JP3649884B2 - Cooling storage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cooling storage cabinet that partitions a heat-insulating panel into a plurality of spaces and has different set temperatures for each space.
[0002]
[Prior art]
This kind of cooling storage is described in Japanese Utility Model Publication No. 63-162289 (F25D23 / 06), etc., and the inside of the storage is partitioned by a heat insulating panel, and one space is used as a freezer and the other space is used as a refrigerator. doing. This partition heat insulation panel is fixed, and the volume of each space of the cooling storage, for example, the freezer or the refrigerator cannot be changed, and the amount of articles to be stored cannot be accommodated. For example, when there are few refrigerated foods and many frozen foods, it was not possible to reduce the refrigerator space to secure the freezer space.
[0003]
Therefore, in order to change the volume of each space of the cooling storage, it has been studied that the partition heat insulating panel can be moved. An example of this study will be described with reference to FIG. FIG. 3 is a plan cross-sectional view of the main part of the examined cooling storage. The partition heat insulation panel 01 partitions the inside of the refrigerator into a freezer 02 and a refrigerator 03. Further, the inner surface of the heat insulating wall 04 made of a prefabricated panel of the cooling storage is composed of an inner plate 06 made of a coated steel plate or the like. Then, the cold heat of the freezer 02 is transmitted through the internal plate 06 to cool the internal plate 06 on the refrigerator 03 side, and the air on the refrigerator 03 side having a relatively high temperature contacts the cooled internal plate 06. As a result, condensation or icing may occur, so that the heater 07 is embedded in the heat insulating wall 04. The heater 07 is attached to the inner plate 06 in advance when the heat insulating wall 04 is manufactured. After the heater 07 is attached, the heat insulating material 09 is filled and foamed between the inner plate 06 and the outer plate 08. Has been.
[0004]
[Problems to be solved by the invention]
However, when the heater 07 is provided in the heat insulating wall 04 in this way, costs such as a part cost of the heater 07 and an electricity cost for running are required. Further, in order to avoid the temperature rise of the freezer 02 and the refrigerator 03 due to the heat generated by the heater 07, the operation rate of the refrigerator that cools the freezer 02 and the refrigerator 03 increases, and the running cost increases.
[0005]
Furthermore, since the heater 07 is embedded in the heat insulating wall 04, when the heater 07 is disconnected, it is impossible to replace only the heater 07, and it is necessary to replace the entire prefabricated panel constituting the heat insulating wall 04. There is. Therefore, it is necessary to disassemble the cooling storage body and replace the prefabricated panel constituting the heat insulating wall 04, and to repair the disconnection of the heater 07, it is necessary to stop the operation of the cooling storage and to dismantle the cooling storage. is there. As a result, much labor and time are required for repairing the disconnection of the heater 07, and a great maintenance management cost is required.
[0006]
The present invention is to solve the above-described problems, and provides a cooling storage room having a running cost and a low maintenance management cost while the inside of the warehouse is partitioned into a plurality of spaces by a movable partition heat insulating panel. With the goal.
[0007]
[Means for Solving the Problems]
The cooling storage box (1) of the present invention has a ceiling wall, side walls, and a floor wall of the main body formed of heat insulating walls (3), and a movable partition heat insulating panel (4) in a plurality of spaces (5, 6). The partition heat insulation panel can be translated along the side wall to change the size of the partitioned space. And the heat insulation wall of a ceiling wall and a side wall is the outer side surface material (18), the inner side surface material (17), and the heat insulating material (20) distribute | arranged between the inner side surface material and the outer side surface material. The interior side material (17a) that is disposed along the moving range of the partition insulation panel and faces the space on both sides of the partition insulation panel is made of a plated steel plate or a coated steel plate. The thermal conductivity is smaller than the inner plate (17b).
[0008]
Moreover, the internal side material arrange | positioned along the movement range of a partition heat insulation panel may be a stainless steel plate.
[0009]
Furthermore, the interior side surface material arranged along the moving range of the partition heat insulating panel may be a resin plate.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the cooling storage according to the present invention will be described with reference to FIGS. FIG. 1 is a partially cutaway perspective view of a cooling storage according to the present invention. FIG. 2 is a plan cross-sectional view of the main part of the cooling storage.
[0011]
A heat insulating box 2 that is a main body of a prefabricated refrigerator-freezer 1 that is a cooling storage is configured by connecting a plurality of prefabricated panels 3 that are heat insulating panels for a main body having heat insulating properties, and includes a front wall and a rear wall that are heat insulating walls. The left and right side walls are composed of four side walls, a top wall, and a floor wall. The interior of the prefabricated refrigerator-freezer 1 is partitioned into two spaces by a partition heat insulating panel 4. And the set temperature of each space differs, for example, one side, ie, the space of the left side, becomes the refrigerator 5, and the other space becomes the freezer 6. Moreover, the refrigerator 5 and the freezer 6 are each provided with a cooling device for cooling the inside of the refrigerator. And a pair of opening part is formed in the front of the prefabricated refrigerator-freezer 1, and the heat insulation doors 8 and 9 are provided in each opening part so that opening and closing is possible, when one side, ie, the left heat insulation door 8, is opened, the refrigerator 5 When the other heat insulating door 9 is opened, the freezer 6 can be entered and exited.
[0012]
Below, the detail of the partition heat insulation panel 4 which consists of a flat heat insulating board is demonstrated. A handle 11 for moving the partition heat insulation panel 4 is provided on the surface facing the one space in the partition heat insulation panel 4, that is, the surface on the refrigerator 5 side. Further, a total of four cannulas 12 that are engaging members for fixing the partition heat insulating panel 4 are provided on the side of the refrigerator 5 side so as to freely advance and retract. In FIG. 1, two rear kanukis 12 are illustrated, and the remaining two kanukis 12 are provided in a front portion of the partition heat insulating panel 4. Furthermore, a total of four wheel support members 13 are attached to the partition heat insulation panel 4 so as to protrude into each space on both sides facing the space, that is, on the lower side of the refrigerator 5 side surface and the freezer 6 side surface. Is fixed. Each wheel support member 13 is provided with a wheel 14 for moving the partition heat insulation panel, and the partition heat insulation panel 4 can move independently.
[0013]
And the end surface of the partition heat insulation panel 4 has a space | interval with the heat insulation box 2, and the clearance gap is formed between the heat insulation boxes 2. As shown in FIG. Moreover, the heater 15 is attached to the end surface of the partition heat insulation panel 4 over substantially the entire circumference. The partition heat insulating panel heater 15 is not embedded in the partition heat insulating panel 4 but is attached to the outside of the end face of the partition heat insulating panel 4 by screws or an adhesive. A fin-like packing 16 is provided on the refrigerator 5 side and the freezer 6 side of the heater 15 (that is, each space side in the refrigerator) along substantially the entire circumference of the peripheral edge of the partition heat insulating panel 4. The tip of the packing 16 reaches the heat insulating box 2 or a slat 26 described later, and prevents the flow of air between the refrigerator 5 and the freezer 6 (that is, between each space in the refrigerator). The heater 15 prevents condensation or icing from occurring on the packing 16.
[0014]
In addition, the prefabricated panel 3 constituting the heat insulation wall of the heat insulation box 2 opposes the inner side surface material 17 that is the inner plate and the outer side surface material 18 that is the outer plate with a space therebetween, The peripheral edge is closed with a frame member 19, and a heat insulating material 20 made of foamed resin such as urethane is filled and foamed in the space between the double-sided materials 17 and 18. The interior side material 17a of the prefabricated panel 3 arranged along the moving range of the partition heat insulating panel 4 is a resin plate (for example, hard vinyl chloride, polystyrene, ABS (acrylonitrile butadiene styrene resin), polypropylene, etc.) or stainless steel. It is made of a plate. Further, a surface material other than the interior side surface material 17a, that is, the exterior side surface material 18 of the prefabricated panel 3 and the interior side surface material 17b of the prefabricated panel 3 that is not disposed along the moving range of the partition heat insulating panel 4 are, for example, From the material of the interior side material 17a of the prefabricated panel 3 that is formed of a coated steel plate or a plated steel plate that is coated or plated on the surface of the carbon steel plate and that is disposed along the moving range of the partition heat insulating panel 4. Is also made of a material having high thermal conductivity, that is, good thermal conductivity. For example, the thermal conductivity of a coated steel plate or a plated steel plate is about three times that of a stainless steel plate.
[0015]
The inner surface of the heat insulation box 2 constructed by assembling such a prefab panel 3 is substantially flat, and the front and rear prefab panels 3 facing the end surfaces of the partition heat insulation panel 4 are respectively provided with the partition heat insulation panel 4. A number of locking recesses 21 are formed in two stages in the vertical direction along the moving direction. The locking recess 21 is formed in a state of being substantially buried in the prefabricated panel 3 that is a heat insulating wall of the heat insulating box 2 so that the inner end of the box is substantially flush with the inner surface of the heat insulating box 2. Yes. And the front-end | tip part of the above-mentioned Kanuki 12 advances and retreats to the latching recessed part 21, and is disengaged. The floor wall prefabricated panel 3 disposed in the range of movement of the wheels 14 of the partition heat insulating panel 4 is formed so that the upper surface is one step lower than the other floor wall prefabricated panels 3, and 26 is provided. This slat 26 is made of stainless steel or resin, and is formed of the same material as the interior side material 17a of the prefabricated panel 3 arranged along the moving range of the partition heat insulating panel 4. The width of the main body 26 (the width in the direction perpendicular to the moving direction of the partition heat insulation panel 4) is substantially equal to the distance between the wheels 14, and the wheels 14 are fitted and guided on the sides of the snowboard 26, respectively. The guide groove 27 is elongated. And the upper surface of the slat 26 is comprised so that it may become substantially the same height as the floor surface of the other part of the refrigerator 5 and the floor surface of the other part of the freezer 6 which installed the scoot for cold air circulation.
[0016]
The prefabricated refrigerator-freezer 1 configured as described above is configured such that the cannula 12 is separated from the latching recess 21 by grasping the handle 11 of the partition heat insulating panel 4 and pulling or pushing it. The heat insulation panel 4 can be moved. And if the partition heat insulation panel 4 is moved, the volume of one space, for example, the refrigerator 5, will decrease, and the volume of the other space, ie, the freezer 6, will increase. In this way, the volume of the space can be changed according to the article to be stored. And if the partition heat insulation panel 4 is moved to a predetermined position, the cannula 12 will be advanced to the latching recessed part 21, and will be engaged, and the partition heat insulation panel 4 will be fixed. When the partition heat insulation panel 4 is moved again, the cannula 12 is retracted and detached from the locking recess 21 to allow the partition heat insulation panel 4 to move.
[0017]
As described above, the interior side material 17a (that is, the interior plate) of the prefabricated panel 3 arranged along the moving range of the partition heat insulating panel 4 is made of a stainless steel plate or a resin plate, It is formed of a material having a lower thermal conductivity than the other face materials 17b and 18 (that is, other internal plates and external plates) made of a coated steel plate. Therefore, it is reduced that the cold heat of the freezer 6 is transmitted to the internal side wall material 17a on the refrigerator 5 side via the internal side wall material 17a. As a result, it is possible to prevent a decrease in the temperature of the side wall material 17a on the refrigerator 5 side, and to prevent condensation or icing from occurring due to the relatively high temperature of the air on the refrigerator 5 side contacting the side surface material 17a. can do. In this way, since dew condensation and icing can be prevented, there is no need to provide the heater 07 in the prefabricated panel provided in the study example of FIG. be able to. In addition, even when the heater 07 is provided, the heating amount of the heater 07 is reduced by reducing the energization amount of the heater 07 or by roughening the installation density of the heater 07, so that the running cost, parts cost, etc. Can be reduced. Furthermore, the side surface material 17a (stainless steel plate or resin plate) and the other surface materials 17b and 18 (plated steel plate or painted steel plate) are different in color tone and the like to prevent assembly errors during construction. it can.
[0018]
The other face materials are made of plated steel plates or painted steel plates that are relatively inexpensive and easy to process. Compared to the case where almost the entire inner surface of the cooling storage is made of stainless steel plates or resin plates, the manufacturing costs, etc. Can be lowered.
[0019]
Moreover, the heater 15 attached to the end face of the partition heat insulation panel 4 is externally attached and can be easily removed. Therefore, even when the heater 15 is disconnected, it can be easily repaired or replaced.
[0020]
Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims. Can be done. Examples of modifications of the present invention are illustrated below.
(1) In the embodiment, the cooling storage is a prefabricated refrigerator-freezer, but does not necessarily have a prefabricated structure. Moreover, although one space is the refrigerator 5 and the other space is the freezer 6, it is not necessarily limited to a refrigerator-freezer, For example, both spaces can also be made into the freezer from which preset temperature differs. And it is also possible to use it by making the set temperature of both spaces substantially the same. Furthermore, it is also possible to provide a plurality of partition heat insulating panels and form three or more spaces. It is also possible to mount the cooling storage in a vehicle or the like.
(2) It is also possible to provide the partition heat insulation panel 4 with a door for entering and exiting the space. Moreover, it is also possible to cool a plurality of spaces with one cooler as a structure in which a fan is provided in the partition heat insulating panel 4 and the cool air can be moved from one space to the other space with this fan.
[0021]
(3) The arrangement and structure of the cannula 12, the engaging recess 21, the guide groove 27, and the wheel support member 13 that are engaging members can be changed as appropriate.
(4) In the embodiment, the inside wall material 17a of the prefabricated panel 3 constituting the top wall, the side wall, and the floor wall is a stainless steel plate or a resin plate, but at least the inside wall material of the top wall and the side wall. 17a may be a stainless plate or a resin plate. That is, it is preferable that the interior side wall material 17a of the floor wall is also made of a stainless plate or a resin plate. However, the floor wall is covered with the slats 26 of the stainless plate or the resin plate and passes through the prefabricated panel 3 on the floor wall. Since heat is relatively rarely transmitted, it is possible to use an inexpensive coated steel plate or plated steel plate.
[0022]
(5) In the embodiment, no heater is provided inside the slat 26, but a heater may be provided inside the slat 26.
(6) In the embodiment, the heater 15 is attached to substantially the entire circumference of the end surface of the partition heat insulation panel 4, but if provided at least on the side end surface and the upper end surface of the partition heat insulation panel 4, It is not necessarily required to be provided on the lower end surface of the partition heat insulating panel 4. That is, a heater can be disposed inside the slat 26 to prevent condensation or freezing of the packing 16 at the lower end of the partition heat insulation panel 4.
[0023]
(7) In the embodiment, the heat insulating material 20 is formed of a foamed resin, but if it can be heat-insulated, its material, structure, etc. can be changed as appropriate.
(8) If the interior side material 17a, which is an interior plate arranged along the moving range of the partition heat insulating panel 4, is substantially disposed at least within the moving range of the partition heat insulating panel 4, its end portion It is also possible to protrude from the moving range. Therefore, the interior side material 17a may be disposed substantially within the movement range of the partition heat insulation panel 4, or may be disposed over the movement range of the partition heat insulation panel 4 and its adjacent portion. Moreover, the internal plate arrange | positioned along the movement range of the partition heat insulation panel 4 can be comprised with one board | plate material, or can be comprised with several board | plate materials.
(9) In the embodiment, the heater 07 is not provided in the heat insulating wall, but the heater 07 may be provided. However, the parts cost and the management cost can be further reduced if the heater 07 is not provided.
[0024]
【The invention's effect】
According to the present invention, since the partition heat insulation panel is movable, the size of the space partitioned by the partition heat insulation panel can be changed according to the amount of articles to be stored. And the material of the interior side wall material of the heat insulation wall arranged along the moving range of the partition heat insulation panel, for example, the stainless steel plate or the resin plate, is hotter than the material of the other side wall material made of plated steel plate or painted steel plate. since conductivity is reduced, cold of the relatively low temperature space, along the storage room side surface member, it is reduced to cool the temperature is relatively high space side the internal side surface member of. Therefore, it is possible to prevent the occurrence of dew condensation or icing when air in a relatively high temperature space comes into contact with the interior side surface material . As a result, it is no longer necessary to provide a heater in the heat insulation wall to prevent dew condensation and icing on the interior side surface of the cabinet, and even if a heater is provided, the heating value of the heater can be reduced. Running costs and parts costs are reduced. In addition, the interior side material outside the moving range of the partition heat insulation panel is made of a material with a relatively high thermal conductivity, so it is possible to select a relatively inexpensive material or a material that can be easily processed. Costs can be reduced as much as possible.
[Brief description of the drawings]
FIG. 1 is a partially cutaway perspective view of a cooling storage according to the present invention.
FIG. 2 is a cross-sectional plan view of a main part of a cooling storage.
FIG. 3 is a plan cross-sectional view of the main part of the examined cooling storage.
[Explanation of symbols]
1 Prefabricated refrigerator-freezer (cooling storage)
3 Prefabricated panels (insulation walls)
4 Partition insulation panel 5 Refrigerator (space partitioned by partition insulation panel)
6 Freezer (space partitioned by partition insulation panels)
17 Inside side material (inside plate)
17a Internal side surface material arranged along the moving range of the partition heat insulating panel 17b Other internal side surface material 18 External side surface material (outside plate)
20 Insulation

Claims (3)

The top wall, the side wall, and the floor wall of the main body are formed of heat insulating walls, and the movable partition heat insulating panel divides the interior into a plurality of spaces, and the partition heat insulating panel moves in parallel along the side wall. , A cooling storage that can change the size of the partitioned space,
The top wall and the heat insulating wall of the side wall comprise a heat-insulating material disposed between the outer-side surface material, the inner-side surface material, and the inner-side surface material and the outer-side surface material ,
Are arranged along the moving range of the partition insulating panel, the material of the internal side surface member facing the opposite sides of the space partition insulation panels the thermal conductivity than the other storage room side surface member made of plated steel or painted steel Cooling storage characterized by a low rate. The cooling storage according to claim 1, wherein the interior side material disposed along the moving range of the partition heat insulating panel is a stainless steel plate. The cooling storage according to claim 1, wherein the internal side material disposed along the moving range of the partition heat insulating panel is a resin plate.

Images