JP3905211B2 - Mounting structure for roof insulation panels - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mounting structure of the roof insulation panels, which was as the thermal insulation of the roof can hold the airtight state, which is suitable in the case of particularly high thermal insulation and high airtightness.
[0002]
[Prior art]
In recent years, as a specification of general wooden houses, high heat insulation and high airtightness have been achieved to improve the durability of the frame and to reduce the heating and cooling load, and an external heat insulation method or the like has been adopted.
[0003]
In conventional exterior insulation methods, etc., heat insulation panels are mainly installed on the outer wall and ceiling of the building to insulate them. Since the temperature rise of the part is large, and the temperature of the heat insulating material part of the ceiling becomes considerably high even if it is insulated at the ceiling part, the heat insulation of the roof part has become important.
[0004]
For this reason, when it is going to insulate the roof part, for example, as shown in FIG. 6, the square members 2 are attached to both sides and the middle part of the face material 1 such as a plywood, and the foam insulation is provided between these square members 2. As shown in FIG. 7, the heat insulation panel 4 is abutted on the frame assembly 5 such as a roof purlin or a rafter as shown in FIG. 7 using the heat insulation panel 4 similar to the heat insulation panel used for heat insulation of the outer wall portion filled with the material 3. However, the square members 2 and 2 are connected and fixed to each other with a nail or the like, and a roof plate (not shown) is attached by attaching a field board 6 thereon.
[0005]
However, the abutting portions of the heat insulating panels 4 and 4 cannot be made airtight only by attaching such heat insulating panels 4 and 4 to each other, and sufficient heat insulating performance cannot be ensured.
[0006]
Therefore, joints such as applying a sealing tape 7 to the abutting portions of the heat insulating panels 4 and 4 from the back of the hut and sealing them, or spraying a sealing material such as urethane on the abutting surface when abutting the heat insulating panels, etc. It is in an airtight state by performing processing.
[0007]
[Problems to be solved by the invention]
However, after attaching the heat insulation panel 4, even if the tape 7 is applied from the back side of the hut to secure an airtight state, a portion where the shaft assembly 5 becomes obstructive and the tape 7 cannot be applied is generated, and the state is made completely airtight. In addition, there is a problem that construction is difficult and takes time.
[0008]
In addition, when a sealing material such as urethane is used, there is a problem that the construction work becomes difficult because a spraying operation of the sealing material is added in addition to the mounting operation of fixing the heat insulating panel with a nail or the like.
[0009]
The present invention has been made in view of the problems of the prior art, and is intended to provide a roof heat insulating panel mounting structure that is easy to insulate the roof portion and can be easily airtight. It is.
[0010]
[Means for Solving the Problems]
The roof heat insulation panel mounting structure according to claim 1 of the present invention that solves the problems of the prior art described above is that a square member is disposed on a sheet-like face member, and the heat insulating member is disposed on the face member between the square members. And having both ends of the face member bend on the upper surface along the outer side surface of the square member so as to protrude to a length that can be fixed, thereby constituting a heat insulating panel for roof, and the square member of the adjacent heat insulating panel for roof The side surfaces of the adjacent roof insulation panels are overlapped with each other, folded on the top surface of one square member from between the square members, and fixed with nails. It is characterized in that a ground plane is arranged .
[0011]
According to this roof heat insulating panel mounting structure, square members are arranged at both ends of the sheet-like face member, and both end edges of the face member of the heat insulating panel having the heat insulating member are protruded between them. Bending along the outer side and reaching the top surface, when this roof insulation panel is placed side by side and attached to the roof frame, the side surfaces of the squares are abutted together and the face materials are stacked together between the squares Folded onto the top surface of one of the square members, fixed with nails, and fixed the base plate on this, the joints can be sealed and attached to each other. In addition to being able to seal the part, the base plate is pressed against the face material fixed on the top surface of the square bar, further pressing the face plate, further improving the close contact between the face materials, and making sure that the heat insulation panel is in a sealed state. It is possible to mount the, consisting of square material similar to the construction method of a conventional roof to be combined with a rafter may be thermally insulated roof easily.
[0012]
According to a second aspect of the present invention, the roof heat insulating panel mounting structure is characterized in that , in addition to the configuration of the first aspect, the heat insulating material is made lower than the height of the square member.
[0013]
According to this roof heat insulating panel mounting structure , the height of the heat insulating material is made lower than the height of the square member, so that a space for ventilation can be formed on the surface side of the heat insulating material.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is an external perspective view of a roof heat insulation panel according to an embodiment of the roof heat insulation panel mounting structure of the present invention.
The heat insulating panel 10 for roof is provided with a sheet-like face material 11 which is provided with a rafter attached to a roof frame, and at the same time, is attached with a heat insulating material and seals a joint portion. 11, the seal projections 11 a for the joints are left at both end edges of the joint 11, and the square members 12 are arranged in parallel on the inside thereof, and the square members 12 are also arranged in the middle portion, and between the square members 12, 12. A heat insulating material 13 is attached, and the face material 11 and each square member 12 and the face material 11 and the heat insulating material 13 are fixed with an adhesive or the like.
[0015]
And this in the roofing insulation panels 10, temporary connecting member 14 for connecting the three timbers 12 between to retain its shape is attached three, can be handled as a panel when transporting and construction, construction Later, they are removed.
[0016]
In this heat insulating panel 10 for roof, normal wood is used as the square member 12, and its thickness and length are selected so that it can be used as a rafter, for example, 60 × 60 × 3000 mm or 60 × 60 × 4000 mm. The size of the heat insulating panel 10 for roof is, for example, 900 mm wide × 3000 mm long, or 4000 mm long.
[0017]
Moreover, as a sheet | seat which comprises the face material 11, what is necessary is just to have flexibility, papers, such as craft paper and liner paper, plastic films, such as a polyethylene film, a polypropylene form, a nylon film, metal foil which consists of aluminum, iron, etc., In addition, a laminate of plastic film and metal foil, a laminate of plastic film and paper, a laminate of metal foil and paper, etc. are used. You can also.
[0018]
The face member 11 is formed with a projecting portion 11a for sealing on the outer side of the square member 11. The projecting portion 11a is at least the upper surface 12b when bent along the outer surface 12a and the upper surface 12b of the square member 12. It is a length that can cover up to about half of the width.
[0019]
Furthermore, as the heat insulating material 13, for example, polyurethane foam, polyisocyanurate foam, polystyrene foam, polyethylene foam, phenol foam, glass fiber, cellulose fiber, and the like can be used, and the height (thickness) of the heat insulating material 13 is a square material. Although it can also be made the same as the height (thickness) of 12, it can be set as the heat insulation panel 10 for roofs which has ventilation space by making it thinner than the height (thickness) of the square member 12.
[0020]
And this heat insulating material 13 installs the panel-shaped heat insulating material 13 shape | molded previously between the square materials 12, or injects between the square materials 12 which arranged the raw | natural liquid of the foam on the face material 11. FIG. As shown in FIG. 2, the foam stock solution is sprayed onto the face material 21 from the spray nozzle 22 onto the face material 21 composed of continuously supplied sheets. The roof heat insulating panel 20 can be continuously manufactured by attaching the heat insulating material 25 so as to cover the square material 24 arranged on the conveyor 23 by inverting the material 21.
[0021]
Next, the mounting structure of the heat insulation panel for roofs using the heat insulation panel 10 for roofs comprised in this way is demonstrated in detail, referring FIG.
In this roof heat insulating panel mounting structure, the roof heat insulating panel 10 is arranged by placing the square member 12 of the roof heat insulating panel 10 also as a rafter on the frame 5 such as a purlin that is a roof shaft. arranging the protrusions 11a of the face material 11, 11 between the square member 12, 12 of roofing insulation panels 10, 10 adjacent to protrude upward repeatedly 11a together, the superimposed protrusions 11a, 11a of one of the The square member 12 is bent to the upper surface 12b, and the square member is fixed to the shaft assembly with a nail or the like.
[0022]
Then, remove the temporary coupling member 14 for connecting the square timber 12 together, stopping protrusions 11a of the superimposed face material 11, 11, 11a are the square timber 12 by fasteners such as nails.
[0023]
Thereafter, the base plate 6 is stretched on the square members 12 and 12 of the roof insulation panels 10 and 10 and fixed with nails or the like, and the roof member is attached in the same manner as in the past.
[0024]
According to such a mounting structure of the heat insulating panel 10 for a roof, the sheet-like face materials 11 are overlapped with each other , and the stacked face members 11 and 11 are adjacent to the square members 12 and 12 of the adjacent heat insulating panels 10 and 10 for the roof. Since the outer side surfaces 12a and 12a of the square member 12 and the upper surface 12b of one of the square members 12 are bent and stopped, the joint portion on the indoor side of the heat insulating panels 10 and 10 for the roof, which is the back side of the shed, is overlapped. It is sealed with the face materials 11 and 11, and the air is prevented from passing through, so that it can be airtight.
[0025]
Then, when the mounting operation of the roofing insulation panels 10 may be so as to project upward by overlapping the protruding portion 11a between plate member 11 projecting laterally, the mounting operation with most such conventional rafters Installation of the heat insulating material and sealing of the joint portion are completed in the same work process, and the rafter can be attached and insulated in a short time, and the sealing of the joint portion can be performed.
[0026]
Further, in the mounting structure of the roofing insulation panels 10, the protruding portions 11a between the face plate 11 and be fixed to the upper surface 12b of the square timber 12 with fasteners such as nails, unlike fixed by adhesive or the like, the physical Because of the fixed fixation, it is excellent in durability and can be kept airtight for a long time.
[0027]
Furthermore, by using the heat insulation panel 10 for roofs, even if it is a roof of a gable, a roof of a ridge building, etc., as shown in FIG.4 and FIG.5, for example, the heat insulation panel 10 for roofs is put on each frame 5 The roof part can be easily heat-insulated by arranging and fixing the protrusions of the face material on top of each other and fixing the top face of the square material.
[0028]
In the embodiment described above, the square member of the heat insulating panel for roof is used as a rafter and is attached to the shaft assembly. However, the present invention is not limited to such a case, and the top or field of the rafter attached to the shaft assembly is used. It can also be mounted on a ground plane.
[0029]
【The invention's effect】
As described above in detail with the embodiment, according to the mounting structure for a heat insulating panel for roof according to claim 1 of the present invention, the square members are arranged at both end portions on the sheet-like face material, and the heat insulation therebetween. When both end edges of the face panel of the heat insulation panel with lumber protruded and bent along the outer side of the square bar to reach the upper surface, this roof insulation panel is mounted side by side on the roof frame In addition, the side surfaces of the square members can be abutted with each other , and the surface members can be overlapped and fixed on the upper surface of one of the square members, and the joint portion can be sealed and attached in an airtight state.
[0030]
Furthermore, according to the mounting structure of the heat insulation panel for roofs of the present invention, when attaching the heat insulation panel for roofs, the face material protruding to the edge thereof is overlapped with the face material of the edge of the adjacent heat insulation panel for roof, By sticking the nail on the top of one of the square members, the joints can be sealed at the same time as installing the insulation panel for the roof, making it easy to insulate the roof. it can.
[0031]
In addition, according to the mounting structure of the roof heat insulating panel of the present invention, when the roof heat insulating panel is mounted, the field board is further applied and pressed onto the face material fixed on the top surface of the square member. The heat insulation panel can be attached in a more reliable sealed state, and the roof can be easily insulated by using the timber also as the rafter as in the conventional roof construction method.
[0032]
Thereby, compared with the case where it seals with a tape etc. from the back side of a roof, while being construction, it can fix physically with a nail etc., it is excellent in durability, and can maintain an airtight state for a long period of time.
[0036]
According to the roof heat insulating panel mounting structure according to claim 2 of the present invention, since the height of the heat insulating material is made lower than the height of the square member, a ventilation space is formed on the surface side of the heat insulating material. can do.
[0033]
[Brief description of the drawings]
FIG. 1 is an external perspective view of a roof heat insulation panel according to an embodiment of a roof heat insulation panel mounting structure of the present invention.
FIGS. 2A and 2B are a side view and a BB cross-sectional view according to an example of a continuous manufacturing process of a roof heat insulating panel used in the roof heat insulating panel mounting structure of the present invention.
FIG. 3 is a process diagram showing, in an enlarged manner, a portion of one embodiment of the roof heat insulation panel mounting structure according to the present invention.
FIGS. 4A and 4B are a side view of a shaft set and a plan view of the roof when a gable roof is formed by the structure for mounting a heat insulating panel for roof according to the present invention. FIGS.
FIGS. 5A and 5B are a side view of a shaft set and a plan view of a roof when a roof of a ridge building is configured by the mounting structure for a heat insulating panel for roof according to the present invention. FIGS.
FIG. 6 is an external perspective view of a conventional roof heat insulation panel.
FIGS. 7A and 7B are a side view and a partially enlarged view of a conventional mounting structure using a heat insulating panel for a roof. FIGS.
[Explanation of symbols]
5 Frame 6 Base plate 10 Heat insulation panel 11 for roof 11 Face material 11a Protruding part 12 Square material 12a This side surface 12b Upper surface 13 Heat insulation material 14 Temporary connection material

Claims (2)

A square member is arranged on a sheet-like face member, and a heat insulating material is provided on the face member between the square members , and both end edges of the face member can be bent and fixed on the upper surface along the outer side surface of the square member. The roof heat insulation panel is configured to protrude to the length, and the side surfaces of the square members of the adjacent roof heat insulation panel are abutted with each other, and the end face materials of the adjacent roof heat insulation panel are overlapped with each other. A structure for mounting a heat insulating panel for a roof, which is formed by bending a space between the square bars onto the upper surface of one square bar and fixing with a nail, and arranging a field board on the square bars. The roof heat insulating panel mounting structure according to claim 1, wherein the heat insulating material is lower than a height of the square member .

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