JP2022137796A - Refrigerator and method for manufacturing refrigerator - Google Patents

Abstract

To provide a refrigerator that can efficiently supply cold air to a lower part of a refrigerator while having a relatively large cooling mechanism.SOLUTION: A refrigerator 1 includes: a shelf 22 for partitioning between a freezing chamber 20 and a vegetable chamber 12 or a refrigeration chamber 11; an evaporator 42 located on a rear side of the freezing chamber; and a fan 43 located on an upper side of the evaporator, where a slope 22C is formed so as to be oriented on a rear upper side in a lower part of a bottom surface 22B of the shelf and urethane is filled inside of the slope.SELECTED DRAWING: Figure 7

Description

The present invention relates to refrigerator technology.

Refrigerators having a refrigerating compartment, a vegetable compartment, and a freezing compartment are conventionally known. For example, Japanese Patent Application Laid-Open No. 9-113109 discloses a refrigerator. According to Patent Document 1, a heat exchanger and a fan motor are arranged behind the vegetable compartment, and cool air discharged from the fan motor is supplied to the freezer compartment through a passage behind the vegetable compartment.

JP-A-9-113109

Since the freezer compartment is set to the storage compartment with the lowest temperature, it is desired that cold air be efficiently supplied. On the other hand, since the vegetable compartment is set to a relatively higher temperature than the other storage compartments, it is desirable to avoid heat exchange between the cold air from the fan motor and the vegetable compartment. SUMMARY OF THE INVENTION An object of the present invention is to provide a refrigerator capable of efficiently supplying cool air to a lower freezer while having a relatively large cooling mechanism.

In one aspect of the present invention, a shelf separating a freezer compartment and a vegetable compartment or a refrigerator compartment, an evaporator behind the freezer compartment, and a fan above the evaporator are provided, and a A refrigerator is provided in which an upward slope is formed and the inside of the slope is filled with urethane.

ADVANTAGE OF THE INVENTION According to this invention, the refrigerator which can supply cool air efficiently to a lower freezer is provided, having a comparatively large cooling mechanism.

It is a front view of a refrigerator concerning this embodiment. It is a front view showing the heat insulation box body of the refrigerator concerning this Embodiment, and its inside. Fig. 2 is an upper right perspective view showing the heat insulating box body and the inside thereof of the refrigerator according to the present embodiment; Fig. 2 is a lower left perspective view showing the heat insulating box body and the inside thereof of the refrigerator according to the present embodiment; It is an upper left perspective view which shows the inside of the freezer compartment concerning this Embodiment. It is (A) side sectional drawing, (B) side sectional perspective view, and (C) side perspective view of the refrigerator concerning this Embodiment. It is a right side cross-sectional view showing an enlarged vicinity of a VF shelf of the refrigerator according to the present embodiment. Fig. 2 is an upper right perspective view of the VF shelf of the refrigerator according to the present embodiment; It is a lower right perspective view of the VF shelf of the refrigerator according to the present embodiment. Fig. 3 is an upper left perspective view showing the vicinity of the mounting portion of the partition frame of the refrigerator according to the present embodiment; It is a flow chart which shows a manufacturing method of a refrigerator concerning this embodiment. It is an upper left perspective view showing the inside of the freezer compartment with the reinforcing member according to the present embodiment attached. It is an upper right perspective view showing a jig according to the present embodiment. It is (A) a right side cross-sectional view, (B) a right side cross-sectional perspective view, and (C) a right side perspective view of a state where the jig according to the present embodiment is started to be inserted into the freezer. It is (A) a right side cross-sectional view, (B) a right side cross-sectional perspective view, and (C) a right side perspective view of a state in which the jig according to the present embodiment is inserted all the way into the freezer. It is (A) a right side cross-sectional view, (B) a right side cross-sectional perspective view, and (C) a right side perspective view of a state in which the jig according to the present embodiment is raised. It is (A) a right side cross-sectional view, (B) a right side cross-sectional perspective view, and (C) a right side perspective view of a state in which an evaporator, an evaporator cover, and the like according to the present embodiment are attached. FIG. 4 is a front perspective view showing the lower evaporator cover according to the embodiment; FIG. 3 is a front perspective view showing the upper evaporator cover according to the embodiment; 1 is a front perspective view showing an evaporator cover according to this embodiment; FIG. FIG. 4 is a rear perspective view showing the EVA cover to which the fan according to the present embodiment is attached; It is a front perspective view showing a V-duct according to the present embodiment. It is a rear perspective view showing the V-duct according to the present embodiment. It is a left view showing the middle of mounting the V-duct according to the present embodiment. It is an upper left perspective view which shows the freezer compartment just before attaching the partition frame concerning this Embodiment. It is an upper left perspective view showing the freezer compartment immediately after attaching the partition frame concerning this Embodiment.

Hereinafter, each embodiment of the present invention will be described with reference to the drawings. In the following description, the same parts are given the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.
[First embodiment]
<Overall configuration of the refrigerator>

First, the overall configuration of the refrigerator 1 according to the first embodiment will be described. FIG. 1 shows an appearance of the refrigerator 1 viewed from the front.

The outer shape of the refrigerator 1 is mainly composed of a heat insulating box body 90 . A storage space of the refrigerator 1 is formed by the heat insulating box body 90 . The storage space formed by the heat insulating box body 90 is divided into, for example, a refrigerating compartment 11, a vegetable compartment 12, a first freezing area 13, and an ice making/storage area 14 in this order from the top by a plurality of partitions extending in the horizontal direction. , and the second freezing area 15 . Note that the first freezing area 13 , the ice making/storage area 14 and the second freezing area 15 are hereinafter collectively referred to as a freezer compartment 20 .

The refrigerating chamber 11 is provided with left and right divided double doors 11a and 11b. The vegetable compartment 12 is provided with a drawer-type vegetable compartment door 12a. The first freezer area 13 is provided with a drawer-type freezer compartment door 13a. The ice making/storage area 14 is provided with a drawer type ice making compartment door 14a. The second freezer area 15 is provided with a drawer-type freezer compartment door 15a.

In the present embodiment, each drawer-type door (that is, the vegetable compartment door 12a, the freezer compartment door 13a, the ice making compartment door 14a, the freezer compartment door 15a, etc.) is provided with a handle 31 at its upper end. It is

In addition, below, the surface in which the door is provided is called the front or the front surface of a refrigerator. Based on the position where the refrigerator 1 is installed in a normal state with the front surface as a reference, each surface of the refrigerator 1 is defined as the top surface, the side surface, the back surface, and the bottom surface. Further, with the refrigerator 1 placed on the installation surface, the left and right directions (horizontal direction orthogonal to the vertical direction) when viewed from the front of the refrigerator 1 are the left and right directions of the refrigerator 1 (or the vegetable compartment door 12a, etc.). called direction. The up-down direction of the refrigerator 1 (vertical direction orthogonal to the left-right direction) when the refrigerator 1 is placed on the installation surface is referred to as the up-down direction of the refrigerator 1 (or the vegetable compartment door 12a, etc.). Also, the left side of the refrigerator 1 when viewed from the front side is called the left side of the refrigerator 1 , and the right side of the refrigerator 1 when viewed from the front side is called the right side of the refrigerator 1 .
<Internal configuration of the refrigerator>

Next, the internal structure of the refrigerator 1 according to this embodiment will be described with reference to FIGS. 2 to 7. FIG. The refrigerator 1 is provided with an RV shelf 21 for separating the refrigerating compartment 11 and the vegetable compartment 12 at substantially the upper and lower center of the heat insulating box body 90 . Also, a VF shelf 22 is provided for partitioning the vegetable compartment 12 and the freezer compartment 20 .

A partition frame 23 for partitioning the open portion of the freezer compartment 20 is attached below the front end portion of the VF shelf 22 . The partition frame 23 is an elongated frame that extends horizontally over the front portion of the refrigerator 1 where the doors 13a, 14a, and 15a are located. The partition frame 23 separates the lower first freezing area 13 from the upper ice making/storage area 14 and the second freezing area 15 .

In particular, in the present embodiment, the partition frame 23 is fixed to the heat insulating box 90 and the liner 94 after the urethane is foamed inside the heat insulating box 90 and the VF shelf 22 .

In this embodiment, the rails 96 for sliding the cases arranged in the first freezing area 13 in the longitudinal direction and the rails for sliding the cases arranged in the ice making/storage area 14 in the longitudinal direction are A rail 97 formed directly on the liner 94 of the heat insulating box body 90 and used to slide the case arranged in the second freezing area 15 in the front-rear direction is composed of a separate member attached to the liner 94 before urethane foaming. be done. The rails 97 are preferably thicker than the liner 94 of the heat insulating box body 90 or made of a harder material than the liner 94 so as to be stronger than the liner 94 .

Further, in the present embodiment, a door opening/closing sensor 27 for detecting opening/closing of the door 13 a of the first freezing area 13 is attached to the lower portion of the partition frame 23 . Power lines and signal lines (see FIG. 10) to the door open/close sensor 27 are connected to the door open/close sensor 27 from a control board (not shown) outside the heat insulating box 90 through the urethane of the heat insulating box 90. be. In particular, in this embodiment, the electric power line and the signal line are connected to the door open/close sensor 27 after urethane foaming.

Regarding the refrigerator 1 according to the present embodiment, a cooling mechanism 40 such as a compressor 41, an evaporator 42, and a fan 43 is arranged behind a freezer compartment 20 provided in the lower stage. The compressor 41 is arranged outside the heat insulating box 90 , and the evaporator 42 and the fan 43 are arranged inside the heat insulating box 90 behind the evaporator cover 45 . Regarding the evaporator cover 45, a lower evaporator cover 45A that covers the lower back surface of the freezer compartment 20 and an upper evaporator cover 45B that covers the upper back surface of the freezer compartment 20 are attached.

In particular, refrigerator 1 of the present embodiment is equipped with cooling mechanism 40 having a size that reaches a position higher than the height of freezer compartment 20, as shown in FIGS. More specifically, the upper evaporator cover 45B, the cool air outlet, and the fan 43 are arranged up to the upper end of the front portion of the freezer compartment 20, that is, to a position higher than the front half of the lower surface of the VF shelf 22. In other words, the refrigerator 1 is equipped with a relatively large cooling mechanism 40 that reaches a position higher than the front ceiling of the freezer compartment 20 .

In this embodiment, as shown in FIGS. 7 to 9, the ceiling of the freezer compartment 20, that is, the lower surface 22B of the VF shelf 22 is arranged so that the cool air cooled by the evaporator 42 smoothly flows into the freezer compartment 20. It is configured in a shape in which the rear part is dented upward. More specifically, the lower surface 22B of the VF shelf 22 is formed with an inclined surface 22C that rises upward as it goes rearward at the center of the rear portion. In other words, of the lower surface 22B of the VF shelf 22, the duct for sending cool air from the fan 43 to the refrigerator compartment 11, the fan, and the vicinity thereof are recessed upward.

As described above, in the present embodiment, the cold air cooled by the evaporator 42 smoothly flows into the freezer compartment 20 while the cooling mechanism 40 having a relatively large size is provided and the size of the vegetable compartment is secured. be able to.

Furthermore, in the present embodiment, the lower front surface of V-duct 51, which is attached to the rear of vegetable compartment 12 and is used to send cold air cooled by evaporator 42 to the upper part of refrigerating compartment 11, is filled with a urethane filling member. By covering, the heat insulating performance between the internal space of the V-duct 51 and the vegetable compartment 12 is improved. More specifically, in the present embodiment, by forming a convex portion 22X at the rear portion of the VF shelf 22, the urethane 25 is filled up to the inside of the convex portion 22X.

In other words, the VF shelf 22 according to the present embodiment is formed so as to bend upward just in front of the V-duct 51 in the left-right central portion. That is, just before the V duct 51 in the left-right central portion of the VF shelf 22, the upper surface of the VF shelf 22 is bent upward to form a convex portion 22X, and the lower surface of the VF shelf 22 is bent upward to form an inclined surface. 22C is formed. While securing an area for arranging the fan 43, the air outlet, and the upper evaporator cover 45B by the inclined surface 22C, the interior of the V-duct 51 and the vegetable compartment 12 are separated by the urethane 25 filled in the convex portion 22X. Provides heat insulation.

More specifically, when the flap 53 of the R damper 52 in the V-duct 51 is closed, the upper end of the flap 53 and the upper end of the protrusion 22X are at the same height, or the upper end of the protrusion 22X is at the same height. is positioned higher, or even if the upper end of the flap 53 is higher, it is preferably configured to be higher by about several millimeters. In other words, when the flap 53 is closed, it is preferable that the upper end of the protrusion 22X reaches the vicinity of the upper end of the area where cool air from the fan 43 reaches. In other words, when the refrigerator 1 is viewed from the front, the VF in the area where the cool air from the fan 43 directly reaches in the state where the flap 53 is closed by the convex portion 22X rising upward from the VF shelf 22 Preferably, the portion above shelf 22 is covered.

In a normal refrigerator, even if the R damper 52 is closed, cold air cooled by the evaporator 42 flows to the bottom surface of the R damper 52 or the flap 53. Condensation tends to occur in front of the However, with refrigerator 1 according to the present embodiment, the above configuration can reduce the possibility of condensation occurring in vegetable compartment 12 due to cooling of the lower portion of V-duct 51 .

Refrigerator 1 according to the present embodiment is configured as follows in order to fix partition frame 23 to freezer compartment 20 after urethane foaming.

Referring to FIG. 10 , door opening/closing sensor 27 for detecting opening/closing of door 13 a of first freezing area 13 is attached to partition frame 23 in the present embodiment. From the liner 94 of the freezer compartment 20, the electric wire 28 and the connector 29 for connecting to the door open/close sensor 27 are pulled out. More specifically, the wires 28 and the connectors 29 are pulled out from the liner 94 of the freezer compartment 20 of the heat insulation box 90 behind the part where the partition frame 23 is attached. In the present embodiment, the electric wire 28 and the connector 29 are pulled out from a hole opened in the liner 94 and then pulled out from a pull-out opening 97B formed in the front portion of the rail 97. As shown in FIG.

Behind the drawer opening 97B formed in the liner 94 or the rail 97, a storage portion 95X is formed for storing the electric wire 28 and the connector 29 during urethane foaming. In the present embodiment, the lower surface and the rear surface of the storage portion 95X are configured by the ribs 95 formed in the liner 94 of the second freezing area 15, and the upper surface of the storage portion 95X is configured by the lower surface of the rails 97, The front surface of the storage portion 95X is formed by the rear surface of an extension portion 97A, in which the front portion of the rail 97 extends downward. In this way, recesses are formed in the side surfaces of the freezer compartment 20, and the electric wires 28 and the connectors 29 are accommodated in the recesses during urethane foaming.

As described above, the rails 97 are formed to be thicker than the liner 94 or made of a material harder than the liner 94, and the front surface of the liner 94 has screw holes for fixing the partition frame 23. 97C is formed.

In particular, in the present embodiment, the lead-out opening 97B for the electric wire 28 and the connector 29 is formed at a position overlapping the right end portion of the partition frame 23 when viewed from the front. That is, when the partition frame 23 is attached to the heat-insulating box body 90 , the drawer opening 91 is not visible from the front of the refrigerator 1 .

Moreover, the housing portion 95X for the electric wire 28 and the connector 29 is formed at a position overlapping the end portion of the partition frame 23 in a front view. That is, when the partition frame 23 is attached to the heat insulating box body 90 , the storage section 95X is configured to be difficult to see from the front of the refrigerator 1 .

Recesses 91R and 91L are formed in the front end portion of the liner 94 that constitutes the freezer compartment 20, in which the left and right ends of the partition frame 23 are fitted and fixed.
<Refrigerator manufacturing method>

With such a configuration, the refrigerator 1 according to the present embodiment is assembled and manufactured as follows.

Referring to FIG. 11, first, the electric wire 28 and the connector 29 are pulled out from the outlet 97B and stored in the storage portion 95X (step S102). In this embodiment, the operator covers the storage portion 95X with a tape so that the electric wire 28 and the connector 29 do not protrude from the storage portion 95X.

Next, as shown in FIG. 12, reinforcing members 24L and 24R are attached to recesses 91L and 91R for fixing partition frame 23 (step S104). By attaching the reinforcing members 24L, 24R, the shape of the concave portions 23L, 23R is kept from collapsing during urethane foaming.

A jig 200 as shown in FIG. 13 is prepared (step S106). The jig 200 has an upper portion 202 that slides vertically with respect to a lower portion 201 . A convex shape 202B is formed in the rear portion of the upper portion 202 . The convex shape 202B has the same shape as the concave portion at the rear portion of the lower surface 22B of the VF shelf 22 .

As shown in FIGS. 14 and 15, the jig 200 is inserted from the front of the refrigerator 1 into the freezer compartment 20, that is, the area below the VF shelf 22 (step S108).

When the jig 200 is fully inserted, the upper portion 202 of the jig 200 is lifted as shown in FIG. As a result, the convex shape 202B at the rear of the jig 200 comes into contact with the ceiling at the rear of the freezer compartment 20, that is, the inclined surface 22C at the rear of the lower surface 22B of the VF shelf 22 and the concave portion shown in FIGS. step S110).

In this state, urethane is injected into the heat insulating box 90 and foamed (step S112).

After urethane foaming, the jig 200 is removed from the heat insulation box (step S114).

As shown in FIG. 17, the evaporator 42 is attached to the rear end of the freezer compartment 20 (step S116).

As shown in FIG. 17, the fan 43 is attached to the upper rear surface of the lower EVA cover 45A (step S118).

As shown in FIG. 17, lower evaporator cover 45A is attached to the rear end of freezer compartment 20 (step S120).

As shown in FIGS. 17 to 21, the upper evacuator cover 45B is attached to the upper front surface of the lower evacuator cover 45A (step S122). 20 and 21, lower EVA cover 45A and upper EVA cover 45B are also collectively referred to as EVA cover 45. Referring to FIGS.

More specifically, in this embodiment, after lower evaporator cover 45A is attached to the back surface of freezer compartment 20, upper evaporator cover 45B is attached. The upper evacuator cover 45B according to the present embodiment is attached behind the sloped surface 22C at the rear of the VF shelf 22, and the upper end of the upper evacuator cover 45B is positioned higher than the ceiling of the freezer compartment 20, that is, the VF shelf 22 Since it reaches a position higher than the front part of the lower surface 22B, the lower evacuator cover 45A is attached, and then the upper evacuator cover 45B is attached to the concave portion of the rear part of the lower surface 22B of the VF shelf 22.例文帳に追加

Then, the V-duct 51 shown in FIGS. 22 and 23 is attached to the rear end portion of the upper surface of the VF shelf 22 (step S124). The V-duct 51 has a shape in which the lower half protrudes further forward than the upper half when attached to the rear surface of the vegetable compartment 12 . In other words, the V-duct 51 has a shape that bulges forward toward the bottom, that is, has a shape that dents rearward toward the top. This allows the cold air from the fan 43 to flow smoothly through the duct passage 51Y toward the refrigerator compartment 11. - 特許庁

In particular, in the present embodiment, projections 51L and 51R are formed on the lower portion of the back surface of V-duct 51. As shown in FIG. As shown in FIG. 24, the operator hooks the lower end 51X of the front surface of the V-duct 51 to the rear surface of the convex portion 22X of the VF shelf 22, and the protrusions 51L and 51R are attached to the rear surface of the vegetable compartment 12, that is, the insulation box. By pushing the upper portion of the V-duct 51 rearward while it is in contact with the liner 94 of the body 90, the protrusions 51L and 51R are slid downward. At this time, the protrusions 51L and 51R serve as fulcrums, and a force (forward) on the opposite side to the direction of the force applied to the upper portion of the V-duct 51 (backward) is generated at the lower end portion 51X. Therefore, the lower end portion 51X is reliably pushed into the rear surface of the convex portion 22X of the VF shelf 22. As shown in FIG. When the V-duct 51 is fixed to the rear surface of the vegetable compartment 12 in this manner, the V-duct 51 is press-fitted to the rear surface of the convex portion 22X of the VF shelf 22, thereby preventing cold air leakage and heat insulation deterioration.

The tape of the storage portion 95X is removed, and the electric wire 28 and the connector 29 are taken out from the storage portion 95X (step S126).

The connector 29 is connected to the door open/close sensor 27 of the partition frame 23 (step S128). More specifically, in the present embodiment, referring to FIG. 25, partition frame 23 has an end portion formed with hole 23X for inserting a connector. The operator connects the connector 29 to the door open/close sensor 27 after passing the connector 29 through the hole 23X. Therefore, the extra electric wires 28 and connectors 29 can be stored in the partition frame 23, and the electric wires 28 and connectors 29 can be prevented from being visually recognized or touched by the user.

The door open/close sensor 27 is fixed to the lower portion of the partition frame 23 (step S130).

As shown in FIGS. 25 and 26, both ends of the partition frame 23 are fitted into the reinforcing members 24L, 24R of the recesses 91L, 91R (step S132).

Both ends of the partition frame 23 are screwed into the screw holes 97C on the front surface of the rail 97 (step S134).

As described above, with regard to the refrigerator 1 according to the present embodiment, the cold air cooled by the evaporator 42 can smoothly flow into the freezer compartment while the cooling mechanism 40 having a relatively large size is provided and the size of the vegetable compartment is secured. 20, prevents the front of the V-duct 51 from being too cold, makes it easier to install the V-duct 51, and makes it possible to install the door open/close sensor 27 on the partition frame 23.例文帳に追加
[Second embodiment]

In the above embodiment, the recesses 91L and 91R for fixing the partition frame 23 are attached to the inside of the freezer compartment 20 rather than the liner 94, but the recesses 91L and 91R for fixing the partition frame 23 It may be attached on the urethane side of 94 .
[Third embodiment]

Alternatively, the rail 97 may extend further forward and be integrated with the reinforcing members 24L, 24R.
[Fourth Embodiment]

In the above embodiment, vegetable compartment 12 is provided above freezer compartment 20 . However, the various techniques described above can also be applied to the refrigerator 1 in which the refrigerator compartment 11 is provided above the freezer compartment 20 . Regarding the RF shelf that partitions the refrigerator compartment 11 and the freezer compartment 20, a convex shape is provided at the rear of the upper surface and filled with urethane, or a slope or a recess is provided at the rear of the lower surface to arrange a fan, an upper evaporator cover, an air outlet, etc. You can
[summary]

In the above embodiment, a shelf that partitions the freezer compartment and the vegetable compartment or the refrigerator compartment, an evaporator behind the freezer compartment, and a fan above the evaporator are provided. A refrigerator is provided in which a sloping surface facing rearward and upward is formed, and the inside of the sloping surface is filled with urethane.

Preferably, cold air from the fan is blown into the freezer along the slope.

Preferably, the evaporator further comprises a first cover attached in front of the evaporator, and a second cover attached above the first cover and behind the slope.

In the above embodiment, the jig is placed in the freezer compartment, and the rear part of the jig is brought into contact with the rearward upward slope of the lower surface of the shelf that separates the freezer compartment from the vegetable compartment or the refrigerated compartment. and a step of injecting and foaming urethane into the inside of a box body and a shelf surrounding a freezer compartment.

Preferably, the manufacturing method includes the steps of lowering the rear part of the jig and then removing the jig, installing the evaporator behind the freezer compartment, installing the fan on the first cover, rearward of the freezer compartment and forward of the evaporator. and attaching a second cover above the first cover and behind the slope.

It should be considered that the embodiments disclosed this time are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the scope of the claims rather than the above description, and is intended to include all modifications within the meaning and range of equivalents of the scope of the claims. Further, configurations obtained by combining configurations of different embodiments described in this specification are also included in the scope of the present invention.

1: Refrigerator 11: Refrigerator compartment 11a: Refrigerator compartment door 12: Vegetable compartment 12a: Vegetable compartment door 13: First freezing area 13a: Freezer compartment door 14: Ice making/storage area 14a: Ice making compartment door 15: Second freezing area 15a: freezer compartment door 20: freezer compartment 21: RV shelf 22: VF shelf 22B: lower surface 22C: inclined surface 22X: convex portion 23: partition frame 23L: concave portion 23R: concave portion 23X: hole 24L: reinforcing member 24R: reinforcing member 25 : Urethane 27 : Door open/close sensor 28 : Electric wire 29 : Connector 31 : Handle 40 : Cooling mechanism 41 : Compressor 42 : Evaporator 43 : Fan 45 : Eva cover 45A : Lower evaporator cover 45B : Upper evaporator cover 51 : V duct 51L : Protrusion 51R : Protrusion 51X : Lower end portion 51Y : Duct passage 52 : R damper 53 : Flap 90 : Insulating box body 91 : Drawer port 91L : Recessed portion 91R : Recessed portion 94 : Liner 95 : Rib 95X : Storage portion 96 : Rail 97 : Rail 97A : Extending portion 97B: Drawer port 97C: Screw hole 200: Jig 201: Lower portion 202: Upper portion 202B: Convex shape

Claims (5)

a shelf that separates the freezer compartment from the vegetable compartment or the refrigerator compartment;
an evaporator behind the freezer compartment;
a fan above the evaporator;
A rear upward slope is formed on the rear portion of the lower surface of the shelf,
A refrigerator in which an inner side of the slope is filled with urethane. 2. The refrigerator according to claim 1, wherein cold air from said fan is blown into the freezer along said slope. a first cover attached to the front of the evaporator;
3. The refrigerator according to claim 1, further comprising a second cover attached above said first cover and behind said slope. placing the jig in a freezer;
a step of raising the rear part of the jig until it abuts on the rear upward slope of the lower surface of the shelf that separates the freezer compartment from the vegetable compartment or the refrigerating compartment;
A method of manufacturing a refrigerator, comprising: injecting urethane into the inside of the box surrounding the freezer compartment and the inside of the shelf to foam the urethane. lowering the back of the jig before removing the jig;
mounting an evaporator behind the freezer compartment;
attaching a fan to the first cover;
attaching the first cover behind the freezer compartment and in front of the evaporator;
5. The method of manufacturing a refrigerator according to claim 4, further comprising attaching a second cover above said first cover and behind said inclined surface.

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