JP3675910B2 - Cooling storage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cooling storage in which a cooling unit in which a compressor and a cooler are integrated is incorporated.
[0002]
[Prior art]
Conventionally, this kind of cooling storage has been provided with an opening on the front side at the lower rear part of the storage chamber constructed in the heat insulation box as described in, for example, US Pat. No. 5,417,079. A chamber is formed, and a machine chamber is formed outside the heat insulating box on the front side of the cooling chamber. On the other hand, the cooling unit is configured integrally with a cooler and a cooler fan on one side and a compressor, a condenser, and a condenser fan on the other side through a heat insulating partition plate, respectively.
[0003]
When the cooling unit is assembled, the cooler and the fan for the cooler are inserted into the cooling chamber from the opening, the opening is closed by the heat insulating partition plate, and the compressor, the condenser, and the condenser fan are It is arranged in the machine room, and according to such a configuration, the assembling work of the cooling unit becomes extremely easy.
[0004]
[Problems to be solved by the invention]
However, since the cooler fan is attached to the rear of the cooler in the conventional cooling storage, the drive motor of the cooler fan is also disposed in the cooling chamber, and the cooling capacity is improved by the heat generated from the drive motor. There was a problem that was spoiled.
[0005]
In addition, since a compressor, a condenser, and a condenser fan exist in the machine room, heat generated from them stays in the upper part of the machine room. For this reason, there is a problem that these warm air easily enters the cooling chamber from between the heat insulating partition plate and the opening.
[0006]
The present invention has been made to solve the conventional technical problem, and aims to improve the cooling capacity of a cooling storage unit incorporating a cooling unit in which a compressor and a cooler are integrated. For the purpose.
[0007]
[Means for Solving the Problems]
The cooling storage of the present invention is formed in the lower rear portion of the storage chamber configured in the heat insulation box, the cooling chamber formed with an opening on the front surface, and outside the heat insulation box on the front side of the cooling chamber. A machine unit, and a cooling unit integrally formed with a cooler and a fan for the cooler on one side and a compressor, a condenser and a fan for the condenser on the other side through a heat insulating partition plate, the cooler fan is inserted into the cooling chamber from the opening, both when closing the opening by adiabatic partition plate, compressor, condenser and condenser fan be comprised disposed in the machine chamber, wherein A plate that can be rotated in the front-rear direction is provided on the upper edge of the inner edge of the opening. This plate is suspended from the upper edge of the inner edge of the opening across the heat insulating partition plate in a state where the heat insulating partition closes the opening. And form a heat insulation space between the heat insulation partition plate It is intended.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The cooling storage 1 according to the embodiment includes a storage chamber 3 having an opening 2 on the front surface and a cooling chamber 6 formed in communication with the lower rear portion of the storage chamber 3 and having an opening 4 on the front surface. The heat insulating box 7 is configured.
[0009]
The heat insulating box 7 includes a steel plate outer box 8, a steel plate inner box 11 screwed to the opening edge of the outer box 8 via a heat insulating fixture 9, and both the inner and outer boxes 11. , 8 and a heat insulating material 12 filled with foam. Reference numeral 13 denotes a surface plate for concealing the screwing portion of the inner box 11.
[0010]
The front opening 2 of the storage chamber 3 is closed by a glass door 14 so as to be freely opened and closed. The glass door 14 includes a resin or metal door frame 16, a transparent multi-layer glass 17 fitted in the door frame 16, a gasket 18 attached around the inner surface of the door frame 16, and a non-pivotal support side. It consists of a handle 19 attached to the front surface of the door frame 16, and one side is pivotally supported by the heat insulation box 7 so as to be rotatable. And the lower surface front part of the door frame 16 of this glass door 14 is made into the curved surface as shown in FIG.
[0011]
Further, a plurality of shelves 22 are laid on the shelf receiver 21 in the storage chamber 3, and the storage chamber 3 and the cooling chamber are placed on the bottom wall 7 A of the heat insulating box 7 at the front of the storage chamber 3. A base sheet 23 (deleted in FIG. 3) is attached to partition 6 in a communicating state. The bottom wall 7A is inclined to be pulled toward the rear cooling chamber 6. Further, a fluorescent lamp 24 is attached to the front of the top surface in the storage chamber 3, and a back duct 26 is attached to the back of the storage chamber 3 in the vertical direction. The upper end of the air passage 27 formed in the rear duct 26 is opened at the upper end of the back of the storage chamber 3.
[0012]
On the other hand, a fan guard 31 that is located in the cooling chamber 6 and is inclined backward is attached to the inner box 11 above the opening 4 of the cooling chamber 6. The lower end of the rear duct 26 is bent forward at the rear of the bottom wall 7A, and then folded back again at an interval, so that the lower end upper wall 26A, the lower end front wall 26B, and the lower end lower wall The part 26C is formed continuously, and a space G1 is formed between them. And this lower end upper wall part 26A is located under the floor 23, and the lower end front wall part 26B has opposed the fan guard 31 at intervals. Further, the tip of the lower end lower wall portion 26C is located in front of the back wall of the inner box 11 with a gap and is inclined to the rear, and a cushion as a sealant (hereinafter the same) is provided on the front surface thereof. A material 32 is attached.
[0013]
A plate 34 is attached to the upper side of the inner edge of the opening 4 of the cooling chamber 6 over the left and right. The upper end of the plate 34 is pivotally supported by the inner box 11 so as to be rotatable in the front-rear direction, and is usually suspended from the upper edge of the inner edge of the opening 4 toward the opening 4. Further, the bottom wall 7B of the heat insulating box 7 in the cooling chamber 6 portion is inclined lower forward, and a drain port 36 communicating with the lower part of the heat insulating box 7 is formed at the lowermost part. Further, tube plate partition plates 35 and 35 are attached to both sides of the inner box 11 at the rear of the cooling chamber 6 so as to protrude inward.
[0014]
A machine room 41 is configured on the front side of the cooling chamber 6 and positioned below the bottom wall 7A of the heat insulating box 7. The machine room 41 is open to the front and the bottom, and the opening 4 of the cooling chamber 6 is located on the rear side. The front surface of the machine room 41 is closed by a machine room cover 42 located below the glass door 14 so as to be opened and closed.
[0015]
A slit 43 serving as a ventilation hole is formed in the front surface of the machine room cover 42, and a hole 46 is also formed to face a fluorescent lamp switch 44 of an electrical box described later. Further, a plurality of horizontally long air outlets 47 are formed in the upper front portion of the machine chamber cover 42, and a groove-shaped dew receiving portion 48 is formed on the rear side thereof at a position lowered by one step. ing. A through hole 49 communicating with the machine chamber 41 is formed in the bottom surface of the dew receiving portion 48, and the bottom surface of the dew receiving portion 48 is inclined low toward the through hole 49.
[0016]
Further, the rear end of the blowout port 47 of the machine room cover 42 is located in front of the front surface of the glass 17 of the upper glass door 14 and the curved surface rear end of the lower surface of the door frame 16, and the dew receiving portion 48 corresponds to the lower side of the lower surface of the door frame 16 (FIG. 9).
[0017]
Further, 51 is a pedestal angle attached to the lower part on both sides of the heat insulation box 7, and 52 is a leg attached to the angle 51 at the lower four corners of the heat insulation box 7.
[0018]
Reference numeral 53 denotes a cooling unit incorporated in the heat insulating box 7. The cooling unit 53 includes a compressor 54, a condenser 56, and a cooler 57 constituting a refrigeration cycle, a condenser fan 58, a cooler fan 59, an electrical box (not shown), and the like. The heat insulating partition plate 62, the condenser mounting plates 63 and 63, and the cooler mounting plates 64 and 64 are integrally formed.
[0019]
The heat insulating partition plate 62 includes a steel plate outer plate 66, an inner plate 68 combined with the outer plate 66 via a heat insulating fixture 67, and heat insulation filled between the plates 66 and 68. A circular recess 66 </ b> A that extends to the inner plate 68 is formed at a substantially central portion of the outer plate 66. Further, the peripheral edge portion of the inner plate 68 is thin, and a cushion material 71 is attached to the rear surface of the thin portion.
[0020]
The condenser attachment plates 63 and 63 are attached to both side portions of the base plate 61, the rear portion is formed high and the front portion is formed low, and the outer plate 66 of the heat insulating partition plate 62 is attached to the rear surface. The compressor 54 is installed on the left side of the base plate 61, and the condenser 56 is installed on the right side thereof. The condenser 56 is housed in a condenser fan casing 72 that opens in the front-rear direction, and the condenser fan 58 is provided at the rear end of the condenser fan casing 72.
[0021]
Reference numeral 58M denotes a drive motor for the condenser fan 58, which is fixed to the front right base plate 61 of the heat insulating partition plate 62 by a fixture 73. Further, a cushion material 74 is also attached around the front edge of the condenser fan casing 72, and the electrical box is also provided on the base plate 61. Further, 76 is a reinforcing plate attached to the front lower end of the base plate 61.
[0022]
On the other hand, the cooler mounting plates 64, 64 are mounted on the inner plate 68 of the heat insulating partition plate 62. The cooler 57 is mounted across the cooler mounting plates 64 and 64 with a small clearance from the heat insulating partition plate 62. The cooler 57 is housed in a cooler fan casing 77 opened in the front-rear direction. The front end of the cooler fan casing 77 is separated from the heat insulating partition plate 62, and the cooler fan 59 is provided at the front end.
[0023]
Reference numeral 59M denotes a drive motor for the cooler fan 59, which is mounted in the recess 66A of the heat insulating partition plate 62 from the base plate 61 side. The rotating shaft of the drive motor 59M passes through the inner plate 68 and is desired on the cooler 57 side, and the cooler fan 59 is attached to the tip of the drive motor 59M. The cooler fan 59 is located between the cooler 57 and the heat insulating partition plate 62. The upper side 77 </ b> A of the cooler fan casing 77 extends rearward from the upper side of the cooler 57. Further, the left and right tube plates 57A, 57A of the cooler 57 extend further rearward than the upper side 77A, and a cushion material 78 is also attached to their rear edges.
[0024]
The cooler mounting plates 64, 64 are mounted at a position higher than the base plate 61, and a reinforcing plate 81 is mounted between the rear ends thereof, and the lower surface thereof is inclined high rearward. The lower part of the cooler 57 is covered with a lower plate 82 that is mounted between the cooler mounting plates 64, 64. The lower plate 82 has small holes 83, 83 as drainage communication portions. It has been drilled. The tip of the lower plate 82 reaches the reinforcing plate 81.
[0025]
In addition, a space is formed between the rear end of the base plate 61 and the heat insulating partition plate 62, and holding plates 84 are attached to both sides of the lower surface of the base plate 61 corresponding to the lower side of the condenser fan 58. A drain pan 86 is detachably attached to 84. The drain pan 86 is positioned below the interval while being held.
[0026]
Further, a through hole 87 is formed in the front side of the upper side of the condenser fan casing 72 as shown in FIG. 9, and a cushion material 88 as a moisture absorbing member is attached to the through hole 87 from the lower side. Thus, the through hole 87 is closed. The cushion material 88 may be attached to the upper surface of the condenser fan casing 72 as shown in FIG.
[0027]
With the above configuration, when the cooling unit 53 is incorporated into the heat insulating box 7, the machine room cover 42 is removed or rotated and the front surface of the machine room 41 is opened to open the machine room from the reinforcing plate 81 side. It inserts in 41 (FIG. 7). At this time, since the heavy compressor 54 is installed on the base plate 61, the center of gravity of the cooling unit 53 is on the base plate 61 side. In addition, with the base plate 61 placed on the installation floor surface, the reinforcing plate 81 is located higher than the receiving portion 92 (the lower edge of the front opening of the machine room 41) at the front end of the angle 51. Can be inserted by placing the base plate 61 on the installation floor and sliding it.
[0028]
By this insertion, the lower side of the cushion material 71 eventually reaches the front end of the pedestal angle 51. Therefore, if the cooling unit 53 is lifted slightly, the reinforcing plate 81, the cooler mounting plates 64 and 64, the cooler 57, and the like are inserted into the cooling chamber 6 from the opening 4 and at the front of the heat insulating partition plate 62. The base plate 61 is also inserted into the machine room 41 and finally the opening 4 is closed from the machine room 41 side by the heat insulating partition plate 62. Then, the reinforcing plate 76 is fixed to the receiving portion 92 at the front end of the pedestal angle 51 with the screw 91 and the front of the machine room 41 is closed with the machine room cover 42. In this insertion process, the cooler fan casing 77 abuts on the plate body 34, but the plate body 34 rotates rearward as indicated by a broken line in FIG. Moreover, the electrical wiring box and the electrical wiring on the heat insulation box 7 side are connected to complete the assembly.
[0029]
In this state, the cushion material 71 is in close contact with the outer peripheral surface of the opening 4 to separate the machine chamber 41 and the cooling chamber 6. On the cooling chamber 6 side, the cushion members 78 of the left and right tube plates 57A and 57A of the cooler 57 are in close contact with the rear surface of the inner box 11, and the rear end of the upper side 77A of the cooler fan casing 77 is the lower end of the rear duct 26. The lower wall portion 26C is in close contact with the cushion material 32.
[0030]
The fan guard 31 is positioned above the cooler fan 59, and the drive motor 59 </ b> M is held by the heat insulating partition plate 62 in the machine chamber 41 outside the cooling chamber 6. Further, the plate body 34 is suspended from the upper side of the inner edge of the opening 4 over the heat insulating partition plate 62, and forms a heat insulating space G <b> 2 between the plate body 34 and the heat insulating partition plate 62.
[0031]
Furthermore, a gap G3 is formed between the lower plate 82 and the bottom wall 7B, and the tube plate partition plates 35, 35 are located on the rear sides of the left and right tube plates 57A, 57A.
[0032]
On the other hand, the compressor 54, the condenser 56, and the condenser fan 58 are located in the machine chamber 41, and the cushion material 74 of the condenser fan casing 72 is in close contact with the back surface of the machine chamber cover 42 corresponding to the periphery of the slit 43. Yes. Further, the cushion material 88 corresponds to the lower side of the through hole 49 of the machine room cover 42, and the air outlet 47 communicates with the upper part in the machine room 41. Further, the rear portion of the drain pan 86 corresponds to the lower side of the drain port 86.
[0033]
And if the compressor 54 and each drive motor 58M and 59M are drive | operated, the cooler 57 will exhibit a cooling effect | action. The cool air cooled by the cooler 57 is discharged rearward by a cooler fan 59 as indicated by a solid line arrow in FIG. 5 and blown upward from the rear of the upper side 77A of the cooler fan casing 77 to be an air path in the rear duct 26. 27 flows in. At this time, since the space G1 is formed at the lower end of the air passage 27 as described above, an increase in static pressure behind the cooler 57 is suppressed. Accordingly, the cool air can smoothly flow into the air passage 27.
[0034]
The cold air that has flowed into the air passage 27 rises inside and is blown into the storage chamber 3 from the upper end of the back duct 26. The cool air blown into the storage chamber 3 circulates inside and cools the products on the shelves 32... To a predetermined temperature, and then the cooling chamber from the interval between the fan guard 31 and the lower end front wall portion 26B of the rear duct 26. 6 and returns to the cooler fan 59 for circulation.
[0035]
At this time, since the driving motor 59M of the cooler fan 59 is located outside the cooling chamber 6, the adverse effect of heat generated from the driving motor 59M on the cooling chamber 6 becomes extremely small. Further, the rear end of the upper side 77A of the fan casing 77 for the cooler is also in close contact with the lower end lower wall portion 26C of the rear duct 26 via the cushion material 32, and the tube plates 57A and 57A are also connected to the inner box 11 via the cushion material 78. Therefore, there is no short circuit between the upper part of the cooler 57 and the left and right cool air.
[0036]
Furthermore, since the lower part of the cooler 57 is covered by the lower plate 82, a short circuit of cool air below the cooler 57 does not occur, so that the cooling capacity can be improved as a whole.
[0037]
Further, the drain water dripped from the cooler 57 passes through the small hole 83 of the lower plate 82 and drops onto the bottom wall 7B and is discharged from the drain port 36 to the drain pan 86, but on the lower side of the lower plate 82. Since the space G3 is formed and the small hole 83 is small, the space G3 becomes a heat insulating space. Therefore, clogging due to freezing of the drain port 36 can also be prevented.
[0038]
Furthermore, since the fan guard 31 is provided above the cooler fan 59, it is possible to prevent an accident that a user or the like accidentally contacts the cooler fan 59 from the storage chamber 3 side. Even if water flows in from the storage chamber 3, the fan guard 31 guides to the cooler fan casing 77 side, so that the problem that the drive motor 59M of the cooler fan 59 is directly submerged and causes a leakage failure is also eliminated.
[0039]
On the other hand, outside air is sucked from the slit 43 by the condenser fan 58, passes through the condenser 56 and is cooled by air, and then blown out toward the heat insulating partition plate 62. Part of the warm air blown out from the condenser fan 58 flows downward from the interval between the base plate 61 and the heat insulating partition plate 62 and flows on the drain pan 86 to promote the evaporation of drain water.
[0040]
The remaining warm air flows to the left in the machine chamber 41, cools the compressor 54, and then rises and blows upward from the outlet 47 of the machine chamber cover 42 as indicated by the broken line arrow in FIG. Since the warm air blown out from the blowout port 47 rises on the front surface of the transparent glass 17 of the glass door 14, dew condensation on the transparent glass 17 is prevented or suppressed.
[0041]
On the other hand, when dew condensation occurs on the front surface of the transparent glass 17 of the glass door 14, the dew condensation water is received by the dew receiving portion 48 of the machine room cover 42 and is discharged into the machine room 41 through the through hole 49. Therefore, the surroundings of the cooling storage 1 due to the dew condensation water are prevented, and the dew condensation water discharged into the machine room 41 is sucked into the cushion material 88 provided below the through holes 49. And since it evaporates with the warm air in the machine room 41, the dew condensation water concerned is evaporated very easily.
[0042]
Further, since the plate 34 is suspended from the upper edge of the inner edge of the opening 4 across the heat insulating partition plate 62 and the heat insulating space G2 is formed between the plate and the heat insulating partition plate 62, the plate body 34 stays in the upper part in the machine room 41. Preventing inconvenience that heat generated from the compressor 54, the condenser 56, and the driving motor 58M of the condenser fan 58 enters the cooling chamber 6 from a close contact portion between the heat insulating partition plate 62 and the opening 4 or It can be significantly reduced. This also improves the cooling capacity.
[0043]
【The invention's effect】
As described above in detail , according to the present invention, a cooling chamber formed with a front opening at the lower rear portion of a storage chamber configured in a heat insulating box, and a heat insulating box on the front side of the cooling chamber. A machine unit formed outside, and a cooling unit integrally formed with a cooler and a fan for the cooler on one side and a compressor, a condenser and a fan for the condenser on the other side through a heat insulating partition plate, respectively. A cooling device and a cooling fan are inserted into the cooling chamber from the opening, the opening is closed by a heat insulating partition plate, and a compressor, a condenser and a condenser fan are arranged in the machine chamber. In the storage, a plate body that can be rotated in the front-rear direction is provided on the upper side of the inner edge of the opening, and the plate is changed from the upper side of the inner edge of the opening to the heat insulating partition in a state where the heat insulating partition closes the opening. Hang across and between heat insulation partition plates Since the heat insulation space is formed, the heat generated from the compressor, condenser, and condenser fan staying in the upper part of the machine room enters the cooling room from the contact part between the heat insulation partition plate and the opening. It is possible to prevent or significantly reduce inconvenience.
[0044]
Accordingly, the cooling capacity of the refrigerator incorporating the cooling unit can be remarkably improved, and the plate body can be rotated in the front-rear direction. It is something that can be done.
[Brief description of the drawings]
FIG. 1 is a front view of a cooling storage of the present invention.
FIG. 2 is a longitudinal side view of the cooling storage of the present invention.
FIG. 3 is a plan sectional view of a storage chamber portion of the cooling storage of the present invention.
FIG. 4 is a plan sectional view of a cooling chamber portion of the cooling storage of the present invention.
FIG. 5 is an enlarged vertical side view of the lower part of the cooling storage of the present invention.
FIG. 6 is a plan view of the assembled state of the base plate, the condenser mounting plate, the cooler mounting plate, and the heat insulating partition plate.
FIG. 7 is a diagram illustrating a procedure for incorporating a cooling unit.
FIG. 8 is a plan view of a machine room cover.
FIG. 9 is an enlarged vertical side view of an upper end portion of a machine room cover.
FIG. 10 is a diagram showing another embodiment of FIG. 9;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Cooling storage 3 Storage room 4 Opening part 6 Cooling room 7 Heat insulation box 14 Glass door 26 Back duct 31 Fan guard 32 Cushion material (sealant)
34 Plate body 41 Machine room 42 Machine room cover 47 Air outlet 48 Dew receiving part 49 Through hole 53 Cooling unit 54 Compressor 56 Condenser 58 Condenser fan 59 Cooler fan 59 Drive motor 61 Base plate 62 Thermal insulation partition plate 77 For cooler Fan casing 82 Lower plate 88 Cushion material (moisture absorbing member)
G2 heat insulation space G3 interval

Claims (1)

A cooling chamber formed with an opening on the front side at the lower rear part of the storage chamber configured in the heat insulating box, a machine room formed outside the heat insulating box on the front side of the cooling chamber, and a heat insulating partition plate The cooling unit and the cooling fan are provided on one side, and the other is provided with a compressor, a condenser, and a cooling unit, respectively. In the cooling storehouse which is inserted into the cooling chamber from the part, closes the opening by the heat insulating partition plate, and arranges the compressor, condenser and condenser fan in the machine room,
A plate body that is rotatable in the front-rear direction is provided on the upper side of the inner edge of the opening. A cooling storehouse that is suspended over and forms a heat insulating space between the heat insulating partition plate.

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