JP3863697B2 - Refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a refrigerator in which a front opening of a storage chamber is closed by a door.
[0002]
[Prior art]
Conventionally, this kind of cooler has a front opening of a heat insulating box having a storage chamber closed by a see-through door or a heat insulating door so that it can be opened and closed, and a machine room is installed at a lower portion outside the heat insulating box. In addition, a compressor, condenser, condenser fan, etc. that constitute the refrigeration cycle of the cooling device are installed in the storage chamber, and a cooler that also constitutes the refrigeration cycle is provided in the storage chamber. Had cooled to.
[0003]
However, there is a customer's request that such a refrigerator has a larger effective internal volume of the storage room than the external dimensions in order to accommodate many items that can be sold. There is a need to relatively reduce.
[0004]
Therefore, if there is a rotating object such as a fan of a blower near the drain hose in the machine room, the drain hose may come into contact with the rotating object such as a fan, resulting in water leakage or leakage due to the cutting of the drain hose. there were. In such a case, the drain hose must be routed with special considerations so as not to contact the fan, and the drain hose has to be fixed using a fixing member such as a clip.
[0005]
[Problems to be solved by the invention]
However, with this conventional fixing method, it is not impossible to fix the drain hose when producing in the factory, but once the machine is fixed in the machine room and the refrigerator is installed and the customer starts using the machine, When performing indoor maintenance, since the machine room is small, there is a problem that it is very difficult to perform maintenance using fingers and tools.
[0006]
The present invention was made in order to solve the conventional problems, and by preventing the drain hose from being damaged by the rotation of the fan by allowing the water to bypass and drain without contacting the fan, The purpose is to allow drainage without fixing the drain hose.
[0007]
[Means for Solving the Problems]
The refrigerator according to claim 1 of the present invention is installed in a heat insulating box having a storage chamber therein, a machine room located below the storage chamber and configured outside the heat insulating box, and the machine room. A compressor, a condenser and a fan for the condenser, and a fan case provided around the condenser fan, and a drainage flow path is provided along the outer edge of the fan case. The flow path has a receiving part for receiving drain water in the storage chamber in part, and a drain water guide part facing the upper side of the dew receiving tray in the other part.
[0008]
According to the first aspect of the present invention, the drain hose can be detoured without being brought into contact with the fan, so that the drain hose can be prevented from being damaged by the rotation of the fan, and the drain hose fixing work which has been conventionally required is not performed. The drain water can be drained to the dew pan.
[0009]
According to a second aspect of the present invention, in the refrigerator according to the first aspect, the drainage channel is formed integrally with the fan case.
[0010]
According to the invention of claim 2, since the drainage channel is formed integrally with the fan case, the drainage channel is assembled in the machine room by fixing the fan case to the base. Will be able to.
[0011]
According to a third aspect of the present invention, there is provided the refrigerator according to the first aspect, wherein the drainage channel circulates at least a quarter of the periphery of the opening of the fan case.
[0012]
According to the invention of claim 3, it is possible to bypass the periphery of the fan case, secure a drainage channel in a narrow space without coming into contact with the compressor other than the fan, and drain into a dew tray far from the receiving portion. become able to.
[0013]
According to a fourth aspect of the present invention, there is provided a refrigerator according to any one of the first to third aspects, wherein a tip of a drain socket for guiding the drainage of the storage chamber is located below the overflow surface of the receiving portion.
[0014]
According to the invention of claim 4, in addition to the inventions of claims 1 to 3, since the trap is formed by the drain socket and the receiving portion, the outside air does not enter the storage chamber, and The temperature effect on the product can be reduced.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1 is a front view of the refrigerator of the present invention, FIG. 2 is a longitudinal side view of the refrigerator of the present invention, FIG. 3 is a plan view of the machine room, FIG. 4 is a cross-sectional view along BB in FIG. 4 are cross-sectional views each showing a state in which drainage is accumulated in the receiving portion.
[0016]
Reference numeral 1 denotes a refrigerator, which is formed outside a heat insulating box 4 having a storage chamber 3 having an opening 2 on the front surface and a heat insulating box 4 on the lower side of the storage chamber 3. The machine room 7 having A partition plate 8 is attached to the rear lower portion of the storage chamber 3 with a gap from the back surface of the heat insulation box 4, and a duct 11 is formed between the partition plate 8 and the heat insulation box 4.
[0017]
And the cooler 13 which comprises the well-known refrigerant circuit of a refrigerating cycle is installed vertically in this duct 11, and the uppermost part of the duct 11 is a store room in the suction inlet 14 formed in the rear upper part of the store room 3 3 is communicated. A cooling fan 16 is provided in the duct 11 below the storage chamber 3. In the storage chamber 3 in front of the partition plate 8, a plurality of shelves 17 for displaying the products V are erected (only one level is shown in FIG. 2), and a floor 15 is erected at the lowest level. The cooling fan 16 is positioned below the floor 15, and the cool air in the storage chamber 3 is sucked from the suction port 14 by the cooling fan 16. Thereby, after the cool air in the storage chamber 3 is sucked by the cooling fan 16, it flows in the direction of the cooler 13, and the cool air cooled by the cooler 13 passes through the outlet 12 in front of the lower part of the bottom floor 15. Circulation is discharged inside.
[0018]
The front opening 2 of the storage chamber 3 is closed so as to be freely opened and closed by a door 22 fitted with a see-through multilayer glass 21. The door 22 is pivotally supported on the heat insulating box 4 by hinges 23 and 23 on the right and upper sides.
[0019]
On the other hand, a compressor 26 and a wire and tube condenser 27 constituting a refrigerant circuit of the refrigeration cycle are installed in the machine room 7, and a condenser fan 28 for blowing air to them is also provided. Yes. And the dew receiving tray 20 which receives the defrost water of the cooler 13 is provided under the condenser 27, and the compressor 26 and the condenser 27 are installed in parallel with the left-right direction of the opening 6, and are installed on the pedestal 29. At the same time, a condenser fan 28 is installed on the rear side. The cooling fan 16 and the condenser fan 28 are fixed to a coaxial electric motor 30, and the electric motor 30 is always continuously operated. In FIG. 3, the condenser fan is omitted.
[0020]
The condenser fan 28 is a suction-type fan, and is attached to the lower side of a circular opening 25 opened on the upper surface of a fan case 24 extending forward from the lower rear portion of the machine room 7. The upper part of the rear surface of the machine room 7 is closed by the closing plate 32, the front of the fan case 24 is closed by the pedestal 29, and only the lower and rear sides of the fan case 24 are provided on the pedestal 29 and the closing plate 32, respectively. The holes 18 and 19 are opened.
[0021]
The fan case 24 is integrally molded of hard synthetic resin, and has a circular opening 25 opened on the upper surface as described above. The drainage of the storage chamber 3 is drained to the left rear of the opening 25. A receiving portion 24A for receiving is provided. Further, a drain socket 9 for guiding the drainage of the storage chamber 3 to the receiving portion 24A is located above the receiving portion 24A, and a tip 9A of the drain socket 9 is provided in front of the receiving portion 24A. It is located below the weir portion 24D. As a result, the drainage is accumulated and the drainage overflows after exceeding the weir part 24D of the receiving part 24A, so that a trap is formed by the receiving part 24A and the drain socket 9. Further, a drainage flow path is provided at a quarter or more of the opening 25 along the outer periphery of the circular opening 25 from the receiving portion 24A to the tip 24C of the drainage flow path 24B above the dew receiving tray 20. 24B is formed.
[0022]
A machine room cover 33 is attached to the opening 6 on the front surface of the machine room 7, and is located below the upper door 22. The machine room cover 33 is formed of a hard synthetic resin, and the front surface has a curved shape. Further, a blow-out portion 37 is formed in the upper portion of the machine chamber cover 33 by a plurality of slits (not shown), and communicates with an opening 35 formed in a lower portion of a lower frame 34D of a frame member 34 described later. In addition, the area | region inside the machine room cover 33 is all open | released by the rear surface.
[0023]
The door 22 protrudes forward of the outer peripheral portion of the door frame 36, a resin door frame 36, the transparent multi-layer glass 21 fitted in the door frame 36, a gasket 39 attached around the inner surface of the door frame 36. Frame member 34. The frame member 34 is integrally formed of a hard synthetic resin, and has a substantially square shape including four sides of an upper frame 34A, a left frame 34B, a right frame 34C, and a lower frame 34D. A portion (glass portion) other than 36 can be seen through, and is fitted and fixed to the door frame 36 of the door 22. A lower portion of the lower frame 34D of the frame member 34 has an opening 35 and communicates with the blowing portion 37 of the machine room cover 33. The upper part of the lower frame 34 </ b> D forms a slit and serves as a discharge port 43.
[0024]
With the above configuration, when the compressor 26, the condenser fan 28, and the cooling fan 16 are operated, the cooler 13 exhibits a cooling action, and the cooled air is stored by the cooling fan 16 as described above. Circulate in chamber 3. Thereby, the inside of the storage chamber 3 is cooled to a predetermined low temperature (refrigerated or frozen).
[0025]
On the other hand, when the condenser fan 28 is operated, the air behind and below the machine room 7 is sucked into the fan case 24 through the long holes 18 and 19, passes through the machine room 7, and is connected to the front compressor 26 and condenser 27. And air-cooled to the dew tray 20. Thereby, heat dissipation of the condenser 27 and the compressor 26 and evaporation of the defrost water in the dew receiving tray 20 are promoted. At this time, since the drainage channel 24B is heated by the radiant heat of the compressor 26 and the condenser 27, the low temperature drainage from the storage chamber 3 is warmed when passing through the drainage channel 24B. 20 further promotes evaporation of defrost water. Note that some evaporation occurs when the defrost water flows through the drainage flow path 24B.
[0026]
A drainage flow path 24B extending from the receiving portion 24A to the tip end portion 24C is located between the compressor 26 and the condenser fan 28, and is located in the vicinity of the rotating condenser fan 28. Since the flow path 24B is formed integrally with the fan case 24, a predetermined distance from the condenser fan 28 is maintained. Therefore, the condenser fan 28 does not break or damage the drain hose by contacting the condenser fan 28 as in the case of the drain hose used conventionally. Further, the drain hose can be drained to the dew receiving tray 20 without fixing the drain hose which has been conventionally required.
[0027]
Further, since the drainage flow path 24B is formed in the quarter or more of the opening 25 along the circular opening 25 from the receiving portion 24A to the upper side of the dew receiving tray 20, the compressor 26 and A drainage channel can be secured in the narrow space 10 close to the condenser fan 28 and allowed to pass through to reliably drain the dew tray 20 far away from the receiving portion 24A.
[0028]
Furthermore, since the fan case 24, the receiving portion 24A, and the drainage flow path 24B are integrally formed, it is possible to reduce the number of assembling steps and component costs attached to the pedestal 29.
[0029]
Note that the outside air (warm air) that has been warmed by sequentially cooling the condenser 27 and the compressor 26 is warm, because the rear surface of the machine chamber 7 and the front of the fan case 24 are blocked by the closing plate 32 and the pedestal 29. As shown by the arrow in FIG.
[0030]
Then, it enters the space 31 of the lower frame 34D through the opening 35 of the lower frame 34D of the frame member 34 from the blowout part 37 provided in the upper part of the machine chamber cover 33, and as indicated by the arrow from the discharge port 43 provided in the frame member. It blows out upward, blows out toward the front surface of the multilayer glass 21 of the upper door 22, and reaches the front surface of the door 22. Thereby, condensation on the front surface of the multilayer glass 21 is effectively prevented or suppressed.
[0031]
【The invention's effect】
As described above in detail, according to the first aspect of the present invention, the drain hose can be detoured without being in contact with the fan, so that the drain hose can be prevented from being damaged by the rotation of the fan, and the drain which has been conventionally required It can be drained to the dew tray without fixing the hose.
[0032]
According to the invention of claim 2, since the drainage channel is formed integrally with the fan case, the drainage channel is assembled in the machine room by fixing the fan case to the base. Can do.
[0033]
According to the invention of claim 3, it is possible to bypass the periphery of the fan case, secure a drainage channel in a narrow space without coming into contact with the compressor other than the fan, and drain into a dew tray far from the receiving portion. it can.
[0034]
According to the invention of claim 4, in addition to the inventions of claims 1 to 3, since the trap is formed by the drain socket and the receiving portion, the outside air does not enter the storage chamber, and The temperature effect on the product can be reduced.
[Brief description of the drawings]
FIG. 1 shows a front view of a refrigerator of the present invention.
FIG. 2 shows a longitudinal side view of the refrigerator of the present invention.
FIG. 3 is a plan view of a machine room of a refrigerator according to the present invention.
4 is a sectional view taken along line BB in FIG.
FIG. 5 is a cross-sectional view showing a state in which drainage is accumulated in the receiving part in FIG. 4;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Refrigerator 2, 6 Opening 3 Storage chamber 4 Heat insulation box 7 Machine room 9 Drain socket 10 Space 20 Dew tray 24 Fan case 24A Receiving part 24B Drain flow path 24C Tip part 25 Opening part 26 Compressor 27 Condenser 28 For condenser Fan 35 Opening 37 Air outlet

Claims (4)

A heat insulation box having a storage chamber therein; a machine room located below the heat storage box and configured outside the heat insulation box; a compressor, a condenser, and a condenser fan installed in the machine room; In a refrigerator equipped with a fan case provided around the condenser fan,
A drainage channel is provided along the outer edge of the fan case, and the drainage channel has a receiving part for receiving drain water in the storage chamber in part, and a drain facing the upper part of the dew receiving tray in the other part. A refrigerator having a water guide. The cooler according to claim 1, wherein the drainage channel is formed integrally with the fan case. The cooler according to claim 1, wherein the drainage channel goes around a quarter or more around the opening of the fan case. The refrigerator according to any one of claims 1 to 3, wherein a tip of a drain socket that guides drainage of the storage chamber is located below the overflow surface of the receiving portion.

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