JP5677108B2 - Installation method of heat insulation structure - Google Patents

Description

The present invention relates to a heat insulating structure in which a vacuum heat insulating panel and a frame are combined.

  There is known a vacuum heat insulating material in which a heat insulating effect is enhanced by putting a core material in which glass wool fibers are bonded together in a panel having a space inside, and evacuating the inside of the panel in this state.

As the panel, as disclosed in Patent Document 1, a resin film, a resin plate, or a laminated structure film of a metal foil and a resin film is generally used. As shown in FIG. 5A, the vacuum heat insulating panel disclosed in Patent Document 1 is formed by bonding two plate members 50 and 50 together. Therefore, a flange portion 51 is formed around the periphery.
When the material of the case of the vacuum heat insulation panel is made of resin as in Patent Document 1, it is possible to form a shape without providing a flange portion as shown in Patent Document 2 or FIG.

JP 2007-56903 A Japanese Patent No. 3712129

  The problem with vacuum insulation is that it penetrates the panel (outer skin) of resin film or laminated film, gas enters the vacuum space inside the panel, the internal pressure rises, the degree of vacuum decreases, and the heat insulation effect deteriorates. It is to be.

  From the viewpoint of gas permeability, metals such as stainless steel and aluminum are less likely to permeate gases than resins. However, in the case where the panel is formed of a metal sheet, the periphery of the two metal sheets is bonded together, so that a flange portion is inevitably formed. Since the flange portion has no vacuum space, the heat insulating effect is deteriorated.

In order to solve the above problems, a heat insulating structure according to the present invention is a combination of a vacuum heat insulating panel and a frame having heat insulating properties, and the vacuum heat insulating panel is a means such as welding two metal sheets such as stainless steel. by bonding in a flange portion surrounding the hollow portion is formed for accommodating the core member, the frame wood, plastic, foamed-based heat insulating material, with the like inorganic fiber based insulation, wall etc. It is a structure in which a groove portion is formed which is attached to the housing and into which the flange portion is fitted.

Further, by dividing the frame body into the horizontal member and the vertical member, the vacuum heat insulation panel can be added, and the vacuum heat insulation panel can be attached to a necessary portion.

  According to the heat insulating structure according to the present invention, it is possible to effectively prevent a decrease in the heat insulating effect at the flange portion of the heat insulating structure, which becomes a problem when the panel is formed of a metal sheet that is difficult to transmit gas.

Front view of heat insulation structure according to the present invention AA direction arrow view of FIG. 2 is an enlarged cross-sectional view of the main part of FIG. The figure which shows another Example of a vacuum heat insulation panel (A) And (b) is a figure which shows the conventional heat insulation structure.

Embodiments of the present invention will be described below with reference to the accompanying drawings. The heat insulating structure according to the present invention includes a vacuum heat insulating panel 1 and a heat insulating frame 3 that attaches the vacuum heat insulating panel 1 to a housing 2 such as a wall.

The vacuum heat insulating panel 1 includes a case 11 and a core member 12. The case 11 is formed by bonding two metal sheets, for example, a stainless steel sheet 11a, to form a flange portion 11b around. The material constituting the case 11 is not limited to stainless steel, but may be another metal sheet such as an aluminum sheet, or a laminate of a metal sheet and a resin sheet.

The shape of the flange portion 11b is not limited to simply bonding two metal sheets, but may be a shape folded by hemming as shown in FIG.

Further, the core material 12 housed in the vacuum-evacuated space of the case 11 has a three-dimensional structure in which the intersecting portions of the glass wool fibers are bonded to each other using phenol resin, water glass or the like as an adhesive. For this reason, even when the case 11 is decompressed, the shape of the case can be maintained by the core material.

The material of the frame body 3, as long as it has excellent heat insulating property, such as wood, plastic, foamed-based heat insulating material, such as inorganic fibers based heat insulating material is considered.

The frame 3 includes horizontal members 31 and 32 and vertical members 33 and 34. In this embodiment, a groove 31a into which the flange 11b of the case is fitted is formed on the upper side of the horizontal member 31, and grooves 32a and 32b are similarly formed on the upper and lower sides of the horizontal member 32. Grooves 33a, 34a are also formed on one side of 33, 34.

All the groove portions have the same shape, and the flange portion 11a on the periphery of the case 11 is fitted into any groove portion. The periphery of the opening of the groove is a tapered surface 31b in order to stably hold the vacuum heat insulating panel 1.

The lateral members 31 and 32 are attached to the housing 2 via screws 35.
The attachment procedure is as follows. First, the horizontal member 31 is attached to the housing 2, and the flange portion 11 a on the lower side of the vacuum heat insulating panel 1 is inserted into the groove portion 31 a of the horizontal member 31. Next, the grooves 33 a and 34 a of the vertical members 33 and 34 are fitted into the flange portions 11 a on the left and right sides of the vacuum heat insulating panel 1. Thereafter, a groove 32 a formed on the lower side of the horizontal member 32 is fitted into the flange 11 a on the upper side of the vacuum heat insulating panel 1, and the horizontal member 32 is fixed to the housing 2 using screws 35 in this state.

Although one vacuum heat insulation panel 1 is fixed to the housing 2 through the frame body by the above operation, the above operation is repeated when many vacuum heat insulation panels 1 are fixed continuously. In addition, although the example which can add the vacuum heat insulation panel 1 to an up-down direction was shown in the figure, in order to add to a horizontal direction, one of the vertical members 33 and 34 has a groove part on both sides similarly to the horizontal member 32. A member may be used.

The portion of the flange portion 11a of the vacuum heat insulation panel 1 has a heat insulation effect because there is no vacuum portion in the thickness direction. However, by inserting the flange portion 11a into the groove portion of each member constituting the frame 3, the heat insulation effect by vacuum is inferior, but a significant improvement in heat insulation effect is recognized compared to the conventional case.

  The heat insulation structure according to the present invention can be used in a wide range of fields such as home appliances, automobiles, and aircrafts in addition to heat insulation of buildings.

DESCRIPTION OF SYMBOLS 1 ... Vacuum insulation panel, 2 ... Housing, 3 ... Thermal insulation frame, 11 ... Case, 11a ... Stainless steel sheet, 11b ... Flange part, 12 ... Core material, 31, 32 ... Horizontal member of frame, 33, 34 ... vertical members of the frame, 31a, 32a, 33a, 34a ... grooves, 31b ... taper surfaces, 35 ... screws.

Claims (2)

One or more vacuum heat insulation panels including a hollow portion for housing a core material formed of a metal sheet and a flange portion around the hollow portion; and one or more frames having a groove portion into which the flange portion of the vacuum heat insulation panel is fitted. A method of attaching a heat insulating structure combining the above to a housing, the method including the following steps:
Attaching the first frame to the housing;
A step of fitting the flange portion of the vacuum heat insulating panel into the groove portion of the first frame body; and a step of attaching the second frame body to the housing body and fitting into the groove portion of the first frame body. A step of fitting the non-flange portion into the groove portion of the second frame body; Prior Symbol metal sheet is stainless sheet, the frame is characterized wood, plastic, foamed-based insulation, either der Rukoto inorganic fiber based insulation, method of claim 1.

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