JP3683335B2 - Cooling storage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cooling storage, and more particularly to an improvement in a structure of a portion for discharging warm exhaust after cooling a condensing unit.
[0002]
[Prior art]
Conventionally, in order to facilitate the assembly and maintenance of the cooling unit, a refrigerator has been proposed in which the entire unit can be pulled out from the front side of the housing. As an example thereof, one described in Japanese Patent Application Laid-Open No. 7-260319 filed by the present applicant is known. This will be briefly described with reference to FIG.
A cooling chamber 102 is formed on the upper side of one side of the main body 101 of the refrigerator so as to protrude, and a storage space 103 with a receiving plate 104 disposed on the lower surface thereof is provided. A machine room 105 is formed by stretching a panel from the side face to the back face, and a door 106 is provided on the front face of the machine room 105. One cooling unit 107 has a condenser 109, a compressor 110, etc. (condensing unit 111) placed on a substrate 108 placed on the backing plate 104, and the cooling chamber 102 has an upper surface on the condenser 109. A cooling chamber lid 113 that closes the entrance / exit 112 is erected, and a cooler 114 is attached to the back side thereof. When the cooling unit 107 is stored, the door 106 of the machine room 105 is opened, the condenser unit 111 side is stored in the storage space 103, and the cooler 114 is inserted into the cooling chamber 102 through the inlet / outlet 112. The door 106 is closed after the doorway 112 is closed by the chamber lid 113.
[0003]
[Problems to be solved by the invention]
By the way, during the cooling operation, the condensing unit 111, particularly the condenser 109, has a high temperature, and thus needs to be cooled. Conventionally, by driving a condenser fan (not shown) provided on the back side of the condenser 109, outside air is sucked into the storage space 103 from the intake port 115 provided in the door 106 of the machine room 105. Then, the condenser 109 and the like are cooled, and the warm exhaust gas after the heat exchange is discharged to the outside from the exhaust ports provided in the side panel and the rear panel of the machine room 105.
However, such refrigerators are often installed with the back and sides facing walls and other kitchen equipment, so that the exhaust vents are blocked and warm exhaust cannot be discharged smoothly. There was a risk of lowering.
The present invention has been completed in the background as described above, and an object of the present invention is to enable warm exhaust to be smoothly discharged and to prevent a reduction in cooling capacity.
[0004]
[Means for Solving the Problems]
As a means for achieving the above object, the invention of claim 1 is characterized in that a cooling chamber in which a cooler is accommodated bulges and is formed at an upper position on the side of a main body in which stored items are accommodated. , in its lower bottom plate with a storage space which condensing unit is housed is provided with machine room is formed by tensioning the panel over the back from the side of the storage space and the cooling chamber, the machine chamber In the cooling storage provided with a front panel on the front surface, the bottom plate of the storage space is supported by passing a vertical support frame between the cooling chamber and the side surface of the cooling chamber, and the support frame is supported by the cooling chamber. The side panel is attached to the side surface of the cooling chamber through a mounting portion that is shorter than the depth of the side surface of the cooling chamber, and the side panel is stretched outside the support frame. The conjunction circulation space of the cooling chamber air through the storage space and communicating to the side of the is formed an intake port for taking in outside air to the lower side of the front panel, corresponding to the front of the flow space in the upper side This is characterized in that an exhaust port for discharging warm exhaust is provided at the position where the exhaust is exhausted.
According to a second aspect of the present invention, the support frame according to the first aspect is provided with a pair of front and rear, and each support frame is provided on a side surface of the cooling chamber so as to project laterally, and It is characterized by being attached via brackets of approximately the same width .
[0005]
Operation and effect of the invention
<Invention of Claim 1>
During the cooling operation, outside air is sucked into the storage space from the intake port provided on the lower side of the front panel of the machine room, the condensing unit is cooled, and the warm exhaust after heat exchange passes through the distribution space. It turns forward and is discharged to the outside through an exhaust port provided at the top of the front panel. Even when the exhaust ports on the back and side surfaces of the machine room are blocked, warm exhaust can be reliably and smoothly discharged to the outside, and the cooling capacity can be prevented from decreasing . Be of a type supporting frame is passed plugged between the bottom plate of the side surface and storage space of the cold却室can be reliably discharged to the front side warm exhaust.
<Invention of Claim 2>
The warm exhaust gas after the heat exchange is exhausted from the exhaust port of the front panel through the circulation space between the brackets.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
1 to 4, reference numeral 1 denotes a main body of the refrigerator, which is formed in a horizontally long box shape opened on the front surface, and a refrigerator compartment 2 for storing foods is configured therein (see FIG. 4). A front-opening door 3 is provided at the opening on the front surface, and is supported by legs 4 provided at the four corners of the bottom surface.
[0007]
The cooling unit 6 is detachably accommodated on the left side when viewed from the front of the main body 1. Specifically, a cuboid-shaped bulging portion 8 is formed on the upper side of the left side portion of the main body 1 so as to protrude outward and to be retracted inward from the front surface and the rear surface of the main body 1 by a predetermined size. Is formed, and the inside is a cooling chamber 9. A heat insulating material 7 is filled inside the bulging portion 8 and the wall surface constituting the main body 1 so as to ensure heat insulation against the outside. An entrance / exit 10 is formed in the front wall of the cooling chamber 9, and a storage space 11 is formed on the lower surface side of the cooling chamber 9. The storage space 11 and the cooling chamber 9 constitute a machine room as will be described later. 12 is formed, and a cooling unit 6 including a condenser 23, a compressor 20, a cooler (evaporator) 27, and the like is retractably accommodated.
[0008]
A receiving plate 13 having a shallow dish shape is attached to the bottom surface side of the storage space 11. Specifically, one side edge 13 a of the receiving plate 13 is fixed to the lower edge of the side surface of the main body 1 with a screw or the like. In addition, a pair of support frames 14 are attached to the front and rear end portions of the lower edge of the side surface of the bulging portion 8 via brackets 50. As shown in FIG. 5, the bracket 50 has a U-shaped cross section and is formed with an attachment piece 51 that is bent at right angles outward from both side plates. Each bracket 50 is fixed to the side surface of the bulging portion 8 by hitting a rivet on the mounting piece 51.
[0009]
The support frame 14 is formed in a vertically long shape, and is formed with a small-width flange 53 bent at right angles on both side edges, and a predetermined dimension below the flange 53 is notched. As shown in FIG. 3, the upper ends of the support frames 14 are fitted outside the protruding portion of the bracket 50 and fixed by rivets. Then, the other side edge 13b of the receiving plate 13 is applied to the inside of the lower end of each support frame 14 where the flange 53 is cut out, and is fixed by screws or the like, thereby supporting the receiving plate 13. . In other words, the support frame 14 that supports the other side edge 13b of the receiving plate 13 in a suspended manner is attached at a position protruding to the left side (front side in FIG. 3) of the side surface of the bulging portion 8. Will be.
[0010]
The substrate 15 of the cooling unit 6 can be placed on the receiving plate 13. The substrate 15 is formed in a U-shape with its left and right side edges bent, and is pushed from the front onto the receiving plate 13 and is abutted on the front edge (right side in FIG. 3) of the substrate 15. Pushing is stopped when the plate 17 abuts on a screw receiving piece 18 formed at the center of the front edge of the receiving plate 13 so that the pressing plate 17 and the screw receiving piece 18 are fixed by screwing. It has become.
[0011]
The cooling unit 6 is divided into a part that is accommodated in the storage space 11 and a part that is accommodated in the cooling chamber 9, and these parts are arranged in a stacked manner on the substrate 15. As a portion to be stored in the storage space 11, a compressor 20 is disposed on the back side, a condenser fan 21 driven by a motor 22 on the front side, and a condenser 23 on the front side. This corresponds to the condensing unit 24 of the present invention. A cooling chamber lid 25 for closing the inlet / outlet port 10 of the cooling chamber 9 is fixed to the upper surface of the condenser 23 via an L-shaped bracket 26. On the back side of the cooling chamber lid 25, a cooler 27 that can be taken in and out of the cooling chamber 9 is attached via a bracket 28. The cooler 27 is housed and provided in a casing 27a, and as shown in FIG. 4, the bottom surface of the casing 27a and the upper portion of the surface on the refrigerator compartment 2 side are opened, An air outlet 30 is provided, and an internal fan 31 is attached to the front surface of the air outlet 30.
[0012]
As shown in FIG. 3, the outlet of the compressor 20 and the inlet of the condenser 23 are connected by a pipe 33, and the outlet of the condenser 23 and the inlet of the cooler 27 are connected by a pipe 34. The outlet and the inlet of the compressor 20 are connected by a pipe 35, thereby constituting a cooling cycle. Among the above pipes, the pipes 34 and 35 that are taken in and out of the cooler 27 are encased together in a heat insulating material tube, and are pulled out to the side from the left edge portion of the cooling chamber lid 25. ing. The parts drawn out from the cooling chamber lid 25 of both the pipes 34 and 35 are fixed by a semicircular pressing member 37, while the pressing member 37 is fitted to the side edge of the inlet / outlet 10 of the cooling chamber 9. A recess 38 is formed.
[0013]
A heat insulating packing 39 including the concave portion 38 is attached to the periphery of the entrance / exit 10 on the front wall of the cooling chamber 9. A pair of mounting bolts 41 project from the upper and lower edges of the front wall, while the cooling chamber lid 25 is provided with an insertion hole 42 for the mounting bolt 41. An electrical component box 43 is attached to the front side of the cooling chamber lid 25.
In the cooling unit 6, the substrate 15 is pushed onto the receiving plate 13 as described above, and the cooler 27 is inserted into the cooling chamber 9 through the entrance / exit 10. When the mounting bolt 41 is inserted into the insertion hole 42 of the cooling chamber lid 25 and is pushed to a predetermined position in the middle of the pushing, the piping retainer 37 is fitted in the recess 38 and the cooling chamber lid 25 holds the heat insulating packing 39. If the nut (not shown) is screwed and tightened to the protruding end of the mounting bolt 41 that is in contact with the front wall of the cooling chamber 9 and passes through the cooling chamber lid 25, the cooling chamber lid 25 is brought into the entrance / exit of the cooling chamber 9. 10 is closed airtight. Further, the substrate 15 is fixed to the receiving plate 13 in the manner described above, whereby the cooler 27 is accommodated in the cooling chamber 9 and the condensing unit 24 is accommodated in the storage space 11.
[0014]
On the other hand, as shown in FIG. 4, a cold air guide plate 45 is provided between the cooling chamber 9 and the refrigerator compartment 2 in the refrigerator. The guide plate 45 is provided to extend obliquely forward from a position below the internal fan 31 toward a position slightly below the ceiling surface of the refrigerator compartment 2. From the lower surface of the guide plate 45, there is provided a return plate 46 that is suspended to a position slightly above the bottom surface of the refrigerator compartment 2, and the return plate 46 is separated from the refrigerator compartment 2 and the storage space 11. A predetermined space is provided between the side walls 1a, and a return path 47 that reaches the intake port 29 of the cooler 27 is formed between them.
Therefore, when the cooling unit 6 is driven, the air in the refrigerator compartment 2 is sucked from the intake port 29 on the lower surface side of the cooler 27 through the return path 47 as shown by the arrow in FIG. After the conversion, it is blown out from the internal fan 31 through the upper surface of the guide plate 45 to the ceiling surface side of the refrigerator compartment 2, that is, cold air is circulated and supplied to the refrigerator compartment 2.
[0015]
The housing portion of the cooling unit 6 is covered with a panel to form the machine room 12 described above, and a top plate 55 is stretched on the upper surface over the main body 1 and the machine room 12. The structure of this part will be described with reference to FIGS.
A rectangular first reinforcing member 57 is attached to the stepped ceiling portion on the back side of the bulging portion 8 and extends from the left side surface of the first reinforcing member 57 to the left side surface at the upper end of the bulging portion 8. The elongated second reinforcing member 58 is attached. Further, a top plate fitting plate 59 is attached to the ceiling surface on the front side of the bulging portion 8 by overlapping a part thereof on the upper surface plate 61 of the main body 1 and the second reinforcing member 58 and screwing. .
[0016]
A side panel 63 is stretched so as to cover the side of the bulging portion 8 and the storage space 11. The side panel 63 is stepped so that the upper end of the side panel 63 is retracted inward, so that an attachment portion 63a for the second reinforcing member 58 is formed. The side panel 63 is stretched so as to be applied to the outside of the support frame 14 from the second reinforcing member 58 and is fixed by screwing the predetermined portion on the lower end side to the side plate of the plate 13 and the support frame 14. As described above, since the support frame 14 protrudes to the left of the side surface of the bulging portion 8, the side panel 63 is provided between It is stretched in a state where an exhaust circulation space 64 (see FIG. 6) is provided, and the circulation space 64 communicates with the storage space 11 below.
[0017]
Further, the back of the distribution space 64 is covered with a panel (not shown) formed by bending the back edge side of the side panel 63 at a right angle, and a rear panel 65 is stretched in the back of the storage space 11. As a result, the machine room 12 whose front surface is opened is configured. A front panel 66 is attached to the front surface of the machine room 12 via a hinge 67 so as to be opened and closed.
On the lower side of the front panel 66, a plurality of outside air intake ports 69 are opened over the entire surface, and an exhaust port 70 is formed in a portion corresponding to the circulation space 64 on the upper side. An exhaust port 71 is also formed in the rear panel 65 and the side panel 63.
[0018]
The top plate 55 is fitted over the upper surface plate 61 of the main body 1, the first and second reinforcing members 57, 58, and the top plate insertion plate 59, and flanges provided at the rear edge and the left and right edges. It is fixed by screwing 55a. For example, the left flange 55a is fixed by fastening the mounting portion 63a of the side panel 63 to the second reinforcing member 58 with a screw.
[0019]
The present embodiment has the structure as described above, and the operation thereof will be described subsequently.
When the cooling unit 6 is housed in the machine room 12 and the cooling operation is performed, the cold air generated in the cooling room 9 is circulated and supplied into the refrigerating room 2 as described above. Further, during this time, the condenser fan 21 is driven, so that outside air is sucked into the storage space 11 from the air inlet 69 of the front panel 66, and the condenser 23 and further the compressor 20 on the back side are cooled. Here, depending on the installation mode of the refrigerator, the exhaust port 71 on the back side and the side surface of the machine room 12 may be blocked. In that case, a circulation space 64 is configured to communicate with the storage space 11 between the bulging portion 8 and the side panel 63, and an exhaust port 70 is provided at a position corresponding to the circulation space 64 in the front panel 66. Therefore, the warm exhaust after cooling the condenser 23 and the like and exchanging heat passes through the circulation space 64 while turning forward as shown by the arrow in FIG. It is discharged to the outside through the upper exhaust port 70.
[0020]
Thus, according to the present embodiment, even when the exhaust port 71 on the back surface or side surface of the machine room 12 is closed, warm exhaust can be reliably and smoothly discharged to the outside, It is possible to prevent the ability from decreasing.
[0021]
<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.
(1) The support frame for suspending the receiving plate and the bracket for attaching the support frame may be integrally formed in advance.
(2) Further, the present invention is not limited to a drawer type cooling unit, and similarly applies to a cooling storage box of a type in which a cooler is fixedly provided in a cooling chamber provided on the side of the refrigerator compartment. Can be applied.
[Brief description of the drawings]
FIG. 1 is a front view of a refrigerator according to an embodiment of the present invention.
FIG. 2 is a side view thereof.
FIG. 3 is a perspective view of a state before a cooling unit is stored.
FIG. 4 is a cross-sectional view showing the internal structure.
FIG. 5 is an exploded perspective view of a machine room portion.
FIG. 6 is a partially cutaway perspective view showing the flow of warm exhaust.
FIG. 7 is an exploded perspective view of a conventional example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Main body 8 ... Expansion part 9 ... Cooling chamber 11 ... Storage space 12 ... Machine room 14 ... Support frame 21 ... Condenser fan 23 ... Condenser 24 ... Condensing unit 27 ... Cooler 50 ... Bracket 63 ... Side panel 64 ... Distribution space 66 ... Front panel 69 ... Inlet 70 ... Exhaust

Claims (2)

At the upper position on the side of the main body where the stored items are stored, a cooling chamber for storing the cooler is formed to bulge, and a storage space with a bottom plate for storing the condensing unit is provided below the cooling chamber. In addition , a machine room is formed by stretching a panel from the side surface to the back surface of the cooling chamber and the storage space, and in a cooling storage room provided with a front panel on the front surface of the machine room,
The bottom plate of the storage space is supported by passing a vertical support frame between the cooling chamber and the side surface of the cooling chamber, and the support frame is provided on the side surface of the cooling chamber so as to protrude sideways. It is attached via a mounting part that is shorter than the depth of the side surface of the cooling chamber, and the side panel is stretched on the outside of the support frame, so that the storage space communicates with the side of the cooling chamber. An air circulation space is formed,
A cooling storehouse, wherein an intake port for taking in outside air is provided on the lower side of the front panel, and an exhaust port for discharging warm exhaust is provided at a position corresponding to the front side of the circulation space on the upper side. The support frame is provided with a pair of front and rear, and each support frame is provided on a side surface of the cooling chamber in a protruding shape to the side and is attached via a bracket having substantially the same width as the support frame. The cooling storage box according to claim 1.

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