JP2525907C - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a hut back structure, and particularly focuses on a ventilation function. (Prior Art) In order to improve ventilation in the back of a hut, generally, a means of providing a ventilation hole in the back of the eave is used (see Japanese Utility Model Publication No. 57-30324). However, in recent years, buildings without eaves, in which the outer wall has been raised to the height of the roof, have come to be seen particularly in buildings made of RC (reinforced concrete). In such buildings without eaves, means such as opening ventilation holes in the back of the eaves cannot be applied.Conventionally, ventilation holes are opened in the outer wall at the position leading to the back of the hut, and the hut back is opened by ventilation from this ventilation hole. He is trying to ventilate (see Japanese Utility Model Publication No. 55-10816). (Problems to be Solved by the Invention) In such a conventional cabin backside structure, it is difficult to obtain a sufficient ventilation function unless a plurality of ventilation holes are provided at predetermined intervals. However, since these ventilation holes are exposed on the surface of the outer wall, the appearance of the building is impaired. In addition, rainwater that has flowed down along the outer surface of the outer wall easily penetrates through the ventilation holes into the back of the cabin, so it is necessary to take measures to prevent the ingress of rain for each ventilation hole, which requires a lot of work. was there. Therefore, the present invention focuses on the conventional problems described above, and provides a hut back structure that can sufficiently ventilate the back of the hut without impairing the aesthetics of the building, and that is difficult for rainwater to enter the hut back from the ventilation passage. It is intended to be. (Means for Solving the Problems) The present invention has been made for the purpose of solving the above-mentioned problems, and in order to achieve this object, the hut back structure of the present invention has a structure in which the upper end of the outer wall has a roof. Height, and a hut-back structure in which the hut is formed by the upper end of the outer wall, the roof, and the ceiling, a gap is formed between the upper end of the outer wall and the roof, over substantially the entire width of the outer wall. The gap is covered with a waterproof plate on the upper side, and the lower side is opened to the back of the cabin. Above the upper end of the outer wall, an air passage is formed by the cover material over substantially the entire width of the outer wall, The air passage has one end opened to the gap, the other end facing downward, and a substantially outer wall.
The water return plate is opened to the outside along the surface, and a water return plate is erected at the upper end of the outer wall in the air passage so that the upper end is outwardly bent at an acute angle . (Operation) In the hut back structure of the present invention, a gap is formed between the upper end of the outer wall and the roof, and the gap is formed over substantially the entire width of the outer wall. Opened on the back, above the upper end of the outer wall, an air passage is formed by the cover material over substantially the entire width of the outer wall, and one end of the air passage is opened to the gap, and the other end is directed downward and substantially downward. It is open to the outside along the outer wall surface, and inside the air passage.
Since a water return plate is erected on the front side of the upper end of the outer wall with its upper end outwardly bent at an acute angle, the back of the hut formed by the upper end of the outer wall, the roof, and the ceiling has the gap and the air. It will communicate with the outside via a passage. Therefore, since the outside of the shed is ventilated to the outside in a wide area covering almost the entire width of the outer wall, sufficient ventilation is performed. Further, since the air passage is open downward and substantially along the outer wall surface on the front side of the upper end of the outer wall, it is difficult for rainwater transmitted through the cover to enter the air passage. In addition, a water return plate is formed at the upper end of the outer wall in the air passage, and the upper end thereof faces outward and has an acute
Even if rainwater enters the air passage by being blown up by the wind, etc., the rainwater is again guided to the outside of the outer wall panel by this water return plate. . (Example) Hereinafter, an example of the present invention will be described in detail with reference to the drawings. First, the configuration of the embodiment will be described based on FIG. FIG. 1 is a longitudinal sectional view showing the back of a cabin structure of this embodiment, in which 1 is an outer wall panel constituting an outer wall, 2 is a panel constituting a roof, 3 is a ceiling panel constituting a ceiling, and an upper end of the outer wall is shown. The uppermost outer wall panel 1 constituting the part is provided at the height of the roof panel 2. The roof panel 2 is provided substantially horizontally so as to be parallel to the ceiling panel 3 while having a slight water gradient. The outer wall panel 1 and the roof panel 2 are formed of an ALC (Autoclaved light-weight concrete) plate or the like, and the ceiling panel 3 is formed of a hard wood chip cement plate or the like. Reference numeral 4 denotes the back of a hut, and the hut back 4 is formed by being surrounded by the upper end of the outer wall, the roof, and the ceiling. Further, a frame 5 having an L-shaped cross section is fixed to the back surface of the outer wall panel 1, and the frame 5 is fixed to a girder 6 with rivets 7. The roof panel 2 is also fixed to the girder 6, and a waterproof sheet 8 made of a soft vinyl chloride resin sheet or the like is stretched over almost the entire upper surface of the roof panel 2. In addition, a gap a is provided between the adjacent roof panels 2, 2, and the gap a has an upper surface closed by the waterproof sheet 8 and a lower surface opened to the back of the hut 4. In addition, ceiling panel 3
And is fixed to the small beam 10 via. Further, non-combustible face materials 11 and 12 such as calcium silicate plates are provided on the periphery of the girder 6 so as to cover the lower surface and the inside of the girder 6, and the non-combustible face material 11 and the outer wall panel 1 are provided. Non-combustible fillers 13 and 14, such as glass fibers, are provided between the non-combustible face material 12 and the roof panel 2, respectively. The main structure of the attic structure in the ALC building has been described above. In the present embodiment, the structure is further configured as follows in order to ventilate the attic 4. First, a gap b is formed between the outer wall panel 1 and the roof panel 2, which constitute the upper end of the outer wall, over substantially the entire length of the outer wall. The gap b has an upper part covered with a waterproof plate 15 and a lower part opened to the back of the hut 4. In addition, the waterproof plate 15 is provided with the outer wall panel 1 and the roof panel 2 crotch, the edge on the roof side is bonded to the upper surface of the roof panel 2, and the edge on the outer wall panel 1 side is connected to the girder 6. It is adhered to the fixed bracket 17. Above the outer wall panel 1, an air passage c is formed by the cover member 16 over substantially the entire width of the outer wall. One end of the air passage c is open to the gap b and the other end is opened. It is open downward and outward. A plurality of the cover members 16 are connected in the longitudinal direction by a joiner 18, and are provided so as to cover the upper end of the outer wall panel 1. The joiner 18 is screwed to the bracket 17 and the cover member 16 is fitted to the joiner 18.
The brackets 17 are provided at predetermined intervals along the girder 6. Reference numeral 19 denotes a water return plate, which is fixed to the upper end of the outer wall panel 1 and which is connected to the air passage.
c is set up so that it does not block, and the upper end is folded outward. Next, the operation of the embodiment will be described. In the hut back structure of the present embodiment, the hut back 4 formed by the upper end of the outer wall, the roof, and the ceiling has a gap b formed between the outer wall panel 1 and the roof panel 2, and the outer wall panel.
1 communicates with the outside through the air passage c formed above. Further, since the gap b and the air passage c are provided over the entire length of the outer wall, the hut back 4 communicates with the outside in a wide area over substantially the entire length of the outer wall. In the present embodiment, in order to ensure fire resistance, the hut back 4 is partitioned by a non-combustible face material 12 at an inner portion of the girder 6, but the inside and outside of the non-combustible face material 12 are adjacent to a roof panel. Since it communicates with the gap a between 2 and 2 and the gap b between the outer wall panel 1 and the roof panel 2, sufficient ventilation is provided through the entire back of the hut 4. Also, non-combustible face materials
Inside and outside of 12, some ventilation is also performed through a non-combustible filler 14 provided between the non-combustible face material 12 and the roof panel 2. Also, since the air passage c is open downward and outward, rainwater that has passed through the cover member 16 flows down the surface of the outer wall panel 1 as it is. That is, it is difficult for rainwater to enter from the air passage c. Also, even if rainwater enters the air passage c due to being blown up by the wind or the like, since the water return plate 19 is provided in the air passage c, the rain water is again applied to the outer wall panel 1 by the water return plate 19. You are led outside. As described above, in the cabin back structure of the present embodiment, it is not necessary to make a hole in the outer wall panel 1, so that the beauty of the building is not impaired, and the cabin back 4 can be sufficiently ventilated. At the same time, there is an effect that it is difficult for rainwater to penetrate into the back of the hut 4 from the ventilation passages such as the gap b and the air passage c. Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment and is included in the present invention even if there is a design change or the like without departing from the gist of the present invention. It is. For example, in the embodiment, the present invention is applied to an ALC building, but may be applied to an RC building. (Effects of the Invention) As described above, in the attic structure of the present invention, the attic can be sufficiently ventilated without impairing the aesthetics of the building, and rainwater can enter the attic from the ventilation passage. The effect of difficulty is obtained.

[Brief description of the drawings]   FIG. 1 is a longitudinal sectional view showing a back of a cabin structure according to an embodiment of the present invention.     1 ... Exterior wall panel     2. Roof panel     3. Ceiling panel     4 ... the back of the hut     15 ... Waterproof board     16 ... Cover material     b ... gap     c ... Air passage

Claims (1)

Claims 1) In a hut back structure in which an upper end of an outer wall is extended to the height of a roof, and a hut back is formed by the upper end of the outer wall, the roof, and the ceiling, the upper end of the outer wall and the roof are connected to each other. In between, a gap is formed over substantially the entire width of the outer wall, the gap is covered by a waterproof plate, the lower part is open to the back of the cabin, and a cover material is provided above the upper end of the outer wall. An air passage extending substantially over the entire width of the outer wall is formed by the air passage. One end of the air passage is opened to the gap, and the other end is downwardly opened to the outside along substantially the outer wall surface . The water return plate is bent outward at the upper end of the outer wall of the
The back of the hut is characterized by being turned upside down .