JP3627326B2 - refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a refrigerating room constructed from the top in the order of a refrigerating room, a vegetable room, and a freezing room, and particularly relates to the formation of a cold air circulation passage to each room.
[0002]
[Prior art]
Refrigerators on the market recently divide the refrigerator finely into a freezer room for storing frozen food, a refrigerator room for storing refrigerated food, a vegetable room for storing vegetables and fruits, and a chilled room for storing chilled food, and Each has its own partition wall and door.
[0003]
On the other hand, when viewed from the manufacturing process of the refrigerator, for example, a cooler that cools the inside of the refrigerator and a fan motor for circulating cold air that sends the cold air cooled by the cooler to each room are the back wall of the freezer compartment from the inside of the front cabinet It is arranged nearby. Therefore, as described above, when the inside of the cabinet is divided into several rooms by the partition wall, it is immediately understood that the assembly of the cooler and the fan motor to the refrigerator main body becomes very problematic. is there. In general, from this, considering the incorporation from the front side of the interior, the freezer compartment with many built-in parts has a large frontage.
[0004]
However, recently, a so-called bottom freezer type refrigerator room in which a freezer room that has been positioned above the refrigerator room is installed below the refrigerator room has come to be marketed. Naturally, the freezer is a drawer type (for ease of use), and if it is a drawer type freezer, it is difficult to identify what is in the bottom if the container has a deep bottom. In other words, the drawer-type container must be a shallow one. For this reason, the container is divided into two or three. In this case, as described above, the entrance of the freezer compartment that has been secured for assembling the cooler or the like is partitioned by the partition wall. Therefore, the work efficiency at the time of assembling the refrigerator is significantly reduced.
[0005]
In addition, in this type of bottom freezer type refrigerator, it is very difficult to form a cold air passage. This is because the height of the refrigerator is generally 1700-1800 mm. The cooler and the blower that blows the cool air passing through the cooler to the upper refrigerating chamber are usually attached to the back of the refrigerator provided at 700 to 800 mm or less from the bottom. For this reason, the formation of a cold air duct for supplying cold air to the upper part of the refrigerating room and a cold air return duct for guiding the cold air after cooling the refrigerating room to the lower part of the previous cooler is very difficult in providing this kind of refrigerator. It was.
[0006]
In addition, as an example of a refrigerator with multiple doors, Japanese Patent Laid-Open No. 60-111867 is disclosed.
[0007]
[Problems to be solved by the invention]
In the refrigerator in which the freezer as described above is located below the refrigerator compartment, and the refrigerator is provided with a partition wall on the front surface of the freezer compartment and has two containers, there are the following problems.
[0008]
(1) It is very difficult to assemble the cooler and the cold air circulation fan motor that are assembled to the back of the freezer compartment from the inside of the refrigerator.
[0009]
(2) In a refrigerator of a type in which a cold air circulation fan motor is installed above the cooler, the position where the cold air circulation fan motor is attached is located above the partition wall forming the freezer compartment upper surface.
[0010]
(3) Even if it is going to install a cooler in the rear rear part of the freezer compartment and install a fan for circulating cold air above it, the bottom of the freezer compartment is lifted by the compressor compared to the front, so the rear of the freezer compartment The dimension cannot be secured in the part.
[0011]
(4) The duct formation for guiding the cool air in the cooler chamber formed on the back wall portion of the freezer compartment to the refrigerating chamber located above the cool chamber and returning the cool air becomes complicated. In other words, the cooling method for each room, in particular, the cooling method for the vegetable room and the refrigerated room formed in the upper part of the freezer room becomes difficult.
[0012]
[Means for Solving the Problems]
The present invention has been made to solve such problems.
[0013]
That is, from the top, the refrigerator compartment, the vegetable compartment, and the freezer compartment are configured in this order, with a beam-like partition between the refrigerator compartment and the vegetable compartment, and a partition heat insulating wall between the vegetable compartment and the freezer compartment, A cooler is provided in the
A low temperature room around 0 ° C. is provided at the bottom of the refrigerator room,
The cold air outlet and the cold air return port of the refrigerating room are formed in a heat insulating part that is provided in the back part of the refrigerating room and insulates the cold air from the cooler and the refrigerating room, and the back part of the low temperature room There is a cold air outlet in
A passage of cold air from the cooler through the cold air outlet to the low temperature chamber, and a return path of cold air from the cold storage through the cold air return port to the lower part of the cooler,
The cold passage is Covered with insulation on the back of the vegetable room And between the cold return path and the vegetable compartment. Further, the heat insulating part is formed in a cover, and the cover is provided with a cold air outlet for supplying cold air to the vegetable compartment, and the cold air outlet is a projection surface of the beam-shaped partition and a vegetable compartment lid and a refrigerator compartment, It corresponds to the space part comprised by the partition plate which partitions off between vegetable rooms.
[0014]
or, A partition plate is provided on the back side of the beam-shaped partition installed between the refrigerator compartment and the vegetable compartment to detach the refrigerator compartment and the vegetable compartment, and when the partition plate is removed, a cover provided on the back of the vegetable compartment Detachable Is.
[0015]
Furthermore, The cover is provided with a damper for controlling the amount of cool air blown into the refrigerator compartment and the vegetable compartment, the cold air whose amount is controlled is sent to the refrigerator compartment duct, and the cold air after cooling the refrigerator compartment and the vegetable compartment is sent to the cooler. In the refrigerator that is returned to the lower part, a part of the cold air duct for returning the cold air after cooling is formed in the cover. Is.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, details of the present invention will be described with reference to an embodiment shown in the drawings.
[0017]
FIG. 1 is a longitudinal sectional view of a refrigerator provided with the present invention, FIG. 2 is a diagram for explaining an assembled state of a partition wall provided with the present invention, FIG. 3 is a sectional view taken along line AA in FIG. FIG. 5 is a front view of the cooling chamber of FIG. 1, and FIG. 6 is a perspective view of a second partition wall different from FIG.
[0018]
First, in FIG. 1, reference numeral 1 denotes a refrigerator main body, and the refrigerator main body 1 includes a box body 5 in which a foam heat insulating material 4 is filled between an outer box 2 and an inner box 3, a compressor 6, a condenser 7, a cooler 8 and the like. And the doors 12, 13, 14, 15, etc. that close the front openings of the freezer compartment 9, the vegetable compartment 10, and the refrigerator compartment 11 formed by the box 5.
[0019]
The doors 12, 13, and 14 have drawer containers 16 and 17 that form the freezer compartments 9 a and 9 b and drawer containers 18 that form the vegetable compartment 10 on the door side with a frame 33 (illustrated by broken lines). In other words, the doors 12, 13, and 14 are drawer-type doors, and the drawer containers 16, 17, and 18 are pulled out in accordance with the drawer of the door. The refrigerator is also characterized in that the freezer compartment 9 is at the bottom, the vegetable compartment 10 is at the center, and the refrigerator compartment 11 is above it. Thus, the refrigerator main body 1 has the rear portion of the freezer compartment 9 as an upper base compared to the front portion for storing the compressor 6. Along with this, the drawer container 16 of the previous freezer compartment is made in a shape that avoids this portion.
[0020]
Reference numeral 19 denotes a cooler chamber formed in the rear rear portion of the freezing chamber 9. The previous cooler 8 is stored in the cooler chamber 19. Reference numeral 20 denotes a cooling air circulation fan installed above the cooler 8. 21 is a fan motor. The cooler 8 and the cool air circulation fan 20 are located on the back surface of the refrigerator body 1 as shown in FIG. Accordingly, in the case where the lower surface of the freezer compartment 9 has an upper bottom due to the compressor 6, the position of the cool air circulation fan 20 is located above the upper surface of the freezer compartment 9 (the lower surface of the partition wall 22). End up.
[0021]
22 is a partition wall as described above. This partition wall 22 partitions the freezer compartment 9 and the vegetable compartment 10 thermally. The partition wall 22 has a rising portion 22a on the rear side. The rising amount is a height that reaches the top of the cool air circulation fan 20. Further, the partition wall 22 forms the upper surface of the freezer compartment 9 as described above. In other words, the partition wall 22 also forms a receiving surface for a gasket (not shown) of the doors 13 and 14. Therefore, the front end of the partition wall 22 has a high-temperature pipe 24 (meaning a condenser part pipe of the refrigeration cycle) for heating the surface of the partition plate 23 to prevent dew. With the partition plate 23 as a reference, the previous rising portion 22a rises upward.
[0022]
Reference numeral 25 denotes a fan guard that also serves to partition the cooler chamber 19 and the freezer compartment 9. Cold air cooled by the cooler 8 is blown out to the freezer compartment 9 via the fan guard 25 by the function of the cool air circulation fan 20. Is. 26 is an ice tray. This ice tray 26 is provided near the lower surface of the previous partition wall 22. Reference numeral 27 denotes a cold air duct for sending cold air to the ice tray 26, which is attached to the lower surface of the previous partition wall 22 as shown in the figure, and serves as a cold air passage between the lower surface of the partition wall 22 and the cold air duct 27.
[0023]
The partition wall 22 is divided into a side having a rising portion 22a (second partition wall 22c) and a side having a partition plate 23 (first partition wall 22b). Needless to say, the first partition wall 22b may be a beam-like partition wall to which the high-temperature pipe 23 can be attached. The second partition wall 22c is assembled to the box 5 after foaming. That is, in the refrigerator in which the entrance of the freezer compartment 9 is divided into two by the third partition wall 28 as shown in the figure, the cooler 8, the cool air circulation fan 20, and the fan motor 21 described above are insulated. After the foaming of the material 4, it can be easily inferred that it is almost impossible to assemble through the space between the partition wall 22 and the third partition wall 28 (within 30 cm). That is, the position of the eyes of the person incorporating the cooler 8 and the cool air circulation fan 20 into the box 5 (refrigerator body 1) is as shown in the figure.
[0024]
Therefore, in order to assist this work, the second partition wall 22c having the rising portion 22a is assembled to the refrigerator main body 1 after the assembly of the cooler 8 after foaming. 29 is a protruding wall. The protruding wall 29 and the partition wall 22 (rise portion 22a) described above form an upper portion of the cooler chamber 19. Also, the protruding wall 29 is bonded and fixed by a molded heat insulating material 4. Reference numeral 31 denotes a cold air passage formed through the molded heat insulating material 30 and the protruding wall 29. One side of the partition wall 22 described above is attached to the protruding wall 29 with a structure as shown in the figure. Reference numeral 32 denotes a damper assembly. The damper assembly 32 includes an electric damper described later and a heat insulating material having a cold air passage.
[0025]
Thus, the damper assembly 32 is assembled so as to be placed on the protruding wall 29, and the cold air passage formed in the previous damper assembly-side heat insulating material communicates with the cold air passage 31 formed in the molded heat insulating material 30. ing. Accordingly, the cold air that has passed through the cooler 8 in the cooling chamber 19 reaches the damper assembly 32 via the cold air passage 31 of the protruding wall 30, and only a necessary amount of the cold air is caused by the function of the damper in the refrigerator compartment 11 or the like. To supply.
[0026]
18 is a drawer container for a vegetable room. As shown in the figure, the vegetable compartment drawer container 18 is formed in a cut-out shape so that the protruding wall 29 and the rising portion 22a of the partition wall 22 travel to the vegetable compartment 10 side.
[0027]
The drawer container provided in the refrigerator, such as the vegetable container drawer container 18, except for a special (double rail) one, usually does not protrude from the entire refrigerator opening surface (partition plate 23 surface). Only 3rd place can be withdrawn. This is due to the structure of the frame 33 and the rail for pulling out the drawer container 18. Therefore, the drawer container 18 does not need to be deep enough to contact the protruding wall 29 and the rising portion 22a. In other words, in the current refrigerator, the rear portion of the drawer container 18 is an invalid space. In the present application, the damper assembly 32 is installed in order to use this invalid space. A refrigerating room duct 41 supplies the cold air from the damper assembly to the refrigerating room 11. The cold air is blown out from the duct 41 into the refrigerator compartment 11 as shown in the figure.
[0028]
Next, the structure and the mounting structure of the partition wall 22 will be described with reference to FIGS. 2, 3, and 4. As described above, the partition wall 22 is connected to the first partition wall 22b and the second partition wall 22c. It is divided, and the connecting portion is configured as shown in FIGS. 2 and 4, and is devised so that water, cold air and the like are not leaked from the joint. Further, the connecting portion between the second partition wall 22c and the inner box 3 is configured as shown in FIG. Although not shown in the drawing, the first partition wall 22b is attached by a conventionally adopted method in which the first partition wall 22b is incorporated in the guide groove formed in the inner box 3 by sliding from the front surface.
[0029]
Reference numeral 34 denotes a screw-tightening guide hole provided at both ends of the second partition wall 22c. Reference numeral 35 denotes a partition wall mounting step formed on the side wall of the inner box 3. Using the step 35, the second partition wall 22c is fixed with a screw 36. That is, the back part of the second partition wall 22c is attached to the projecting wall as shown in FIG. 1, both sides are assembled to the step 35, and the front part is assembled to the first partition wall 22b as shown in FIG. The second partition wall 22c is attached in such a manner as to cover from above when the incorporation of the cooler 8 and the cool air circulation fan 20 into the cooler chamber 19 is completed as shown in FIG.
[0030]
Of course, the step part 35 in contact with the second partition wall 22c, the protruding wall 29, and the contact part with the first partition wall 22b are provided with a sealing material for preventing cold air and water leakage. Is natural. As a means for facilitating the mounting of the sealing material, the second partition wall 22c is formed in a container shape as shown in FIG. 6, a flange 37 is provided on the end surface, and a sealing material (for example, soft urethane foam) is provided on the back surface of the flange 37. It is conceivable to paste them. Of course, it is needless to say that at this time, the inner box 3, the projecting wall 29, and the first partition wall 22b, which are the receiving surfaces, need to correspond to each other.
[0031]
Next, the relationship between the damper assembly 32 attached to the upper surface of the protruding wall 29 and the cooler chamber 19 formed below the damper assembly 32 will be described with reference to FIG. In the figure, reference numeral 32 denotes a heat insulating material 39 that wraps the damper 38, a cover 40, and the like. Thus, in the heat insulating material 39, the cold air received in the cold air passage 31 provided in the protruding wall 29 is guided to the electric damper 38, and the cold air passing through the electric damper 38 is passed to the refrigerator compartment duct 41 as indicated by an arrow. A cold air passage 42 is provided, and a cold air passage 43 connected to a return duct 45 that guides the return cold air from the refrigerator compartment 11 to the cooler 8 is provided. Reference numeral 47 denotes an electrical product box (for example, containing a substrate LED) and is incorporated in the cover 40.
[0032]
Next, the mounting of the electrical product assembly will be described with reference to FIGS.
[0033]
47 is an electric box. This electric box 47 is also housed in the cover 40 as with the damper assembly 32 described above. That is, as shown in FIG. 5, the damper assembly 32 is also provided. Therefore, this electric box 47 is installed across the vegetable compartment 10 and the refrigerator compartment 11. Reference numeral 50 denotes a substrate installed in the electrical box 47, and 51 denotes an LED for displaying a failure indication of the refrigerator (for example, a sensor fault or abnormal operation). The LED 51 is mounted on the previous substrate as shown in the figure. Further, the position where the LED 51 is attached is a position facing the refrigerator compartment 11. That is, as shown in FIG. 1, it is the rear part of the low temperature chamber 52 (which is detachable and has a temperature of around 0 ° C.) installed at the lower part of the refrigerator compartment 11. Therefore, the LED 51 can be easily confirmed by removing the low temperature chamber 52.
[0034]
In general, as shown in FIG. 1, since the entrance of the refrigerator compartment 11 of this type refrigerator is larger than the other compartments 9 and 10, the LED check at the time of maintenance inspection should be performed with the body in the refrigerator compartment 11. Is something you can do. In other words, it is not necessary to pull out the refrigerator from the installation location for maintenance and inspection work as in the past. 53 is an electrical box, a transparent plate that closes the observation window 54 provided in the 47. The transparent plate 53 can easily blink the LED 51 through the observation window 54. Of course, the cover 40 is removed at this time.
[0035]
Although not shown in the figure, the substrate 50 is formed as follows. That is, power system parts (parts with a large amount of heat generation) are provided above the substrate 50 (the refrigerator compartment 11 side), and signal system parts (parts with a small amount of heat generation) are provided on the vegetable room 10 side. This is because, as described above, the refrigerator 11 side is cooled more than the place corresponding to the vegetable room 10 because the substrate portion corresponds to the low temperature room 52. For this reason, the substrate portion temperature is lower than the temperature in the refrigerator compartment 11 to prevent the substrate portion from being dewed. By doing so, the temperature in the electric box 47 becomes lower than the temperature in the refrigerator compartment 11 or the vegetable compartment 10, and condensation does not occur in the electric box 47.
[0036]
Next, a structure for attaching the damper assembly to the protruding wall 29 will be described with reference to FIGS. 7 and 8. In the figure, 32 is a damper assembly. As described above, the damper assembly 32 includes an electric damper 38, a heat insulating material 39, a case 40, and the like. The damper assembly 32 has a mounting leg 40a and a screw mounting recess 40b in the case 40. Then, the mounting leg 40a is engaged with the concave groove 29a provided in the protruding wall 29, and the damper assembly 32 is mounted to the protruding wall 29 and the inner box 3 with the screw 36 using the screw mounting concave portion 40b as shown in the figure. , Fixed. A refrigerator compartment duct 41 is connected and fixed to the damper part 32 as shown in the figure.
[0037]
8 is a cross-sectional view taken along the line CC of FIG. This figure shows an example in which an electrical component box 47 is incorporated in the cover 40 described above. By incorporating the electrical box 47 in this way, the cover 40 is just stored in the full width of the inner box 3 (500 to 700 mm), and the damper assembly 32 itself is also attached to the rear and both sides of the inner box 3 and the protruding wall. It will just fit in the space surrounded by 29.
[0038]
Next, the cold air circulation path of the refrigerator described above with reference to FIGS. 11 to 13 will be described.
[0039]
First, in FIG. 11, this figure is a diagram schematically showing the flow of cold air to each chamber. As is clear from this figure, the cold air cooled by the cooler 8 is sent to the freezer compartment 9, the vegetable compartment 10, the low temperature compartment 52, and the refrigerating compartment 11 by the cold air circulation fan 20 to cool each room. At this time, the amount of cold air sent to the refrigerator compartment 11 is controlled by the damper 38a, and the amount of cold air sent to the vegetable room 10 and the low temperature room 52 is controlled by the damper 38b, and the temperature of each room is set to a predetermined temperature.
[0040]
The dampers 38a and 38b are integrally incorporated as a damper assembly. The cold air that has cooled the vegetable compartment 10, the low temperature compartment 52, and the refrigerator compartment 11 returns to the lower part of the cooler 8 through the cold air passage 43 and the return duct 45. The cool air that has cooled the freezer compartment 9 is returned to the cooler 8 from the return port to the cooler 8 formed in the lower part of the compartment.
[0041]
The refrigerator provided with the above cold air circulation is demonstrated using FIG. 12, FIG.
[0042]
In the figure, 9 is a freezing room, 10 is a vegetable room, 52 is a low temperature room, and 11 is a refrigerator room. Reference numeral 8 denotes a cooler, and 20 denotes a cool air circulation fan. Most of the cool air cooled by the cooler 8 is blown out by the cool air circulation fan 20 to the freezer compartment 9 through the outlet 25a of the fan guard 25 as shown by the arrow. The cool air after cooling the freezer compartment 9 constitutes a cool air circulation path that returns to the cooler by the suction port 25b provided at the lower portion of the fan guard 25.
[0043]
On the other hand, the remainder of the cool air blown out by the cool air circulation fan 20 enters the damper assembly 32 from the cool air passage 31 provided in the protruding wall 29. The damper assembly 32 has a cooling passage 42 (see FIG. 5) connected to the refrigerator compartment duct 41 for blowing cold air into the refrigerator compartment 11, as described in detail in FIG. It has a cold air passage (not shown) for sending cold air to the vegetable room 10 and the low temperature room 52. The cold air passage has a cold air passage that continues to the cold air outlets 59 and 60 of the cover 40.
[0044]
Of course, the amount of cold air supplied to the refrigerator compartment 11, the vegetable compartment 10, and the low temperature compartment 52 is controlled by the electric dampers 38a and 38b. That is, although the electric dampers 38a and 38b are not shown in the drawing, the temperatures of the chambers 11, 10, and 52 are detected, and the opening degree of the electric dampers 38a and 38b is determined. Then, the cold air sent to the refrigerator compartment duct 41 on the refrigerator compartment 11 side through the electric damper 38a is used to uniformly cool the refrigerator compartment 11 from the top to the bottom as shown in FIGS. 11 is blown out from the air outlet 61 provided over the entire height of the back surface. The cold air blown out to the refrigerator compartment 11 and cooled to a predetermined temperature is provided with a cover 40 (damper assembly 32, electrical equipment box 47, etc.) installed at the rear of the cryogenic chamber 52 as shown in the figure. , Which is disposed over the full width of the refrigerator compartment 11), passes through the return duct 45 through the cool air passage 43, and returns to the cooler 8.
[0045]
In the above process, the cold air that cools the refrigerator compartment 11 is composed of a bottom 52 a of the low temperature compartment 52, a series of partition plates 64 including a beam-like partition 62 and a partition plate 63 that partition the refrigerator compartment 11 and the vegetable compartment 10. It reaches the return port 66 through the cold air return passage 65 formed therebetween. Therefore, even if the air outlet 61 and the return port 66 are provided on the back of the refrigerator compartment 11, the low temperature chamber 52 serves as a partition plate, and the cold air forms a short circuit between the air outlet 61 and the return port 66. There is nothing.
[0046]
Next, the cold air sent into the low temperature chamber 52 and the vegetable chamber 10 through the electric damper 38b circulates through the respective chambers as shown in FIGS. That is, the cool air blown out from the cool air outlet 60 is sucked from the return port 66 after the low temperature chamber 52 is cooled, and the cover 40 is formed in the same manner as the cool air after cooling the refrigerator compartment 11. It returns to the cooler 8 through the return duct 45 through the cool air passage 43 (see FIG. 5). The cold air blown out from the cold air outlet 59 into the vegetable compartment 10 is a series of partitions 64 formed by the beam-like partitions 62 and the partition plate 63 and the invalid space portion of the lid 10b that covers the opening of the vegetable container 10a. It flows like 13 and it cools so that the whole vegetable container 10a (front-back direction) may be wrapped. In other words, the set temperatures of the refrigerator compartment 11 and the vegetable compartment 10 are very close. For this reason, unlike the partition walls of the vegetable compartment 10 and the freezing compartment 9, the partition walls (series of partitions 64) of this space do not require a heat insulating material.
[0047]
On the other hand, in order to provide independent doors in the refrigerator compartment 11 and the vegetable compartment 10 as shown in FIG. 1, a beam-like partition 62 forming a packing receiving surface is required. This beam-shaped partition 62 becomes a beam-shaped base as shown in the figure. A flat plate (here, the partition plate 63) is divided between the beam-shaped partition 62 and the inner box 3 (the cover 40 in the figure), and the refrigerator compartment 11 and the vegetable 10 are partitioned as shown in FIG. Further, since the vegetable container 10a is normally pulled out together with the drawer of the door 14 (see FIG. 1), the vegetable container 10a including the lid 10b is provided so as not to hit the beam-like partition 62 at the time of withdrawal. Accordingly, an ineffective space is inevitably formed between the lid 10b and the partition plate 63. In the present invention, the vegetable room 10 is cooled by using the invalid space as a duct. The cold air that has cooled the vegetable compartment 10 enters the cold air passage 43 from the vegetable compartment cold air return port 46 formed by the cover 40, and returns to the cooler 8 through the return duct 45 (see FIG. 5).
[0048]
Since the electric damper 38 and the cover 40 forming the cold air passage 43 are installed across the vegetable compartment 10 and the refrigerator compartment 11 (behind the low temperature container) as described above, the refrigerator Assembly to the main body or workability at the time of service becomes a problem. At this time, by making the beam-shaped partition 62 and the partition plate 63 separable, the attachment or detachment of the cover 40 including the electric damper 38 and the like can be facilitated by detaching the partition plate 63.
[0049]
【The invention's effect】
As described above, the present invention adopts a configuration in which all the cold air circulation to each room in the refrigerator configured in the order of the refrigerator room and the freezer room is returned from the back side to the back side by blowing out the cold air. Even in the refrigerator, it is possible to easily form a cold air passage that can cool each chamber uniformly. Moreover, since the projection surface of the beam-like partition is used like the cold air duct for cooling the vegetable room, it has an effect that the cold air duct can be obtained without providing any special parts.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a refrigerator provided with the present invention.
FIG. 2 is a view for explaining an assembled state of a partition wall provided with the present invention.
3 is a cross-sectional view taken along the line AA in FIG.
4 is a cross-sectional view taken along the line BB in FIG.
FIG. 5 is a front view of the cooling chamber of FIG. 1;
FIG. 6 is a perspective view of a second partition wall different from FIG.
7 is a detailed view of the damper assembly shown in FIG. 1. FIG.
8 is a cross-sectional view taken along the line CC of FIG.
9 is a detailed front view of the electric box 47 of FIG. 8 with the cover 40 removed. FIG.
10 is a sectional view taken along the line DD of FIG. 9. FIG.
FIG. 11 is a diagram schematically illustrating the flow of cold air to each chamber.
FIG. 12 is a diagram for explaining cold air circulation of a refrigerator provided with the present invention.
13 is a longitudinal sectional view of FIG.
[Explanation of symbols]
1 ... refrigerator main body, 2 ... outer box, 3 ... inner box,
4 ... Foam insulation, 5 ... Box, 6 ... Compressor,
7 ... condenser, 8 ... cooler,
9 ... Freezing room (9a, 9b freezing room), 10 ... Vegetable room,
11 ... refrigerator compartment, 12 ... freezer compartment door, 13 ... freezer compartment door,
14 ... Vegetable room door, 15 ... Refrigerator room door,
16 ... Drawer container (for freezer compartment 9a), 17 ... Drawer container (for freezer compartment 9b),
18 ... Drawer container (for vegetable room), 19 ... Cooler room,
20 ... Cooling air circulation fan, 21 ... Fan motor, 22 ... Partition wall,
22a ... rising portion, 22b ... first partition wall,
22c ... 2nd partition wall, 23 ... Partition plate, 24 ... Hot pipe,
25 ... Fan guard, 26 ... Ice tray, 27 ... Cold air duct,
28 ... 3rd partition wall, 29 ... Projection wall, 29a ... Concave groove,
30 ... Molded insulation, 31 ... Cold air passage, 32 ... Damper assembly,
33 ... Frame, 34 ... Screw tightening guide hole, 35 ... Partition wall mounting step,
36 ... Screws, 37 ... Flange, 38 ... Electric damper,
39 ... heat insulating material, 40 ... cover, 40a ... mounting leg,
40b ... Screw mounting recess, 41 ... Cold room duct, 42 ... Cold air passage (for discharge),
43 ... cold air passage (for return), 44 ... second projecting wall, 45 ... return duct,
46 ... Vegetable room cold air return port, 47 ... Electrical box, 48 ... Discharge port,
49 ... discharge port, 50 ... substrate, 51 ... LED,
52 ... Low temperature chamber, 53 ... Transparent plate, 54 ... Peep window,
59 ... Cold air outlet, 60 ... Cold air outlet, 61 ... Air outlet,
62 ... Beam-shaped partition, 63 ... Partition plate, 64 ... Series of partitions,
65: Cold air return passage, 66: Return port.

Claims (4)

It consists of a refrigerator room, a vegetable room, and a freezer room from the top, a beam-like partition is provided between the refrigerator room and the vegetable room, and a partition heat insulating wall is provided between the vegetable room and the freezer room. A cooler is provided,
A low temperature room around 0 ° C. is provided at the bottom of the refrigerator room,
The cold air outlet of the refrigerating room is formed in a heat insulating part that is provided in the back part of the refrigerating room and insulates the cold air from the cooler and the refrigerating room, and a cold air outlet is provided in the back part of the low temperature room. Has been placed,
A passage of cool air from the cooler through the cold air outlet to the low temperature chamber, and a return path of cool air from the top of the cooler to the lower part of the cooler through a cool air return port provided on the back of the refrigerator compartment In the rear rear part,
The refrigerator is characterized in that the passage of the cold air is covered with a heat insulating material at the back of the vegetable compartment, and is insulated between the return passage of the cold air and the vegetable compartment. The heat insulating part is formed in a cover, and the cover is provided with a cold air outlet for supplying cold air to the vegetable room. The cold air outlet is a projection surface of the beam-shaped partition, a vegetable room lid, a refrigerator room, and a vegetable room. The refrigerator according to claim 1, wherein the refrigerator is made to correspond to a space formed by a partition plate for partitioning. A partition plate is provided on the back side of the beam-like partition installed between the refrigerator compartment and the vegetable compartment. The partition plate separates the refrigerated compartment and the vegetable compartment from each other, and a cover provided on the back of the vegetable compartment when the partition plate is removed. The refrigerator according to claim 2, which can be attached and detached. The cover is provided with a damper for controlling the amount of cool air blown into the refrigerator compartment and the vegetable compartment, the cold air whose amount of blow is controlled is sent to the refrigerator compartment duct, and the cold air after cooling the refrigerator compartment and the vegetable compartment is sent to the cooler The refrigerator according to claim 2, wherein a part of a cool air duct for returning cool air after cooling is formed in the cover in the refrigerator returned to the lower part.

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