JP4502521B2 - Cooling storage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cooling storehouse that has a storage chamber in a heat insulating box that opens to the front, and blows out cool air exchanged with a cooler from the upper portion of the storage chamber toward the back of the storage chamber by a blower.
[0002]
[Prior art]
A conventional cooling storage 100 will be described with reference to FIG. The conventional cooling storage 100 has a storage chamber 102 in a heat insulating box 101 that opens to the front, and a front door of the heat insulating box 101 is provided with a door 103 that can be opened and closed, for example. A machine room 27 is defined on the upper surface of the heat insulating box 101, and a compressor 28, a condenser 29, a condenser blower 30 and the like constituting the cooling device 24 are placed thereon. A cooler 35 and a blower 36 are provided above the storage chamber 102, and a partition plate 37 is provided below the cooler 35 and the blower 36. Thereby, a cooling chamber 38 is formed between the partition plate 37 and the top surface of the storage chamber 102. An opening is formed behind the partition plate 37, and cool air is discharged from the rear of the partition plate 37 into the storage chamber 102 by the blower 36.
[0003]
On the other hand, a plurality of shelf columns 104 are provided on the side surface and the back surface of the storage chamber 102 from above the storage chamber 102 to the vicinity of the bottom surface of the storage chamber 102. A plurality of engagement holes 104 </ b> A are formed in the shelf columns 104 in the vertical direction, and the engagement claws 105 are attached to the engagement holes 104 </ b> A, and the net shelf 106 is installed on the engagement claws 105. Further, a guard member 107 having a rising shape upward is provided at the rear part of the net shelf 106 in the left-right direction. As a result, a cool air passage is secured between the net shelf 106 and the back of the storage chamber 102.
[0004]
[Problems to be solved by the invention]
However, when a plurality of articles stored in a large storage case such as cardboard are loaded on the net shelf 106, the lowermost storage case secures a cool air passage between the storage chamber 102 and the guard member 107. However, the second and subsequent storage cases are not locked by the guard member 107 and are stored up to the back of the storage chamber 102. Therefore, the cool air discharged from the cooling chamber 38 is returned to the cooling chamber 38 by the blower 36 immediately above the storage chamber 102 without being lowered to the lower portion of the storage chamber 102 by the storage case. For this reason, the entire storage chamber 102 cannot be sufficiently cooled, and temperature unevenness occurs in the storage chamber 102.
[0005]
Therefore, the present invention has been made to solve the conventional technical problems, and provides a cooling storage that can efficiently supply cold air to the lower part of the storage room and improve the cooling effect. The purpose is to do.
[0006]
[Means for Solving the Problems]
The cooling storage of the present invention has a storage chamber in a heat insulating box that opens to the front, and blows out cool air exchanged with the cooler from the upper portion of the storage chamber toward the back of the storage chamber by a blower, A shelf column attached to the inner surface of the storage chamber in the up and down direction, a shelf supported by the shelf column and spanned in the storage chamber with a predetermined interval between the rear surface of the storage chamber, and the rear surface of the storage chamber With an internal hollow spacer located within the space between the shelf and the back of the storage chamber , the spacer concealing the screw and a mounting portion that is screwed to the back of the storage chamber In this way, it is provided with a lid part that is provided in the attachment part so as to be openable and closable and that opens up and down between the attachment part, and this lid part has a substantially U-shaped cross section, together are integrally formed continuously at one end, the upper end of Kankakuko blew blower Open to and side, and the lower end of Kankakuko are characterized by being open to the storage chamber bottom.
[0007]
According to the present invention, in a cooling storehouse having a storage chamber in a heat insulating box that opens to the front, and blows out cool air exchanged with a cooler from the upper portion of the storage chamber toward the back of the storage chamber by a blower. A shelf column that is mounted on the inner surface of the storage chamber, and a shelf that is supported by the shelf column and is installed in the storage chamber with a predetermined space between the storage chamber and the rear surface of the storage chamber. And has an internal hollow spacer positioned within the space between the shelf and the back of the storage chamber, the upper end of the spacer is open to the blow-out side of the blower, and the lower end of the spacer is stored Since it opens to the lower part of the room, the cool air falls between the shelf and the back of the storage room. In addition to this, even if an article is placed on the shelf by the duct space constituted by the spacers, it moves to the lower part of the storage room. It will be possible to secure a cool air supply path .
[0008]
Thereby, the cold air supply to the lower part of the storage chamber can be efficiently performed, and the cooling effect can be improved.
[0009]
In addition, the spacer is provided with a mounting portion screwed to the back of the storage chamber, and is openably and closably provided in the mounting portion so as to conceal the screw, and constitutes a duct space opened up and down between the mounting portion. The lid portion has a substantially U-shaped cross section and is integrally formed continuously with one end of the mounting portion, so that the mounting portion to which the spacer is screwed is not exposed, and the appearance is Be improved. Particularly, a predetermined distance from the mounting portion can be ensured by the substantially U-shaped cross section of the lid portion. For this reason, a predetermined space | interval can be ensured between the back surface of a store room, and the front surface of a spacer.
[0010]
Furthermore, since the attachment part and the cover part are integrally formed, the spacing element can reduce the number of parts.
[0011]
The cooling storage of the invention of claim 2 is characterized in that, in addition to the invention of claim 1, the lower end of the spacer extends below the lower end of the shelf column.
[0012]
According to the invention of claim 2, in addition to the invention of claim 1, since the lower end of the spacer extends below the lower end of the shelf column, the article is placed on the bottom surface of the storage chamber. Even in this case, it is possible to supply the cold air to the vicinity of the bottom surface of the storage chamber.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view of the cooling storage R of the present invention, FIG. 2 is a longitudinal side view of the cooling storage R, and FIG. 3 is a plan sectional view of the cooling storage R. Hereinafter, what is given the same reference numerals as those shown in the conventional cooling storage 100 has the same configuration in the cooling storage R of the present invention. The cooling storage R of the embodiment is a vertical commercial freezer installed in a kitchen of a hotel or a restaurant, and includes a heat insulating box 18 that opens to the front.
[0014]
In addition, a cooler 35 of the cooling device 24 is attached to the upper part of the storage chamber 20, and the interior of the storage chamber 20 is cooled to a predetermined temperature by a fan 36 attached in the vicinity of the cooler and the cooler 35. . In the figure, reference numeral 37 attached below the cooler 35 and the blower 36 is a partition plate for partitioning the inside of the storage chamber 20 and the cooling chamber 38 to which the cooler 35 is attached. The partition plate 37 is opened at the rear. Thereby, the cool air sucked from the storage chamber 20 into the cooling chamber 38 from the blower 36 is discharged from the rear of the cooling chamber 38 after heat exchange with the cooler 35.
[0015]
Further, a machine room 27 is defined on the top surface of the heat insulation box 18 by a front panel 25 and panels 26 constituting both side faces and a rear face, and a compressor constituting a cooling device 24 is formed in the machine room 27. 28, a condenser 29, and the like are installed, and a well-known refrigerant circuit of the cooling device 24 is configured together with the cooler. In FIG. 2, reference numeral 30 denotes a condenser blower.
[0016]
On the other hand, the front opening 22 of the storage chamber 20 is partitioned vertically by a central partition 23 in the horizontal direction. The upper and lower openings 22 of the storage chamber 20 partitioned by the inner partition 23 are closed by two sets of double doors (heat insulating doors), the first door 2 and the second door 3 so as to be freely opened and closed. In addition, guide members 11 are respectively attached to the top surface of the storage chamber 20 and the lower surface of the middle partition 23 that are respectively positioned at the center of the upper and lower openings 22. The detailed structure in the storage chamber 20 will be described later.
[0017]
Here, a holding member 71 is attached to the inner surface side of the first door 2 located on the right side. An upper end and a lower end of the holding member 71 are fixed by screws (not shown), and a partition body 70 is attached to the holding member 71. The partition 70 extends in the longitudinal direction of the door 2 and is pivotally supported by the holding member 71 about the extending shaft. The holding member 71 is formed to protrude inward.
[0018]
A front plate 72 made of a steel plate is attached to the front surface of the partition 70, and guide grooves (the guide member 11 engages) for guiding the guide member 11 are formed on the upper ends of the partition 70. A cap 73 is fitted. With this configuration, when the door 2 is opened, the partition 70 is guided by the engagement between the guide member 11 and the guide groove, and the front plate 72 is rotated clockwise so as to face the other door 3. As a result, the partition 70 can move forward while avoiding the other door 3, and the doors 2 and 3 can be opened and closed independently. The doors 2 and 3 can be opened and closed by pulling the handles 50 and 50 attached to the front side.
[0019]
On the other hand, a rear shelf column 12 is provided at the center of the back of the storage chamber 20 in the vertical direction. Furthermore, the shelf support | pillar 13 is provided in the both sides | surfaces of the storage chamber 20, located in the front part and the rear part, respectively up and down. The rear shelf column 12 and the shelf column 13 are respectively provided with a plurality of engagement holes 12A and 13A extending vertically, and a shelf 15 described later in detail is stored in the rear shelf column 12 and the shelf column 13. A plurality of stages are installed above and below the chamber 20. Further, the lower ends of the rear shelf column 12 and the shelf column 13 extend to a position where the lowest shelf 15 can be attached, for example, near the center of the lower storage chamber 20 defined by the partition 23. It is assumed that
[0020]
Here, on the back surface of the storage chamber 20, spacers 40 are provided on both sides of the rear shelf column 12. The spacer 40 is a rigid synthetic resin column member formed to extend from above the upper ends of the rear shelf columns 12 and 13 to below the lower ends of the rear shelf columns 12 and 13. . In addition, the upper end of the spacer 40 opens to the outlet side of the blower 36, that is, the opening side formed at the rear of the cooling chamber 38, and the lower end of the spacer 40 opens to the lower part in the storage chamber 20.
[0021]
As shown in the partially enlarged plan sectional view of FIG. 4, the spacer 40 has a mounting portion 41 fixed to the back surface of the storage chamber 20 by screws and a screw 42 for hiding the screws. 41 is configured to be openable and closable at 41. The lid portion 43 has a substantially U-shaped cross section in the present embodiment, and an engaging portion 44 that engages with the mounting portion 41 is formed at one end that forms the U-shaped opening. The other end of the lid 43 is integrally formed continuously with one end of the mounting portion 41. A projecting portion 46 projecting inward is formed inside the integrally formed end portion. On the other hand, an engaging claw 45 for engaging the engaging portion 44 of the lid portion 43 is formed at one end of the mounting portion 41, and a projection 46 of the lid portion 43 is held at the other end. A holding portion 47 that is recessed is formed. The attachment portion 41 is formed with a plurality of screw holes 48 extending vertically.
[0022]
With the above configuration, when the spacer 40 is attached to the back surface of the storage chamber 20, the engagement member 44 of the lid portion 43 and the engagement claw 45 of the attachment portion 41 are disengaged and the spacer 40 is The mounting portion 41 is directed to the back surface of the storage chamber 20, and is fixed to the back surface of the storage chamber 20 with screws 42. Thereafter, the lid portion 43 is rotated around the side where the holding portion 47 of the attachment portion 41 is formed, and the protrusion 46 of the lid portion 43 is inserted into the holding portion 47 of the attachment portion 41. The engaging part 44 is engaged with the engaging claw 45 of the attaching part 41. Thereby, the space | interval 40 is attached to the back surface of the storage chamber 20, while a hollow is formed inside.
[0023]
Since the spacer 40 is configured as described above, the mounting portion 41 to which the spacer 40 is screwed is not exposed, and the appearance is improved. Moreover, since the spacer 40 is integrally formed with the attachment portion 41 and the lid portion 43, the number of parts can be reduced. Since the attachment portion 41 and the lid portion 43 can be easily attached and detached by the engagement portion 44 and the engagement claw 45, attachment workability can be improved.
[0024]
Further, the spacing element 40 can ensure a predetermined distance from the mounting portion 41 due to the substantially U-shaped cross section of the lid portion 43. For this reason, a predetermined space is secured between the back surface of the storage chamber 20 and the front surface of the spacer 40.
[0025]
On the other hand, the shelf 15 includes a frame member 15A that forms an outer periphery, and a plurality of filaments 15B that are fixed to the frame member 15A and extend back and forth. The frame member 15A located at the center of the rear side of the shelf 15, that is, when attached to the storage chamber 20, the frame member 15 A at the position contacting the rear shelf column 12 has a protruding portion 16 protruding rearward. Is formed.
[0026]
In the figure, reference numeral 14 denotes an engaging claw for installing the shelf 15 on each of the columns 12, 13, and the engaging claw 14 includes engaging holes 12A and 13A formed in each of the columns 12, 13. And an engaging portion (not shown) that engages with and a locking portion 14A for placing and locking the shelf 15 on the upper surface.
[0027]
Thus, when the shelf 15 is installed in the storage chamber 20, first, the engaging claw 14 is engaged with the rear shelf column 12 and the shelf column 13 at the position where the shelf 15 of the rear shelf column 12 and the shelf column 13 is installed. It is attached to the joint holes 12A and 13A. And after engaging the protrusion part 16 of the shelf 15 with the latching | locking part 14A of the engaging claw 14 attached to the back shelf column 12, the frame member 15A which comprises the side of the shelf 15 is attached to the shelf column 13 The engagement portion 14A of the engagement claw 14 thus engaged is engaged.
[0028]
Accordingly, the shelf 15 can be stably constructed while forming an interval between the rear side of the shelf 15 and the back surface of the storage chamber 20. Moreover, since the shelf 15 supports the rear center part of the shelf 15 by the rear shelf column 12 in addition to the shelf column 13 attached to the side surface of the storage chamber 20, the shelf 15 can be stably supported.
[0029]
Next, the bottom 51 provided on the bottom surface of the storage chamber 20 will be described with reference to FIGS. FIG. 6 is a partially enlarged side sectional view of the lower part of the cooling storage R, and FIG. 7 is a plan sectional view as seen from the bottom of the lower part of the cooling storage R. The bottom 51 is composed of a frame member 51A constituting the periphery, a plurality of front and rear surfaces on the lower surface of the frame member 51A, four in this embodiment, a grounding member 51B as a fixed grounding portion, and a front and rear of the frame member 51A. A plurality of filaments 51C that are fixed to the frame member 51A and two filaments 51D that are fixed to the frame member 51A in the present embodiment.
[0030]
As a result, the flooring 51 can place the article at a position slightly higher than the bottom surface of the storage chamber 20 by the grounding member 51B. Therefore, the stored article is contaminated by water stored on the bottom surface of the storage chamber 20. Can be avoided in advance.
[0031]
Moreover, the water stored on the bottom surface of the storage chamber 20 can be drained in the front-rear direction along the grounding member 51B of the bottom 51, and the drainage of the bottom surface of the storage chamber 20 can be improved.
[0032]
Further, it is not necessary to extend the support column provided on the side surface of the storage chamber 20 to the lower portion of the storage chamber in order to install the lowermost shelf as in the prior art, and dead caused when the lowermost shelf is installed on the support column. Space can be eliminated.
[0033]
Here, since the bottom 51 can be configured by attaching a grounding member 51B to the lower surface of a normally used net shelf, the bottom 51 can be easily produced using an existing net shelf.
[0034]
Next, the cold air circulation of the cooling storage R of the present invention will be described with reference to FIG. As described above, the cold air exchanged with the cooler 35 in the cooling chamber 38 is discharged to the storage chamber 20 from the opening formed behind the partition plate 37 by the blower 36. A part of the cool air discharged from the cooling chamber 38 enters from the upper end opening of the spacer 40 attached to the back surface of the storage chamber 20, descends inside the spacer 40, and then is stored from the lower end opening of the spacer 40. It is discharged to the lower part in the chamber 20.
[0035]
As a result, the cool air can be supplied to the lower part of the storage chamber 20 without the cool air passage being blocked by the articles placed on the shelf 15. Therefore, the cold air supply to the lower part of the storage chamber 20 can be efficiently performed, and the cooling effect can be improved.
[0036]
Further, a part of the cool air that does not enter the spacer 40 falls between the shelf 15 constituted by the spacer 40 and the back surface of the storage chamber 20. The other remaining cold air is circulated in the storage chamber 20 as it is.
[0037]
Since the spacing element 40 is provided on the back surface of the storage chamber 20 as described above, even if an article stored in a large storage case such as a cardboard is placed on the shelf 15, the shelf 15 It is possible to avoid the cold air passage from being blocked between the rear surface of the storage chamber 20.
[0038]
Thereby, since the passage of the cool air can be ensured between the shelf 15 and the back surface of the storage chamber 20, the cool air discharged from the cooling chamber 38 can be easily supplied to the lower portion of the storage chamber 20. Thus, the cooling effect can be improved.
[0039]
Moreover, since the spacer 40 is attached to both sides of the central rear shelf column 12, it is possible to efficiently and reliably prevent the cool air passage from being blocked by the articles, and to further enhance the cooling effect at the lower part of the storage chamber 20. Can be improved.
[0040]
Since it is not necessary to provide a guard member at the rear part of the shelf as in the prior art, the shelf structure can be simplified, and the reduction of work steps and cost can be realized.
[0041]
Furthermore, since the lower end of the spacer 40 is formed to extend below the lower end of the rear shelf column 12, even if the article is placed on the bottom surface of the storage chamber 20, Cold air can be supplied to the vicinity of the bottom surface of the storage chamber 20.
[0042]
The cool air that has descended from the upper part of the storage chamber 20 to the bottom surface of the storage chamber 20 can be circulated from the back to the front along the grounding member 51B of the floor 51 on the bottom surface of the storage chamber 20. Thereby, the articles placed on the bottom surface of the storage chamber 20 can be sufficiently cooled.
[0043]
As described above, the cold air circulated through the storage chamber 20 is returned to the cooling chamber 38 by the blower 36, exchanges heat with the cooler 35 again, and then discharged into the storage chamber 20.
[0044]
【The invention's effect】
As described above in detail, according to the present invention, the cooling chamber has a storage chamber in the heat insulating box that opens to the front, and blows out cool air that has exchanged heat with the cooler from the upper portion of the storage chamber toward the back of the storage chamber. In the storage, a shelf column attached to the inner surface of the storage room up and down, a shelf supported by the shelf column and spanned in the storage chamber with a predetermined space between the rear surface of the storage chamber, and storage It is attached to the back of the chamber up and down, and has an internal hollow spacer positioned within the space between the shelf and the back of the storage chamber, and the upper end of the spacer is open to the blowout side of the blower. Since the lower end of the child opens to the lower part of the storage room, the cool air falls between the shelf and the back of the storage room, but in addition to this, even if an article is placed on the shelf by a duct constituted by a spacer It is possible to secure a cold air supply path to the lower part of the storage room. It becomes so that.
[0045]
Thereby, the cold air supply to the lower part of the storage chamber can be efficiently performed, and the cooling effect can be improved.
[0046]
In addition, the spacing element is provided with a mounting part screwed to the back of the storage chamber, and is openably and closably provided in the mounting part so as to conceal the screw. The lid portion has a substantially U-shaped cross section and is integrally formed continuously with one end of the mounting portion, so that the mounting portion to which the spacer is screwed is not exposed, and the appearance is Be improved. In particular, the attachment portion and the predetermined interval can be secured by the substantially U-shaped cross section of the lid portion. For this reason, a predetermined space | interval can be ensured between the back surface of a store room, and the front surface of a spacer.
[0047]
Furthermore, since the spacer is integrally formed with the attachment portion and the lid portion, the number of parts can be reduced.
[0048]
According to the invention of claim 2, in addition to the invention of claim 1, since the lower end of the spacer extends below the lower end of the shelf column, the article is placed on the bottom surface of the storage chamber. Even in this case, it is possible to supply cold air to the vicinity of the bottom surface of the storage chamber.
[Brief description of the drawings]
FIG. 1 is a perspective 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 cross-sectional plan view of the cooling storage of the present invention.
FIG. 4 is a plan sectional view of a spacer.
FIG. 5 is a partially enlarged plan sectional view of the rear surface of the storage chamber.
FIG. 6 is a partially enlarged side sectional view of the lower part of the cooling storage.
FIG. 7 is a vertical side view of a pivot-side door.
FIG. 8 is a vertical side view of a conventional cooling storage.
[Explanation of symbols]
R Cooling storage 2, 3 Door 12 Rear shelf column 13 Shelf column 12A, 13A Engagement hole 14 Engagement claw 15 Shelf 15A Frame member 15B Line 16 Projection 18 Thermal insulation box 22 Front opening 30 Condenser blower 35 Cooler 36 Blower 37 Partition plate 38 Cooling chamber 40 Spacer 41 Mounting portion 42 Screw 43 Lid portion 44 Engaging portion 45 Engaging claw

Claims (2)

In a cooling storehouse that has a storage chamber in a heat insulating box that opens to the front, and blows out cool air exchanged with a cooler from the upper part of the storage chamber toward the back of the storage chamber by a blower,
A shelf column attached to the inner surface of the storage room up and down;
A shelf that is supported by the shelf column and spans a predetermined space between the storage chamber and the back of the storage chamber;
An inner hollow spacer attached to the back of the storage chamber up and down, and positioned within the space between the shelf and the back of the storage chamber;
The spacing element is provided with a mounting portion screwed to the back surface of the storage chamber and a duct space that is openable and closable in the mounting portion so as to conceal the screw, and has an open top and bottom between the mounting portion. Consisting of a cover part,
The lid portion has a substantially U-shaped cross section and is integrally formed continuously with one end of the mounting portion.
The cooling storage according to claim 1, wherein an upper end of the spacer is opened to a blow-out side of the blower , and a lower end of the spacer is opened to a lower portion of the storage chamber.   The cooling storage according to claim 1, wherein a lower end of the spacer extends below a lower end of the shelf column.

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