JP3089272B2 - Insulation and waterproof structure on folded roof and insulation and waterproofing method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-insulating and waterproofing structure and a heat-insulating and waterproofing construction method for an upper part of a folded roof of a building.

[0002]

2. Description of the Related Art Conventionally, roofs of buildings or eaves at eaves, etc.
As shown in FIG. 8, it is widely known to use a folded plate 21 having an approximately wavy cross-sectional shape, which is bent alternately upward and downward. The folded plate 21 has an advantage that rainwater can be smoothly discharged in a certain direction along the groove 21a of the folded plate 21.

[0003]

The folding plate 21 is usually formed of a color iron plate, a galvanized iron plate, or the like.
Problems such as peeling of the paint on the surface deteriorating the appearance and leakage of rainwater indoors are likely to occur. Also, folded 2
In the case of No. 1, since the plate thickness is generally thin, in the winter season, there is a problem that the outdoor cold air penetrates into the room through the folding plate 21 and lowers the indoor temperature. Therefore, it is considered that a waterproof sheet is laid on the folded plate 21. However, it is difficult to expect a sufficient heat insulating effect by simply laying the waterproof sheet, and when the waterproof sheet has a pinhole, Since water leaks through the hole, even the intended waterproofing effect cannot be achieved.

[0004]

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to improve the heat insulation and waterproofness of a folded roof. Therefore, the heat insulating and waterproofing structure on the folded roof according to claim 1 is obtained by attaching an aluminum film to at least the upper surface side of a substantially flat foam made of a synthetic resin foam, and extending along the upper portion of the folded plate. A plurality of thermal insulation panels to be laid, and this aluminum filter along the aluminum film on the top side of each thermal insulation panel
Fasteners or heat welding at multiple locations so that
And a waterproof sheet made of a thermoplastic resin joined by the following.

According to a second aspect of the present invention, there is provided a heat insulating and waterproofing structure on a folded roof, wherein a synthetic resin film and an aluminum film are sequentially attached to at least the upper surface side of a substantially flat foam made of synthetic resin foam, respectively. a plurality of insulation panels which are laid along the top of the plate, the aluminum along on an aluminum film on the upper surface side of the insulating panel
At several places so that the
And a waterproof sheet made of a thermoplastic resin joined by heat welding .

According to a third aspect of the present invention, there is provided a heat insulating and waterproofing structure on a folded roof, wherein three layers of paper, polyethylene film and paper are provided on at least one of the upper and lower sides of a substantially flat foam made of synthetic resin foam. It is characterized by comprising a plurality of heat insulating panels laid along the upper part of the folding plate, and a synthetic resin waterproof sheet laid along the upper part of each heat insulating panel. Things.

According to a fourth aspect of the present invention, there is provided a heat insulating and waterproofing structure on a folded roof, wherein a polyethylene terephthalate film or a polypropylene film is attached to at least one of an upper surface and a lower surface of a substantially flat foam made of synthetic resin foam. And a plurality of heat insulating panels laid along the upper part of the folding plate, and a waterproof sheet made of synthetic resin laid along the upper part of each heat insulating panel.

According to a fifth aspect of the present invention, there is provided a method for performing insulation and waterproofing on a folded roof, comprising the steps of: forming a plurality of heat insulation panels each having an aluminum film attached to at least an upper surface side of a substantially flat foam made of synthetic resin foam. Lay along the top of the folding plate, and adhere to the upper surface of this aluminum film along the aluminum film on the upper surface side of each insulation panel
Clamping the plurality of positions of the waterproof sheet made of thermoplastic resin so as to
After joining with a tie or heat welding , a predetermined voltage is applied between the aluminum film on the upper surface side of the heat insulating panel and the upper surface of the waterproof sheet, and the presence or absence of energization is detected on the waterproof sheet. The presence or absence of a pinhole is detected, and the detected pinhole is repaired.

According to a sixth aspect of the present invention, there is provided a method for performing insulation and waterproofing on a folded roof, comprising a step of sequentially attaching a synthetic resin film and an aluminum film to at least the upper surface side of a substantially flat foam made of a synthetic resin foam. sheets of a heat insulating panels laid along the top of the folding plate, the Arumini further along on the aluminum film on the upper surface side of the insulating panel
After joining a plurality of portions of the thermoplastic resin waterproof sheet with fasteners or heat welding so as to be in close contact with the upper surface of the aluminum film, the aluminum film on the upper surface side of the heat insulating panel, By applying a predetermined voltage to the upper surface and detecting the presence or absence of energization, the presence or absence of a pinhole on the waterproof sheet is detected, and the detected pinhole is repaired. It is.

[0010]

According to the first aspect of the present invention, a plurality of heat insulating panels are laid along the upper part of the folded plate, and a waterproof sheet is laid along the upper part of each heat insulating panel. Therefore, the heat insulating panel provides a heat insulating function and an auxiliary waterproof function, and the waterproof sheet provides a main waterproof function. That is, since the heat insulating panel is obtained by attaching an aluminum film to at least the upper surface of a foam made of a synthetic resin foam, the heat insulating panel is provided with sufficient heat insulating properties, and has excellent tensile strength and bending strength. The aluminum film serves as a reinforcing material for reinforcing the foam in strength, and minimizes deformation of the foam due to external force.
The aluminum film also plays a role as a waterproof layer for preventing penetration of moisture such as rainwater. In addition, thermoplastic resin
Waterproof sheet adheres to the upper surface of the aluminum film
So that flapping due to wind etc. occurs.
And there are multiple locations joined by fasteners or heat welding
Cost reduction due to no need for adhesive and its application work
You can also plan.

In addition, not only on the top side of the foam,
When the aluminum film is also adhered to the lower surface side, there is an advantage that the strength of the heat insulating panel is further improved and, at the same time, substantially uniform strength is obtained on the upper end side and the lower end side in the thickness direction of the heat insulating panel. Further, the heat insulating panel is formed in a predetermined size, for example, in a rectangular shape, and a plurality of the heat insulating panels are arranged vertically and horizontally (or in one row).
In contrast to the arrangement, one or a few waterproof sheets can cover all the thermal insulation panels with one or a few waterproof sheets, so that there is also a problem that water leaks from a gap between adjacent thermal insulation panels. It is unlikely to occur.

According to the heat insulating and waterproofing structure on the folded roof of the second aspect, as in the first aspect, the heat insulating panel laid along the upper part of the folded version exhibits the heat insulating function and the auxiliary waterproofing function, and The main waterproof function is exhibited by the waterproof sheet laid on the heat insulating panel. In this case, since the heat insulating panel is a synthetic resin foam and a synthetic resin foam and an aluminum film sequentially adhered to at least the upper surface side of the foam, the foam is reinforced by the synthetic resin film and the aluminum film,
The strength of the heat insulating panel is further improved as compared with the first aspect. In addition, since the aluminum film is adhered to the foam via the synthetic resin film, sufficient bonding strength can be obtained between the aluminum film and the synthetic resin film and between the synthetic resin film and the foam. Also in this case, if the synthetic resin film and the aluminum film are attached to both the upper surface side and the lower surface side of the foam, the strength of the heat insulating panel can be further improved as compared with the case where only the upper surface side is attached. The strength can be made substantially uniform at the upper end side and the lower end side in the thickness direction of the heat insulating panel. Furthermore, the waterproof sheet made of thermoplastic resin is made of aluminum
Wind, etc.
No flapping due to
Or, the adhesive and its application work are
Since it is necessary, cost can be reduced.

According to the third aspect of the present invention, as in the first and second aspects, the heat insulating panel and the auxiliary waterproof function are provided by the heat insulating panel laid along the upper part of the folded plate. In addition, the main waterproof function is provided by the waterproof sheet laid on the heat insulating panel.
The heat insulation panel is formed by attaching three layers of paper, a polyethylene film and paper sequentially to at least one of an upper surface side and a lower surface side of a foam made of a synthetic resin foam. It is laid along the upper surface of. The foam plays a role of a heat insulating material and is reinforced by papers arranged on both upper and lower sides.
Also, since the three layers of paper are adhered to the lower surface of the foam on the foam, the familiarity between the folded plate and the paper on the lower surface is good, and the waterproof sheet is provided on the upper surface of the foam. Since the affixed paper comes into contact, the familiarity between the paper on the upper surface side and the waterproof sheet is also good. Further, the polyethylene film in the above three layers has a waterproof function of preventing water from entering the foam from the outside.

According to the fourth aspect of the present invention, the necessary heat insulating function and auxiliary waterproof function are provided by the heat insulating panel laid along the upper part of the folded plate.
The main waterproof function is given by the waterproof sheet laid on the heat insulating panel. The heat insulation panel is obtained by adhering a polyethylene terephthalate film or a polypropylene film to at least one of the upper surface side and the lower surface side of a foam made of a synthetic resin foam. The foam is reinforced by a terephthalate film or a polypropylene film. In addition, polyethylene terephthalate film or polypropylene film,
Also acts as an auxiliary waterproof layer.

According to a fifth aspect of the present invention, there is provided a thermal insulation waterproofing method on a folded roof, in which a heat insulating panel formed by attaching an aluminum film to at least an upper surface side of a foam made of a synthetic resin foam is laid along an upper portion of the folded roof. Then, a waterproof sheet is bonded on the aluminum film on the upper surface side of the heat insulating panel. This completes the construction of the heat insulating and waterproofing structure, but a pinhole detection test for detecting whether or not there is a pinhole in the waterproof sheet is performed below. In addition, heatable
The plastic waterproof sheet is placed on the aluminum film.
Flaps due to wind etc.
Does not occur, and multiple locations are
Adhesive and no need to apply it
You can also strike down.

That is, a predetermined voltage is applied between the aluminum film adhered to the upper surface side of the heat insulating panel and the upper surface (outer surface) of the waterproof sheet laid on the aluminum film, and the presence or absence of energization is detected. I do. Since the waterproof sheet is made of a thermoplastic resin which is a non-conductive substance, when there is no pinhole, no electricity is generated between the aluminum film and the upper surface of the waterproof sheet, and in this case, no electricity is generated. After confirming that there is no pinhole, the pinhole detection test is completed and, at the same time, the construction of the insulated waterproof structure of the folded roof is completed.

On the other hand, the waterproof sheet has a pinhole.
The aluminum hole through the pinhole.
Electricity is generated between the lum and the upper surface of the waterproof sheet.
Thus, the presence of a pinhole is confirmed. In this case, the worker
Is made of the same material as the above waterproof sheetThermoplastic resin film
By sticking it on the detected pinhole
Repair pinholes. And once again, if necessary
Perform the pinhole detection test by energizing
The roof has been repaired, and heat insulation of the folded roof
Finish the construction of the waterproof structure.

[0018] The method for applying insulation and waterproofing on a folded roof according to claim 6 is the same as in claim 5 except that a synthetic resin film and an aluminum film are sequentially adhered to at least the upper surface side of the foam. The same is true.
Also in this case, after the heat insulating panel and the waterproof sheet are sequentially laid along the upper part of the folding plate, the space between the aluminum film on the upper surface side of the heat insulating panel and the upper surface (outer surface) of the waterproof sheet laid on the aluminum film is also obtained. A predetermined voltage is applied to the waterproof sheet to detect whether or not energization occurs, thereby detecting the presence or absence of a pinhole on the waterproof sheet, and performing repair to close the pinhole, if any. The same as claim 5
Like, the waterproof sheet made of thermoplastic resin is
Because it is bonded so that it adheres tightly to the upper surface of the
No flapping occurs and multiple locations of fasteners or heat
Adhesive and application work are not required because they are joined by welding
Therefore, the cost can be reduced.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1, the roof of the building is made of colored iron plate, galvanized iron plate, or the like.
a and the valleys 1b are alternately arranged in the horizontal direction, and are configured as a folded roof 1 which is bent substantially in a waveform. The folded roof 1 may not have a slope in the longitudinal direction of each peak 1a or each valley 1b, or each peak 1a
Each valley 1b may be inclined downward at a predetermined inclination angle toward the eaves side of the building.

A plurality of flat rectangular heat-insulating panels 2 are arranged vertically and horizontally along the upper surface of each mountain portion 1a of the folded roof 1 without any gaps.
One waterproof sheet 3 is laid on the heat insulating panel 2 so as to cover all the heat insulating panels 2. The heat insulation panel 2 is fastened to the peak 1a of the folded roof 1 by a fastener (not shown), for example.
The waterproof sheet 3 is fastened to the heat insulating panel 2 or the peak 1a of the folded roof 1 at a plurality of locations by, for example, another fastener (not shown).

The heat insulating panel 2 is formed by attaching a reinforcing layer 5 to both the upper surface and the lower surface of a foam 4 made of a synthetic resin foam. The foam 4 is formed by foaming a synthetic resin and molding it into, for example, a rectangular plate. Examples of the synthetic resin material constituting the foam 4 include foams such as polystyrene, polyethylene, polypropylene, and polyurethane. Of these, foams made of expanded polystyrene-based resin are preferred because they have excellent cross-sectional properties and water resistance and have relatively high strength. The expansion ratio is not limited, but generally 30 to 50 times is used. However, in order to increase the local compressive strength and bending strength, for example, in the case of using expanded polystyrene, it is preferable to use 10 to 30 times the bending strength of 5 kg / cm ² or more shown in JIS A9511 “polystyrene foam heat insulating material”. . The thickness of the foam 4 affects two factors, bending strength and heat insulation performance, and is appropriately selected according to the purpose of use. In a normal use state, the thickness is in the range of about 15 to 100 mm, preferably 25 to 50 mm. Often set within.

The reinforcing layer 5 to be adhered to the upper and lower sides of the foam 4 is made of an aluminum film 6. The thickness of the aluminum film 6 is not particularly limited, but is in the range of 7 to 50 μm. Preferably it is in the range of 10 to 30 μm. Since the aluminum film 6 has excellent tensile strength and bending strength, the foam 4 is effectively reinforced by the aluminum film 6. As a method of attaching the foam 4 and the aluminum film 6 in this case, for example, a hot-melt adhesive 7 is attached to the surface of the aluminum film 6, and the adhesive surface is formed as shown in FIG. After being superimposed on the surface of No. 4, it is pressed from the aluminum film 6 side while being heated by a heat roll 8 or the like. At this time, since the heat of the heat roll 8 is conducted to the aluminum film 6 and the hot-melt adhesive 7 is melted and pressed at the same time, the two are easily bonded.
Since the aluminum film 6 has an excellent thermal conductivity, the hot-melt adhesive 7 is uniformly and efficiently melted, and the entire surface is adhered. The size of the heat insulating panel 2 is preferably about 900 mm × 1800 mm in each of the vertical and horizontal directions.

Specific examples of the hot-melt adhesive 7 include ethylene vinyl acetate copolymer (EVA), ethylene ethyl acrylate copolymer (EEA), and ethylene methyl methacrylate copolymer (EMMA). Can be

The waterproof sheet 3 is made of various thermoplastics such as polyethylene, polypropylene and soft polyvinyl chloride.
Although a sheet made of a conductive resin can be used, a sheet made of soft polyvinyl chloride having excellent weather resistance is preferable. The thickness of the waterproof sheet 3 is preferably 1 to 3 mm.

When performing insulation and waterproofing of the upper part of the folded roof 1 using the above-mentioned insulation panel 2 and waterproof sheet 3, first,
As shown in FIG. 3, a plurality of heat insulating panels 2 are laid vertically and horizontally in close contact with each other along the upper surface of each peak 1 a of the folded roof 1. Subsequently, one waterproof sheet 3 is formed along the aluminum film 6 on the upper surface side of the foam 4 of each heat insulating panel 2.
The and not covering all of the heat insulating panel 2 Aluminum films
6 is laid so as to be in close contact with the upper surface . The heat insulation panel 2 and the waterproof sheet 3 are each provided with a plurality of fasteners (not shown).
The portion is fixed to the folded roof 1 by, for example, fastening to the peak 1a of the folded roof 1. The waterproof sheet 3 is joined to the aluminum film 6 on the upper side of the heat insulating panel 2 by means of, for example, heat welding, etc.
You may make it fix to. Thus, the thermoplastic tree
The waterproof sheet 3 made of oil is provided on the upper surface of the aluminum film 6.
Is bonded so that it sticks to the
It does not occur and several places are
Since it is joined and adhesive and its application work are unnecessary, cost
You can also try to down. In addition, the heat insulation panel 2 and the waterproof sheet 3 may be laid on the entire area of the folded roof 1 or may be laid only in a part of the folded roof 1, for example, only in an area covering the ceiling excluding the eaves and the like. it can.

Thereafter, a pinhole detection test for detecting whether or not pinholes exist in the waterproof sheet 3 is performed. That is, using the voltage application device 9 shown in FIG. 4, one electrode 10 of the voltage application device 9 is brought into contact with the eaves-side end face 6a exposed to the outside of the aluminum film 6 on the upper side of the heat insulating panel 2, and The other electrode 11 of the voltage application device 9 is brought into contact with the upper surface of the waterproof sheet 3 laid on the aluminum film 6, and a predetermined voltage is applied between the electrodes 10 and 11.

The waterproof sheet 3 is made of a non-conductive thermoplastic material.
When the waterproof sheet 3 has no pinholes, no current flows between the electrodes 10 and 11, that is, between the upper aluminum film 6 and the upper surface of the waterproof sheet 3. In this case, it is confirmed that there is no pinhole in the waterproof sheet 3 due to the absence of energization, and the pinhole detection test is finished and, at the same time, the construction of the heat insulating and waterproofing structure of the folded roof 1 is finished.

On the other hand, when the waterproof sheet 3 has a pinhole 3a, the two electrodes 10 and 1 are passed through the pinhole 3a.
1, that is, between the upper aluminum film 6 and the upper surface of the waterproof sheet 3, the presence of the pinhole 3 a is confirmed by the current. In this case, the worker repairs the pinhole 3a by attaching a thermoplastic resin film made of the same material as the waterproof sheet 3 on the detected pinhole 3a. If necessary, the pinhole detection test by energization is performed once again, and the pinhole 3 is detected.
After confirming that a has been surely repaired, the construction of the heat insulating and waterproofing structure of the folded roof 1 is completed. Since the waterproof sheet 3 has been repaired by detecting the presence or absence of the pinhole 3a and closing the detected pinhole 3a, the waterproof function is extremely good. Further, while the heat insulation panel 2 is divided into a plurality of sheets and is laid, only one waterproof sheet 3 is provided, and all the heat insulation panels 2 are covered with this one waterproof sheet 3. The problem that water leaks from a slight gap between the panels 2 is also unlikely to occur.

Next, a description will be given of a heat insulating and waterproof structure of the folded roof 1 according to a second embodiment of the present invention. As shown in FIG. 5, the heat insulating and waterproofing structure of this embodiment is different from the heat insulating panel 2 of the first embodiment in that the reinforcing layer 5 is provided on the upper surface side and the lower surface side of the foam 4 made of a synthetic resin foam. The heat insulating panel 2 in which a synthetic resin film 12 and an aluminum film 6 are sequentially adhered is used.

As the synthetic resin film 12, a film made of various synthetic resins such as polyester, polypropylene, polystyrene, polyethylene or polyester terephthalate can be used. The thickness of the synthetic resin film 12 is about 5 to 1000 μm, preferably 30 to 300 μm
Range. The synthetic resin film 12 may be adhered to the foam 4 with a heat lamination or a hot-melt adhesive 6, and the aluminum film 6 is similarly formed with a hot lamination or a hot-melt adhesive 7 or the like.
2 only. The order of sticking is Form 4
Alternatively, the synthetic resin film 12 and the aluminum film 6 may be sequentially adhered to each other, or the synthetic resin film 12 and the aluminum film 6 may be bonded in advance, and these two layers may be simultaneously adhered to the foam 4. In this case, the aluminum film 6 is replaced with the synthetic resin film 12.
Thus, sufficient bonding strength can be obtained between the aluminum film 6 and the synthetic resin film 12 and between the synthetic resin film 12 and the foam 4, respectively.

The method of performing heat insulation and waterproofing using the heat insulation panel 2 and the waterproof sheet 3 of the second embodiment is the same as that of the first embodiment, and a duplicate description will be omitted. Also in this case, after the heat insulating panel 2 and the waterproof sheet 3 are sequentially laid along the upper part of the folded roof 1, the presence or absence of the pinhole 3a is electrically detected by using the voltage application device 9, and the presence of the pinhole 3a is detected. If it does, it will repair it. In the first and second embodiments, the reinforcing layer 5 including the aluminum film 6 is provided on both the upper surface side and the lower surface side of the foam 4 of the heat insulating panel 2, but the reinforcing layer in the first and second embodiments is provided. 5 may be provided only on the upper surface side of the form 4. If the aluminum film 6 is stuck on the upper surface side of the foam 4, the pinhole detection test can be performed using the aluminum film 6 after the waterproof sheet 3 is laid.

Next, a heat insulating and waterproof structure of a folded roof 1 according to a third embodiment of the present invention will be described with reference to FIG. Here, a reinforcing layer 5 for reinforcing the foam 4 of the heat insulating panel 2
On the upper surface and the lower surface of the foam 4, three layers of paper 13, polyethylene film 14, and paper 15, respectively, are sequentially adhered. As the papers 13 and 15, cardboard base paper, white paperboard, building material base paper, calcium carbonate paper, liner paper, kraft paper, cardboard, recycled paper, and the like can be used. The thickness of each of the papers 13 and 15 is preferably about 50 to 200 μm. Also, the thickness of the polyethylene film 14 is
The range is 10 to 50 μm.

The paper 13 is prepared by melting a predetermined amount of polyethylene and bonding it to the paper 15. The reinforcing layer 5 composed of these three layers is further bonded with a hot-melt adhesive 7. It is stuck on the side and the lower surface, respectively. The paper 15 forming the lowermost layer of the reinforcing layer 5 on the lower surface side of the foam 4 and the folded plate 1 are well-adapted, and the paper 15 forming the uppermost layer of the upper reinforcing layer 5 is well-adapted to the waterproof sheet 3. is there.

The insulation and waterproof structure of the folded roof 1 according to the fourth embodiment of the present invention will be described below with reference to FIG. Here, a polyethylene terephthalate film or a polypropylene film 16 is used as the reinforcing layer 5 for reinforcing the foam 4 of the heat insulating panel 2, and the polyethylene terephthalate film or the polypropylene film 16 is subjected to heat lamination or heat melting on the upper surface and the lower surface of the foam 4, respectively. It is stuck by the conductive adhesive 7 or the like. The thickness of the polyethylene terephthalate film or polypropylene film 16 is preferably in the range of 50 to 300 μm. Here, since the reinforcing layer 5 is composed of only one layer of the polyethylene terephthalate film or the polypropylene film 16 instead of the three-layer reinforcing layer 5 of the third embodiment, the manufacture of the heat insulating panel 2 becomes easy.

In the third and fourth embodiments, the reinforcing layer 5 is provided on both the upper surface and the lower surface of the foam 4 of the heat insulating panel 2. However, in the third and fourth embodiments, the reinforcing layer 5 is The foam 4 may be provided on only one of the upper surface side and the lower surface side, and a certain reinforcing effect of the foam 4 can be obtained.

[0036]

As described above, according to the heat insulating and waterproofing structure on the folded roof of the present invention, the heat insulating panel and the waterproof sheet are sequentially laid along the upper part of the folded roof, so that the heat insulating function is provided by the heat insulating panel. In addition to providing a secondary waterproof function, the primary waterproof function is provided by the waterproof sheet. Since the heat insulation panel is formed by attaching an aluminum film to at least the upper surface of a foam made of a synthetic resin foam, the heat insulation panel is given sufficient heat by the foam, and the aluminum film is excellent in tensile strength and bending strength. Serves as a reinforcing material for reinforcing the foam in strength, and minimizes deformation of the foam due to external force. The aluminum film also plays a role as a waterproof layer for preventing penetration of moisture such as rainwater. In addition, when an aluminum film is stuck not only on the upper surface side but also on the lower surface side of the foam, the strength of the heat insulating panel is further improved, and at the same time, the heat insulating panel is substantially even on the upper end side and the lower end side in the thickness direction. There is an advantage that a high strength can be obtained. Furthermore, waterproof sheets made of thermoplastic resin
Joined so that it adheres to the upper surface of the Luminium film
Therefore, flapping due to wind etc. does not occur and multiple locations
Is bonded by fasteners or heat welding and the adhesive or its application
Since no work is required, costs can be reduced
You.

If the synthetic resin foam and the aluminum film are sequentially adhered to at least the upper surface side of a foam made of a synthetic resin foam, the foam is reinforced by the synthetic resin film and the aluminum film. Thus, the strength of the heat insulating panel is further improved. In addition, since the aluminum film is adhered to the foam via the synthetic resin film, sufficient bonding strength can be obtained between the aluminum film and the synthetic resin film and between the synthetic resin film and the foam. Further, as described above, a waterproof sheet made of a thermoplastic resin.
Is bonded to the top surface of the aluminum film
So that there is no flapping due to wind, etc.
Several places are joined by fasteners or heat welding, and adhesive or
Cost reduction can be achieved because no coating work is required
it can.

Further, when the above-mentioned heat insulating panel is formed by sticking three layers of paper, polyethylene film and paper to at least one of the upper surface side and the lower surface side of a foam made of a synthetic resin foam, The paper in the three layers serves as a main reinforcing material for reinforcing the foam, and also has a role of improving the adaptability (bonding property) to the folded sheet and the waterproof sheet.

When a polyethylene terephthalate film or a polypropylene film is adhered to at least one of the upper surface and the lower surface of a foam made of a synthetic resin foam as the heat insulating panel, the polyethylene terephthalate film or the polypropylene film becomes It serves as a reinforcing material for reinforcing the foam.

According to the method for applying heat insulation and waterproofing on a folded roof according to the present invention, a heat insulation panel obtained by attaching an aluminum film to at least the upper surface of a foam made of synthetic resin foam or a synthetic resin at least to the upper surface of the foam A heat insulation panel formed by sequentially attaching a film and an aluminum film is laid along the upper part of the folded roof, and a waterproof sheet is further placed on the aluminum film on the upper surface side of the heat insulation panel.
After joining , a predetermined voltage is applied between the aluminum film adhered to the upper surface side of the heat insulating panel and the upper surface (outer surface) of the waterproof sheet laid on the aluminum film to detect the presence or absence of energization. This makes it possible to detect the presence or absence of a pinhole on the waterproof sheet. What
Note that the waterproof sheet made of thermoplastic resin is
Because it is bonded so that it adheres tightly to the upper surface of the
No flapping occurs and multiple locations of fasteners or heat
Adhesive and application work are not required because they are joined by welding
Therefore, the cost can be reduced.

That is, since the waterproof sheet is made of a thermoplastic resin which is a non-conductive substance, when there is no pinhole, no current flows between the aluminum film and the upper surface of the waterproof sheet. While it is confirmed that there is no pinhole, if a pinhole is present in the waterproof sheet, a current flows between the aluminum film and the upper surface of the waterproof sheet through the pinhole, and the presence of the pinhole is confirmed by the current. In this case, the pinholes can be repaired by attaching a synthetic resin film made of the same material as the waterproof sheet on the detected pinholes. It can be greatly reduced, which makes it possible to further improve the waterproof function of the waterproof sheet.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view of a heat insulating and waterproofing structure according to a first embodiment of the present invention.

FIG. 2 is a schematic cross-sectional view showing a state of attachment with a hot-melt adhesive.

FIG. 3 is a perspective view showing a procedure of installing the heat-insulating and waterproofing structure.

FIG. 4 is a schematic sectional view taken along the line AA of FIG. 1 showing a state in which a test for detecting the presence or absence of a pinhole on the waterproof sheet is performed in the heat-insulating waterproof structure of the first embodiment.

FIG. 5 is a schematic sectional view of a heat-insulating and waterproofing structure according to a second embodiment.

FIG. 6 is a schematic cross-sectional view of a heat-insulating waterproof structure according to a third embodiment.

FIG. 7 is a schematic sectional view of a heat-insulating and waterproofing structure according to a fourth embodiment.

FIG. 8 is a perspective view showing an example of a conventional folded roof.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Folded roof (folded) 2 Heat insulation panel 3 Waterproof sheet 3a Pinhole 4 Form 6 Aluminum film 12 Synthetic resin film 13, 15 Paper 14 Polyethylene film 16 Polyethylene terephthalate film or polypropylene film

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-3-260254 (JP, A) JP-A-5-230952 (JP, A) Fully open sho 56-140419 (JP, U) Really open sho 60- 98642 (JP, U) Japanese Utility Model 60-108632 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) E04D 3/35 E04D 11/00 B32B 1/00-35/00

Claims (6)

(57) [Claims] 1. A plurality of heat insulating panels, each of which is formed by attaching an aluminum film to at least the upper surface side of a substantially flat foam made of a synthetic resin foam and laying along the upper part of a folding plate, On top of this aluminum film along with the aluminum film on the top side of the panel
Multiple places are fastened with fasteners or heat welding so that they adhere to the surface
A heat- insulating waterproof structure on a folded roof, comprising: a waterproof sheet made of a thermoplastic resin to be joined . 2. A plurality of heat insulating layers, each of which is formed by laminating a synthetic resin film and an aluminum film sequentially on at least the upper surface side of a substantially flat foam formed of a synthetic resin foam, and laying along the upper part of the folding plate. and the panel, this along on an aluminum film on the upper surface side of the insulating panel
Multiple locations so as to adhere to the top surface of the aluminum film
And a waterproof sheet made of a thermoplastic resin joined by fasteners or heat welding . 3. A three-layered paper, polyethylene film and paper layer is sequentially adhered to at least one of the upper and lower sides of a generally flat foam made of synthetic resin foam, and is formed along the upper part of the folding plate. A heat insulating waterproof structure on a folded roof, comprising: a plurality of heat insulating panels to be laid down; and a synthetic resin waterproof sheet laid along the upper part of each heat insulating panel. 4. A polyethylene terephthalate film or a polypropylene film is adhered to at least one of an upper surface and a lower surface of a substantially flat foam made of a synthetic resin foam, and is laid along the upper part of the folding plate. A heat insulating and waterproof structure on a folded roof, comprising: a plurality of heat insulating panels; and a synthetic resin waterproof sheet laid along an upper portion of each heat insulating panel. 5. A plurality of heat insulating panels each having an aluminum film adhered to at least the upper surface side of a substantially flat foam made of a synthetic resin foam, are laid along the upper part of the folding plate, and further, each heat insulating panel is provided. The top side of this aluminum film along the top side of the aluminum film
Multiple sections of thermoplastic tarpaulin so that
After joining the parts by fasteners or heat welding , a predetermined voltage is applied between the aluminum film on the upper surface side of the heat insulating panel and the upper surface of the waterproof sheet, and the presence or absence of energization is detected to detect the presence or absence of energization. A method for performing insulation and waterproofing on a folded roof, wherein the presence or absence of an upper pinhole is detected, and the detected pinhole is repaired. 6. A plurality of heat insulating panels each having a synthetic resin film and an aluminum film successively attached to at least the upper surface side of a substantially flat foam made of a synthetic resin foam, are laid along the upper part of the folding plate. the a further along on the aluminum film on the upper surface side of the insulating panel
Thermoplastic resin so that it adheres to the upper surface of the luminium film
Fastening or heat welding of multiple parts of the grease waterproof sheet
After bonding , a predetermined voltage is applied between the aluminum film on the upper surface side of the heat insulating panel and the upper surface of the waterproof sheet, and the presence or absence of a pinhole on the waterproof sheet is detected by detecting the presence or absence of energization. And repairing the pinholes detected, and a method of performing insulation and waterproofing on a folded roof.