JPH0342386B2 - - Google Patents

Description

[Detailed description of the invention] TECHNICAL FIELD This invention relates to roof structures.

In roof construction, it is important to properly ventilate the interior space of the roof to prevent condensation that causes premature deterioration of the rafters and other roof components. For this purpose, it is known to provide ventilation means near the eaves of the roof to allow air to flow from the outside to the inside of the roof. One such measure is described in British Patent No. 2,131,845, in which a spacer is arranged between the roof cladding and the fascia plate, allowing air to enter the roof space. A ventilation hole is provided. Other proposals include vents in the fascia itself or in the ceiling.

However, although such measures allow air to enter the space behind the ceiling and fascia, it is important that the air is subsequently able to enter the rest of the roof space, and " A problem arises in that the inflow of air into the roof space is suppressed by firmly pushing the roof insulation member, which is a "quilt," from inside the roof into the eaves. To overcome this problem, it is known to provide ducts that are fixed to the rafters adjacent to the eaves and placed between the rafters. An example of such a duct or buffer is described in US Pat. No. 4,096,790. This member is effective in spacing the insulating material from the roof covering and creating an air passageway therebetween. However, such ducts have the disadvantage that they cannot be adapted to different roof shapes with varying spacing between the rafters, and one duct is only suitable for use in a limited number of roof structures. .

According to the invention, the roof structure includes rafters with ducts in the vicinity of the eaves, each of which is in the form of a tray and is open to the top connected to the central part of the inverted U-shaped section. a duct component, said central portion spanning a single rafter with duct components on both sides, said duct component forming a flow path for ventilating the interior space of the roof; However, in this case, this duct component only partially protrudes laterally between the barrels,
Each of the ducts is configured to be sufficiently self-supporting so that the duct components maintain approximately the required shape.

According to the invention, therefore, a single duct is attached to and across each rafter, such duct cooperating with a variety of different roof structures;
The barrels will be placed at different distances. The roof insulation member, which is pushed into the eaves of the roof from the inside, suppresses the inflow of air into the roof space in the area between the rafters and the ducts. However, adequate ventilation is maintained through the channels formed by the duct components on either side of the rafter.

The duct according to the invention has sufficient self-supporting properties to be able to hold the duct components in the required positions on both sides of the rafter, but depending on the material of which the duct is constructed, this section may flex under its own weight. There is a tendency to However, the engagement of the insulating material below each duct is effective in biasing the duct component upwardly against the roof covering so that deflection of this section is sufficiently reduced or prevented.

In a preferred embodiment, each of the ducts has a generally "W" shaped cross-section, with a single duct component located on each side of the rafter to which it is attached.
The duct is constructed of a generally rigid material, such as extruded plastic. Alternatively, the duct may be molded from a lightweight sheet with great flexibility. In this case, the flexibility of the material has a tendency to increase the deflection of the duct components on either side of the rafter, so that each of the ducts is provided with reinforcing ribs to support the duct components. It is preferable.

Therefore, the duct developed by this invention is
Attached to the rafters of the roof structure, it takes the form of a tray molded from lightweight sheets and has upwardly open duct components joined by an inverted U-shaped central section that spans the rafters in use. longitudinally spaced, laterally facing reinforcing ribs are provided at the inner ends of the duct components located on both sides of the rafter in use; The base is configured to maintain the base substantially perpendicular to each side of the rafter.

When the roof structure according to the present invention includes a structure of a ceiling and a fascia plate near the eaves, it is preferable to provide means for allowing air to flow into the space behind the ceiling and the fascia plate from the outside. This is achieved by providing ventilation holes in the ceiling and/or fascia. However, the structure
ventilation means having a spacer disposed between the roof cladding and the fascia plate, the spacer directly or indirectly connecting a first portion projecting outwardly from the fascia plate and a downwardly directed vent hole; Preferably, the roof covering has a raised free end supporting the roof covering and spacing it from the top of the fascia.

Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.

In Figures 1 and 2, the roof structure has a rafter 1 which is supported near the eaves by an inner part 2 of the outer hollow wall of the building, as is known in the art. There is. Roof coverings such as tiles or slates are fixed to the rafters, but have been omitted for simplicity of illustration. Attached to and straddling each rafter, as shown in FIG. 2, is a generally rigid extruded duct 3 having a generally "W" shaped cross section. Each of the ducts 3 has an inverted U-shaped central portion 15
and duct components 16 forming ventilation grooves on both sides of each rafter. The duct 3 has sufficient rigidity in the above-mentioned duct components so that it can constitute a support by itself. A roof insulation element 4, pressed firmly into the eave and placed beyond the inner wall 2 of the hollow as shown in FIG. 2, is separated from the roof sheathing on both sides of each rafter by a duct. . The insulation element is thus pressed tightly against the roof covering in the area between the rafter and the duct. As shown in FIG. 1, air enters the roof air through grooves formed on both sides of the rafters to provide proper ventilation.

FIG. 3 shows another embodiment of the duct 3, which differs from the embodiments shown in FIGS. It is being formed. A plurality of reinforcing ribs 5 extending laterally and spaced apart in the longitudinal direction are used to reduce the deflection of the duct components of the duct shown in FIG. 3 due to their own weight.
is provided. In the illustrated embodiment, the rib 5
is a roughly U-shaped groove pushed outward,
Other shapes can also be used, such as, for example, inwardly extruded grooves. When the duct is attached to the rafter so that the inverted U-shaped portion 15 straddles the rafter, the ribs 5 provided on the inner wall of the portion 15 are
Engage with the side edge of the rafter. This means that the base 20 of each duct component is approximately relative to the side edge of the rafter.
Works to maintain 90°. Same effect, part 1
It is also obtained by providing reinforcing ribs only in the area of the inner ends of the duct-forming parts 16, i.e. on the side walls of the parts 15, adjacent to the inner ends of the bases 20 of each of the duct-forming parts 16. The member 3 shown in FIG. 3 includes a mesh 6 that prevents insects from entering the roof space. FIG. 4 shows the outer part of the eave of the roof structure cooperating with the duct 3 shown in FIG. Fascia board 8
are fixed to the ends of the rafters, and a ceiling 9 is arranged between the outer wall and the fascia plate 8. Spacer 10
is arranged between the fascia plate 8 and the lowest row of roof tiles 13. The spacer has a first portion 11 projecting outwardly from the fascia plate and a raised free end 12 supporting a tile 13. The first part 11 is provided with a plurality of ventilation holes, through which air flows from the outside of the roof into the space behind the ceiling and fascia,
Thereafter, as shown by the arrow in FIG. 4, it flows into the interior space of the roof through the groove formed by the duct 3.

[Brief explanation of drawings]

Fig. 1 is a sectional view of the eave part of the roof structure including the duct, Fig. 2 is a sectional view taken along the - line in Fig. 1, and Fig. 3 is a perspective view of another embodiment of the duct. and FIG. 4 is a sectional view of the eave portion of the roof structure including the duct shown in FIG. 1... Taruki, 2... Inner wall, 3... Duct, 4
... Roof insulation member, 5 ... Reinforcement rib, 15 ... Inverted U-shaped part of duct, 16 ... Duct forming part,
20... base, 6... mesh, 8... fascia board, 9... ceiling, 10... spacer, 11... first part, 12... standing free end, 13... tile.

Claims (1)

[Scope of Claims] One includes a rafter with ducts in the vicinity of the eave, each of the ducts being in the form of a tray,
an upwardly open duct component connected to a central portion of the inverted U-shaped cross section, the central portion comprising:
It spans a single rafter in the form of a duct component arranged on both sides, said duct component forming a flow path for ventilating the interior space of the roof, with said duct component extending between the rafters. A roof structure in which each of said ducts projects laterally only partially and is sufficiently self-supporting to allow the duct components to maintain approximately the required shape. 2. A roof according to claim 1, wherein each of the ducts has a generally "W"-shaped cross-section, and the duct is constructed with a single duct component on each side of the rafter to which it is attached. structure. 3. Each of the ducts is formed from a substantially rigid material.
Roof structure as described in section. 4. A roof structure according to claim 1 or 2, wherein each of the ducts is formed from a lightweight sheet and is provided with reinforcing ribs for supporting the duct components. 5 Attached to the rafters of the roof structure, in the form of a tray molded from lightweight sheets, in use the duct components are open upwards and are joined by an inverted U-shaped central section that spans the rafters. longitudinally spaced, laterally facing reinforcing ribs are provided at the common inner ends of the duct components arranged on both sides of the rafter in use, with each duct component The base of the duct is maintained approximately at right angles to both sides of the rafter.