KR20110092934A - Insulation pad for supporting partitions at cold storage and method of building partitions using the pad - Google Patents

Abstract

PURPOSE: An insulation pad for supporting the bottom of a partition panel of a freezer compartment and a construction method of a partition panel of a freezer compartment using the same are provided to maximize freezing efficiency by completely insulating the partition panel and the bottom surface of a freezer compartment. CONSTITUTION: An insulation pad for supporting the bottom of a partition panel of a freezer compartment comprises a lower steel plate(11), an upper steel plate(12), support annular rods(13), and a high-density adiabatic block(14). Anchor grooves(21) are formed in both ends of the lower steel plate so that the lower steel plate can be fixed to the bottom surface of a freezer compartment using anchor bolts(16). The upper steel plate has bolt holes(23). The support annular rods fix the lower and upper steel plates. The high-density adiabatic block is formed to be filled in a space between the lower and upper steel plates.

Description

Insulation Pad for Supporting Partitions at Cold Storage and Method of Building Partitions Using the Pad}

The present invention relates to a freezer. More specifically, the present invention relates to a thermal insulation pad for the lower support of the freezing partition panel that can completely insulate the bottom of the partition panel during the internal partition construction of the freezer.

Since the freezer should be kept at minus 20 to 30 ° C, it should be constructed so that the walls, floor and ceiling are insulated perfectly.

Refrigerating warehouses often have to be partitioned on the inside for various purposes. For example, when some spaces in the freezer warehouse are kept at minus 10 ° C and some other spaces are minus 20 ° C, they are partitioned with each other to maximize cooling efficiency. As such, for various reasons, a partition construction is being carried out using a freezing panel or a sandwich insulation panel inside a freezing warehouse.

The biggest problem in the case of partition construction inside the freezer is the insulation problem at the part where the partition panel and the bottom surface are in contact. 2A is a schematic cross-sectional view of a partition panel of a freezer warehouse constructed by a conventional method.

In the conventional method, as shown in FIG. 2A, the partition panel 100 is vertically mounted on the bottom surface 200, and a heat insulating layer 300 such as a urethane layer is formed on the bottom surface 200. The thickness of the heat insulation layer 300 depends on the freezer, but usually has a thickness of 50 ~ 200 mm. The partition panel 100 is formed on both sides of the iron plate 101, and a heat insulation layer 102 having a thickness of 50 to 200 mm is formed therein so that the heat insulation layer 300 of the bottom surface is in contact with the iron plate 101. Construct by foaming a urethane layer or the like.

By the way, even when the construction is in contact with the bottom heat insulation layer 300 and the iron plate 101 in the initial stage of construction, as time passes, the bottom heat insulation layer 300 contracts and a gap 301 occurs in the adjacent portion thereof. When the gap 301 is generated, the refrigeration efficiency is drastically reduced due to a large temperature difference between the inside of the freezer and the bottom surface.

In order to solve this problem, the present inventors have developed a thermal insulation anchor bolt for freezer storage partition construction and registered as Utility Model Registration No. 158040 (filed April 25, 1996). In order to perform the insulation partition construction with this anchor bolt, anchor bolts are fixed to the bottom surface where the partition is to be installed at regular intervals, the partition panel is fixed on the anchor bolts, and the space between the bottom of the partition panel and the bottom surface is urethane. Foaming into a layer or the like. Although the partition construction method by this insulation anchor bolt is an improvement compared with the conventional method shown in FIG. 2 (A), it still comes with the difficulty of construction and contains the fault which does not have sufficient stability and strength.

Therefore, the present inventors have come to develop a thermal insulation pad for constructing a freezing partition panel of the present invention having a new structure which is convenient for construction, has sufficient stability and strength, and maximizes refrigeration efficiency by perfect insulation.

An object of the present invention is to provide a thermal insulation pad for freezing partition panel construction that can maximize the freezing efficiency by perfecting the insulation of the partition panel and the bottom surface in the internal partition construction of the freezer.

Another object of the present invention is to provide a thermal insulation pad for freezing partition panel construction that can be installed so as to stably construct the partition panel in the internal partition construction of the freezer and have a sufficient strength.

Another object of the present invention is to provide a thermal insulation pad for freezing partition panel construction that can be convenient to the construction to maximize the working efficiency.

The above and other objects of the present invention can be achieved by the present invention described in detail below.

Insulation pad 10 for the lower support of the freezing partition panel according to the present invention is a lower iron plate 11 formed in the cut groove in the center of both ends to be fixed in the center of both ends to be fixed to the anchoring bolt 16 to the freezing bottom surface, the upper Insulating partition panel 100 is formed in a "c" shape so that the position, the upper side plate 12, bolt holes 23 for fixing the partition panel 100 on both sides, the lower iron plate and the upper It is composed of two support ring bar 13 is assembled to fix the iron plate and having the same height as the thickness of the bottom heat insulating layer 300, and the high-density insulating block 14 formed to be filled in the space between the upper iron plate and the lower iron plate. It is characterized by.

In order to prevent corrosion of the lower iron plate 11 may further include a moisture-proof sheet 15 is fixed by bonding to the lower portion.

Method of constructing the inner partition panel of the freezer using the insulation pad 10 according to the present invention is to fix the insulation pad 10 with anchor bolts 16 at regular intervals on the bottom surface of the freezer warehouse to be partitioned construction and Positioning and fixing the insulation panel 100 for partitioning on the insulation pad 10, and forming a heat insulation layer 300 such as a urethane layer in the space between the insulation pad and the bottom surface under the bottom surface. Is done.

The high-density insulating block 14 of the thermal insulation pad 10 is made of the same material as the thermal insulation layer 300 formed on the bottom surface, so that even after time of construction, there is no gap in the adhesive surface, even if time elapses after construction. Keep it. Thus, full insulation from the floor can be expected.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

An object of the present invention is to maximize the refrigeration efficiency by ensuring the complete insulation of the partition panel and the bottom surface in the interior partition construction of the refrigerated warehouse, and also to stably construct the panel and to have sufficient strength and to increase the convenience and work efficiency of the construction. Has the effect of the invention.

1 is a schematic perspective view of a process for constructing a freezing partition panel by using a thermal insulation pad for lower support according to the present invention.
2 is a schematic cross section in which the freezing partition panel 100 is constructed on the bottom insulation layer 300, (A) is a cross-sectional view of the partition panel constructed by one conventional method, and (B) is a partition according to the present invention. Sectional view of the panel.
3 is a schematic perspective view of an insulating pad 10 for lower support of a refrigerated partition panel according to an embodiment of the present invention.
4 is a schematic exploded perspective view of the thermal insulation pad 10 according to another embodiment of the present invention.

The present invention relates to a refrigerated warehouse, and relates to an insulating pad for supporting the lower part of the refrigerated partition panel that can completely insulate the lower part of the partition panel during internal partition construction of the freezer.

1 is a schematic perspective view of a process for constructing a freezing partition panel using a lower support insulating pad according to the present invention, Figure 2 (B) is a cross-sectional view of the partition panel according to the present invention. 2 (A) is a sectional view of a partition panel constructed by one conventional method.

As shown in FIG. 2A, when the partition panel 100 is vertically installed on the bottom surface 200 according to a conventional method, and a heat insulating layer 300 such as a urethane layer is formed on the bottom surface 200. Even when the floor insulation layer 300 is in contact with the iron plate 101 at the beginning of construction, the floor insulation layer 300 contracts as time passes, and a gap 301 occurs in an adjacent portion thereof. When the gap 301 is generated, the refrigeration efficiency is drastically reduced due to a large temperature difference between the inside of the freezer and the bottom surface.

In order to compensate for this drawback, the entire bottom surface may be first constructed with a heat insulating layer such as a urethane layer, and a partition panel may be installed on the heat insulating layer. In this case, however, the insulation is perfect, but sufficient strength cannot be expected because the partition panel is placed on the urethane layer. Therefore, in order for the partition panel to have sufficient strength, the partition panel must be constructed on the concrete floor first, and then the insulation layer must be constructed on the floor.

The present inventors construct a partition panel on the concrete floor first, and then when the insulation layer is applied on the floor, the insulation is perfect, the panel is installed stably, the strength is sufficient, the construction convenience and the work efficiency are increased. It is to develop a thermal insulation pad of the present invention can bring.

As shown in FIG. 1, the thermal insulation pad 100 of the present invention is fixed to the bottom surface 200 at a predetermined interval at a position where the partition thermal insulation panel 100 is to be installed. In general, when the width of the panel 100 is 1 M, it is preferable to fix two insulation pads 10 by one panel.

3 is a schematic perspective view of the insulating pad 10 for the lower support of the freezing partition panel according to an embodiment of the present invention, Figure 4 is a schematic exploded perspective view of the insulating pad 10 according to another embodiment of the present invention to be.

As shown in Figure 3, the lower support insulating pad 10 of the refrigeration partition panel according to the present invention is anchored to the center of both ends of the anchor groove (16) to fix the anchor bolt 16 to the bottom surface of the frozen groove 21 is The lower iron plate 11, formed in the shape of the "c" so that the insulating partition panel 100 is located on the upper, the upper iron plate formed with bolt holes 23 for fixing the partition panel 100 on both sides ( 12, two support ring rods 13 which are assembled to fix the lower iron plate and the upper iron plate and have the same height as the thickness of the bottom heat insulation layer 300, and are formed to be filled in the space between the upper iron plate and the lower iron plate. It consists of a high density insulating block (14).

The upper plate and the lower plate are made of an iron plate having a thickness of about 2 mm. And the upper iron plate and the lower iron plate is fixed by two support ring bar (13). The support round bar is assembled to the upper steel plate and the lower iron plate, respectively, by a screw method or a welding method, this technique can be easily carried out by those skilled in the art to which the present invention belongs.

Since the partition panel 100 is located on the upper portion of the upper iron plate 12, the panel is bent in a “c” shape by the thickness of the panel. Partition panels placed on the top plate are fixed with pieces or bolts (not shown) on both sides. Holes 23 for fixing this are formed in both upper steel plates. Partition panels are usually used in the thickness of 50, 75, 100, 150, 200 mm, but is not necessarily limited thereto.

The two support ring rods 13 assembled to the upper steel plate and the lower steel plate keep their length equal to the thickness of the bottom surface insulating layer 300. Since the thickness of the bottom insulation layer 300 is usually 50, 75, 100, 150, 200 mm to maintain the same. The support round bar preferably has a diameter of about 6 mm, but is not limited thereto.

Urethane is foamed between the upper iron plate and the lower iron plate fixed by the two support round bars 13 to form a high-density insulating block 14. When the high-density insulating block 14 is formed, the two support round rods 13 are buried therein. The width of the high-density insulating block 14 is the same as the width of the insulating pad 10, preferably about 70 mm, but is not limited thereto, and may be appropriately changed depending on the construction site or other conditions.

The thermal insulation pad 10 is firmly fixed to the anchor bolt 16 at both sides in the position to be constructed.

In order to prevent corrosion of the lower iron plate 11 may further include a moisture-proof sheet 15 is fixed by bonding to the lower portion. 4 is a schematic exploded perspective view of an insulating pad 10 according to another embodiment of the present invention including a moisture proof sheet.

The moisture-proof sheet 15 may be preferably rubber, synthetic resin such as polyethylene, rubberized asphalt sheet and the like. As this moisture-proof sheet, the commercially available rubberized asphalt sheet which has a thickness of about 2 mm can be used most preferably. Since this rubberized asphalt sheet has adhesive force like a double-sided tape, it can be used by attaching one side to the bottom of the lower iron plate 11, and fixing the other side to the bottom surface. An anchor groove 16 for fixing the anchor bolt 16 is formed at both ends of the moisture-proof sheet like the lower steel plate.

In the present invention, since the bottom heat insulating layer 300 is formed of a foam material having the same material as the high density heat insulating block 14, and the bottom heat insulating layer forms a structure containing the high density heat insulating block, no gap occurs even after elapse of time. In addition, in the present invention, since the thermal insulation pad is first constructed at the partition panel construction position, the construction can be simplified, and the construction can be performed with stability because of sufficient structural strength.

Method of constructing the inner partition panel of the freezer using the insulation pad 10 according to the present invention is to fix the insulation pad 10 with anchor bolts 16 at regular intervals on the bottom surface of the freezer warehouse to be partitioned construction and Positioning and fixing the insulation panel 100 for partitioning on the insulation pad 10, and forming a heat insulation layer 300 such as a urethane layer in the space between the insulation pad and the bottom surface under the bottom surface. Is done.

The high-density insulating block 14 of the thermal insulation pad 10 is made of the same material as the thermal insulation layer 300 formed on the bottom surface, so that even after time of construction, there is no gap in the adhesive surface, even if time elapses after construction. Keep it. Thus, full insulation from the floor can be expected.

Before fixing the insulating pad 10 to the bottom of the freezing warehouse to be partitioned at regular intervals with the anchor bolt 16, the moisture-proof sheet 15 may further include attaching to the bottom of the lower iron plate of the insulating pad. have.

Simple modifications and variations of the present invention can be readily used by those skilled in the art, and all such variations or modifications can be considered to be included within the scope of the present invention.

10: Insulation pad 11: Lower iron plate
12: upper steel plate 13: support round bar
14: high density insulation block 15: moisture proof sheet
16: Anchor Bolt 17: Home
21,22: Anchor Home 23: Hole
100: frozen panel 101: iron plate
102: heat insulation layer 200: concrete floor
300: bottom insulation layer 301: gap

Claims (6)

A lower iron plate (11) having an anchor groove (21) formed in an incision in the center of both ends to be fixed to an anchor bolt (16) on the bottom surface of the freezer;
An upper steel plate 12 having a “c” shape such that an insulating partition panel 100 is positioned at an upper portion thereof, and a bolt hole 23 formed at both sides thereof to fix the partition panel 100;
Two support round bars 13 assembled to fix the lower iron plate and the upper iron plate and having the same height as the thickness of the bottom heat insulation layer 300; And
A high density insulating block 14 formed to fill in a space between the upper and lower steel plates;
Insulation pad 10 for the lower support of the freezing partition panel, characterized in that consisting of.

According to claim 1, Insulation pad (10) for the lower support of the refrigeration partition panel further comprises a moisture-proof sheet (15) is fixed to the lower portion to prevent corrosion of the lower plate (11).
The lower support thermal insulation pad (10) of claim 1, wherein the heights of the two support rods (13) are the same as the thickness of the bottom insulation layer (300).
Fixing the thermal insulation pad 10 according to any one of claims 1 to 3 with anchor bolts 16 at regular intervals on the bottom surface of the freezer warehouse to be partitioned;
Placing and fixing a partition insulation panel 100 on the insulation pad 10; And
Forming a thermal insulation layer 300 such as a urethane layer in the space between the insulation pad and the bottom surface below the bottom surface;
Method for constructing the inner partition panel of the freezer using a thermal insulation pad (10), characterized in that consisting of steps.
The method of claim 4, wherein the high-density insulating block 14 of the thermal insulation pad 10 is frozen using the thermal insulation pad 10, characterized in that using the same material as the thermal insulation layer 300 formed on the bottom surface. How to install the internal partition panel of the warehouse.
The method of claim 4 or 5, wherein the moisture-proof sheet 15 is attached to the bottom of the lower iron plate of the thermal insulation pad before fixing the thermal insulation pad 10 with the anchor bolt 16 at regular intervals on the bottom surface of the freezer. Method for constructing the inner partition panel of the freezer using a thermal insulation pad (10) characterized in that it further comprises a step.

Images