

The perspective view which shows one Embodiment of this invention and shows the main body of a refrigerator An enlarged perspective view showing the mounting portion and its peripheral portion The expanded perspective view which shows the state by which the reinforcement board was arrange | positioned inside the mounting part Perspective view showing a reinforcing plate FIG. 2 is a front view of the longitudinal section along the F5-F5 line of FIG.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the main body 2 of the refrigerator 1 includes an outer box 3 that constitutes an outer shell of the refrigerator 1 and an inner box 4 that is accommodated in the outer box 3. The outer box 3 is made of, for example, a steel plate, and the inner box 4 is made of, for example, an ABS resin (acrylonitrile / butadiene / styrene copolymer resin).

  And the main body 2 of the refrigerator 1 has the structure by which the vacuum heat insulation panel 5 (VIP: Vacuum Insulation Panel, refer FIG. 2) which consists of a vacuum heat insulating material is arrange | positioned between the inner box 4 of the outer box 3. FIG. Thereby, the inside and the outside of the warehouse are insulated. Here, the vacuum heat insulation panel 5 is formed in a rectangular plate-shaped rectangular parallelepiped, and the left and right side surfaces 2a and 2b, the top surface 2c, the bottom surface 2d, the back surface 2e, and the inclined surface 2f below the back surface 2e of the main body 2. Each one is arranged. These vacuum heat insulation panels 5 are bonded and fixed to the outer box 3 and the inner box 4.

  The inside of the main body 2 (inside the cabinet) is partitioned by a heat insulating wall (not shown), and for example, the refrigerator compartment 6 and the freezer compartment 7 are formed. For example, hinged doors and drawer doors (not shown) are provided on the front surfaces of the refrigerator compartment 6 and the freezer compartment 7, respectively.

  Although not shown, the refrigerator 1 includes a temperature sensor for detecting the temperature inside the refrigerator, a cooler for cooling the interior, and a cooling fan for supplying cold air generated by the cooler into the refrigerator. A temperature sensor for detecting the temperature of the cooler, a defrost heater for melting frost attached to the cooler, an interior lamp for illuminating the interior, and the like are installed. The refrigerator 1 has a built-in refrigeration cycle. In this refrigeration cycle, a cooler, a compressor, a condenser, an accumulator, a capillary tube, etc. are connected in a closed loop by a refrigerant pipe. It is configured to be supplied to the cooler and returned to the compressor.

  Although not shown, a machine room is provided in the lower part of the back side (rear side) of the refrigerator 1 so as to be located behind the inclined surface 2f. In the machine room, in addition to the above-described compressor and condenser, a cooling fan and the like for cooling the compressor and condenser are disposed. The machine room includes a CPU, a ROM, a RAM, and the like, and a control device that controls the overall operation of the refrigerator 1.

  The main body 2 of the refrigerator 1 having such a configuration is provided with a hollow mounting portion 8 that protrudes to the inside of the cabinet, and a shelf plate 9 (corresponding to a partition member) is placed on the mounting portion 8. It has become so. Next, the configuration of the mounting portion 8 and its peripheral portion will be described with reference to FIG.

  The mounting portion 8 is provided so as to protrude to the inner side of the left and right side surfaces of the inner box 4 constituting the main body 2. The mounting portion 8 is formed integrally with the inner box 4. Therefore, the mounting portion 8 is also made of ABS resin, like the inner box 4. Further, the mounting portion 8 is provided in a plurality of stages (in this case, two stages) in the vertical direction on the left and right side surfaces of the inner box 4.

  Each of the plurality of placement portions 8 includes a hollow protrusion 8a extending in the front-rear direction and a hollow bulging portion 8b extending in the vertical direction. The protruding portion 8a is formed so as to protrude in a rectangular shape on the inner side. The bulging portion 8b is formed so as to swell thinly in the shape of a rectangular plate on the inner side. The protruding amount (thickness dimension) of the protruding portion 8a to the inner side of the ridge 8a is smaller than the protruding amount (thickness dimension) of the protruding portion 8b to the inner side. Therefore, the protruding portion 8 a becomes a portion on which the shelf plate 9 is placed in the placement portion 8. Further, a plurality of (in this case, two) protrusions 8a arranged in the vertical direction are connected by a bulging portion 8b.

  As shown in FIG. 3, a reinforcing plate 10 (corresponding to a reinforcing member) for reinforcing the mounting portion 8 is disposed inside the mounting portion 8 having such a configuration. Next, the configuration of the reinforcing plate 10 will be described with reference to FIGS.

  The reinforcing plate 10 is made of a material (for example, an iron plate) whose rigidity is stronger than that of the above-described ABS resin mounting portion 8, and the whole is housed in the mounting portion 8 as shown in FIG. 3. Has been. As shown in FIG. 4, the reinforcing plate 10 has a protruding portion 10a and a parallel portion 10b. The protruding portion 10a protrudes in a rectangular shape on the inner side of the box, and is housed inside the protruding portion 8a in the mounting portion 8. Note that the protruding portion 10a is not disposed in the entire interior of the protruding portion 8a extending in the front-rear direction, but is disposed in the portion of the protruding portion 8a that intersects the bulging portion 8b. Accordingly, a space is formed in a portion of the protruding portion 8a where the protruding portion 10a is not disposed. The parallel part 10b is thinly formed in a rectangular plate shape, and is housed in parallel with the vacuum heat insulating panel 5 in the main body 2 inside the bulging part 8b in the mounting part 8, as shown in FIG. In this case, a space is formed thinly between the reinforcing plate 10 housed in the mounting portion 8 and the vacuum heat insulating panel 5.

  The reinforcing plate 10 has a plurality of (in this case, two) protruding portions 10a corresponding to the plurality of (two-tiered) mounting portions 8 (the protruding portions 8a). And the reinforcement board 10 becomes a structure by which these several protrusion part 10a was integrally connected by the parallel part 10b.

  In addition, the reinforcement member in this embodiment makes one unit the one protrusion part 10a and the parallel part 10b extended up and down of the said protrusion part 10a. Therefore, the reinforcing plate 10 described above has a configuration in which two reinforcing members corresponding to the two placement portions 8 are integrally connected to each other vertically via the parallel portion 10b.

  According to this embodiment, since the reinforcing plate 10 that reinforces the placing portion 8 is placed inside the placing portion 8 on which the shelf plate 9 that partitions the inside of the warehouse is placed, the placement is performed by filling urethane. Unlike the prior art which reinforces the portion, the strength of the placement portion 8 can be sufficiently secured with a simple configuration without incurring a complicated structure and high cost.

In addition, since the reinforcing plate 10 is made of a material having rigidity higher than that of the placement portion 8, the strength of the placement portion 8 can be further strengthened.
Moreover, since the whole reinforcement board 10 is accommodated in the mounting part 8, the external appearance in a store | warehouse | chamber is not impaired. Moreover, since the reinforcement board 10 comprised with the iron plate etc. is not exposed in a store | warehouse | chamber, the corrosion, pollution, damage, etc. of the said reinforcement board 10 can be prevented.

  Moreover, the vacuum heat insulation panel 5 is generally formed in a rectangular plate-shaped rectangular parallelepiped, and is a material that is difficult to be deformed by cutting a part thereof. In the present embodiment, a space for storing the reinforcing plate 10 is secured by projecting the placement portion 8 in the inner box 4 to the inner side of the inner box 4 instead of securing a part of the vacuum heat insulating panel 5. I did it. Thereby, it is not necessary to perform the deformation | transformation for providing the storage space of the reinforcement board 10 in the vacuum heat insulation panel 5 which is difficult to deform | transform. Moreover, when a part of the vacuum heat insulation panel 5 is shaved, although the heat insulation of the shaved part will be impaired, according to this embodiment, the heat insulation of the vacuum heat insulation panel 5 is not impaired.

  In addition, the reinforcing plate 10 has a protruding portion 10 a that protrudes in a rectangular shape inside the warehouse, and a thin rectangular plate-shaped parallel portion 10 b that is parallel to the vacuum heat insulating panel 5. On the other hand, corresponding to the reinforcing plate 10 having such a configuration, the placing portion 8 has a protruding portion 8a that protrudes in a rectangular shape on the inner side of the warehouse, and a bulging portion 8b that swells thinly on the inner side of the warehouse. . And the protrusion part 10a of the reinforcement board 10 is accommodated in the protrusion part 8a, and the parallel part 10b of the reinforcement board 10 is accommodated in the bulging part 8b. Thereby, the whole reinforcement board 10 which has the protrusion part 10a and the parallel part 10b can be accommodated in the mounting part 8 without difficulty.

  Moreover, since the mounting part 8 is provided with two or more by the up-down direction, the several shelf board 9 can be mounted in a store | warehouse | chamber. And since the protrusion part 10a of the reinforcement board 10 is provided with two or more corresponding to each of the some mounting part 8, these some mounting part 8 can be reinforced, respectively. Moreover, the some protrusion part 10a is integrally provided through the parallel part 10b. Thereby, the reinforcement board 10 which has the two protrusion parts 10a, in other words, the reinforcement board 10 which consists of a 2 unit reinforcement member can be handled as one component. And the bulging part 8b which accommodates the parallel part 10b of the reinforcement board 10 is provided so that the protrusion part 8a of the some mounting part 8 may be connected. Therefore, the parallel part 10b of the reinforcing plate 10 is not exposed to the interior, and the appearance inside the interior is not impaired. Further, corrosion, fouling, breakage, and the like of the parallel portion 10b and by extension the reinforcing plate 10 can be prevented.

  Moreover, since it comprised so that it might have a space between the reinforcement board 10 accommodated in the mounting part 8, and the vacuum heat insulation panel 5 in the main body 2, the heat insulation effect by the said space can be acquired.

In addition, this invention is not limited only to the above-mentioned one Embodiment, For example, it can deform | transform or expand as follows.
The placement portion 8 is not limited to two steps in the vertical direction, and may be provided in three or more steps. Further, a plurality of protruding portions 10 a of the reinforcing plate 10 may be provided according to the number of stages of the placement portion 8.
The protruding portion 8a of the mounting portion 8 may not protrude in a rectangular shape, and may be protruded with a rounded tip, for example. Moreover, the bulging part 8b of the mounting part 8 does not need to bulge thinly into a rectangular plate shape, and may bulge thinly into an arc shape, for example.

  Moreover, the protrusion part 10a of the reinforcement board 10 does not need to protrude in a rectangular shape, for example, you may make it protrude with a roundness in a front-end | tip part. Moreover, the parallel part 10b of the reinforcement board 10 does not need to be formed thinly in a rectangular plate shape, and may be formed thinly in an arc shape, for example.

  The reinforcing plate 10 may be adhered to the inside of the placement portion 8. Further, a part of the reinforcing plate 10 (for example, the protruding portion 10a or the parallel portion 10b) may be adhered to the inside of the placement portion 8. Thereby, the reinforcement board 10 adheres to the mounting part 8, and the intensity | strength of the mounting part 8 can be strengthened further. In addition, the reinforcing plate 10 is fixed in the mounting portion 8, and rattling of the reinforcing plate 10 can be prevented.

Since a sufficient heat insulating effect can be obtained by the vacuum heat insulating panel 5, the reinforcing plate 10 may be bonded to the vacuum heat insulating panel 5 so that no space is provided between the reinforcing plate 10 and the vacuum heat insulating panel 5.
The reinforcing plate 10 is not limited to a configuration in which two reinforcing members are connected, and for example, a configuration in which three or more reinforcing members are connected may be used.

The material constituting the reinforcing plate 10 is not limited to the iron plate as long as the material is stronger than the placement portion 8.
A plurality of the bulging portions 8b of the mounting portion 8 may be arranged in the front-rear direction, and a plurality of reinforcing plates 10 may be arranged in the front-rear direction.

  In the drawings, 1 is a refrigerator, 2 is a main body, 3 is an outer box, 4 is an inner box, 5 is a vacuum heat insulating panel (vacuum heat insulating material), 8 is a placing portion, 8b is a bulging portion, and 9 is a shelf (partition) Member), 10 is a reinforcing plate (reinforcing member), 10a is a protruding portion, and 10b is a parallel portion.

Claims (1)

A main body configured by arranging a vacuum heat insulating material between the outer box and the inner box;
A mounting portion provided to protrude to the inner side of the inner box;
A refrigerator comprising: a reinforcing member that is disposed in the mounting portion and reinforces the mounting portion.

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