JP2017057572A - Roof structure and building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable completely waterproof specifications to be fulfilled even mainly when a roof board material is split into a plurality of pieces.SOLUTION: In a roof structure, an eaves gutter 31 is installed at an edge-of-eaves part 21 of a roof 3. The roof 3 comprises a plurality of roof board materials 12 that are juxtaposed along the edge-of-eaves part 21. Each of the roof board materials 12 individually has a flowing water hole 41 provided at the edge-of-eaves part 21. The eaves gutter 31 has a top surface provided with a water discharge hole 42 corresponding to the flowing water hole 41.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a roof structure and a building.

  A roof is attached to the upper portion of the building, and an eave ridge is attached to a portion (eave portion) on the eave side of the roof (see, for example, Patent Documents 1 to 8).

JP 2007-204975 A Japanese Utility Model Publication No. 1-159032. JP 2001-271466 A JP 2002-155603 A JP 60-37360 A Japanese Patent Laid-Open No. 10-18530 JP 2014-214421 A Japanese Utility Model Publication No. 62-124129

  For example, when snowmelt water enters between the roof and the eaves in winter (so-called “slag leak”), it leaks indoors or freezes on the back of the eaves ceiling, causing icicles, etc. Occurs. Such “slag leakage” is more likely to occur as the distance between the roof panel and the eaves is increased as in Patent Document 1.

  For this reason, in cold regions, it is necessary to prevent soaking by making a so-called completely waterproof specification between the roof and the eaves.

  However, as in Patent Document 2, when the roof plate material constituting the roof is divided into a plurality of pieces, it becomes impossible to secure a watertight relationship with the eaves at the divided portion between the roof plate materials, and it is completely waterproof. It was difficult to make specifications.

  In that respect, Patent Documents 3 to 8 do not particularly have a problem due to the division between the roof plate materials because the roof plate material is an integral object.

  Accordingly, the main object of the present invention is to solve the above-described problems.

In order to solve the above problems, the present invention provides:
In the roof structure where eaves are installed along the eaves part of the roof,
The roof is composed of a roof plate material arranged in parallel along the eaves portion,
Each of the roof plate materials individually has flowing water holes in the eaves portion,
The eaves bowl has a drainage hole on the upper surface that matches the waterflow hole.

  According to the present invention, with the above configuration, even when the roofing sheet material is divided into a plurality of sheets, it is possible to achieve a completely waterproof specification.

It is a side view of the eaves part of the building which shows the roof structure of this Embodiment. It is sectional drawing along AA of FIG. It is a disassembled perspective view which shows the relationship between the several roof board | plate material which comprises a roof, and the eaves wall installed under these roof board | plate materials. It is the elements on larger scale of FIG. 2 which shows the condition of a connection member.

Hereinafter, the present embodiment will be described in detail with reference to the drawings.
1 to 4 are for explaining this embodiment.

  <Configuration> The configuration will be described below.

  As shown in FIG. 1, a building 1 such as a detached house has a building body 2 and a roof 3. In this case, the building 1 described above is a unit building. However, the building 1 is not limited to a unit building.

  In short, the above-described unit building is configured such that a building 1 can be constructed in a short period of time by transporting a plurality of building units and the like manufactured in advance at a factory to a construction site and assembling them at the site.

  In the case of a unit building, the building units (for example, steel units) constituting the building body 2 are, for example, connected between the upper ends of four unit columns in a rectangular shape with four ceiling beams 5 and four A unit frame having a box ramen structure in which the lower end portions of the unit pillars are connected in a rectangular shape with four floor beams. An outer wall material 6 and the like are attached to the outer surface side of the unit frame.

  The roof 3 is a flat roof with a gentle slope that is almost horizontal. On the roof 3, the solar cell panel 15 is integrally attached by using the attachment bracket 16.

  And the eaves part 21 is formed by attaching the roof 3 so that it may overhang a part with respect to the building main body 2. FIG. The roof 3 is installed obliquely so as to have a downward slope toward the tip (eave side) of the eaves part 21.

  Further, a parapet 22 is attached to the tip of the eaves portion 21 of the roof 3. And the eaves ceiling panel material 23 is attached to the back surface of the eaves part 21 formed in the roof 3 of the building 1. The eaves ceiling panel member 23 is attached by using mounting brackets 25 and 26 so as to close the space between the lower portion of the parapet 22 and the upper end portion of the outer wall member 6 of the building body 2.

  And the roof structure of this Example is provided with the following structures with respect to the above basic or whole structures.

(1) In the above-described roof structure, the eaves rod 31 is installed along the eaves tip portion 21 of the roof 3.
And in this roof structure, as shown in FIG. 2, FIG. 3, the said roof 3 is comprised with the roof board | plate material 12 arranged in multiple numbers along the eaves part 21. As shown in FIG.
And each said roof board | plate material 12 has the water flow hole 41 in the eaves part 21 individually.
In addition, the eaves bowl 31 has a drainage hole 42 that matches the flowing water hole 41 on the upper surface.

  Here, the flowing water hole 41 has a width that is shorter than the width dimension of the upper surface of the eaves rod 31 and has a horizontally long rectangular shape that extends in the width direction of the roof plate 12. The drain holes 42 are provided so as to correspond to the respective water holes 41 on a one-to-one basis. The drain hole 42 has the same shape and the same size as the flowing water hole 41, or has a size slightly larger than that.

  (2) In this case, the eaves bowl 31 has a rectangular tube shape.

  Here, the rectangular tubular eaves 31 is a watertight member having an upper surface, a bottom surface, both side surfaces, and both end surfaces. The flowing water hole 41 is formed on the flat upper surface of the eaves bowl 31. The rectangular tubular eaves 31 have a drainage gradient formed on the bottom surface.

  (3) The roof plate 12 is formed from a roof surface portion 12a in which the water flow holes 41 are formed, a side surface portion 12b rising upward from both side edge portions of the roof surface portion 12a, and an upper edge portion of the side surface portion 12b. It has an inverted hat type having a mounting flange portion 12c extending laterally toward the direction. Further, an end surface portion 12 d is formed on the eaves side of the roof plate 12 so as to rise.

  Here, the roof plate 12 is made of a hot dip galvanized steel plate, a galvanized steel plate, a stainless steel plate, or other weather-resistant materials. As shown in FIG. 1, a field board 13 is installed below the roof board material 12, and the roof board material 14 is configured by the roof board material 12 and the field board 13.

  (4) And the said water flow hole 41 has the draining part 45 (refer FIG. 2).

  Here, the draining portion 45 is a bent piece or the like bent downward at the edge of the water flow hole 41. The drainage portions 45 are provided at least at both ends in the longitudinal direction of the water flow holes 41.

(5) The eaves basket 31 is disposed in contact with the back side of the roof plate 12.
The flowing water hole 41 and the drainage hole 42 are connected to each other through a watertight material 43.

  Here, the watertight material 43 is made of, for example, butyl rubber. The watertight material 43 has an adhesive layer on both sides, and the watertight material 43 is attached so as to surround the periphery of the water flow hole 41 and the drainage hole 42, thereby fixing the space between the eaves 31 and the roof plate 12 (adhesion). Fixed with a layer interposed).

  A secondary basket 32 is disposed below the eaves bowl 31 so as to cover the eaves bowl 31. The secondary rod 32 is attached to the roof 3 using a rod support member 51. The rod support member 51 includes a pair of left and right bolt members 52 and a support plate 61 attached between the pair of bolt members 52 so that the height of the secondary rod 32 can be adjusted. And the eaves rod 31 is supported with respect to the secondary rod 32 via the several spacer 33 (refer FIG. 1) from which height differs in a longitudinal direction.

  (6) The roof sheet material 12 is adjacently disposed along the eaves portion 21 while being attached to the roof frame 11.

  Here, the roof 3 of the building 1 (in this case, a unit building) is constituted by a roof unit 7. For example, as shown in FIG. 2, the roof unit 7 includes a roof plate member 12 that is integrated between a pair of parallel roof frames 11. The roof frame 11 is a steel material having an inward C-shaped cross section having a pair of flange portions 11b and 11c above and below the web portion 11a. And the above-mentioned roof unit 7 is arranged in multiple numbers with respect to the upper part of the building unit located in the top floor.

  (7) As shown in FIG. 4, the edge portions of the adjacent roof plate members 12 are covered with a connecting member 47.

  Here, the connecting member 47 has a long U-shape and the like and extends in the longitudinal direction of the roof frame 11. The connecting member 47 can be formed of the same material as the roof frame 11. The connecting member 47 is bonded and fixed to the upper flange portion 11b of the roof frame 11 in a state where the connecting member 47 is covered between the roof frames 11 of the adjacent roof units 7 by the water-tight material 48 similar to the water-tight material 43 described above. The adjacent roof frames 11 are fixed with bolts 50 or the like via mounting brackets 49.

  <Effect> According to this embodiment, the following effects can be obtained.

  The rainwater that has fallen on the roof 3 is guided and drained from each roof plate 12 to the eaves trough 31 through the flow holes 41 and drain holes 42 formed in the eaves tip portion 21 of each roof plate 12.

  (Effect 1) At this time, the water flow holes 41 are individually formed in the eaves tip portion 21 of the plurality of roof plate members 12 arranged side by side, and the drainage holes 42 are formed on the upper surface of the eaves rod 31 having a rectangular tube shape, The drain hole 42 was made to coincide with the flowing water hole 41. Thereby, even when the roof plate 12 is divided into a plurality of pieces, each roof plate 12 is made to correspond to the eaves fence 31 and rainwater or the like does not flow from the divided portion between the roof plate materials 12 to the eaves 31. Therefore, it is possible to reliably guide rainwater and the like that has fallen on each roof plate 12 to the eaves wall 31 through the water flow holes 41 and the drain holes 42.

  (Function and Effect 2) The eaves bowl 31 has a rectangular tube shape. Thereby, the eaves wall 31 can be closely arranged with respect to the back surface of the roof board | plate material 12. FIG.

  (Effect 3) The roof board | plate material 12 was made into the reverse hat type thing which has the roof surface part 12a in which the flow hole 41 is formed, the side part 12b, and the attachment flange part 12c. Thereby, the roof board | plate material 12 can be made into the thing of the magnitude | size which is easy to handle in the shape suitable for the guidance of water.

  (Effect 4) The drainage part 45 was provided in the flowing water hole 41. FIG. Thereby, the rainwater that has entered the running water hole 41 from the roof plate 12 can be reliably guided to the eaves wall 31 without being leaked by the draining portion 45.

  (Effect 5) The eaves rod 31 is arranged in contact with the back surface side of the roof plate 12 in a state where the water flow hole 41 and the drainage hole 42 are connected via the watertight material 43. Thereby, the water-tightness between each roof board 12 and eaves 31 can be ensured by the water-tight material 43 interposed between each water flow hole 41 and the drain hole 42, and the roof board 12 Even when is divided into a plurality of sheets, a completely waterproof specification can be realized.

  As a result, for example, in the winter, snowmelt water enters between the roof plate 12 and the eaves wall 31 (so-called “slag leak” occurs), leaks indoors, freezes on the back of the eaves ceiling, etc. It is possible to prevent the occurrence of icicles.

  Further, since the eaves bowl 31 is disposed in contact with the back surface side of the roof plate member 12, the roof structure can be made compact and the appearance can be improved.

  (Effect 6) The roof board | plate material 12 shall be adjacently arranged along the eaves part 21 in the state attached to the roof frame 11. Thereby, for example, the roof plate material 12 can be applied to the roof 3 only by sequentially installing the roof frame 11 to which the roof plate material 12 is integrally attached along the eaves portion 21. Therefore, the construction of the roof sheet material 12 can be facilitated.

  (Effect 7) Between the adjacent roofing board materials 12 was covered with the connecting member 47. Thereby, it becomes possible to ensure the watertightness between the adjacent roof board | plate materials 12 with the connection member 47. FIG.

  As mentioned above, although embodiment of this invention has been explained in full detail with drawing, embodiment is only an illustration of this invention. Therefore, the present invention is not limited only to the configuration of the embodiment, and it goes without saying that design changes and the like within a scope not departing from the gist of the present invention are included in the present invention. Further, for example, when each embodiment includes a plurality of configurations, it is a matter of course that possible combinations of these configurations are included even if not specifically described. In addition, in the case where a plurality of examples and modifications are disclosed in the embodiment as those of the present invention, possible combinations of combinations extending over these are included even if not specifically described. Of course. Further, the configuration depicted in the drawings is of course included even if not particularly described. Further, when there is a term of “etc.”, it is used in the sense that the equivalent is included. In addition, when there are terms such as “almost”, “about”, “degree”, etc., they are used in the sense that they include those in the range and accuracy recognized by common sense.

DESCRIPTION OF SYMBOLS 1 Building 3 Roof 11 Roof frame 12 Roof board | plate material 12a Roof surface part 12b Side surface part 12c Mounting flange part 21 eaves part 31 Eaves 41 Flow hole 42 Drain hole 45 Drain part 43 Watertight material 47 Connecting member

Claims (8)

In the roof structure where eaves are installed along the eaves part of the roof,
The roof is composed of a roof plate material arranged in parallel along the eaves portion,
Each of the roof plate materials individually has flowing water holes in the eaves portion,
The roof structure, wherein the eaves wall has a drainage hole on the upper surface that matches the flowing water hole. The roof structure according to claim 1,
The roof structure characterized in that the eaves bowl has a rectangular tube shape. In the roof structure according to claim 1 or 2,
The roof plate material includes a roof surface portion in which the water flow holes are formed, a side surface portion that rises upward from both side edge portions of the roof surface portion, and a mounting flange that extends laterally outward from the upper edge portion of the side surface portion. A roof structure characterized by having an inverted hat shape having a portion. The roof structure according to any one of claims 1 to 3,
The said water flow hole has a draining part, The roof structure characterized by the above-mentioned. In the roof structure according to any one of claims 1 to 4,
The eaves are disposed in contact with the back side of the roof plate material,
The roof structure, wherein the flow hole and the drainage hole are connected to each other through a watertight material. The roof structure according to any one of claims 1 to 5,
The roof structure is characterized in that the roof plate material is disposed adjacent to the eaves portion in a state of being attached to the roof frame. The roof structure according to any one of claims 1 to 6,
A roof structure characterized in that the edge portions of the adjacent roof plate materials are covered with a connecting member.   A building comprising the roof structure according to any one of claims 1 to 7.