JP2006077393A - Thermal insulation panel and box for conveyance - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem in a conventional thermal insulation panel wherein, when the whole of vacuum insulation material is formed of a plurality of sealed chambers, the covering rate thereof occupied by a core is lowered and a thermal insulation performance is lowered. <P>SOLUTION: The vacuum insulation material 1 comprises a plurality of core materials 5 and 6 in a laminate film 2, and vacuum-sealed by surface heaters, respectively. The plurality of core materials 5 are disposed at connection parts 7 connected to a dwelling house. Since the thermal insulation panel 6 is joined to the connection parts 7 of the dwelling house with nails, the other vacuums do not leak even if several vacuums return to normal pressures. Accordingly, the thermal insulation performance is not largely affected. Also, since large cores are disposed at the other portions, the deterioration of thermal insulation performance due to the lowering of the covering rate of the core can be suppressed. Also, the vacuum insulation material can be easily applied to wall materials. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a heat insulating panel to which a vacuum heat insulating material applied to inner and outer walls of a building is applied. Further, the present invention relates to a transport box for distribution using an insulating panel.

  As for the vacuum heat insulating material used for the conventional heat insulation panel, the some core material is vacuum-sealed integrally (for example, refer patent document 1).

FIG. 9 is a schematic view of a conventional vacuum heat insulating material described in Patent Document 1. As shown in FIG. 7, in the conventional vacuum heat insulating material 1, a plurality of core materials 3 are individually vacuum-sealed between laminate films 2. Thereby, even if the vacuum of several core materials 3 leaks, since the leak does not reach to other places, durability can be improved and a decrease in heat insulation performance can be suppressed. Further, the vacuum heat insulating material 1 can be fixed by an inexpensive method such as a nail.
JP-A-7-139690

  However, in the above conventional configuration, the entire vacuum heat insulating material 1 is formed by vacuum-sealing a plurality of core materials 3, so that there is a problem that the covering ratio occupied by the core material is lowered and the heat insulation performance is lowered. It was.

  This invention solves the said conventional subject, suppresses the fall of the coating rate of a core material, provides the heat insulation panel which applied the vacuum heat insulating material excellent in heat insulation performance and also excellent in workability. Objective.

  In order to solve the above-described conventional problems, the vacuum heat insulating material of the present invention is a vacuum heat insulating material in which a core material divided into a plurality of parts is disposed around the vacuum heat insulating material.

  As a result, even if the vacuum sealing of several small cores around the vacuum heat insulating material returns to normal pressure, the heat insulating performance can be prevented from deteriorating, so it can be joined with nails, etc., and the core of the entire vacuum heat insulating material The coverage of the material can also be increased.

  The heat insulation panel of the present invention has high heat insulation performance, and can be applied to a wall material easily because it can slightly suppress a decrease in heat insulation performance due to joining with a nail or the like.

  The invention according to claim 1 is a heat insulating panel in which a vacuum heat insulating material obtained by putting a core material in a laminate film and vacuum-sealing is incorporated into a panel, and is divided into a plurality of portions only at a joint portion for bonding the vacuum heat insulating material and the panel. This is a heat insulation panel with a core material, and since the core material divided into multiple parts is placed at the joint where the vacuum heat insulation material is joined to the heat insulation panel, several vacuum leaks due to joining with nails etc. However, since no other vacuum leaks, there is no significant effect on the heat insulation performance, and the other parts have a core material that is not divided into multiple parts, so the heat insulation performance due to a decrease in the core material coverage rate Therefore, the vacuum heat insulating material can be easily applied to the heat insulating panel.

  The invention according to claim 2 is a heat insulating panel in which a vacuum heat insulating material obtained by placing a core material in a laminate film and vacuum-sealing is incorporated in the panel, and a core material divided into a plurality of portions is disposed only at the periphery of the vacuum heat insulating material. Since it is a heat insulation panel and a core material divided into a plurality of parts is arranged around the vacuum heat insulating material, even if several vacuum leaks due to joining with nails etc., other vacuum may leak Because there is no significant influence on the heat insulation performance, and the other parts are arranged with a core material that is not divided into a plurality of parts, it is possible to suppress the heat insulation performance due to a decrease in the core material coverage rate, and easily vacuum insulation The material can be applied to the heat insulation panel.

  In addition, since there is a core material divided into a plurality of parts in the peripheral part, it is easy to find a place where it can be hit with a nail or the like, and it becomes easy to join at the site.

  The invention described in claim 3 is a heat insulating panel in which a vacuum insulating material that is vacuum-sealed by putting a core material in a laminate film is incorporated in the panel, and the core material divided into a plurality of portions is arranged only at the corners of the vacuum heat insulating material. Since it is a heat insulation panel and a core material divided into a plurality of parts is arranged around the vacuum heat insulating material, even if several vacuum leaks due to joining with nails etc., other vacuum may leak Because there is no significant influence on the heat insulation performance, and the other parts are arranged with a core material that is not divided into a plurality of parts, it is possible to suppress the heat insulation performance due to a decrease in the core material coverage rate, and easily vacuum insulation The material can be applied to the heat insulation panel.

  In addition, since there is a core material that is divided into a plurality of parts at the corners, it is easy to know where the nails can be struck and it is easy to join them on site.

  The invention according to claim 4 is a heat insulating panel in which a vacuum heat insulating material in which a core material is put in a laminate film and vacuum-sealed is incorporated in the panel, and the core material divided into a plurality of only two sides facing the vacuum heat insulating material. This is a heat insulation panel that is arranged, and a core material divided into a plurality of parts is arranged around the vacuum heat insulating material, so even if several vacuum leaks due to joining with nails etc., other vacuum leaks Since there is no major impact on the heat insulation performance, and the other parts are arranged with a core material that is not divided into multiple parts, the heat insulation performance due to a decrease in the core material coverage rate can be suppressed, and easily It becomes possible to apply a vacuum heat insulating material to a heat insulation panel.

  Further, since there are core materials divided into a plurality of parts only on the two sides facing each other, it is easy to find a place where it can be hit with a nail or the like, and it becomes easy to join at the site. Moreover, since it can join in two sides which face, it can join firmly.

  Invention of Claim 5 is the heat insulation panel as described in any one of Claim 1 to 4 which changed the external appearance of the panel on the core material which was not divided | segmented, and the core material which is not divided | segmented, Since the points that should not be pierced with screws or the like are known, mistakes in typing can be eliminated, and it becomes easy to join the heat insulation panels in the field.

  Invention of Claim 6 is a box for conveyance which applied the heat insulation panel as described in any one of Claims 1-5, and has high heat insulation performance since the vacuum heat insulating material is applied. Since the heat insulation panel can be made thin, the internal volume can be widened. Moreover, since heat intrusion into the box is suppressed, the load on the room temperature facility is reduced, and energy saving can be achieved.

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

(Embodiment 1)
FIG. 1 is a front view of a heat insulating panel according to Embodiment 1 of the present invention. FIG. 2 is a side view of the heat insulation panel according to Embodiment 1 of the present invention. FIG. 3 is a cross-sectional view of the vacuum heat insulating material 1 according to Embodiment 1 of the present invention.

  1, 2, and 3, a heat insulating panel 6 includes a vacuum heat insulating material 1, and the vacuum heat insulating material 1 includes a core material 5 divided into a plurality of laminate films 2 and a core material 3, and a vacuum. Pulled and individually sealed.

  The core material 5 divided into a plurality of parts is arranged at the joint 7 when joining to a house or the like. The vacuum heat insulating material 1 is joined to the panel 4 with an adhesive or the like to form a heat insulating panel 6. The vacuum heat insulating material 1 can vacuum-seal a large number of different core materials simultaneously by welding the laminate film 2 with a planar heater.

  The effect | action is demonstrated below about the heat insulation panel comprised as mentioned above.

  The heat insulating panel 6 is joined to the house as a wall material by a nail or a screw at the joint portion 7 where the core material 5 divided into a plurality of parts is arranged as a building material or a wall material such as a house. Moreover, before joining the panel 4 and the vacuum heat insulating material 1, you may incorporate as a wall material of a house, and may join together with a nail, a screw, etc. collectively. Moreover, instead of putting it in the house as the heat insulating panel 6, it is possible to use only the vacuum heat insulating material 1 joined to the wall material of the existing house.

  As described above, in the present embodiment, the vacuum heat insulating material 1 includes the core material 5 divided into a plurality of parts inside the laminate film 2 and the core material 3 in other portions, and is individually provided by a planar heater or the like. Since the core material 5 divided into a plurality of parts is arranged in the joint 7 to be joined to a house or the like, several vacuums have returned to normal pressure by joining nails or the like. However, since no other vacuum leaks, the heat insulation performance is not greatly affected, and the core material in other parts is not divided as much as the core material 5 divided into a plurality of parts, so that the core material coverage rate is reduced. A decrease in heat insulation performance can be suppressed.

  Moreover, it becomes possible to apply the heat insulation panel 6 to a wall material easily by an inexpensive method using a nail or the like. In addition, if the size of the core material 5 divided into a plurality is reduced, the heat leak increases and the heat insulation performance decreases, but by making the metal layer of the laminate film a vapor deposition layer, while suppressing the decrease in gas barrier properties, Since heat leak can be reduced, it is possible to suppress a decrease in heat insulation performance.

  Also, by changing the color of the appearance of the panel 4 located on the place where the core material 5 divided into a plurality of parts is arranged, changing the pattern, etc., the place where nailing can be clearly understood and the wrong place It is possible to suppress nailing.

  Further, when the core material 5 divided into a plurality of parts on only the two sides as shown in FIG. 1 is arranged, a place where it can be struck with a nail or the like can be easily understood and joined easily. Moreover, since it is only on the two sides of the vacuum heat insulating material, the core material coverage is high and the heat insulating performance is high. Moreover, since it can join in two sides which face, it can join firmly and does not peel easily.

(Embodiment 2)
FIG. 4 is a front view of the heat insulation panel according to Embodiment 2 of the present invention. FIG. 5 is a side view of the heat insulation panel according to Embodiment 2 of the present invention.

  4 and 5, the heat insulating panel 6 is obtained by joining the panel 4 and the vacuum heat insulating material 1, and the vacuum heat insulating material 1 is provided inside the laminate film 2, and a core material 5 divided into a plurality is provided at the peripheral portion. Arranged, the core material 3 is arranged in other parts, vacuumed, and individually sealed. The vacuum heat insulating material 1 is joined to the panel 4 with an adhesive or the like.

  The vacuum heat insulating material 1 can vacuum-seal a large number of different core materials simultaneously by welding the laminate film 2 with a planar heater. Here, the vacuum heat insulating material 1 and the panel 4 are joined by an adhesive, but may be joined by a nail, a screw, or the like at a place where the core material 5 divided into a plurality of parts is disposed.

  The effect | action is demonstrated below about the heat insulation panel comprised as mentioned above.

  The heat insulating panel 6 is joined to the house as a wall material by a nail or a screw at a peripheral portion where the core material 5 divided into a plurality of parts is arranged as a building material or a wall material such as a house. Moreover, before joining the panel 4 and the vacuum heat insulating material 1, you may incorporate as a wall material of a house, and may join together with a nail, a screw, etc. collectively. Moreover, instead of putting it in the house as the heat insulating panel 6, it is possible to use only the vacuum heat insulating material 1 joined to the wall material of the existing house.

  As described above, in the present embodiment, the vacuum heat insulating material 1 includes the core material 5 divided into a plurality of parts inside the laminate film 2 in the peripheral portion, and includes the core material 3 in other portions, and is a planar heater. Each of them is vacuum-sealed individually, etc., and in the periphery where a large number of core materials 5 divided into a plurality are arranged, they are joined together with nails or the like as a wall material for a house. Even if the vacuum returns to normal pressure, no other vacuum leaks, so there is no significant effect on the heat insulation performance, and a large core material is placed in other parts, resulting in a decrease in core material coverage. It is possible to suppress a decrease in heat insulation performance due to.

  In addition, since there is a core material divided into a plurality of parts in the peripheral part, it is easy to find a place where it can be hit with a nail or the like, and it becomes easy to join. In addition, the vacuum heat insulating material can be easily applied to the wall material. In addition, if the size of the core material 5 divided into a plurality is reduced, the heat leak increases and the heat insulation performance decreases, but by making the metal layer of the laminate film a vapor deposition layer, while suppressing the decrease in gas barrier properties, Since heat leak can be reduced, it is possible to suppress a decrease in heat insulation performance.

(Embodiment 3)
FIG. 6 is a front view of the heat insulation panel according to Embodiment 3 of the present invention. FIG. 7 is a side view of the heat insulation panel according to Embodiment 3 of the present invention.

  FIGS. 6 and 7 show a group of core materials 5 divided into a plurality of the vacuum heat insulating materials 1 of FIG. 4 in Embodiment 2 arranged only at the corners.

  The effect | action is demonstrated below about the heat insulation panel comprised as mentioned above.

  The heat insulating panel 6 is joined to the house as a wall material by a nail or a screw at a corner portion where the core material 5 divided into a plurality of parts is arranged as a building material or a wall material such as a house. Moreover, before joining the panel 4 and the vacuum heat insulating material 1, you may incorporate as a wall material of a house, and may join together with a nail, a screw, etc. collectively. Moreover, instead of putting it in the house as the heat insulating panel 6, it is possible to use only the vacuum heat insulating material 1 joined to the wall material of the existing house.

  As described above, in the present embodiment, a group of the core materials 5 divided into a plurality of the vacuum heat insulating materials 1 of FIG. 1 in the first embodiment is arranged at the corners. Therefore, in addition to the effects of the first embodiment, since there is a core material divided into a plurality at the corners, it is easy to find a place where it can be hit with a nail or the like, and it becomes easy to join. Moreover, since it is only a corner | angular part, a core material coverage is high and heat insulation performance is high.

(Embodiment 4)
FIG. 8 is a cross-sectional view of the transport box 8 to which the heat insulating panel according to Embodiment 4 of the present invention is applied.

  In FIG. 8, it is a box to which the heat insulation panel 6 of Embodiments 1 to 3 is applied, and is applied to the inside or outside of the box, or a box is formed by the heat insulation panel itself.

  Therefore, since the heat insulation panel is thin, the internal volume can be increased. Moreover, since joining of a vacuum heat insulating material is easy, it is excellent in workability, and a vacuum heat insulating material can be removed as needed. Here, the transport box refers to a cold box, a container, or the like.

  As described above, the vacuum heat insulating material according to the present invention can suppress a decrease in heat insulating performance due to a decrease in the degree of vacuum and can be easily joined by nails, sewing, etc., such as bags, clothes, shoes, etc. It can be applied to other uses.

The front view of the heat insulation panel in Embodiment 1 of this invention Side view of heat insulation panel in Embodiment 1 of the present invention Sectional drawing of the vacuum heat insulating material used for the heat insulation panel in Embodiment 1 of this invention Front view of heat insulation panel in Embodiment 2 of the present invention Side view of the heat insulation panel in Embodiment 2 of this invention Front view of heat insulation panel in Embodiment 3 of the present invention Side view of the heat insulation panel in Embodiment 3 of this invention Sectional drawing of the box for conveyance in Embodiment 4 of this invention Schematic diagram of vacuum insulation used in conventional insulation panels

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Vacuum heat insulating material 2 Laminated film 4 Panel 5 The core material divided | segmented into plurality 6 Heat insulating panel 7 Junction part 8 Carrying box

Claims (6)

  A heat insulating panel in which a vacuum heat insulating material in which a core material is put in a laminate film and vacuum-sealed is incorporated in the panel, and the core material divided into a plurality of portions is disposed only at a joint portion where the vacuum heat insulating material and the panel are bonded.   A heat insulating panel in which a vacuum heat insulating material in which a core material is put in a laminate film and vacuum-sealed is incorporated in the panel, and a heat insulating panel in which a core material divided into a plurality of portions is arranged only in the peripheral portion of the vacuum heat insulating material.   A heat insulating panel in which a vacuum heat insulating material in which a core material is put in a laminate film and vacuum-sealed is incorporated in the panel, and a heat insulating panel in which a core material divided into a plurality of portions is arranged only at the corners of the vacuum heat insulating material.   A heat insulating panel in which a vacuum heat insulating material in which a core material is put in a laminate film and vacuum-sealed is incorporated in the panel, and the core material divided into a plurality of portions is arranged only on two sides facing the vacuum heat insulating material.   The heat insulation panel as described in any one of Claims 1-4 which changed the external appearance of the panel on the core material which is not divided | segmented, and the core material which is not divided | segmented.   The conveyance box to which the heat insulation panel as described in any one of Claims 1-5 is applied.

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