JP7744005B2 - Waterproof and insulated roof structure and its construction method - Google Patents

Description

The present invention relates to a waterproof and insulating roof structure and its construction method, and more specifically to a waterproof and insulating roof structure that is installed between the roofing material and roof underlayment of a building and has excellent waterproofing and insulating properties, and its construction method.

Traditionally, in buildings such as ordinary houses, it has been common to form a waterproof layer to prevent roof leaks by laying various types of roofing sheets, such as asphalt felt, asphalt roofing, and adhesive asphalt roofing, between roofing materials such as roof tiles, slate, and metal sheets and roof underlayment materials such as sheathing boards and sheathing boards. In this way, the roofing materials provide primary waterproofing for the roof, and the roofing sheets provide secondary waterproofing for the roof.

However, although this roofing sheet has excellent waterproofing properties, it does not have sufficient insulating properties itself, and for example, in winter, cold outside air can cause condensation to form on the underside of the roofing sheet, which can cause the roof underlayment to corrode.

To date, roof insulation structures have been proposed in which an insulating layer made of synthetic resin foam is formed between the roofing sheet and the roof underlayment, or between the roofing sheet and the roofing material (for example, Patent Document 1 below).

However, this insulation structure requires the installation of synthetic resin foam, which increases costs and makes installation time-consuming.

Japanese Patent Application Publication No. 11-222985

The present invention was made in response to the above-mentioned drawbacks of conventional roof insulation structures, and aims to provide a waterproof and insulating roof structure and installation method that is not only waterproof but also has excellent insulation properties, and that can be installed very easily and at low cost.

The present invention is a waterproof and insulating roof structure provided between a roofing material and a roof underlayment of a building,
The roof structure comprises a first waterproof layer formed on the roof underlayment and consisting of a plurality of strip-shaped first roofing sheets laid in parallel with their side edges overlapping one another; a second waterproof layer formed on the first waterproof layer and consisting of a plurality of strip-shaped second roofing sheets laid in parallel with their side edges overlapping one another; and a third waterproof layer formed on the second waterproof layer and consisting of a plurality of strip-shaped third roofing sheets laid in parallel with their side edges overlapping one another ,
A first insulation space (13) is formed between the first waterproof layer and the roof underlayment, starting from a step occurring at the side edge end of each of the first roofing sheets,
The laying direction of each second roofing sheet of the second waterproof layer is perpendicular to the laying direction of each first roofing sheet of the first waterproof layer,
Between the second waterproof layer and the first waterproof layer, a second insulating space portion (23) is formed starting from a step occurring at the side edge end of each of the second roofing sheets, and a third insulating space portion (24) is formed starting from a step occurring at the side edge end of each of the first roofing sheets,
The laying direction of each of the third roofing sheets of the third waterproof layer and the laying direction of each of the second roofing sheets of the second waterproof layer are perpendicular to each other,
Between the third waterproof layer and the second waterproof layer, a fourth insulation space portion (33) is formed, the fourth insulation space portion (33) originating from a step occurring at the side edge end of each of the third roofing sheets, and a fifth insulation space portion (34) originating from a step occurring at the side edge end of each of the second roofing sheets ,
The feature of this structure is that by making the laying position of the overlapping portion (32) between the third roofing sheets of the third waterproof layer different from the laying position of the overlapping portion (12) between the first roofing sheets of the first waterproof layer, the formation positions of the fourth insulation space portion (33) formed along the overlapping portion (32) of the third waterproof layer and the first insulation space portion (13) formed along the overlapping portion (12) of the first waterproof layer are shifted.

The present invention is also characterized in that each of the first roofing sheets of the first waterproof layer is laid along a direction perpendicular to the slope direction of the roof, each of the second roofing sheets of the second waterproof layer is laid along the slope direction of the roof , and each of the third roofing sheets of the third waterproof layer is laid along a direction perpendicular to the slope direction of the roof .

The present invention is also characterized in that the first roofing sheet , the second roofing sheet and the third roofing sheet are made of asphalt felt.

The present invention is also characterized in that the roofing material is made of sheet metal.

The present invention also provides a construction method for a waterproof and insulating roof structure provided between a roofing material and a roof underlayment of a building, comprising:
The method comprises: a first waterproof layer forming step of forming a first waterproof layer by laying a plurality of strip-shaped first roofing sheets in parallel on the roof underlayment with their side edges overlapping each other; a second waterproof layer forming step of forming a second waterproof layer by laying a plurality of strip-shaped second roofing sheets in parallel on the first waterproof layer with their side edges overlapping each other and so that the laying direction of each second roofing sheet is perpendicular to the laying direction of each first roofing sheet in the first waterproof layer; and a third waterproof layer forming step of forming a third waterproof layer by laying a plurality of strip-shaped third roofing sheets in parallel on the second waterproof layer with their side edges overlapping each other and so that the laying direction of each third roofing sheet is perpendicular to the laying direction of each second roofing sheet in the second waterproof layer .
In the first waterproof layer forming step, a first insulation space portion (13) is formed between the first waterproof layer and the roof base material, starting from a step occurring at the side edge end of each of the first roofing sheets;
In the second waterproof layer forming step, a second insulating space portion (23) is formed between the second waterproof layer and the first waterproof layer, the second insulating space portion (23) originating from a step occurring at the side edge end of each of the second roofing sheets, and a third insulating space portion (24) originating from a step occurring at the side edge end of each of the first roofing sheets,
In the third waterproof layer forming step,
Between the third waterproof layer and the second waterproof layer, a fourth insulation space portion (33) is formed starting from a step occurring at the side edge end of each of the third roofing sheets, and a fifth insulation space portion (34) is formed starting from a step occurring at the side edge end of each of the second roofing sheets,
The feature of this structure is that by making the laying position of the overlapping portion (32) between the third roofing sheets of the third waterproof layer different from the laying position of the overlapping portion (12) between the first roofing sheets of the first waterproof layer, the formation positions of the fourth insulation space portion (33) formed along the overlapping portion (32) of the third waterproof layer and the first insulation space portion (13) formed along the overlapping portion (12) of the first waterproof layer are shifted.

The waterproof and insulating roof structure and construction method of the present invention form multiple waterproof layers made up of multiple strip-shaped roofing sheets, providing excellent waterproofing and reliably preventing roof leaks, etc. In addition, insulating spaces are formed between these multiple waterproof layers, providing excellent insulation and effectively preventing condensation caused by cold outside air in winter.

What's more, the insulating spaces between these waterproof layers can be formed by utilizing the step created by the thickness of the side edges of each roofing sheet, without using separate components such as spacers, making construction extremely easy and without incurring high costs.

1 is a cross-sectional view of a main part of a roof structure to which the waterproof and insulating roof structure of this embodiment is applied, taken along the roof slope direction X. FIG. 2 is a cross-sectional view of a main part taken along the line S1-S1 in FIG. 1. FIG. 2 is a partial perspective view illustrating the first waterproof layer forming step of the construction method for the waterproof and insulating roof structure of this embodiment. 10 is a cross-sectional view of a main part along the slope direction X of the roof, illustrating the first waterproof layer forming process. FIG. 5 is a cross-sectional view of a main part taken along the line S2-S2 in FIG. 4. FIG. 2 is a partial perspective view illustrating the second waterproof layer forming step of the construction method for the waterproof and insulating roof structure of this embodiment. 10 is a cross-sectional view of a main part taken along a direction Y perpendicular to the slope direction X of the roof, illustrating the second waterproof layer forming step. FIG. 8 is a cross-sectional view of a main part taken along the line S3-S3 in FIG. 7. FIG. 2 is a partial perspective view illustrating the third waterproof layer forming step of the construction method for the waterproof and insulating roof structure of this embodiment. FIG. 10 is a cross-sectional view of a main part along the slope direction X of the roof, illustrating the third waterproof layer forming process. 11 is a cross-sectional view of a main part taken along the line S4-S4 in FIG. 10. FIG. 10 is a partial perspective view illustrating a modified embodiment of the waterproof and heat-insulating roof structure according to the present invention.

As shown in Figures 1 and 2, the waterproof and insulating roof structure 10 of this embodiment is composed of a first waterproof layer 1 formed on the roof underlayment 4 of a building, a second waterproof layer 2 formed on this first waterproof layer 1, and a third waterproof layer 3 formed on this second waterproof layer 2, and is provided between the roofing material 5 of the building and the roof underlayment 4.

The first waterproof layer 1 is formed by laying multiple strip-shaped first roofing sheets 11 (11a, 11b) on the roof underlayment 4 in parallel with the side edges of each first roofing sheet 11 overlapping each other. Similarly, the second waterproof layer 2 is formed by laying multiple strip-shaped second roofing sheets 21 (21a, 21b) on the first waterproof layer 1 in parallel with the side edges of each second roofing sheet 21 overlapping each other, and the third waterproof layer 3 is formed by laying multiple strip-shaped third roofing sheets 31 (31a, 31b) on the second waterproof layer 2 in parallel with the side edges of each third roofing sheet 31 overlapping each other.

A first insulation space 13 is formed between the roof underlayment 4 of the building and the first waterproof layer 1, a second insulation space 23 and a third insulation space 24 are formed between the first waterproof layer 1 and the second waterproof layer 2, a fourth insulation space 33 and a fifth insulation space 34 are formed between the second waterproof layer 2 and the third waterproof layer 3, and a sixth insulation space 35 is formed between the third waterproof layer 3 and the roofing material 5.

The waterproof and insulating roof structure 10 of this embodiment waterproofs the roof using the multiple first waterproof layers 1, second waterproof layers 2, and third waterproof layers 3, and also insulates the roof using multiple insulating spaces (13, 23, 24, 33, 34, 35).

Below, the construction process for the waterproof and insulated roof structure 10 of this embodiment will be explained in order (Figures 3 to 11), while each component of the waterproof and insulated roof structure 10 will be described in detail.

First, as shown in Figures 3 to 5, the first waterproof layer formation process is carried out to form a first waterproof layer 1 on the roof underlayment 4 of the building. That is, as shown in Figure 3, a long strip of first roofing sheet 11 is unwound from a roll R and laid along a direction Y perpendicular to the roof slope direction X, and multiple first roofing sheets 11 are arranged in parallel in the roof slope direction X with their side edges overlapping each other, thereby forming a first waterproof layer 1 over the entire top surface of the roof underlayment 4.

In this embodiment, the first roofing sheet 11 is a 100 cm wide, approximately 1 mm thick asphalt felt made by impregnating felt base paper with asphalt, with its side edges overlapping by approximately 10 cm. As shown in Figure 4, the roof underlayment 4 is constructed by laminating sheathing boards 41 made of structural plywood and sheathing boards 42 made of wood fiberboard coated with a waterproofing agent, which have excellent waterproofing, moisture permeability, and sound absorption properties. The first roofing sheet 11 is stapled to the sheathing boards 41 of the roof underlayment 4 at its side edges. Of course, the roof underlayment 4 may also be constructed solely from sheathing boards 41 made of structural plywood.

These multiple first roofing sheets 11 are laid in order from the eaves 43 side of the roof toward the top of the roof slope, and as shown in Figure 4, the lower side edge of the first roofing sheet 11b on the upper side of the slope overlaps the upper side edge of the first roofing sheet 11a on the lower side of the slope. In this way, overlapping portions 12, where adjacent first roofing sheets 11 overlap, are formed in multiple rows parallel to direction Y.

This first waterproof layer formation process forms a first insulating space 13 between the first waterproof layer 1 and the roof underlayment 4, starting from the step created by the upper side edge 111 of the first roofing sheet 11a on the lower side of the slope. Various roofing sheets, such as asphalt felt, have a predetermined thickness necessary to ensure their waterproofing. They also have the flexibility necessary to ensure their workability, but also a predetermined bending stiffness. Therefore, the first insulating space 13 formed by utilizing the step created by the thickness of the side edge 111 of the first roofing sheet 11a on the lower side of the slope will expand toward the center of the first roofing sheet 11b on the upper side of the slope, unless it is actively crushed during construction.

Moreover, in this embodiment, asphalt felt without an adhesive layer is used as the first roofing sheet 11, and only its side edges are stapled, so that most of the underside of the first roofing sheet 11 does not adhere to the roof underlayment 4, and a gap (not shown) exists between the underside of the first roofing sheet 11 and the upper surface of the roof underlayment 4. In this embodiment, a first insulating space 13 is formed that extends over a wide area and is continuous with this gap.

Next, as shown in Figures 6 to 8, a second waterproof layer formation process is carried out to form a second waterproof layer 2 on the first waterproof layer 1. That is, as shown in Figure 6, a long, strip-shaped second roofing sheet 21 is unwound from a roll R and laid along the roof slope direction X, and multiple second roofing sheets 21 are arranged in parallel in direction Y with their side edges overlapping each other, thereby forming the second waterproof layer 2 over the entire upper surface of the first waterproof layer 1. The laying direction of each second roofing sheet 21 of the second waterproof layer 2 is perpendicular to the laying direction of each first roofing sheet 11 of the first waterproof layer 1.

In this embodiment, similar to the first roofing sheet 11, the second roofing sheets 21 are made of asphalt felt, 100 cm wide and approximately 1 mm thick, made by impregnating felt base paper with asphalt, with their side edges overlapping by approximately 10 cm. Only the side edges of each second roofing sheet 21 are stapled to the sheathing boards 41 of the roof underlayment 4.

These multiple second roofing sheets 21 are laid side by side in order from one roof eaves side to the other roof eaves 44 side. As shown in Figure 7, when viewed upward in the direction of the roof slope, the left side edge of the right second roofing sheet 21b overlaps the right side edge of the left second roofing sheet 21a. In this way, overlapping portions 22 where adjacent second roofing sheets 21 overlap are formed in multiple rows parallel to the roof slope direction X. The overlapping manner of the second roofing sheets 21 may also be such that, when viewed upward in the direction of the roof slope, the right side edge of the left second roofing sheet overlaps the left side edge of the right second roofing sheet. This can be selected appropriately taking into account the east-west, north-south, and other directions of the roof.

This second waterproof layer formation process forms a second insulation space 23 between the second waterproof layer 2 and the first waterproof layer 1, starting from the step caused by the thickness of the right side edge 211 of the left-side second roofing sheet 21a, as shown in Figure 7, and at the same time, a third insulation space 24 is formed between the second waterproof layer 2 and the first waterproof layer 1, starting from the step caused by the thickness of the lower side edge 111 of the upper first roofing sheet 11b, as shown in Figure 8. These second insulation space 23 and third insulation space 24 communicate with each other near the intersection of the overlapping portion 22 of the second waterproof layer 2 and the overlapping portion 12 of the first waterproof layer 1. This forms insulation spaces (23, 24) between the second waterproof layer 2 and the first waterproof layer 1, extending in a lattice pattern across the entire roof surface of the building. In addition, like the first insulation space 13 described above, these second insulation space 23 and third insulation space 24 are formed over a wide area, starting from the step at the side edge of each roofing sheet and extending to the center of the adjacent roofing sheets.

Next, as shown in Figures 9 to 11, a third waterproof layer formation process is performed in which a third waterproof layer 3 is formed on the second waterproof layer 2. That is, as shown in Figure 9, a long, strip-shaped third roofing sheet 31 is unwound from a roll R and laid along a direction Y perpendicular to the roof slope direction X. Multiple third roofing sheets 31 are then arranged in parallel in the roof slope direction X with their side edges overlapping each other, thereby forming the third waterproof layer 3 across the entire upper surface of the second waterproof layer 2. The laying direction of each third roofing sheet 31 of the third waterproof layer 3 is perpendicular to the laying direction of each second roofing sheet 21 of the second waterproof layer 2 and parallel to the laying direction of each first roofing sheet 11 of the first waterproof layer 1.

In this embodiment, similar to the first roofing sheet 11, the third roofing sheet 31 is made of asphalt felt, 100 cm wide and approximately 1 mm thick, made by impregnating felt base paper with asphalt, and its side edges are overlapped by approximately 10 cm. Only the side edges of each third roofing sheet 31 are stapled to the sheathing boards 41 of the roof underlayment 4.

These multiple third roofing sheets 31 are laid in order and arranged in parallel from the eaves 43 side of the roof upward in the roof slope, with the lower side edge of the third roofing sheet 31b on the upper side of the slope overlapping the upper side edge of the third roofing sheet 31a on the lower side of the slope, as shown in Figure 10. In this way, overlapping portions 32, where adjacent third roofing sheets 31 overlap, are formed in multiple rows parallel to direction Y. In this embodiment, the laying positions of the overlapping portions 32 of the third waterproof layer 3 are aligned with the laying positions of the overlapping portions 12 of the first waterproof layer 1.

This third waterproof layer formation process forms a fourth insulation space 33 between the third waterproof layer 3 and the second waterproof layer 2, starting from a step caused by the thickness of the upper side edge 311 of the third roofing sheet 31a on the lower side of the slope, as shown in Figure 10. At the same time, a fifth insulation space 34 is formed, starting from a step caused by the thickness of the left side edge 211 of the second roofing sheet 21b on the right side when viewed upward in the slope of the roof, as shown in Figure 11. The fourth insulation space 33 and the fifth insulation space 34 are interconnected near the intersection of the overlapping portion 32 of the third waterproof layer 3 and the overlapping portion 22 of the second waterproof layer 2. This forms a lattice-like insulation space (33, 34) between the third waterproof layer 3 and the second waterproof layer 2, extending across the entire roof surface of the building. Furthermore, like the first insulation space 13 described above, these fourth insulation space 33 and fifth insulation space 34 are formed over a wide area, starting from the step at the side edge of each roofing sheet and extending to the center of the adjacent roofing sheets.

By carrying out these first waterproof layer formation process through the third waterproof layer formation process in order, the waterproof and insulating roof structure 10 of this embodiment is constructed on the roof underlayment 4.

Then, as shown in Figures 1 and 2, the roof of the building is constructed by laying various roofing materials 5, such as roof tiles, slate, and metal sheets, on top of the third waterproof layer 3 of the waterproof and insulating roof structure 10 of this embodiment. In this embodiment, strip-shaped metal sheets made of aluminum-zinc alloy-plated steel sheets are used as the roofing materials 5, and multiple metal sheets are laid vertically along the roof slope direction X.

In the waterproof and insulating roof structure 10 of this embodiment, the total thickness of the waterproof layers is greatest at the triple intersection of the overlapping portion 12 of the first waterproof layer 1, the overlapping portion 22 of the second waterproof layer 2, and the overlapping portion 32 of the third waterproof layer 3, and a recess is formed in the area other than the triple intersection on the top surface of the third waterproof layer 3. Therefore, when a roofing material 5 is laid on the third waterproof layer 3, a sixth insulating space 35 that communicates with each other is formed between the roofing material 5 and the third waterproof layer 3 in the area other than the triple intersection, as shown in Figures 1 and 2.

As described above, the waterproof and insulating roof structure 10 of this embodiment has multiple first waterproof layers 1, second waterproof layers 2, and third waterproof layers 3 formed from multiple strip-shaped roofing sheets, providing excellent waterproofing and reliably preventing roof leaks. Furthermore, multiple insulating spaces (13, 23, 24, 33, 34, 35) are formed between the roof underlayment 4 and the first waterproof layer 1, between the first waterproof layer 1 and the second waterproof layer 2, between the second waterproof layer 2 and the third waterproof layer 3, and between the third waterproof layer 3 and the roofing material 5, providing excellent insulating properties and effectively preventing condensation caused by cold outside air in winter.

Furthermore, with the waterproof and insulating roof structure 10 of this embodiment, the insulating spaces (23, 24, 33, 34) between the first waterproof layer 1, second waterproof layer 2, and third waterproof layer 3 can be formed by utilizing the steps created by the thickness of the side edges of each roofing sheet, without using separate components such as spacers. This means that construction is extremely easy and does not incur the high costs associated with conventional products.

The above describes the waterproof and insulating roof structure 10 of this embodiment, but the present invention can also be implemented in other embodiments.

For example, in the above embodiment, the laying position of the overlapping portion 32 of the third waterproof layer 3 is aligned with the laying position of the overlapping portion 12 of the first waterproof layer 1, but the present invention is not necessarily limited to this, and as shown in Fig. 12, the laying position of the overlapping portion 32 of the third waterproof layer 3 may be made different from the laying position of the overlapping portion 12 of the first waterproof layer 1. This makes it possible to shift the formation positions of the fourth insulation space 33 formed along the overlapping portion 32 of the third waterproof layer 3 and the first insulation space 13 formed along the overlapping portion 12 of the first waterproof layer 1, and allows each insulation space (33, 13) to be formed more uniformly across the entire roof surface.

In addition, in the above embodiment, the first roofing sheet 11 of the first waterproof layer 1 is laid along direction Y perpendicular to the roof slope direction X, the second roofing sheet 21 of the second waterproof layer 2 is laid along the roof slope direction X, and the third roofing sheet 31 of the third waterproof layer 3 is laid along the roof slope direction Y. However, the present invention is not necessarily limited to this. The first roofing sheet 11 of the first waterproof layer 1 may be laid along the roof slope direction X, the second roofing sheet 21 of the second waterproof layer 2 may be laid along the roof slope direction Y, and the third roofing sheet 31 of the third waterproof layer 3 may be laid along the roof slope direction X. The laying direction of each of these roofing sheets can be appropriately modified in design, taking into account, for example, the type of roofing material 5 and its laying direction.

In addition, in the above embodiment, the same asphalt felt is used for the first roofing sheet 11, second roofing sheet 21, and third roofing sheet 31, but the present invention is of course not limited to this, and various types of roofing sheets, such as asphalt roofing and asphalt roofing with an adhesive layer, can be used as appropriate. Furthermore, the type, width, thickness, etc. of the strip-shaped roofing sheets may be different for each of the first waterproof layer 1, second waterproof layer 2, and third waterproof layer 3.

The waterproof and heat-insulating roof structure according to the present invention may be constructed of four or more waterproof layers.

The present invention may be implemented in various other forms, including improvements, modifications, and variations based on the knowledge of those skilled in the art, without departing from the spirit of the invention. Furthermore, the invention may be implemented in a form in which any of the invention's defining features are replaced with other technology, provided that the same action or effect is achieved. Furthermore, the invention's defining features that are integrally configured may be implemented in a form in which they are composed of multiple components, or the invention's defining features that are composed of multiple components may be implemented in a form in which they are integrally configured.

10 Roof waterproof and insulating structure 1 First waterproof layer 11 First roofing sheet 111 (of the first roofing sheet) side edge 12 (between the first roofing sheets) overlapping portion 13 First insulating space portion 2 Second waterproof layer 21 Second roofing sheet 211 (of the second roofing sheet) side edge 22 (between the second roofing sheets) overlapping portion 23 Second insulating space portion 24 Third insulating space portion 3 Third waterproof layer 31 Third roofing sheet 311 (of the third roofing sheet) side edge 32 (between the third roofing sheets) overlapping portion 33 Fourth insulating space portion 34 Fifth insulating space portion 35 Sixth insulating space portion 4 Roof underlayment 5 Roofing material X Roof slope direction Y Direction perpendicular to the roof slope direction

Claims (5)

A waterproof and insulating roof structure installed between the roofing material and the roof underlayment of a building,
a first waterproof layer formed on the roof underlayment and consisting of a plurality of strip-shaped first roofing sheets laid in parallel with their side edges overlapping one another;
A second waterproof layer formed on the first waterproof layer and consisting of a plurality of strip-shaped second roofing sheets laid in parallel with their side edges overlapping each other;
a third waterproof layer formed on the second waterproof layer and consisting of a plurality of strip-shaped third roofing sheets laid in parallel with their side edges overlapping one another;
Equipped with
A first insulation space (13) is formed between the first waterproof layer and the roof underlayment, starting from a step occurring at the side edge end of each of the first roofing sheets,
The laying direction of each second roofing sheet of the second waterproof layer is perpendicular to the laying direction of each first roofing sheet of the first waterproof layer,
Between the second waterproof layer and the first waterproof layer, a second insulating space portion (23) is formed starting from a step occurring at the side edge end of each of the second roofing sheets, and a third insulating space portion (24) is formed starting from a step occurring at the side edge end of each of the first roofing sheets,
The laying direction of each of the third roofing sheets of the third waterproof layer and the laying direction of each of the second roofing sheets of the second waterproof layer are perpendicular to each other,
Between the third waterproof layer and the second waterproof layer, a fourth insulation space portion (33) is formed, the fourth insulation space portion (33) originating from a step occurring at the side edge end of each of the third roofing sheets, and a fifth insulation space portion (34) originating from a step occurring at the side edge end of each of the second roofing sheets ,
A waterproof and insulating roof structure characterized in that the laying position of the overlapping portion (32) between the third roofing sheets of the third waterproof layer is made different from the laying position of the overlapping portion (12) between the first roofing sheets of the first waterproof layer, thereby shifting the formation positions of the fourth insulation space portion (33) formed along the overlapping portion (32) of the third waterproof layer and the first insulation space portion (13) formed along the overlapping portion (12) of the first waterproof layer. Each of the first roofing sheets of the first waterproof layer is laid along a direction perpendicular to the slope direction of the roof,
Each of the second roofing sheets of the second waterproof layer is laid along the slope direction of the roof ,
2. A waterproof and insulating roof structure as described in claim 1, characterized in that each of the third roofing sheets of the third waterproof layer is laid along a direction perpendicular to the slope direction of the roof . 3. A waterproof and heat-insulating roof structure according to claim 1, wherein the first roofing sheet , the second roofing sheet and the third roofing sheet are made of asphalt felt. 3. The waterproof and heat-insulating roof structure according to claim 1, wherein the roofing material is made of metal sheet. A construction method for a waterproof and insulating roof structure installed between a roofing material and a roof underlayment of a building, comprising:
a first waterproof layer forming step of forming a first waterproof layer by laying a plurality of strip-shaped first roofing sheets in parallel on the roof underlayment with their side edges overlapping each other;
a second waterproof layer formation process in which a second waterproof layer is formed by laying a plurality of strip-shaped second roofing sheets on the first waterproof layer in a state where their side edges are overlapped with each other and in parallel so that the laying direction of each second roofing sheet is perpendicular to the laying direction of each first roofing sheet on the first waterproof layer;
a third waterproof layer formation process in which a third waterproof layer is formed by laying a plurality of strip-shaped third roofing sheets on the second waterproof layer in parallel with each other with their side edges overlapping each other and so that the laying direction of each third roofing sheet is perpendicular to the laying direction of each second roofing sheet on the second waterproof layer;
Equipped with
In the first waterproof layer forming step, a first insulation space portion (13) is formed between the first waterproof layer and the roof base material, starting from a step occurring at the side edge end of each of the first roofing sheets;
In the second waterproof layer forming step, a second insulating space portion (23) is formed between the second waterproof layer and the first waterproof layer, the second insulating space portion (23) originating from a step occurring at the side edge end of each of the second roofing sheets, and a third insulating space portion (24) originating from a step occurring at the side edge end of each of the first roofing sheets,
In the third waterproof layer forming step,
Between the third waterproof layer and the second waterproof layer, a fourth insulation space portion (33) is formed starting from a step occurring at the side edge end of each of the third roofing sheets, and a fifth insulation space portion (34) is formed starting from a step occurring at the side edge end of each of the second roofing sheets,
A construction method for a waterproof and insulating roof structure, characterized in that the laying position of the overlapping portion (32) between the third roofing sheets of the third waterproof layer is made different from the laying position of the overlapping portion (12) between the first roofing sheets of the first waterproof layer, thereby shifting the formation positions of the fourth insulation space (33) formed along the overlapping portion (32) of the third waterproof layer and the first insulation space (13) formed along the overlapping portion (12) of the first waterproof layer.