JP2010107106A - Physical distribution refrigerated warehouse - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a physical distribution refrigerated warehouse advantageous to securing of large volume of a refrigerated storage, shortening of a construction period and reduction in cost. <P>SOLUTION: All partition members K constituting a roof 20, an outer wall 22 and a partition wall 24 of the physical distribution refrigerated warehouse 12 including the refrigerated storage 12 are formed only by heat insulating panels 30. The heat insulating panel 30 is formed by a plate-shaped body comprising rock wool or cellulose fiber and steel plates sandwiching the plate-shaped body from the thickness direction, so as to have a long and thin shape with the length extremely larger than the width. The outer panel 22 is formed by making the heat insulating panels 30 laterally extend so that the length direction of the heat insulating panels 30 faces the horizontal direction and the heat insulating panels 30 are juxtaposed vertically. The partition wall 2 is formed by making the heat insulating panels 20 vertically extend so that the length direction of the heat insulating panels 30 faces the vertical direction and the heat insulating panels 30 are juxtaposed horizontally. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a distribution freezer warehouse.

Conventionally, when building a freezer warehouse, the freezer part is installed with a heat insulation panel having heat insulation inside a partition member (roof, outer wall, partition wall) composed of a concrete panel or an ALC panel constituting the freezer warehouse. It is frozen compartment.
JP-A-11-294942

Therefore, in the conventional construction method, since a heat insulation panel or the like is attached to the partition member, the thickness of the wall or roof for freezing the freezer becomes large, and in securing a large freezer volume within a limited site area. There was a disadvantage.
In addition, the conventional construction method takes a double labor of attaching the partition member to the building frame and attaching the heat insulation panel to the partition member, which is disadvantageous in shortening the construction period and reducing the cost. there were.
In particular, in a large-scale (for example, 30,000 to 50,000 square meters) refrigerated warehouse used in the logistics business, the so-called logistics refrigerated warehouse has a number of partition members made of concrete panels, ALC panels, etc., and heat insulation panels. Some improvement was desired because it would be enormous.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a distribution freezing warehouse that is advantageous in securing a large freezer volume, shortening the work period, and reducing costs. There is.

  In order to achieve the above object, the present invention is a distribution freezer warehouse having a freezer, and the partition members constituting the roof, outer wall, and partition wall of the distribution freezer warehouse including the freezer are all made of rock wool or cellulose fiber. It is formed only by the heat insulation panel comprised between.

  In the present invention, a distribution refrigeration warehouse having a freezer is constructed by attaching a panel sandwiching a heat insulating material with a steel plate to a pillar, a floor, a beam, etc., to secure a large freezer volume, and to shorten the construction period This is advantageous in reducing the cost and cost.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an exploded perspective view of a distribution freezer warehouse.
The distribution freezer warehouse 10 has two freezers 12.
The partition members K constituting the roof 20, the outer wall 22, and the partition wall 24 of the distribution freezer warehouse 10 including the freezer 12 are all formed of only the heat insulating panel 30.

FIG. 2 is an exploded perspective view of the heat insulation panel, and FIGS. 3A and 3B are explanatory views when arranging the heat insulation panels.
The heat insulation panel 30 is formed of a plate-like body 32 made of rock wool or cellulose fiber (regenerated pulp fiber), and a steel plate 34 sandwiching the plate-like body 32 from the thickness direction.
In addition, the rock wool and the cellulose fiber are subjected to a flameproofing treatment.
The heat insulation panel 30 is formed in an elongated shape whose length is extremely larger than the width. For example, the heat insulation panel 30 has a width of 1 meter and a length of 10 meters.
The heat insulation panel 30 has, for example, a protrusion 3002 at one end in the width direction and a recess 3004 at the other end in the width direction. When the heat insulation panel 30 is attached to a pillar, floor, beam, or the like, adjacent heat insulation is provided. The projections 3002 and the recesses 3004 are engaged between the panels 30 so that the plurality of heat insulation panels 30 can be arranged without gaps.
A ceramic fiber blanket 36 is disposed at the bottom of the recess 3004.

As shown in FIG. 4, the outer wall 22 is formed by lateral pasting in which the length direction of the heat insulating panel 30 is aligned in the vertical direction with the length direction in the horizontal direction.
The heat insulation panel 30 which comprises the outer wall 22 is arrange | positioned by attaching to the pillar H, for example.
As shown in FIG. 5, the partition wall 24 is formed by vertical bonding in which the length direction of the heat insulating panel 30 is arranged in the horizontal direction with the length direction in the vertical direction.
The heat insulation panel 30 constituting the partition wall 24 is disposed via upper and lower runners.
The heat insulation panel 30 which comprises the roof 20 is arrange | positioned by being spanned between the upper ends of a pillar.
In addition, as shown in FIG. 6, the surface which the heat insulation panel 30 which comprises the roof 20 faces indoors is arbitrary, such as making it the corrugated 30A which provided the unevenness | corrugation.

According to this Embodiment, it has the freezer 12 by attaching the heat insulation panel 30 which pinched | interposed the plate-like body 32 which consists of rock wool or a cellulose fiber (recycled pulp fiber) with the steel plate 34 to a pillar, a floor, a beam, etc. A distribution refrigeration warehouse 10 is constructed.
Therefore, compared to the case of attaching a heat insulation panel to a partition member made of a concrete panel, an ALC panel or the like as in the prior art, it is possible to secure a large volume of the freezer 12 and shorten the construction period and cost. It is advantageous in planning.
Specifically, when constructing a freezer of −25 ° C., a heat insulation panel having a thickness of 120 mm is conventionally attached to a partition member made of a concrete panel having a thickness of 100 mm or an ALC panel. In the present invention, one heat insulating panel having a thickness of 100 mm is sufficient, which is advantageous in securing a large freezer volume.
In addition, since a large number of heat insulation panels having a thickness of 120 mm can be omitted, the material cost can be reduced, and the partition member can be completed by attaching only the heat insulating panel 30, thereby shortening the construction period and reducing the cost. This is advantageous.
Therefore, this embodiment is a large-scale (for example, a size of 30,000 to 50,000 square meters) freezing warehouse used in a logistics business in which the number of concrete panels, ALC panels, and heat insulation panels is particularly large. It is suitable for the distribution freezer warehouse 10.

It is a disassembled perspective view of a distribution freezer warehouse. It is a disassembled perspective view of a heat insulation panel. (A), (B) is explanatory drawing at the time of arranging a heat insulation panel. It is explanatory drawing of an outer wall. It is explanatory drawing of a partition wall. It is explanatory drawing of the heat insulation panel which comprises a roof.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Logistics freezing warehouse, 12 ... Freezer, 20 ... Roof, 22 ... Outer wall, 24 ... Partition wall, 30 ... Thermal insulation panel, 32 ... Plate body made of rock wool or cellulose fiber, 34 ... …steel sheet.

Claims (2)

A logistics freezer warehouse having a freezer,
The partition members constituting the roof of the freezer warehouse including the freezer, the outer wall, and the partition wall are all formed only of a heat insulating panel configured by sandwiching rock wool or cellulose fibers between steel plates,
Logistics freezer warehouse characterized by that. The heat insulation panel has an elongated shape whose length is sufficiently larger than the width,
The outer wall is formed by horizontal sticking arranged in the vertical direction with the length direction of the heat insulation panel oriented horizontally.
The partition wall is formed by vertical pasting arranged in the horizontal direction with the length direction of the heat insulation panel oriented in the vertical direction,
The physical distribution freezer warehouse according to claim 1.

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