KR102457233B1 - Thermal insulation panel - Google Patents

Abstract

A prefabricated thermal insulation panel is provided. This includes a first outer face plate, a second outer face plate that is an uneven face facing the first outer face plate and having a longitudinal groove, a heat insulating material disposed between the first outer face plate and the second outer face plate, and the first outer face plate and a sash portion disposed on the edge of the second outer surface plate. The sash portion includes a sash portion including an upper sash member, a lower sash member, and both side sash members, wherein the upper sash member and the lower sash member have concavo-convex surfaces corresponding to the concavo-convex surfaces of the second outer surface plate, so that there is no gap between the sash and the sash member. The outer plate may be coupled.

Description

Prefabricated Insulation Panel {THERMAL INSULATION PANEL}

The present invention relates to an insulating panel installed as a wall of a large refrigeration and freezing warehouse, and more particularly, to a prefabricated insulating panel in which an insulating material is filled between two outer plates.

Large refrigerated and frozen warehouses are installed to store agricultural products or seafood for frozen or refrigerated storage, and are generally installed in a prefabricated manner using insulation panels.

This prefabricated insulation panel has a form in which an insulation material is filled between two outer surface plates and a chassis is arranged on the edge. These individual panels are connected to each other and assembled to form the outer wall structure of a warehouse or factory.

However, it was difficult to keep the stored materials stored therein at a uniform temperature in the heat insulation panel of the past, in which both of the above-described two outer plates were made of flat plates. For example, a large amount of storage is usually loaded inside the warehouse, but since the storage boxes are loaded in close contact with the inner wall, there is a problem that the cold air is not uniformly communicated in the vertical direction. In order to solve this problem, the storage boxes must be loaded apart from the inner wall, but in reality, there is a tendency to accommodate a lot of storage, so it is not often the case. It is advantageous to accommodate a large number of storage boxes, and it is not easy to load the storage boxes while spaced apart from the inner wall by a certain distance because they need to be put in and out frequently.

Therefore, a configuration in which a plate located on the inside of the two outer plates of the insulation panel is manufactured as a concave-convex plate has been proposed. The grooves formed in the longitudinal direction facilitate the vertical communication of cold air, thereby enabling uniform refrigeration/freezing.

However, when the inner outer surface plate among the two outer surface plates is a concave-convex plate, it becomes difficult to connect the upper and lower sashes. There is inevitably a gap between the sash and the concave-convex plate, and it is very difficult and cumbersome to cover it with silicon or the like.

In order to solve this problem, the gap is covered by separately disposing a connecting member between the sash and the concave-convex plate, but disposing the separate connecting member has a serious problem in that the number of parts increases as well as the connection/assembly work increases. This is because the connecting member must be connected to the concave-convex plate and also to the chassis. Moreover, since the foam material is filled as an insulating material between the outer plates, a considerable pressure may be applied to the outer plates, and it is not preferable to arrange several pieces as separate connecting members.

The present invention provides an insulating panel in which at least one side of the outer surface plate has a concave-convex surface so that vertical communication of cold air is made smoothly.

The present invention provides an insulating panel with a minimum number of pieces while employing the above-described improved surface plate having an uneven surface.

The present invention provides an insulating panel that is quick and convenient to manufacture while employing the outer plate having the improved uneven surface described above.

SUMMARY OF THE INVENTION The present invention provides a prefabricated thermal insulation panel comprising: a first outer face plate; a second outer surface plate that is opposite to the first outer surface plate and is a concave-convex surface having a groove in the longitudinal direction; a heat insulating material disposed between the first outer surface plate and the second outer surface plate; and a sash portion including an upper sash member, a lower sash member, and both side sash members disposed on edges of the first outer surface plate and the second outer surface plate, wherein the upper sash member and the lower sash member include: It has an uneven surface corresponding to the uneven surface of the second outer surface plate.

The upper sash member and the lower sash member include a sash body covering the upper and lower ends of the first outer surface plate, the second outer surface plate, and the insulator, respectively, and concave-convex surfaces corresponding to the concave-convex surfaces of the second outer surface plate and an extension portion covering the outer surface of the second outer surface plate.

The first outer surface plate has a bent portion in which at least one of the upper portion and the lower portion is bent in an “L” shape, and the upper sash member and the lower sash member provide a horizontal groove into which the bent portion of the first outer surface plate is inserted. do.

Since the prefabricated insulation panel according to an embodiment of the present invention has a groove in the portion that becomes the inner wall surface of the warehouse, the circulation or communication of cold air can be made well. Since the heat insulation panel has a main body in which the upper sash member and the lower sash member cover the upper and lower ends, and an extended portion in which the concave-convex surface covers the concave-convex surface of the second outer surface plate, the sash and the plate material can be manufactured without a gap. Therefore, manufacturing is easy and the number of parts can be reduced.

1 is a view showing the appearance of a prefabricated insulation panel according to a preferred embodiment of the present invention.
Figure 2 is an exploded view of the prefabricated insulation panel of Figure 1;
3 and 4 are views showing an upper sash portion and a lower sash portion employed in the prefabricated insulation panel of the present invention.
Figure 5 is a cross-sectional view of the upper portion of the prefabricated insulation panel of Figure 1;
6 is a view showing a corner finishing member employed in the prefabricated insulation panel of FIG. 1 .

Hereinafter, a prefabricated insulation panel according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, briefly described, the present invention relates to a prefabricated insulation panel used in structures such as refrigerated warehouses or factories. The first and second outer surface plates, and a heat insulating material is disposed therebetween. The second outer surface plate preferably has a concave-convex surface, and the concave-convex surface includes a longitudinal groove. The second outer surface plate may be used as an inner wall surface of the refrigeration warehouse, and cold air may communicate along the grooves in the longitudinal direction. Since the second outer surface plate has a concave-convex surface, it has a structure characteristic for connection/combination with the sash member disposed on the edge. For example, upper and lower sash members coupled to the second outer surface plate having the concave-convex surface have concavo-convex surfaces corresponding to the concave-convex surface of the second outer surface plate. The first outer plate may be a flat plate having no concavo-convex surface. The first outer surface plate has a “L”-shaped bent portion at the upper end portion and the lower portion portion, and the upper and lower sash members have a horizontal groove portion into which the bent portion of the second outer surface plate is inserted.

The prefabricated insulation panel of the present invention as described above has a structure that does not generate a gap with the sash member while providing an uneven surface on the inner wall surface. Moreover, since a separate connecting member disposed between the sash member and the outer plate of the concave-convex surface is not used, the total number of parts is reduced and the assembly process is simplified. By inserting and fixing the outer plates into the grooves of the sash member, they can be more firmly fixed by the foam material filled with the heat insulating material.

Hereinafter, a preferred embodiment will be described in detail with reference to the drawings.

1 is a view showing the appearance of a prefabricated insulation panel according to a preferred embodiment of the present invention. Figure 2 is an exploded view of the prefabricated insulation panel of Figure 1; 3 and 4 are views showing an upper sash portion and a lower sash portion employed in the prefabricated insulation panel of the present invention. Figure 5 is a cross-sectional view of the upper portion of the prefabricated insulation panel of Figure 1; 6 is a view showing a corner finishing member employed in the prefabricated insulation panel of FIG. 1 . For reference, the insulating material 300 is omitted in FIG. 2 .

Referring to the drawings, the prefabricated insulation panel according to a preferred embodiment of the present invention has a first outer surface plate 100 , a second outer surface that faces the first outer surface plate 100 and is a concave-convex surface having a longitudinal groove 210 . It includes a plate 200 , a heat insulating material 300 disposed between the first outer surface plate 100 and the second outer surface plate 200 , and a sash portion. The sash unit includes a sash unit including both side end sash members 400 and upper and lower sash members 500 . It also includes a corner finishing member 600 for finishing the corner.

The first outer plate 100 may be a flat plate, but is not limited thereto. The first outer surface plate 100 may be a surface generally disposed on the outside of the structure.

The second outer surface plate 200 is disposed to face the first outer surface plate 100 with the insulating material 300 interposed therebetween, and has an uneven surface. Such a concave-convex surface provides, for example, a longitudinal groove 210 in the inner wall surface of the structure. The groove 210 serves as a cold air guide groove and allows the cold air to communicate up and down even when the storage boxes are closely stacked.

The heat insulating material 300 is disposed between the first outer surface plate 100 and the second outer surface plate 200, and a foaming agent is preferably used. Although not limited to the foaming agent, when the foaming agent is used as the heat insulating material 300, it is preferable because it can exhibit adhesion with other elements.

The sash unit includes both side end sash members 400 and upper and lower sash members 500 . The sash part is a sash or a rim disposed on the rim of the first outer surface plate 100 and the second outer surface plate 200 .

Both side end sash members 400 are disposed on both side ends of the structure in which the first outer surface plate 100 and the second outer surface plate 200 are coupled to cover both side ends.

The upper and lower sash members 500 shown in FIGS. 3 and 4 may have the same shape, and thus the same reference numerals are given.

The upper and lower sash members 500 are respectively disposed at the upper end and lower end of the structure in which the first outer surface plate 100, the insulating material 300, and the second outer surface plate 200 are combined to cover the upper and lower sashes, respectively. The body 510 and the extension portion 530 bent from the sash body 510 to cover the plate surface of the second outer surface plate 200 are included.

The sash body 510 of the upper and lower sash members 500 covers the ends of the structure in which the first outer surface plate 100 , the heat insulating material 300 , and the second outer surface plate 200 are combined, and also with other panels. It may have a structure including a groove for coupling.

The extension parts 530 of the upper and lower sash members 500 are bent from the sash body 510 and extend to cover the plate surface of the second outer surface plate 200 . In particular, the extension 530 has a concave-convex surface corresponding to the concave-convex surface of the second outer surface plate 200 . That is, the extension portion 530 has a convex portion 531 inserted into the groove 210 of the second outer surface plate 200 . The convex portions 531 are inserted into the grooves 210 of the second outer surface plate 200 so that the extended portion 530 is in close contact with the second outer surface plate 200 without a gap.

The upper and lower sash members 500 also have a transverse groove portion 515 into which the first outer surface plate 100 is inserted on the opposite side of the extension portion 530 . The first outer surface plate 100 has a “L”-shaped bent portion 110 for insertion into the horizontal groove portion 515 at the upper end and the lower end, respectively.

The prefabricated insulation panel of the present invention as described above can be preferably used as a wall structure of a refrigerated / frozen warehouse. In particular, by arranging the second outer surface plate 200 having a groove on the inner wall surface, even if the storage box is in close contact, cold air can be communicated along the groove 210 . In particular, the upper and lower sash members 500 have a sash body 510 and an extended portion 530 having concavo-convex surfaces so that no gap is formed when coupled between the second outer plate 200 having the concave groove 210 and the sash member at the edge. ) as a unit. Since the extension 530 is provided integrally with the sash body 510 , the panel manufacturing process may be simplified and the heat insulating material 300 may be firmly fixed when foamed.

100: first outer plate, 110: bent part,
200: second outer plate, 210: groove,
400: both side sash members, 500: upper and lower sash members,
510: sash body, 515: horizontal groove,
530: extended part, 531: convex part

Claims (3)

A prefabricated insulation panel comprising:
a first outer plate 100 having a bent portion 110 in which at least one of the upper portion and the lower portion is bent in a “L” shape;
a second outer surface plate 200 facing the first outer surface plate and having a concave-convex surface including a longitudinal groove 210;
a heat insulating material 300 disposed between the first outer surface plate and the second outer surface plate;
Both side end sash members 400 and 400 are disposed at both side ends of the structure in which the first outer surface plate and the second outer surface plate are coupled to cover both side ends, and the first outer surface plate and the second outer surface plate are coupled to each other. A sash portion disposed on the upper and lower portions, respectively, to cover the upper and lower ends, and including upper and lower sash members 500 and 500 having the same shape as each other;
The upper and lower sash members 500 and 500 are,
The second outer surface plate has a concave-convex surface including a sash body 510 covering the upper and lower ends of the first and second outer surface plates and the heat insulating material, respectively, and a convex portion 531 inserted into the groove of the second outer surface plate. an extension portion 530 bent from the sash body to cover the outer surface of the sash body and a horizontal groove portion 515 formed on the opposite side of the extension portion and into which the bent portion of the first outer surface plate is inserted, the sash body and the horizontal groove portion Prefabricated insulation panel, characterized in that the extension and the convex part are integrally formed. delete delete

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