JP3906006B2 - Cooling storage - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cooler/refrigerator which can cool the inside of the compartment uniformly. SOLUTION: A rectangular chill duct panel 21 fixed from the inside of a storage compartment 3 is provided at the opening 6 in the top wall 2A of a thermal insulation box 2. The chill duct panel 21 has chill outlets 22, 22, 23 made in three sides at the outer fringe part and communicating with the delivery side of a fan 15 and a chill inlet 24 made in one side at the outer fringe part and communicating with the suction side of a cooler 14. Heat exchanged chill from the cooler 4 is delivered from the outer fringe part chill outlets 22, 22, 23 along the top wall 2A of the thermal insulation box 2.

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, a cooler and a blower for a cooler are installed in a heat-insulating cooling box whose bottom surface is open, and the cooling box is formed by closing a ceiling opening formed in the ceiling of the heat-insulating box body. It relates to a cooling storage that is installed on the top.
[0002]
[Prior art]
Conventionally, this kind of cooling storage is a prefabricated cold storage (refrigeration / refrigerator) or commercial cooling storage, and is composed of a compressor, a condenser, a heat-insulating cooling box, etc. on a unit base composed of heat insulating plates. A cooling unit is provided, an opening is formed in the ceiling surface of the cooling storage configured by the heat insulating box, and the unit base is placed so as to close the opening. And the storage chamber formed in the heat insulation box body is cooled by this cooling unit.
[0003]
Here, the conventional cooling storage 100 is demonstrated with reference to FIG. FIG. 8 is a longitudinal front view of the upper part of the conventional cooling storage 100. In FIG. 8, reference numeral 101 denotes the cooling box. In the cooling box 101, a compressor 102 (not shown) and a cooler 102 constituting a well-known refrigeration cycle are provided. A cooler blower 103 for discharging is provided. A cold air duct panel 104 is formed below the cooling fan 103.
[0004]
The cold air duct panel 104 is provided so as to extend from between the cooling fan 103 and the cooler 102 to above the interior 107, and the lower end of the cool air duct panel 104 is substantially perpendicular to the front side of the fan 103. A wind direction member 105 is provided. A partition plate 106 is formed from the side end of the cooler 102 opposite to the blower 103 to the upper end of the cool air duct panel 104.
[0005]
With the above configuration, when the cooler blower 103 is operated, the cool air cooled by the cooler 102 in the cooling box 101 is discharged into the interior 107 by the blower 103. The cold air discharged into the chamber 107 descends along the cold air duct panel 104 and is then discharged by the wind direction member 105 only to the left side of the chamber 107 in this embodiment. Then, the cold air circulated through the interior 107 is sucked into the cooling box 101 from the side surface of the cooler duct panel 104 on the cooler 103 side and the side of the cooler 102 partitioned by the partition plate 106, and into the cooling box 101. Returned.
[0006]
[Problems to be solved by the invention]
However, since the conventional cold air duct panel 104 discharges cold air only in front of the interior 107, the temperature in the interior 107 varies, and the temperature of articles such as food stored in the interior 107 is uniform. There was a problem that did not happen.
[0007]
Further, since the cold air duct panel 104 discharges only in one direction, the cold air discharge speed is increased, thereby causing a problem in that an article to which the cold air is directly blown is dried, resulting in deterioration in quality.
[0008]
Then, this invention was made | formed in order to solve the conventional technical subject, and it aims at providing the cooling storage which can cool the inside of a store | warehouse | chamber uniformly.
[0009]
[Means for Solving the Problems]
In the cooling storage of the present invention, a cooling device and a heat insulating cooling box whose bottom surface is opened are installed on a unit base, and an opening is formed at a position where the unit base cooling box is installed, Install the cooler of the cooling device and the blower for the cooler, and attach the unit base to the top surface of the heat insulation box in the form of closing the ceiling opening formed on the ceiling of the heat insulation box, and the bottom opening of the cooling box to the heat insulation box It is made to communicate with the internal storage room, and has a rectangular cold air duct panel attached from the storage room side to the ceiling opening of the heat insulation box, and this cold air duct panel is formed on the three outer edges. The outer edge cold air discharge port that communicates with the discharge side of the cooler blower and the outer edge cold air suction port that is formed on one side of the outer edge portion and communicates with the suction side of the cooler. Outer edge cold air outlet Wherein the discharged along the ceiling surface of the Luo insulation box.
[0010]
According to the present invention, a cooling device and a heat-insulating cooling box whose bottom surface is opened are installed on a unit base, an opening is formed at a position where the unit-based cooling box is installed, and cooling is performed in the cooling box. Install the cooler of the device and the blower for the cooler, and attach the unit base to the top surface of the heat insulation box so that it covers the ceiling opening formed on the ceiling of the heat insulation box. In a cooling storage room that is communicated with the storage room, a rectangular cold air duct panel attached from the side of the storage room to the ceiling opening of the heat insulation box is provided, and this cold air duct panel is formed on three outer edges, The outer edge cold air outlet that communicates with the discharge side of the cooler blower and the outer edge cold air inlet that is formed on one side of the outer edge and communicates with the suction side of the cooler, and the cold air that exchanges heat with the cooler is the outer edge. Cold air outlet Since discharged along the ceiling surface of the Luo heat-insulating main body, it is possible to discharge the cool air in multiple directions, it is possible to make uniform the internal temperature.
[0011]
Further, since the cool air is discharged along the ceiling surface, it is possible to prevent the cool air from being directly blown onto the product placed in the storage chamber, and it is possible to prevent alteration such as drying of the product. .
[0012]
Furthermore, the cool air duct panel, since there is a such a configuration described above, it is possible to reduce the size of ejecting the storage compartment side, it is possible to perform the enlargement of the accommodation space in the storage compartment.
[0013]
In addition to the invention of claim 1, the cold air duct panel of the invention of claim 2 is provided with a central cold air inlet that is located inward from the outer edge and communicates with the suction side of the cooler. A concealing plate portion is provided on the upper side of the central cold air inlet with a space therebetween.
[0014]
According to the invention of claim 2, in addition to the invention of claim 1, the cold air duct panel is provided with a central cold air suction port located inward from the outer edge portion and communicating with the suction side of the cooler. Since it has a concealing plate part that is opposed to the lower part of the cool air suction port, the cool air suction ability can be improved by increasing the cool air suction port, and the suction amount Uniformity can be achieved.
[0015]
The cooling storage of the invention of claim 3 is characterized in that, in addition to the invention of claim 2, the cold air flowing toward the central cold air inlet flows along the surface of the cold air duct panel on the storage room side .
[0016]
According to the invention of claim 3, in addition to the invention of claim 2, the cold air flowing toward the cold air inlet of the central portion flows along the surface of the cold air duct panel on the storage chamber side , The surface temperature can be approximated, thereby preventing condensation on the surface of the cold air duct panel on the storage chamber side .
[0017]
According to a fourth aspect of the present invention, in addition to the first, second, or third aspect of the present invention, the outer edge cool air suction is provided on one side of the outer edge of the cold air duct panel that has the smallest distance from the side wall of the heat insulating box. It is characterized by arranging a mouth.
[0018]
According to the invention of claim 4, in addition to the invention of claim 1, claim 2, or claim 3, the outer edge portion cold air suction port is provided on one side of the outer edge portion of the cold air duct panel that has the smallest distance from the side wall of the heat insulating box. By arranging this, it is possible to prevent the side wall from freezing.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a front view of a cooling storage 1 such as a prefabricated refrigerator according to an embodiment of the present invention. The cooling storage 1 is constituted by a heat insulation box 2, and a storage chamber 3 is constituted in the heat insulation box 2. This heat insulation box 2 is configured in a box shape by combining a heat insulation panel 4 having a convex portion or a concave portion at a joint portion with an adjacent panel.
[0020]
In addition, the front wall of the heat insulation box 2 is configured to pivot on and pivotally support one side of the article inlet / outlet for articles such as stored food and the like, and to close the storage chamber 3 in an open / closed manner. A heat insulating door 5 is provided.
[0021]
A rectangular opening 6 is formed in the rear part of the top wall (ceiling surface) 2A of the heat insulating box 2, and a unit base 7 constituted by a heat insulating plate is formed so as to close the opening 6 from above. It is attached. On the unit base 7, as shown in FIGS. 2 and 3, a compressor 8, a condenser 9, and a condenser blower 10 constituting a cooling device R are installed, and an electric box 11 and a heat insulating member are included. A cooling box 12 is installed. In FIG. 1, the compressor 8, the condenser 9, the condenser blower 10, and the electrical box 11 are omitted. The unit base 7 has an opening 16 that is slightly larger than the opening 6 formed in the ceiling wall 2A of the cooling storage at the position where the cooling box 12 is installed. Handles 13 and 13 are provided at both ends of the unit base 7.
[0022]
A cooler 14 constituting the cooling device R is provided at the rear upper part in the cooling box 12, and a cooler blower 15 for discharging cool air downward is provided at the front of the cooler 14. Yes. At the lower end of the cooling box 12, a notch for attaching to the edge 16 of the opening of the unit base 7 is further formed, so that the cooling box 12 is fitted almost exactly into the opening edge 16 </ b> A of the unit base 7. It can be shaped.
[0023]
An attachment member 17 made of, for example, synthetic resin is attached to the lower surface of the cooling box 12. The mounting member 17 is formed in a substantially crank-shaped cross section along the opening edge 16A of the unit base 7 and the lower end of the cooling box 12, and is located on the inner edge of the cooling box 12 and is a flange portion that discharges upward and downward. 20 is formed. Thereby, when the unit base 7 is placed so as to close the opening 6 formed in the top wall 2 </ b> A of the heat insulating box 2, the lower surface opening of the cooling box 12 is communicated with the inside of the storage chamber 3.
[0024]
On the other hand, a cold air duct panel 21 as shown in FIG. 4 is provided on the top wall 2A of the heat insulation box 2 on the storage chamber 3 side. The cold air duct panel 21 has a rectangular shape whose outer dimension is one dimension larger than the opening 6 formed in the top wall 2A, and the upper surface is opened upward to communicate with the inside of the cooling box 12. Has been. And the cold air discharge ports 22 and 22 are formed in two sides which form the outer edge part of the side of this cold air duct panel 21, respectively, and the cold air discharge port is similarly formed in one side which forms the front outer edge part. 23 is formed. A cold air inlet 24 is formed on one side forming the remaining rear edge. Furthermore, the cold air duct panel 21 has a central cold air inlet 25 formed at the center of the lower surface, whereby the lower surface of the cold air duct panel 21 serves as a lower surface flange portion 26.
[0025]
The upper edges of the cold air discharge ports 22, 22, 23 and the cold air suction port 24 are positioned outside the opening 6 because the cold air duct panel 21 is formed to be slightly larger than the opening 6. Is provided. Further, the cold air duct panel 21 is formed so as to be inclined slightly inwardly from the upper end to the lower end, and the respective cold air discharge ports 22, 22, 23 and the cold air suction port 24 are directed obliquely downward or slightly lower. Cold air is discharged and sucked from diagonally below.
[0026]
Moreover, the cold air duct panel 21 is attached to the rear wall 6 corresponding to the opening 6 formed in the rear part of the heat insulation box 2, so that the cold air duct panel corresponding to the rear wall having the minimum distance from the side wall of the heat insulation box 2. 21 is arranged, the side wall freezes as compared with the case where the cool air discharge ports 22 and 23 are attached at a position where the distance between the cold air duct panel 21 and the side wall is minimized. It can be avoided in advance.
[0027]
Here, the internal structure of the cold air duct panel 21 will be described with reference to FIGS. 5 and 6. FIG. 5 is a vertical side view of the upper part of the cooling storage 1, and FIG. 6 is a vertical front view of the upper part of the cooling storage 1. A partition plate 27 is provided in the upper part of the cold air duct panel 21, and the partition plate 27 is formed with a partition portion 27 </ b> A that partitions the cooling fan 15 and the cooler 14 from side to side. At the lower end of the partition portion 27A, an upper and lower partition portion 27B that partitions the inside of the cold air duct panel 21 up and down is formed. Therefore, it becomes a structure which cannot reach the air blower 15 arrange | positioned at the upper part of the cold air | gas duct panel 21, and can aim at the improvement of safety | security.
[0028]
In addition, an inclined portion 27C that is inclined downward is formed at the front end of the upper and lower partition portions 27B, and the end portion of the inclined portion 27C is connected to the lower end of the cold air discharge port 23. In addition, inclined portions 27D that are similarly inclined downward are formed on both side ends of the upper and lower partition portions 27B. The ends of the inclined portions 27D are cold air discharge ports 22 and 22 formed on the left and right sides of the cold air duct panel 21, respectively. Is connected to the lower end of each. A partition plate 28 is formed at the upper end of the partition portion 27 </ b> A of the partition plate 27 over the lower rear end of the cooler 12.
[0029]
An inclined plate 29 is provided on the rear side in the cold air duct panel 21 over the left and right sides. The inclined plate 29 has a horizontal portion 29A formed at the upper end, and an inclined portion 29B inclined downward at the end of the horizontal portion 29A. The end of the inclined portion 29B is connected to the lower end of the cold air inlet 24.
[0030]
Further, a concealing plate 30 is located above the central cold air inlet 25 between the lower portion of the cold air duct panel 21, that is, between the partition plate 27 and the inclined plate 29 and the lower surface flange portion 26 of the cold air duct panel 21. Provided. At this time, the inner edge of the lower surface flange portion 26 of the cold air duct panel 21 corresponds to the lower part of the outer edge of the concealing plate 30. Further, the concealment plate 30 is suspended by a plurality of suspension tools 31 on the upper and lower partition portions 27B of the partition plate 27 and the horizontal portion 29A of the inclined plate 29.
[0031]
With the above configuration, when the cooling device R is operated, the cool air cooled by the cooler 14 is lowered by the blower 15 along the partition portion 27A, the upper and lower partition portions 27B, and the inclined portions 27C and 27D of the partition plate 27. The air is discharged from the cold air discharge ports 22, 22, and 23.
[0032]
As a result, the cold air exchanged with the cooler 14 is discharged along the top wall 2A of the heat insulating box 2 from the outer edge cold air discharge ports 22, 22, 23, so that the cold air is discharged in multiple directions as shown in FIG. The temperature in the storage chamber 3 can be made uniform.
[0033]
In addition, since cold air is discharged along the top wall 2A of the storage chamber 3, it is possible to prevent the cold air from being directly blown onto the product placed in the storage chamber 3, and to dry the product. Alteration can be prevented.
[0034]
The cold air circulated in the storage chamber 3 enters the cooling box 12 from a cold air inlet 24 formed at the rear end of the cold air duct panel 21 and a central cold air inlet 25 formed on the lower surface of the cold air duct panel 21. Returned. At this time, the cold air sucked from the cold air suction port 24 is returned into the cooling box 12 along the lower surfaces of the inclined plate 29 and the partition plate 28. The cold air drawn from the central cold air inlet 25 enters the space between the concealing plate 30 and the lower flange portion 26 and then returns to the cooling box 12 along the upper surface of the concealing plate 30 and the lower surface of the partition plate 27. Is done.
[0035]
Thereby, since many cold-air suction inlets are provided, while being able to aim at the improvement of cold-air suction capability, the amount of suction can be equalized.
[0036]
In addition, since the concealment plate 30 is provided below the central cold air inlet 25 of the cold air duct panel 21 with a space therebetween, the blower 15 disposed on the upper portion of the cold air duct panel 21 can be easily provided. The structure is out of reach, and safety can be improved.
[0037]
Further, since the cold air toward the central cold air inlet 25 flows along the surface inside the storage chamber 3 of the cold air duct panel 21, the internal temperature and the surface temperature of the cold air duct panel 21 can be approximated. Further, it is possible to prevent the occurrence of condensation on the inner surface of the cold air duct panel 21 in the storage chamber 3 .
[0038]
Further, since the cold air duct panel 21 is configured as described above, it is possible to reduce the size of the discharge to the inside of the storage chamber 3 as compared with the conventional case, and to increase the accommodation space in the storage chamber 3. It can be carried out.
[0039]
【The invention's effect】
As described above in detail, according to the present invention, a cooling device and a heat-insulating cooling box whose bottom surface is opened are installed on the unit base, and an opening is formed at a position where the cooling box of the unit base is installed. The cooler of the cooling device and the blower for the cooler are installed in the box, and the unit base is attached to the top surface of the heat insulation box in the form of closing the ceiling opening formed on the ceiling of the heat insulation box, and the bottom surface of the cooling box In a cooling storage room in which an opening communicates with a storage room in a heat insulation box, a rectangular cold air duct panel attached from the storage room side to a ceiling opening of the heat insulation box is provided. An outer edge cold air outlet that is formed on the side and communicates with the discharge side of the cooler blower, and an outer edge cold air inlet that is formed on one side of the outer edge and communicates with the suction side of the cooler, and also exchanges heat with the cooler. The cool air Since the edge cold air discharge port is discharged along the ceiling surface of the heat-insulating main body, it is possible to discharge the cool air in multiple directions, it is possible to make uniform the internal temperature.
[0040]
Further, since the cool air is discharged along the ceiling surface, it is possible to prevent the cool air from being directly blown onto the product placed in the storage chamber, and it is possible to prevent alteration such as drying of the product. .
[0041]
Furthermore, the cool air duct panel, since there is a such a configuration described above, it is possible to reduce the size of ejecting the storage compartment side, it is possible to perform the enlargement of the accommodation space in the storage compartment.
[0042]
According to the invention of claim 2, in addition to the invention of claim 1, the cold air duct panel is provided with a central cold air suction port located inward from the outer edge portion and communicating with the suction side of the cooler. Since the concealing plate part facing the upper side of the partial cold air inlet is provided with an interval, the cold air suction capacity can be improved by increasing the cold air inlet, and the suction amount is uniform. It becomes possible to plan.
[0043]
According to the invention of claim 3, in addition to the invention of claim 2, the cold air flowing toward the cold air inlet of the central portion flows along the surface of the cold air duct panel on the storage chamber side , The surface temperature can be approximated, thereby preventing condensation on the surface of the cold air duct panel on the storage chamber side .
[0044]
According to the invention of claim 4, in addition to the invention of claim 1, claim 2, or claim 3, the outer edge portion cold air suction port is provided on one side of the outer edge portion of the cold air duct panel that has the smallest distance from the side wall of the heat insulating box. By arranging this, it is possible to prevent the side wall from freezing.
[Brief description of the drawings]
FIG. 1 is a front view of a cooling storage of the present invention.
FIG. 2 is a perspective view of a cooling device.
FIG. 3 is a plan view of a cooling device.
FIG. 4 is a perspective view of a cold air duct panel.
FIG. 5 is a vertical side view of the upper part of the cooling storage.
FIG. 6 is a longitudinal front view of the upper part of the cooling storage.
FIG. 7 is a cross-sectional plan view of the upper part of the cooling storage.
FIG. 8 is a longitudinal front view of the upper part of a conventional cooling storage.
[Explanation of symbols]
R Cooling device 1 Cooling storage 2 Heat insulation box 2A Top wall 3 Storage chamber 6 Opening 7 Unit base 12 Cooling box 14 Cooler 15 Cooler blower 16 Opening 16A Opening edge 21 Cold air duct panel 22, 23 Cooling air outlet 24 Cold air inlet 25 Central portion cold air inlet 26 Lower flange portion 27 Partition plate 27A Partition portion 27B Upper and lower partition portions 27C and 27D Inclined portion 28 Partition plate 29 Inclined plate 30 Concealed plate 31 Hanging tool

Claims (4)

On the unit base, a cooling device and a heat insulating cooling box whose bottom surface is opened are installed, an opening is formed at a position where the cooling box of the unit base is installed, and the cooling device is provided in the cooling box. A cooler and a blower for the cooler are installed, and the unit base is attached to the top surface of the heat insulation box in a shape of closing the ceiling opening formed on the ceiling of the heat insulation box, and the lower surface opening of the cooling box is attached to the heat insulation box In a cold storage that communicates with the internal storage room ,
A rectangular cold air duct panel attached to the ceiling opening of the heat insulation box from the storage room side is provided, and the cold air duct panel is formed on three sides of the outer edge portion and communicates with the discharge side of the cooler fan. An outer edge cold air outlet and an outer edge cold air inlet formed on one side of the outer edge and communicating with the suction side of the cooler, and the cold air exchanged heat with the cooler is insulated from the outer edge cold air outlet. A cooling storage, which is discharged along the ceiling surface of the box.   The cold air duct panel is provided with a central cold air suction port located inward from the outer edge portion and communicating with the suction side of the cooler, and a concealing plate portion facing the upper side of the central cold air suction port with a space therebetween The cooling storage of Claim 1 characterized by the above-mentioned. The cold storage according to claim 2, wherein the cold air toward the central cold air inlet flows along the surface of the cold air duct panel on the storage chamber side .   4. The cooling storage according to claim 1, wherein an outer edge cold air suction port is disposed on one side of the outer edge of the cold air duct panel having a minimum distance from the side wall of the heat insulating box.

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