JP2004244918A - Ventilation ridge - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the number of components by requiring only a small number of fasteners such as a rivet and a screw for fastening a ventilation ridge plate and a ridge plate retainer together, and to reduce manufacturing costs by reducing the number of assembling man-hours. <P>SOLUTION: In this ventilation ridge, the ridge plate retainer 14 is provided below the ventilation ridge plate 13; a spacer member 42 is provided between the ridge plate 13 and the retainer 14; the ridge plate 13 and the retainer 14 are fixed to roof surfaces 4a and 4b by means of a fixing implement 43 such as a nail which passes through the spacer member 42; and the spacer member 42 makes the ridge plate 13 and the retainer 14 fastened together so as not to be separated from each other. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a ventilation building installed on a roof of a house or the like.
[0002]
[Prior art]
As shown in FIG. 14, a ventilation ridge plate installed on a roof of a house or the like is provided above a roof opening 71 provided in a roof ridge portion so as to straddle a pair of roof surfaces sandwiching the ridge. The ventilation ridge plate 72 has a pair of inclined portions 73 formed in a mountain shape along a pair of roof surfaces, and the pair of inclined portions 73 is provided with an exhaust hole 76. A ridge plate receiver 77 is provided below the exhaust hole 76 of the plate 72, and a spacer member 81 is provided between the inclined portion 73 of the ventilation ridge plate 72 and the ridge plate receiver 77 as shown in FIG. There is one in which the inclined portion 73 and the ridgeboard receiver 77 are fixed to the roof surface by a fixing tool 82 such as a nail penetrating the member 81.
[0003]
In this type of conventional ventilation building, as shown in FIG. 15, an annular projection 85 protruding upward is provided at an upper end portion of a spacer member 81, and an annular groove 86 is provided at a lower end portion of the spacer member 81.
The opening edge (burring projection) 89 of the upper mounting hole 88 for fixing the ventilation ridge plate 72 is fitted to the annular projection 85 of the spacer member 81, and the lower mounting hole 91 for fixing the ridge plate receiver 77 is formed. An opening edge (burring projection) 92 is fitted in the annular groove 86 of the spacer member 81.
[0004]
Then, a fixture 82 such as a nail is inserted into the sealing cap 93, the fixing holes 88 and 91 for fixing, and the spacer member 81, and is nailed on the roof surface, whereby ventilation is performed by the fixture 82 such as a nail. With the spacer member 81 interposed between the inclined portion 73 of the ridge plate 72 and the ridge plate receiver 77, the inclined portion 73 and the ridge plate receiver 77 were fixed to the roof surface by a fixture 82 such as a nail. (For example, Patent Document 1).
[0005]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 9-77882 [Patent Document 2]
Japanese Patent Application Laid-Open No. 10-008672 [Patent Document 1]
Registered Utility Model No. 3089974
[Problems to be solved by the invention]
However, in the conventional ventilation ridge, the ventilation ridge plate 72 and the ridge plate receiver 77 are not fastened by the spacer member 81 so as not to be separated from each other. Before fixing the ridge plate 72 and the ridge plate receiver 77 to the roof surface, it is necessary to fasten the ventilation ridge plate 72 and the ridge plate receiver 77 so as not to be separated from each other by fasteners 95 and 96 such as rivets and screws. was there. Therefore, fasteners 95 and 96 such as rivets and screws for fastening the ventilation ridge plate 72 and the ridge plate receiver 77 separately from the spacer member 81 are required. On the other hand, in addition to incorporating the spacer member 81, it is necessary to fasten the ventilation ridge plate 72 and the ridge plate receiver 77 with fasteners 95 and 96 such as rivets and screws, which increases the number of parts and the number of assembling steps. This was an economic disadvantage.
[0007]
In view of the above problems, the present invention reduces the number of parts, the number of assembly steps, and the manufacturing cost by reducing the number of fasteners such as rivets and screws for fastening the ventilation ridge plate and the ridge plate receiver. It is designed to be cheap.
[0008]
[Means for Solving the Problems]
The technical means of the present invention for solving this technical problem is that a ridge plate receiver 14 is provided below the ventilation ridge plate 13, and a spacer member 42 is provided between the ventilation ridge plate 13 and the ridge plate receiver 14. Is provided, and the ventilation ridge plate 13 and the ridge plate receiver 14 are fixed to the roof surfaces 4a and 4b by fixing tools 43 such as nails penetrating the spacer member 42.
The point is that the ventilation ridge plate 13 and the ridge plate receiver 14 are fastened by the spacer member 42 so as not to be separated from each other.
[0009]
Another technical means of the present invention is that a ridge plate receiver 14 is provided below the ventilation ridge plate 13, and a spacer member 42 is provided between the ventilation ridge plate 13 and the ridge plate receiver 14, The ventilation ridge plate 13 and the ridge plate receiver 14 are fixed to the roof surface 4a by a fixture 43 such as a nail penetrating the spacer member 42 through the upper mounting hole 24 of the ridge plate 13 and the lower mounting hole 34 of the ridge plate receiver 14. In the ventilation building fixed to 4b,
An upper locking portion 47 for locking the opening edge 39 of the upper mounting hole 24 is provided at the upper end of the spacer member 42, and the opening edge 40 of the lower mounting hole 34 is locked to the lower end of the spacer member 42. A lower locking portion 48 is provided. The upper locking portion 47 locks the opening edge 39 of the upper mounting hole 24, and the lower locking portion 48 locks the opening edge 40 of the lower mounting hole 34. Thus, the ventilation ridge plate 13 and the ridge plate receiver 14 are fastened by the spacer member 42 so as not to be separated from each other.
[0010]
Further, another technical means of the present invention is that the upper locking portion 47 is provided on the outer peripheral surface of the upper end portion of the spacer member 42 so that the opening edge portion 39 of the upper mounting hole 24 is locked so as not to be vertically movable. A tapered portion 49, which is formed by a recessed annular groove, is provided above the upper locking portion 47 of the spacer member 42 and gradually decreases in diameter upward so as to be able to be inserted into the upper mounting hole 24 from below. The lower locking portion 48 is constituted by a flange portion provided at a lower end portion of the spacer member 42 so as not to be inserted into the lower mounting hole 34, and the upper side of the lower locking portion 47 of the spacer member 42 is The point is that the lower mounting hole 34 can be inserted from below.
[0011]
Further, another technical means of the present invention is that the upper locking portion 47 is formed by an annular groove immersed in the outer peripheral surface of the upper end portion of the spacer member 42, and is located above the upper locking portion 48 of the spacer member 42. A taper portion 49 having a gradually decreasing diameter is provided upward so that the lower mounting portion 47 can be inserted into the upper mounting hole 24 from below. A tapered portion 51 having a gradually decreasing diameter is provided below the lower locking portion 48 of the spacer member 42 so that the upper mounting hole 24 can be inserted from above. On the point.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described with reference to the illustrated embodiments.
In FIG. 1, 1 is a purlin, 2 is a rafter, and 3 is a ground board, which is attached to a frame of a roof 4 assembled by a purlin 1 and a rafter 2. A waterproof sheet 5 such as asphalt roofing is laid on the upper surface of the field board 3, and a roofing material 6 such as a straight tile is laid thereon.
A ridge portion of the roof 4 is provided with a roof opening 7 formed by cutting out the base plate 3 and the roof material 6 and the like, and over the roof opening 7, straddles a pair of roof surfaces 4 a and 4 b sandwiching the ridge. The ventilation ridge 11 is provided. Reference numeral 8 denotes a drainer provided in correspondence with the roof opening 7.
[0013]
1 to 5, the ventilation ridge 11 includes a ventilation ridge plate 13 made of sheet metal and a pair of left and right ridge plate receivers 14 made of sheet metal.
The ventilation ridge plate 13 includes a pair of inclined portions 15 formed in a mountain shape along the pair of roof surfaces 4a and 4b, and a pair of upright portions 16 protruding downward from outer ends of the pair of inclined portions 15. And a pair of installation portions 17 projecting from the lower ends of the pair of upright portions 16 in the roof flow direction so as to follow the roof surfaces 4a, 4b. At the outer end of the installation part 17 of the ventilation ridge plate 13, a folded part 19 is provided which is folded in a U-shape on the lower side.
[0014]
As shown in FIG. 4, a plurality of (two in the illustrated example) exhaust holes 20 are provided on the outer side (eave side) of the pair of inclined portions 15 so as to be continuous in the roof flow direction. A plurality of (two) ventilation holes 20 are provided at intervals in the ridge direction. Each ventilation hole 20 is formed by cutting and raising the wind evasion piece 21 downward on the inclined portion 15, and the wind evasion piece 21 is formed to be curved in an arc shape. A plurality of fixing upper mounting holes 24 are provided between the ventilation holes 20 of the inclined portion 15 at intervals in the ridge direction. As shown in FIGS. 1 to 3, a dew proof material 18 is provided on the lower surface of the pair of inclined portions 15 on the ridge side.
[0015]
As shown in FIG. 1 to FIG. 3 and FIG. 5, the ridge plate receivers 14 are respectively arranged below the outer side (eave side) of the pair of inclined portions 15, and the roof surfaces 4 a and 4 b It is installed above. Each ridge plate receiver 14 includes a receiving plate portion 27 facing the exhaust hole 20 of the inclined portion 15, an upright portion 28 projecting upward from an inner end of the receiving plate portion 27, and a roof flow direction from an upper end of the upright portion 28. It has a projecting contact portion 29, a hanging portion 30 projecting downward from the outer end of the contact portion 29, and a projecting portion 31 projecting from the lower end of the hanging portion 30 in the roof flow direction. Further, a protruding plate portion 32 protruding in the roof flow direction is provided on the outer end side of the receiving plate portion 27 of the ridge plate receiver 14 along the lower surface side of the installation portion 17 of the ventilation ridge plate 13.
[0016]
As shown in FIGS. 2, 3 and 5, an exhaust port 26 is provided in the upright portion 28 of the ridge plate receiver 14, and a lower mounting hole 34 for fixing is provided in the receiving plate portion 27 of the ridge plate receiver 14 in the ridge direction. The lower mounting holes 34 for fixing correspond to the upper mounting holes 24 for fixing the inclined portion 15.
The contact portion 29 is in contact with the inclined portion 15 of the ventilation ridge plate 13 from below. Further, the protruding end of the protruding plate portion 32 is pressed against the U-shaped folded portion 19 of the ventilation ridge plate 13 from below, whereby water on the ridge plate receiver 14 is transmitted back through the protruding plate portion 32 and folded. The air is discharged from the portion 19 onto the roof surfaces 4a and 4b. A drain hole 37 is provided above the protruding plate portion 32 of the ridge plate receiver 14 in the roof flow direction.
[0017]
The opening edge 39 of the upper mounting hole 24 for fixing the ventilation ridge plate 13 is formed in an annular shape projecting upward by burring, and the opening edge 40 of the lower mounting hole 34 for fixing the ridge plate receiver 14 is formed by burring. To form a ring projecting upward.
A spacer member 42 is provided between the inclined portion 15 of the ventilation ridge plate 13 and the ridge plate receiver 14, and the inclined portion 15 and the ridge plate receiver are fixed by a fixture 43 such as a nail, a screw nail, or a screw penetrating the spacer member 42. 14 are fixed to the roof surfaces 4a and 4b.
As shown in FIGS. 2, 3 and 6 to 8, the spacer member 42 is formed in a cylindrical shape from rubber or an elastic synthetic resin or the like. An insertion hole 44 through which the upper mounting hole 24 is inserted is formed at an upper end of the spacer member 42, and an upper locking portion 47 for locking the opening edge 39 of the upper mounting hole 24 is provided at a lower end of the spacer member 42. A lower locking portion 48 for locking the opening edge portion 40 of the mounting hole 34 is provided.
[0018]
The upper locking portion 47 is formed by an annular groove immersed in the outer peripheral surface of the upper end portion of the spacer member 42, and the opening edge 39 of the upper mounting hole 24 is externally fitted to the upper locking portion 47. At 47, the opening edge 24 of the upper mounting hole 24 is locked so as not to move up and down. The lower locking portion 48 is constituted by a flange portion provided at a lower end portion of the spacer member 42, and the outer diameter of the lower locking portion 48 is formed to be larger than the diameter of the lower mounting hole 34. The lower mounting hole 34 cannot be inserted into the mounting hole 34, and the opening edge 40 of the lower mounting hole 34 is fitted over the lower locking portion 48 of the spacer member 42. The edge 40 is locked so as to restrict downward movement.
[0019]
Above the upper locking portion 47 of the spacer member 42, a tapered portion 49 having a gradually decreasing diameter is provided upward, and the tapered portion 49 can be inserted into the upper mounting hole 24 from below. The outer diameter of the upper side of the lower locking portion 48 of the spacer member 42 is formed to be substantially the same as the diameter of the lower mounting hole 34, and can be inserted into the lower mounting hole 34.
As described above, the upper locking portion 48 locks the opening edge 39 of the upper mounting hole 24 so as not to be vertically movable, and the lower locking portion 48 moves the opening edge 40 of the lower mounting hole 34 downward. By locking so as to regulate, the ventilation ridge plate 13 and the ridge plate receiver 14 are fastened by the spacer member 42 so as not to be separated from each other. The movement of the ventilation ridge plate 13 and the ridge plate receiver 14 in the approaching direction is regulated by the contact of the contact portion 29 with the inclined portion 15 and the pressure contact of the protruding end of the protruding plate portion 32 with the folded portion 19, Thus, the ventilation ridge plate 13 and the ridge plate receiver 14 are fixed so as to be relatively immovable.
[0020]
The waterproof member 22 is attached to the spacer member 42, and the spacer member 42 is disposed on the roof surfaces 4a and 4b via the waterproof member 22. A fixing tool 43 such as a screw nail or a nail is used to fix the upper mounting hole 24 for fixing. It is inserted through the spacer member 42 and the lower mounting hole 34 and is hit against the roof surfaces 4a and 4b, whereby the inclined portion 15 of the ventilation ridge plate 13 and the receiving plate portion of the ridge plate receiver 14 are fixed by a fixing tool 43 such as a nail. The inclined portion 15 and the receiving plate portion 27 are fixed to the roof surfaces 4a and 4b by a fixing tool 43 such as a nail with the spacer member 42 interposed therebetween.
[0021]
According to the above-described embodiment, when assembling the ventilation ridge 11, for example, a pair of ridge plate receivers 14 are arranged below the ventilation ridge plate 13 and below the eaves side of the pair of inclined portions 15, respectively. The contact portion 29 of the ridge plate receiver 14 is brought into contact with the inclined portion 15 of the ventilation ridge plate 13 from below, and the protruding end of the protruding plate portion 32 is attached to the folded portion 19 of the ventilation ridge plate 13 from below. In this state, the spacer member 42 is inserted into the lower mounting hole 34 from the lower side of the ridge receiver 14 in this state, and then the tapered portion 49 of the spacer member 42 is further inserted into the upper mounting hole 24 of the ventilation ridge plate 13. The opening edge 39 of the upper mounting hole 24 may be externally fitted to the upper locking portion 47, and the opening edge 39 is locked to the upper locking portion 47 so as not to be vertically movable. At the same time, the opening edge portion 40 of the lower mounting hole 34 is fitted over the lower locking portion 48 of the spacer member 42 so that the lower movement of the opening edge portion 40 is restricted by the lower locking portion 48. Locked. As a result, the ventilation ridge plate 13 and the pair of ridge plate receivers 14 are easily fastened by the spacer members 42 so as not to be separated from each other.
[0022]
Therefore, before fixing the ventilation ridge plate 13 and the ridge plate receiver 14 to the roof surfaces 4a, 4b, the ventilation ridge plate 13 and the ridge plate receiver 14 are fastened to each other by fasteners such as rivets and screws so as not to be separated from each other. It is no longer necessary, or the number of places to be fastened can be reduced. Therefore, fasteners such as rivets and screws for fastening the ventilation ridge plate 13 and the ridge plate receiver 14 separately from the spacer member 42 can be unnecessary or reduced, and the ventilation ridge plate 13 and the ridge plate receiver 14 can be used. Can be eliminated or reduced by the use of fasteners such as rivets and screws, the number of parts is reduced, the number of assembling steps is reduced, the manufacturing cost is reduced, and it is economically advantageous.
[0023]
To attach the ventilation ridge 11 to the roof surfaces 4a, 4b, the ridge plate receiver 14 is placed on the roof surfaces 4a, 4b via the waterproof material 22, and fixing members 43 such as screw nails and nails are attached. It penetrates through the fixing holes 24 and 34 and the spacer member 42 and strikes against the roof surfaces 4 a and 4 b, whereby the inclined part 15 of the ventilation ridge plate 13 and the ridge plate receiver 14 are fixed by a fixing tool 43 such as a nail. With the spacer member 42 interposed between the receiving plate portion 27 and the fixing member 43 such as a nail, the inclined portion 15 and the receiving plate portion 27 may be fixed to the roof surfaces 4a and 4b.
[0024]
After the ventilation ridge 11 is attached, the exhaust air discharged from the roof opening 7 passes through the exhaust port 26 of the ridge plate receiver 14 as shown by an arrow a in FIG. And the air is exhausted to the outside through the exhaust holes 20 of the ventilation ridge plate 13. Then, water such as rainwater that has entered the ridge plate receiver 14 from the exhaust hole 20 travels through the protruding plate portion 32 and is first discharged from the drain hole 37 onto the roof surfaces 4a and 4b, and the drain hole 37 overflows. However, the remaining water is discharged onto the roof surfaces 4a and 4b from the folded portion 19 side. Moreover, since the waterproof material 22 is interposed between the ridge plate receiver 14 and the roof surfaces 4a, 4b, a drainage channel can be secured between the ridge plate receiver 14 and the roof surfaces 4a, 4b. Therefore, water that has entered the ridge plate receiver 14 can be smoothly drained onto the roof surfaces 4a and 4b.
[0025]
FIG. 9 shows another embodiment, in which a washer (ring) 50 is externally fitted to the upper locking portion 47 of the spacer member 42, and the opening edge 39 of the upper mounting hole 24 is separated from the washer 50 of the upper locking portion 47. The upper end of the opening edge 39 is fitted to the washer 50 so as to be fitted downward. The washer 50 is made of rubber, synthetic resin, or the like, which is a rubber-based material of the same quality as the spacer member 42, or is made of metal or the like. The outer diameter of the washer 50 is larger than the tapered portion 49 of the spacer member 42. Is formed.
[0026]
In this case, in order to attach the spacer member 42 to the ventilation ridge plate 13 and the ridge plate receiver 14 and fasten the ventilation ridge plate 13 and the ridge plate receiver 14, the spacer member 42 from which the washer 50 is removed is attached to the ridge plate receiver 14. After being inserted into the lower mounting hole 34 from below, the tapered portion 49 of the spacer member 42 is further inserted into the upper mounting hole 24 of the ventilation ridge plate 13, and then protrudes from the upper mounting hole 24 of the ventilation ridge plate 13. The washer 50 may be fitted to the tapered portion 49, the washer 50 may be fitted to the upper locking portion 48, and the washer 50 may be brought into contact with the opening edge portion 39 from above. In this case, the opening edge portion of the upper mounting hole 24 Even if the inner diameter of 39 is substantially equal to or slightly larger than the outer diameter of the tapered portion 49 of the spacer member 42, the opening edge 39 of the upper mounting hole 24 cannot move upward to the upper locking portion 48 via the washer 50. To secure By forming the inner diameter of the opening edge portion 39 of the upper mounting hole 24 to be substantially equal to or slightly larger than the outer diameter of the tapered portion 49 of the spacer member 42, the spacer member 42 can be connected to the ventilation ridge plate 13 and the ridge plate. When mounted on the receiver 14, the tapered portion 49 of the spacer member 42 can be easily inserted into the upper mounting hole 24 of the ventilation ridge plate 13, and the spacer member 42 can be mounted on the ventilation ridge plate 13 and the ridge plate receiver 14. And the opening edge 39 of the upper mounting hole 24 of the upper locking portion 47 can be locked more reliably.
[0027]
FIGS. 10 and 11 show another embodiment, in which the lower locking portion 48 is formed by an annular groove immersed and formed in the outer peripheral surface of the lower end portion of the spacer member 42, and the lower locking portion 48 has the opening of the lower mounting hole 34. The edge portion 40 is fitted to the outside, and the lower locking portion 48 locks the opening edge portion 40 of the lower mounting hole 34 so that it cannot move vertically. Below the lower locking portion 48 of the spacer member 42, there is provided a tapered portion 51 whose diameter gradually decreases downward so that the upper mounting hole 24 can be inserted from above. A waterproof material 22 is attached to the lower surface of the ridge plate receiver 14 so as to cover the upper mounting hole 24, and the ridge plate receiver 14 is disposed on the roof surfaces 4 a and 4 b via the waterproof material 22. In other respects, the configuration is the same as that of the above-described embodiment, and the upper locking portion 47 is formed by an annular groove immersed in the outer peripheral surface of the upper end portion of the spacer member 42. Above 47, a tapered portion 49 is provided which gradually decreases in diameter upward so that it can be inserted into the upper mounting hole 24 from below.
[0028]
According to the above embodiment, when assembling the ventilation ridge 11, the spacer member 42 is disposed between the ventilation ridge plate 13 and the ridge plate receiver 14, and the tapered portion 49 of the spacer member 42 is changed from the lower side to the ventilation ridge plate. 13 is inserted into the upper mounting hole 24 and the opening edge 39 of the upper mounting hole 24 is externally fitted to the upper locking portion 47, so that the opening edge 39 is locked to the upper locking portion 47 so as not to be vertically movable. I do. Further, the tapered portion 51 of the spacer member 42 is inserted into the lower mounting hole 34 of the ridge plate receiver 14 from the upper side, and the opening edge 40 of the lower mounting hole 34 is externally fitted to the lower locking portion 48, so that the opening is formed. The edge portion 40 may be locked to the upper locking portion 48 so as not to be able to move up and down, so that the ventilation ridge plate 13 and the pair of ridge plate receivers 14 are easily fastened by the spacer member 42 so as not to be separated from each other. The contact portion 29 of the ridge plate receiver 14 contacts the inclined portion 15 of the ventilation ridge plate 13 from below, and the protruding end of the protruding plate portion 32 contacts the folded portion 19 of the ventilation ridge plate 13 from below. It is kept in a pressed state.
[0029]
Accordingly, also in this case, fasteners such as rivets and screws for fastening the ventilation ridge plate 13 and the ridge plate receiver 14 separately from the spacer member 42 can be unnecessary or reduced, and the ventilation ridge plate 13 and the ridge It is possible to eliminate or reduce the work of fastening the plate receiver 14 with fasteners such as rivets, screws, etc., so that the number of parts is reduced, the number of assembling steps is also reduced, the manufacturing cost is reduced, and it is economically advantageous. become.
FIG. 12 shows another embodiment, in which the protruding end of the protruding plate portion 32 of the ridge plate receiver 14 is fitted to the folded portion 19 of the ventilation ridge plate 13. The other points are the same as those in the embodiments shown in FIGS. 1 to 8, 9, 10, and 11.
[0030]
In addition, in the case of the embodiment of FIGS. 1 to 8, 9, 10, and 11, as shown by the two-dot chain line in FIG. The baffle plate 55 may be fastened with a fastener 56 such as a rivet, and the projecting portion 31 projecting from the hanging portion 30 may be omitted.
FIG. 13 shows another embodiment in which a baffle plate 58 is sandwiched between spacer members 42. The baffle plate 58 is provided between a pair of upright portions 59 and 60 and an upper end of the pair of upright portions 59 and 60. , A setting part 62 protruding from the lower end of the ridge-side standing part 59 to the ridge side, a setting part 63 protruding from the lower end of the eave-side standing part 60 to the eaves side, A pair of upright portions 59 and 60, ventilation holes 65 are provided, a top plate 61 of the baffle plate 58 is provided with a mounting hole 66, and a spacer member 42 is provided. The opening edge of the mounting hole 66 is fitted to the upper locking portion 47. In addition, an exhaust port 67 is provided in the upright portion 16 of the ventilation ridge plate 13, and an inclined piece 68 cut and raised on the ridge side is provided. The other points are the same as those in the embodiment shown in FIGS.
[0031]
According to the above-described embodiment, the ventilation ridge plate 13 and the pair of ridge plate receivers 14 are simply fastened so as not to be separated from each other by the spacer member 42, and the baffle plate 58 is fixed by the spacer member 42 to the ventilation ridge plate. It is easily clamped and fixed between 13 and the ridge plate receiver 14. After the ventilation ridge 11 is attached, the exhaust air discharged from the roof opening 7 passes through the exhaust port 26 of the ridge plate receiver 14 as shown by an arrow a in FIG. 14, passes through the vent 65 of the baffle plate 58, passes over the inclined protrusion 64, and is exhausted to the outside through the exhaust port 67 of the ventilation ridge plate 13.
[0032]
In the case of the above embodiment, the opening edge 39 of the upper mounting hole 24 for fixing the ventilation ridge plate 13 is formed in an annular shape projecting upward by burring, and the lower mounting hole for fixing the ridge plate receiver 14. The opening edge 40 of the upper mounting hole 24 and the opening edge 40 of the lower mounting hole 34 are formed in an annular shape protruding upward by burring. The present invention is not limited to this, and may be, for example, a ring-shaped one in which the upper mounting hole 24 or the upper mounting hole 34 is kept open in the ventilation ridge plate 13 or the ridge plate receiver 14.
[0033]
【The invention's effect】
According to the present invention, fasteners such as rivets and screws for fastening the ventilation ridge plate 13 and the ridge plate receiver 14 are unnecessary or small, so that the number of parts and the number of assembling steps are reduced. Manufacturing costs can be reduced.
[Brief description of the drawings]
FIG. 1 is a schematic sectional view of a ventilation building showing an embodiment of the present invention.
FIG. 2 is a sectional view of a fixture part of the ventilation building.
FIG. 3 is a sectional view of an exhaust hole portion of the ventilation building.
FIG. 4 is a plan view of the ventilation building plate.
FIG. 5 is a perspective view of the ridge plate receiver.
FIG. 6 is a front view of the spacer member.
FIG. 7 is a plan view of the spacer member.
FIG. 8 is a sectional view of the spacer member.
FIG. 9 is a cross-sectional view of a fixture part of a ventilation building showing another embodiment.
FIG. 10 is a cross-sectional view of a fixture part of a ventilation building showing another embodiment.
FIG. 11 is a front view of the spacer member.
FIG. 12 is a cross-sectional view of a ventilation building showing another embodiment.
FIG. 13 is a cross-sectional view of a ventilation building showing another embodiment.
FIG. 14 is a schematic sectional view showing a conventional example.
FIG. 15 is a sectional view of the spacer member.
[Explanation of symbols]
11 Ventilation building 13 Ventilation building board 14 Building board receiver 24 Upper mounting hole 34 Lower mounting hole 39 Opening edge 40 Opening edge 42 Spacer member 43 Fixing device 47 such as nail Upper locking portion 49 Tapered portion 51 Tapered portion

Claims (4)

A ridge plate receiver (14) is provided below the ventilation ridge plate (13), and a spacer member (42) is provided between the ventilation ridge plate (13) and the ridge plate receiver (14). 42) In a ventilation ridge in which the ventilation ridge plate (13) and the ridge plate receiver (14) are fixed to the roof surfaces (4a, 4b) by fasteners (43) such as nails penetrating through 42).
The ventilation ridge, wherein the ventilation ridge plate (13) and the ridge plate receiver (14) are fastened by the spacer member (42) so as not to be separated from each other. A ridge plate receiver (14) is provided below the ventilation ridge plate (13), and a spacer member (42) is provided between the ventilation ridge plate (13) and the ridge plate receiver (14). The fixing plate (13) such as a nail penetrating the spacer member (42) through the upper mounting hole (24) and the lower mounting hole (34) of the ridge plate receiver (14). ) And the ridge plate receiver (14) are fixed to the roof surface (4a, 4b).
An upper locking portion (47) for locking the opening edge (39) of the upper mounting hole (24) is provided at an upper end of the spacer member (42), and a lower mounting portion is provided at a lower end of the spacer member (42). A lower locking portion (48) for locking the opening edge (40) of the hole (34) is provided, and the opening edge (39) of the upper mounting hole (24) is locked by the upper locking portion (47). At the same time, by locking the opening edge (40) of the lower mounting hole (34) with the lower locking portion (48), the ventilation ridge plate (13) and the ridge plate receiver (14) are held by the spacer member (42). Is connected so that they do not separate from each other. The upper locking portion (47) is formed in an annular shape immersed in the outer peripheral surface of the upper end portion of the spacer member (42) so that the opening edge portion (39) of the upper mounting hole (24) is locked so as not to be vertically movable. The tapered portion (which is formed of a groove and gradually decreases in diameter upwards so as to be able to be inserted from below into the upper mounting hole (24) above the upper locking portion (47) of the spacer member (42). 49), and the lower locking portion (48) is constituted by a flange portion provided at a lower end portion of the spacer member (42) so as not to be inserted into the lower mounting hole (34). The ventilation building according to claim 2, wherein the upper side of the lower locking portion (47) is insertable from below into the lower mounting hole (34). The upper locking portion (47) is formed by an annular groove immersed in the outer peripheral surface of the upper end portion of the spacer member (42), and is provided above the upper locking portion (48) of the spacer member (42). (24) is provided with a tapered portion (49) having a gradually decreasing diameter toward the upper side so that it can be inserted from below, and the lower locking portion (47) is provided at the outer periphery of the lower end portion of the spacer member (42). The annular groove is formed so as to be immersed in the surface, and has a diameter gradually decreasing downward so as to be able to be inserted from above into the upper mounting hole (24) below the lower locking portion (48) of the spacer member (42). The ventilation building according to claim 2, wherein a tapered portion (51) is provided.

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