JP2005315385A - Heat insulation panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a heat insulation panel, light-weighted, having suitable bending strength and shock resistance characteristic, and having good recycle nature. <P>SOLUTION: This heat insulation panel includes: a base material 5 having a recess 4 for storing heat insulation material; a vacuum insulating material 3 fitted in the recess 4 and bonded to the base material 5; and a lid material 6 bonded to the base material 5 to cover the vacuum insulating material. A heat intercepting body 7 formed of these members is held by metal plates 8, the metal plate 8 is bonded to the base material 5 and the lid material 6. The base material 9 and the metal plate 10 are bonded in order on one metal plate 8. The base material 9 and the lid material 6 are formed of polystyrene foaming material dissolved by limonene, so that in removing the heat insulation panel completing joint use, polystyrene is decreased in volume and recovered alternatively. A skin layer is shaped on the surface layer part of the base materials 5, 9 and the lid material 6 by foaming in a die or extrusion of polystyrene to improve mutual bonding strength of members. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a heat insulating panel.

  In addition to the function of preventing heat input into the cargo compartment, the thermal insulation panel incorporated in the cargo compartment of the vehicle is required to be lightweight and have appropriate bending strength and impact resistance characteristics.

Therefore, a vacuum heat insulating material encapsulated with a film made of a material with low thermal conductivity and deaerated and sealed, and a metal plate is bonded to each of both surfaces of the urethane foam heat insulating material embedded with this vacuum heat insulating material Insulation panels have been proposed (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 10-114245

  It is desirable to disassemble and reuse heat-insulated panels for each material, but urethane foam cannot be regenerated by melting.

  For this reason, urethane foam must be treated as waste after volume reduction by combustion, and the work of peeling off the metal plate bonded to the urethane foam heat insulating material is not easy.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to provide a heat insulating panel that is lightweight, has appropriate bending strength and impact resistance, and has good recyclability.

  In order to achieve the above object, the present invention basically includes a plate-like base material formed by foaming of polystyrene in a mold and having a recess for accommodating a heat insulating material, and fitted into the recess and attached to the base material. A vacuum insulating material that is bonded, and a lid that is formed by foaming of polystyrene in the mold and is bonded to the substrate so as to cover the vacuum insulating material, and a heat shield constituted by these members is made of a metal plate. It is sandwiched and bonded to the metal plate.

  In addition, an additional base material formed by foaming or extrusion of polystyrene in a mold is bonded to a metal plate, and the additional metal plate is bonded to the base material.

  As an additional requirement, the base material is provided with a step part into which the peripheral part of the lid material fits, and the base part is provided with a leg part protruding toward the step part, or the base material step part and the peripheral part of the lid material Are provided with concavo-convex portions which can be engaged with each other.

  Further, a vacuum heat insulating material encapsulated with a film and degassed and sealed is used, and a relief surface that forms a gap with respect to the corner of the vacuum heat insulating material is provided in a recess of the base material, or the core is formed with a film. Using a vacuum insulation material that has been encapsulated and deaerated and sealed, the ears of the film formed around the core are folded over to the core covering part of the film, and a clearance is formed to form a gap with respect to the folded part of the film. A surface is provided in the recess of the substrate.

  In the present invention, a metal plate is bonded to a polystyrene skin layer of a base material or lid material formed by a mold forming surface, and the adhesion strength of the heat shield to the metal plate is improved, and an additional base material and An additional metal plate is provided to ensure rigidity when the load bearing member is attached.

  Moreover, the polystyrene foam material which melt | dissolves a base material and a cover material with a limonene enables the volume reduction and alternative collection | recovery of polystyrene.

  Mutual contact when the lid material is fitted into the base material by providing a structure in which the lid material is fitted into the base material, ensuring sufficient thickness at the periphery of the base material, ensuring the rigidity of the base material alone, and providing legs. The area is increased to increase the bonding strength between the two members, and the base material step and the periphery of the lid material are engaged with each other by the concavo-convex portion to prevent the positional deviation between the two members until the bonding is completed.

  Furthermore, the flank provided in the recess of the base material prevents the film covering the corners of the vacuum heat insulating material and the folded portion of the film from rubbing against the base material.

  According to the heat insulation panel of the present invention, the following excellent effects can be obtained.

  (1) The skin layer formed on the surface layer portion of the base material and the cover material formed by foaming of polystyrene in the mold and the surface layer portion of the additional base material formed by extrusion of polystyrene has a high density and is smooth and deformed. Therefore, the adhesive strength among the vacuum heat insulating material, the base material, the lid material, and the metal plate can be improved, and a heat insulating panel that is lightweight and has appropriate bending strength and impact resistance can be obtained.

  (2) After the vacuum heat insulating material is fitted and bonded in the recess of the base material, the lid material is bonded to the base material so as to cover the vacuum heat insulating material, and the vacuum heat insulating material is contained inside the heat shield body. There is no heating process at the time of assembling, and the vacuum heat insulating material is not deteriorated by the high temperature effect.

  (3) Since the base material and the lid material are made of polystyrene foam material, when the heat insulation panel that has been used in service is unwound, the heat insulation panel is immersed in limonene, so that volume reduction and alternative recovery of polystyrene are possible. In addition, there is no work to peel off the metal plate, the metal plate and the vacuum heat insulating material can be easily separated and recyclable.

  (4) Further, by providing an additional base material and an additional metal plate, it is possible to secure rigidity when attaching a load bearing member such as a lashing rail for preventing a collapse of a load to a heat insulating panel incorporated in a vehicle luggage compartment. .

  (5) The rigidity of the base material alone is improved by adopting a structure in which the cover material is fitted into the base material and sufficiently taking the thickness of the peripheral portion of the base material.

  (6) Adhesive strength between the two members is increased by providing the leg portions on the lid material and increasing the mutual contact area when the lid material is fitted into the base material.

  (7) By engaging the base material step portion and the periphery of the lid member with the concavo-convex portion, it is possible to prevent the positional deviation of both members until the completion of bonding.

  (8) The flank provided in the recess of the base material can prevent the film covering the corners of the vacuum heat insulating material and the folded portion of the film from rubbing against the base material, resulting in film damage. Prevents loss of vacuum insulation function.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1 to 5 show an example of an embodiment of a heat insulation panel according to the present invention. A core 1 made of a material having low thermal conductivity such as glass fiber is encapsulated with a polyamide film 2 and deaerated and sealed. A vacuum insulating material 3, a plate-like base material 5 formed by polystyrene foaming and having a recess 4 for accommodating the heat insulating material, and a vacuum formed by polystyrene foaming and fitted in the recess 4. A lid 6 bonded to the substrate 5 so as to cover the heat insulating material 3, a metal plate 8 sandwiched between the heat shield 7 composed of these members and bonded to the substrate 5 and the lid 6, and polystyrene And an additional base plate 9 adhered to the metal plate 8 adjacent to the lid member 6 and an additional metal plate 10 adhered to the base member 9.

  The vacuum heat insulating material 3 folds the ear portions 11 and 12 of the film 2 extending along the long side of the core 1 and the ear portions 13 and 14 of the film 2 extending along the short side into the core 1 covering portion of the film 2 in order. After the stacking, the folded portion 15 composed of the ear portions 11 to 14 is fitted into the recess 4 so as to face the inner bottom surface side of the recess 4 and bonded to the base material 5.

  Two recesses 4 of the base material 5 are arranged with a space 16 between them, and each recess 4 has a stepped portion 17 into which the peripheral portion of the lid member 6 fits and is connected flatly to the base material 5, and a vacuum heat insulating material. A flank 18 that forms a gap with respect to the three corners, a flank 19 that forms a gap with respect to the folded portion 15 of the film 2, and a concave shape that faces the peripheral edge of the lid 6 fitted into the stepped portion 17. A section 20 is provided.

  Further, the lid member 6 is provided with a leg portion 21 that protrudes toward the step portion 17 of the base material 5 and a convex portion 22 that can be fitted into the concave portion 20.

  In addition to this, when a vehicle luggage compartment or the like is constituted by a plurality of heat insulating panels, the concave and convex joint portions 23 and 24 that extend along the edge and can be fitted to each other are provided on the adjacent base material 5. In addition, the insulation panel can be easily and reliably installed.

  A skin layer is formed on the surface layer portions of the base material 5 and the lid material 6 which are boundaries between polystyrene foamed so as to have a volume ratio of about 20 to 30 times and the molding surface.

  As can be understood empirically from everyday packaging materials, the skin layer of the parts formed by foaming in the mold of polystyrene is extremely dense compared to the surface where the unused part of the foam material is cut by machining. Since it is high and smooth and is not easily deformed, the vacuum heat insulating material 3, the base material 5, the lid material 6 and the metal plate 8 which are the elements of the heat shield 7 are firmly attached to each other using an adhesive or a double-sided adhesive tape. Can be joined.

  In particular, since the cover material 6 is fitted into the base material 5 so that the thickness of the peripheral portion of the base material 5 is sufficient, the rigidity of the base material 5 alone is improved, and the leg portion 21 is provided on the cover material 6 so that the cover is covered. Since the mutual contact area when the material 6 is fitted into the base material 5 is increased, the adhesive strength between both members is increased, and the concave portion 20 of the step portion 17 of the base material 5 and the convex portion 22 at the periphery of the lid material 6 are formed. By engaging, it is possible to prevent displacement of both members until completion of bonding.

  In addition, although the rigidity of the vacuum heat insulating material 3 itself cannot be expected, the metal plate 8 is joined to the intermediate column 16 interposed between the two recesses 4 into which the vacuum heat insulating material 3 is fitted. The rigidity that the metal plate 8 and the lid member 6 are not easily peeled off from the base material 5 can be secured.

  That is, it is possible to obtain a heat insulating panel that is lightweight and has appropriate bending strength and impact resistance.

  Furthermore, since the heating process does not exist when the vacuum heat insulating material 3 is enclosed in the heat shield 7, the vacuum heat insulating material 3 is not deteriorated due to the influence of high temperature.

  In addition, the film 2 covering the corners of the vacuum heat insulating material 3 and the folded portion 15 of the film 2 are rubbed against the base material 5 by the flank surfaces 18 and 19 provided in the recess 4 of the base material 5. It is possible to prevent the loss of function of the vacuum heat insulating material 3 due to the damage of the film 2.

  Similarly, the base material 9 may be formed by in-mold foaming. However, since the base material 9 is a flat plate having no irregularities, it is possible to form a skin layer on the surface layer portion by extrusion and is adjacent to the lid 6. The base material 9 and the metal plate 10 can be firmly joined to the metal plate 8 in order using an adhesive, a double-sided adhesive tape, or the like.

  By providing the base material 9 and the metal plate 10, it is possible to secure rigidity when a load bearing member such as a lashing rail for preventing load collapse is attached to the heat insulating panel incorporated in the vehicle luggage compartment.

  Since the base materials 5 and 9 and the lid material 6 are made of a polystyrene foam material that dissolves in limonene, the volume of polystyrene is reduced by immersing the thermal insulation panel in limonene when unpacking the thermal insulation panel. Alternatively, there is no work of peeling off the metal plates 8 and 10, and the metal plates 8 and 10 and the vacuum heat insulating material can be easily separated and recyclable.

  Note that the heat insulation panel of the present invention is not limited to the above-described embodiment, and the present invention is applied to structures other than the cargo compartment of a vehicle such as a cold storage or a freezer, Of course, changes can be made without departing from the scope of the invention.

  The heat insulation panel of the present invention can be applied to a heat insulating partition wall of various structures.

It is a conceptual diagram which shows the assembly | attachment structure of an example of embodiment of the heat insulation panel of this invention. It is an II-II arrow line view of FIG. It is a conceptual diagram which shows the folding process of the film ear | edge part of the vacuum heat insulating material relevant to FIG. It is a top view of the heat shield related to FIG. It is a VV arrow line view of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Core 2 Film 3 Vacuum heat insulating material 4 Indentation 5 Base material 6 Lid material 7 Heat shield 8 Metal plate 9 Base material 10 Metal plate 11, 12 Ear part 13, 14 Ear part 15 Folding part 17 Step part 18, 19 Escape Surface 20 Concave part 21 Leg part 22 Convex part

Claims (7)

  A plate-like base material formed by foaming in a mold of polystyrene and having a recess for accommodating a heat insulating material, a vacuum heat insulating material fitted in the recess and adhered to the base material, and formed by foaming in a mold of polystyrene A heat insulating panel comprising: a cover material bonded to the base material so as to cover the vacuum heat insulating material; and a heat shield composed of these members sandwiched between the metal plates and bonded to the metal plates.   The heat insulating panel according to claim 1, wherein an additional base material formed by foaming or extrusion of polystyrene in a mold is bonded to a metal plate, and the additional metal plate is bonded to the base material.   The heat insulation panel in any one of Claim 1 or Claim 2 which provided the step part in which a cover material peripheral part fits in the base material.   The heat insulation panel of Claim 3 which provided the leg part which protrudes toward the step part of a base material in the cover material.   The heat insulation panel in any one of Claim 3 or Claim 4 which provided the uneven | corrugated shaped part which can mutually engage in a base-material step part and a cover material periphery.   The vacuum heat insulating material which encapsulated the core with the film and deaerated and sealed was used, and the flank which forms a space | gap with respect to the corner | angular part of the said vacuum heat insulating material was provided in the hollow of the base material of Claim 1 thru | or 5 The heat insulation panel in any one.   Using vacuum insulation material with the core encapsulated in a film and degassed and sealed, the ear part of the film formed around the core is folded over the core covering part of the film, and the gap between the folded part of the film The heat insulation panel in any one of Claims 1 thru | or 6 which provided the flank which forms A in the hollow of a base material.

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