JP4350651B2 - Exterior wall structure and construction method - Google Patents

Description

  The present invention relates to an outer wall structure attached to a building frame and a construction method thereof.

  The exterior walls of residential buildings such as hotels can ensure basic performances such as water-stopping, wind pressure resistance, weather resistance, fire resistance, inter-layer displacement tracking, heat insulation, and sound insulation, and a certain degree of exterior design is possible. Must be a structure. Therefore, conventional RC, precast concrete, ALC, etc. are often selected as the outer wall.

Conventionally, an outer wall structure that has been subjected to a waterproof treatment has been proposed in order to ensure water-stopping of the outer wall. For example, when the outer wall is constructed by a frame wall construction method, a waterproof sheet is adhered to the outer wall panel (wall assembly), and waterproofing is secured by applying a waterproof tape between the outer wall panels ( For example, see Patent Document 1.)
Japanese Patent No. 3277332

  However, in the outer wall structure using the conventional RC as described above, the weight of the outer wall is heavy, and there is a problem that the piles and foundations are burdened particularly when a building is constructed on soft ground such as a landfill. To do. Further, in the above-described conventional outer wall structure using conventional RC or the like, when a clapboard-like design is applied to the exterior, it is necessary to manufacture a special formwork. Furthermore, in the outer wall structure subjected to the conventional waterproof treatment described above, when the width of the gap between adjacent outer wall panels is widened, for example, when an interlayer displacement occurs, the waterproof tape adhered between the outer wall panels is There exists a possibility that it may fracture | rupture, and when waterproofing tape fractures | ruptures, there exists a problem that water stoppage will not be maintained.

  The present invention takes the above-described conventional problems into consideration, and provides an outer wall structure that can ensure the basic performance of the outer wall, reduce the weight of the outer wall, and can economically correspond to the design of the exterior. The purpose is to do. It is another object of the present invention to provide an outer wall structure that can ensure water blocking of the outer wall even when the width of the gap between adjacent outer wall panels increases.

The invention according to claim 1 is a steel frame attached to a building frame, a base material composed of a calcium oxalate plate attached to the steel frame, and a cement siding or cement board attached to the outer surface of the base material A surface layer material made of any one of the above, and at least the steel frame and the base material are panelized for each room of the building to form an outer wall panel. The outer wall panels are arranged adjacent to each other, and between the adjacent outer wall panels, at least a waterproof seal interposed between the adjacent steel frames, and a facet of the facing base material facing each other. Water-stop portions each formed of a waterproof tape attached thereto are formed, and the side of the waterproof tape on the steel frame side protrudes from the small edge surface of the base material. And is embedded in the waterproof seal, and the outer surface of the base material is covered with a waterproof sheet formed larger than the outer wall panel, and the end of the waterproof sheet The portion is provided to extend to the adjacent outer wall panel, closes the gap between the adjacent outer wall panels, and the end portions of the waterproof sheets respectively covered by the adjacent outer wall panels are overlapped with each other, The waterproof sheet is installed by loosening a portion between the outer wall panels .

Due to these features, the outer wall is secured by wind pressure resistance by attaching the base material to the steel frame, and by using a calcium oxalate plate as the base material, fire resistance and heat insulation are ensured and weight reduction is achieved. Realized. In addition, an exterior design is formed by the surface layer material, and weather resistance is ensured.
In addition, the outer walls of each room of the building are each formed by a single outer wall panel, and the sound transmitted through the frame is cut off to ensure sound insulation, and inter-layer displacement followability and heat insulation are also secured.
In addition, water leakage between adjacent outer wall panels is prevented by the water stop portion.
Further, when the width of the gap between adjacent outer wall panels increases, the loosened portion of the waterproof sheet allows the expansion, so that the waterproof sheet does not break.

Invention of Claim 2 is the construction method of the outer wall structure of Claim 1 , The process of attaching a steel frame to the frame of a building, The process of sticking the base material which consists of a calcium oxalate board to the said steel frame, The said, And a step of attaching a surface material made of either cement siding or cement board to the outer surface of the base material.

  With such characteristics, an outer wall structure having the above-described configuration is constructed.

According to the outer wall structure of the first aspect of the present invention, a steel frame, a base material made of calcium oxalate plate, and a surface layer material made of either cement siding or cement board are provided. Therefore, the weight of the outer wall can be reduced, the burden on the piles and foundations of the building can be reduced, and a building with good performance can be provided economically.
Moreover, since the exterior design is formed by the surface layer material that is a ready-made building material, it is possible to economically form the exterior design such as a painted wall style and a clapboard style.
In addition, wind pressure resistance is secured by attaching the base material to the steel frame, and fire resistance and heat insulation are ensured by using a calcium oxalate plate as the base material, and either cement siding or cement board is used as the base material. Since the weather resistance is ensured by attaching the surface layer material composed of one side, the basic performance of the outer wall can be ensured.
In addition, the steel frame and the base material are panelized for each room in the building to form an outer wall panel, so that the outer wall of each room in the building is formed by a single outer wall panel, blocking the sound transmitted through the frame. As a result, sound insulation is ensured, and inter-layer displacement followability and heat insulation are also ensured. Therefore, performance equal to or higher than that of conventional RC walls can be ensured.
Moreover, between the adjacent outer wall panels, a waterproofing portion is formed which includes a waterproof seal interposed between adjacent steel frame frames and a waterproof tape adhered to the small edge surface of the opposing base material. Thus, water leakage from between the adjacent outer wall panels is prevented by the water stop portion, so that the water stoppage of the outer wall composed of a plurality of outer wall panels can be ensured.
In addition, the waterproof sheet extending to the adjacent outer wall panel is covered on the outer surface of the base material, and the portion between the outer wall panels of the waterproof sheet is loosened, so that the width of the gap between the adjacent outer wall panels is widened. In this case, the loosened portion of the waterproof sheet expands and the waterproof sheet does not break, so the certainty of the water stop performance of the outer wall can be improved.

Moreover, according to the construction method of the outer wall structure according to claim 2, the step of attaching the steel frame to the frame of the building, the step of attaching the base material made of calcium oxalate plate to the steel frame, and the outer surface of the base material, The above-described outer wall structure can be constructed by providing a step of attaching a surface material made of either cement siding or cement board.

  Embodiments of an outer wall structure and its construction method according to the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view showing an embodiment of an outer wall structure and its construction method according to the present invention, and FIG. 2 is a cross-sectional view showing an embodiment of the outer wall structure and its construction method according to the present invention.
As shown in FIGS. 1 and 2, a building 1 includes a frame 4 composed of a steel column 2 and a steel beam 3, a slab 7 in which a reinforced concrete 6 is formed on a deck plate 5, and a paneled outer wall 8. It consists of and. In addition, the building 1 is provided with a balcony 9 made of precast concrete on each floor. A plurality of living rooms 10 are formed in the building 1, and each living room 10 is surrounded by upper and lower slabs 7, an outer wall 8 and an inner wall (not shown).

  The outer wall 8 includes a steel frame 11 attached to the outside of the housing 4, a base material 12 attached to the steel frame 11, and a surface layer material 28 attached to the outer surface 12 a of the base material 12.

  The steel frame 11 and the base material 12 are made into a panel for each living room 10, and the outer wall panel 13 that closes the outer side surface of each living room 10 is formed by the steel frame 11 and the base material 12. . In the set of outer wall panels 13, the height H corresponds to the floor height (the length between the upper and lower slabs 7), and the width W corresponds to the width of the living room 10 (the distance between adjacent steel columns 2 in the figure). is doing. At the center of the upper end portion of the set of outer wall panels 13, a recess 13a into which the balcony 9 is fitted is formed. A rectangular opening 13b is formed at the center of the outer wall panel 13, and a sash (not shown) is attached to the opening 13b. A plurality of outer wall panels 13 are provided, and a plurality of outer wall panels 13 are arranged adjacent to each other on the outside of the housing 4.

  The steel frame 11 is formed by combining a plurality of vertical members 14 and horizontal members 15 made of a square steel pipe, a lip groove steel, or the like in a lattice shape.

3 is an enlarged cross-sectional view between the outer wall panels 13 adjacent to each other side by side, and FIG. 4 is an enlarged cross-sectional view between the outer wall panels 13 adjacent in the vertical direction.
As shown in FIGS. 1, 2, 3, and 4, the base material 12 is attached to the outer surface 11 a of the steel frame 11. Moreover, the base material 12 consists of the double calcium oxalate board 16, and the calcium oxalate board 16 is screwed and attached to the vertical member 14 and the horizontal member 15 by screws 23a and 23b, respectively. Further, both sides of the base material 12 and the upper and lower fore edge surfaces 12b are substantially flush with the side end surface 11b and the upper and lower end surfaces 11c of the steel frame 11.

  As shown in FIG. 2, the outer wall panel 13 is connected to the upper and lower steel beams 3 and 3 via a receiving member 30, and the load of the outer wall panel 13 is supported by the receiving member 30. The upper receiving member 30a includes a housing side member 31a composed of an angle or the like suspended from the lower flange 3a of the upper steel beam 3 and a panel side composed of an angle or the like suspended from the lateral member 15 above the outer wall panel 13. It is comprised from the member 32a and the fastening means 33a which consists of a high strength volt | bolt etc. which mutually connect the frame side member 31a and the panel side member 32a. On the other hand, the lower receiving member 30b includes a housing side member 31b composed of an angle or the like standing on the upper flange 3b of the lower steel beam 3 and an angle or the like suspended from the horizontal member 15 below the outer wall panel 13. The panel side member 32b which consists of, and the fastening means 33b which consists of a high strength volt | bolt etc. which mutually connect the frame side member 31b and the panel side member 32b. The frame side members 31 a and 31 b are welded to the lower flange 3 a and the upper flange 3 b of the steel beam 3, and the panel side members 32 a and 32 b are welded to the lower surface of the horizontal member 15. A plurality of receiving members 30 are provided for one outer wall panel 13, and it is desirable that a plurality of receiving members 30 be provided not only in the vertical direction but also in the horizontal direction.

  As shown in FIGS. 3 and 4, a gap of about several tens of millimeters is provided between the outer wall panels 13 that are adjacent to each other in the left and right and upper and lower sides. The water stop part 17 which prevents the water leak from is formed. The water stop part 17 is comprised from the waterproof seal 18 interposed between the adjacent steel frame 11, and the waterproof tape 19 each affixed on the small edge surface 12b of the base material 12 which opposes.

  The waterproof tape 19 is made of, for example, a single-sided adhesive acrylic waterproof tape, and is provided along the edge of the base material 12. The width of the waterproof tape 19 is larger than the width of the facet 12 b of the base material 12, and the waterproof tape 19 is bent in a “<” shape at a substantially central portion. One side portion of the waterproof tape 19 projects from the small edge surface 12b of the base material 12 by several millimeters and is attached to the side end surface 11b and the upper and lower end surfaces 11c of the steel frame 11, and the other side portion is the base material 12. The outer surface 12a of the base material 12 is stuck to the end of the base material 12 by projecting about several tens of millimeters from the small edge surface 12b. A primer for preventing peeling of the waterproof tape 19 is applied to the outer surface 12 a and the small edge surface 12 b of the base material 12 to which the waterproof tape 19 is attached, or the side end surface 11 b and the upper and lower end surfaces 11 c of the steel frame 11.

  The waterproof seal 18 is made of, for example, a two-component modified silicone seal, and is driven on a backup material 20 fitted between adjacent steel frames 11, and the waterproof seal 18 is opposed to the opposite end surface 11b of the steel frame 11 side. Between and continuously filled. The waterproof seal 18 is formed to be substantially flush with the outer surface 11a of the steel frame 11, and is formed so as to cover one end of the waterproof tape 19 by several millimeters, and one side of the waterproof tape 19 is waterproof. It is embedded in the seal 18.

  The outer surface 12 a of the base material 12 is covered with a waterproof sheet 21 made of, for example, a waterproof moisture-permeable sheet that is tackered to the outer surface 12 a of the base material 12. The waterproof sheet 21 is formed larger than the outer wall panel 13, and an end portion of the waterproof sheet 21 extends to the adjacent outer wall panel 13, and the gap between the adjacent outer wall panels 13 is closed by the waterproof sheet 21. It is. The end portions of the waterproof sheet 21 respectively covered with the adjacent outer wall panels 13 are wrapped by several tens to several hundreds of millimeters. Further, the waterproof sheet 21 is installed such that a portion 21 a crossing the gap between the outer wall panels 13 is loosened by several tens of millimeters or more. This slack portion 21a is bent between the facing facets 12b to which the waterproof tape 19 is attached.

  The surface layer material 28 attached to the outer surface 12a of the base material 12 is formed of a rectangular plate-like cement siding, and a plurality of siding boards 22 are attached in a clapboard manner. The siding board 22 is fixed to the outer surface 12 a of the base material 12 by being screwed up and down by screws 24 that penetrate the base material 12 and reach the steel frame 11. However, as shown in FIG. 4, only the upper part of the siding board 22 attached to the lowermost end of the outer wall panel 13 is screwed with screws 24. The lower part of the siding board 22 is only put on the siding board 22 attached to the uppermost end of the lower outer wall panel 13, and the surface layer material 28 attached to the outer wall panel 13 adjacent to the upper and lower sides. Are not fixed but separated.

  Further, as shown in FIG. 3, a gap of about several tens of millimeters is formed between the surface layer materials 28 respectively attached to the outer wall panels 13 adjacent in the lateral direction, and the gap between the outer wall panels 13 adjacent in the horizontal direction. A joint portion 25 extending in the up-down direction is provided at a location opposite to. The joint portion 25 is formed with a seal portion 26 made of, for example, a polyurethane seal. The seal portion 26 is interposed between the small edge surfaces 22a of the adjacent siding boards 22 with a gap therebetween.

  On the back side of the seal portion 26, for example, a seal pressing member 27 made of an acrylic waterproof tape and serving as a seal receiver for the seal portion 26 is provided. The sealing material 27 for sealing is a band-like tape having waterproofness, and is provided along the gap between the outer wall panels 13 adjacent in the lateral direction. The seal retainer 27 is provided across the laterally adjacent outer wall panels 13, and both side portions of the seal retainer 27 are respectively located at the ends of the base material 12 outer surface 12 a of the adjacent outer wall panel 13. It is stuck. In addition, the sealing presser 27 is installed with a portion 27a crossing the gap between the outer wall panels 13 being loosened by several tens of millimeters or more.

  Next, the construction method of the outer wall structure which consists of an above-described structure is demonstrated. Here, a case where a multi-level building 1 composed of upper and lower floors is constructed will be described as an example.

  First, the process of assembling the steel column 2 and the steel beam 3 and forming the frame 4 of the lower floor part is performed. At this time, the housing 4 of the upper floor portion may be assembled at the same time.

  Next, the process of attaching the steel frame 11 to the lower case 4 is performed. Specifically, first, when the steel frame 11 is attached to the housing 4, the panel side member 32 a is welded to a predetermined position of the lateral member 15 facing the lower flange 3 a of the upper steel beam 3, and the lowest horizontal The panel side member 32b is welded to a predetermined position of the member 15. Further, the housing side member 31a of the receiving member 30a is welded to the lower flange 3a of the upper steel beam 3, and the housing side member 31b of the receiving member 30b is welded to the upper flange 3b of the lower steel beam 3. Next, the steel frame 11 is lifted using a lifting machine (not shown) and placed at a predetermined position outside the housing 4. And the frame side member 31a welded to the lower flange 3a of the upper steel beam 3 and the panel side member 32a welded to the horizontal member 15 on the upper part of the steel frame 11 are connected by the fastening means 33a, and the lower side The frame side member 31b welded to the upper flange 3b of the steel beam 3 and the panel side member 32b welded to the horizontal member 15 below the steel frame 11 are connected by the fastening means 33b, and the steel frame 11 is attached to the frame 4. .

  As described above, the plurality of steel frames 11 are attached to the outside of the housing 4, the plurality of steel frames 11 are arranged side by side, and the steel frame 11 for one floor is attached. At this time, an appropriate gap is left between the steel frames 11 adjacent in the lateral direction.

  Next, the end of the deck plate 5 is hooked on the upper steel beam 3, and the deck plate 5 is laid in a range surrounded by the upper steel beam 3. And the base end part of the balcony 9 is fitted in the recessed part 13a of the outer wall panel 13, and the balcony 9 is arrange | positioned in a predetermined position. At this time, a support (not shown) that supports the balcony 9 is installed under the balcony 9. After the balcony 9 is installed, slab bars (not shown) are arranged on the deck plate 5, and concrete is placed on the deck plate 5 after the arrangement is completed to form the slab 7 on the upper floor.

Next, the steel column 2 and the steel beam 3 on the upper floor are assembled to form a housing 4 on the upper floor. Of course, it is not necessary when the upper-level housing 4 is assembled simultaneously with the lower-level housing 4.
Next, the process of attaching the steel frame 11 to the housing 4 in the upper floor portion is performed. The attachment work of the outer wall panel 13 is performed in the same manner as the attachment work of the steel frame 11 in the lower floor portion described above. At this time, an appropriate gap is provided between the steel frames 11 adjacent to each other in the vertical direction.

  On the other hand, the process of attaching a sash to the steel frame 11 attached to the housing 4 is performed. Specifically, a sash (not shown) is attached to the opening 13b formed in the center of the steel frame 11 by welding.

  Next, the base material 12 made of the calcium oxalate plate 16 is attached to the steel frame 11 to form the outer wall panel 13. Specifically, the outer surface 11a of the steel frame 11 is affixed to the calcium oxalate plate 16 and screwed with a screw 23a, and another calcium oxalate plate 16 is overlaid thereon and screwed with a screw 23b. .

  Next, a step of applying a water stop treatment to the gap between the adjacent outer wall panels 13 is performed. Specifically, first, a primer is applied to each of the edge surface 12b of the base material 12, the end of the outer surface 12a of the base material 12, and the side end surface 11b and the upper and lower end surfaces 11c of the steel frame 11. Then, the waterproof tape 19 is attached along the edge of the base material 12 in a state where the waterproof tape 19 is folded into a “<” shape. Next, the backup material 20 is fitted into the gap between the adjacent steel frame 11. The backup material 20 is continuously provided along the vertical member 14 and the horizontal member 15 of the adjacent steel frame 11. Then, the gap between the steel frames 11 into which the backup material 20 is fitted is sealed, and a waterproof seal 18 is formed in the gap between the steel frames 11.

  Next, the process of coat | covering the surface of the outer wall panel 13 with the waterproof sheet 21 is performed. Specifically, the waterproof sheet 21 is attached to the outer surface 12 a of the base material 12 and is tacked. At this time, the end portion of the waterproof sheet 21 is projected from the end portion of the outer wall panel 13, the end portion of the waterproof sheet 21 is extended and pasted toward the adjacent outer wall panel 13, and each of the adjacent outer wall panels 13 is covered. The ends of the waterproof sheet 21 are wrapped. Further, the waterproof sheet 21 loosens a portion 21 a that crosses the gap between the adjacent outer wall panels 13.

  Next, the process of sticking the pressing material 27 for sealing along the gap between the outer wall panels 13 adjacent in the lateral direction is performed. At this time, the part 27a crossing the gap between the outer wall panels 13 is loosened.

  Next, the process of sticking the surface material 28 on the outer surface 12a of the base material 12 covered with the waterproof sheet 21 is performed. Specifically, a plurality of siding boards 22 are fastened with screws 24 and pasted into a clapboard. End portions of the surface layer material 28 are overlapped between the outer wall panels 13 adjacent in the vertical direction, and joint portions 25 are formed with an appropriate gap between the outer wall panels 13 adjacent in the horizontal direction.

Next, the process of sealing to the joint part 25 between the outer wall panels 13 adjacent to a horizontal direction is performed. Specifically, the seal pressing member 27 is used as a seal receiver, and the seal portion 26 is formed by sealing at a joint portion 25 between adjacent siding boards 22 with a gap.
Finally, a process of coating the surface of the surface material 28 is performed.

  According to the outer wall structure having the above-described configuration, the steel frame 11, the base material 12 made of the calcium oxalate plate 16, and the surface layer material 28 made of cement siding are provided. Weight reduction is realized. Thereby, the burden concerning the pile and foundation of the building 1 can be reduced, and the building 1 with good performance can be provided economically.

Moreover, since the exterior design is formed by the surface layer material 28 made of cement siding, which is a ready-made building material, the exterior design of the clapboard-like outer wall 8 can be economically formed.
In addition, the wind pressure resistance is secured by the base material 12 being affixed to the steel frame 11, and the fire resistance and the heat insulation are secured by using the calcium oxalate plate 16 for the base material 12, and the base material 12 is made of cement siding. By attaching the surface layer material 28, the weather resistance is secured, and the basic performance of the outer wall 8 can be secured.

  Further, since the steel frame 11 and the base material 12 are panelized for each living room 10 of the building 1 to form an outer wall panel 13, the outer wall 8 of each living room 10 is formed by a single outer wall panel 13. The sound transmitted through the enclosure is cut off to ensure sound insulation, and inter-layer displacement followability and heat insulation are also secured. As a result, the outer wall 8 having the above-described configuration can ensure performance equal to or higher than that of the conventional RC wall.

  Further, between the adjacent outer wall panels 13, a water stop portion comprising a waterproof seal 18 interposed between the adjacent steel frame 11 and a waterproof tape 19 attached to each of the facets 12 b of the facing base material 12. Since 17 is formed, water leakage from between the adjacent outer wall panels 13 is prevented by the water stop portion 17. Thereby, it is possible to ensure the water stoppage of the outer wall 8 composed of the plurality of outer wall panels 13.

  Moreover, since the waterproof sheet 21 extended to the adjacent outer wall panel 13 is coat | covered by the outer surface 12a of the base material 12, and the location 21a between the outer wall panels 13 of this waterproof sheet 21 is slackened, adjacent outer wall Even when the width of the gap between the panels 13 increases, the loosened portion 21a of the waterproof sheet 21 allows the expansion, and the waterproof sheet 21 does not break. Thereby, the water stop performance of the outer wall 8 can be ensured reliably.

  Moreover, according to the construction method of the outer wall structure which consists of an above-described structure, the process of attaching the steel frame 11 to the housing 4 of the building 1, the process of sticking the base material 12 to the steel frame 11, and the outer surface 12a of the base material 12 And a step of attaching the surface layer material 28 made of cement siding, the outer wall structure having the above-described configuration can be constructed.

  As mentioned above, although embodiment of the outer wall structure and its construction method concerning this invention was described, this invention is not limited to above-described embodiment, In the range which does not deviate from the meaning, it can change suitably. For example, in the above-described embodiment, the surface layer material 28 made of cement siding is used, but the present invention may use a surface layer material 101 made of cement board 100 as shown in FIG. In this case, since the cement board 100 has a thickness sufficient for sealing, the backup material 103 is fitted between the cement boards 100 respectively attached to the adjacent outer wall panels 102, and the sealing material 103 is sealed on the backup material 103. Thus, the seal portion 104 can be formed. Therefore, it is not necessary to provide a seal pressing member on the back side of the seal portion 104. In addition, the surface of the cement board 100 is coated with a thin mortar 105. Note that reference numeral 107 shown in FIG. 5 indicates a steel frame, reference numeral 108 indicates a waterproof seal, reference numeral 109 indicates a waterproof tape, and reference numeral 110 indicates a waterproof sheet.

  Further, in the above-described embodiment, the base material 12 is formed by double-stretching the calcium oxalate plate 16, but the present invention is composed of a single calcium oxalate plate as shown in FIG. The base material 106 may be used, or three or more calcium oxalate plates may be stacked.

It is a perspective view for demonstrating embodiment of the outer wall structure which concerns on this invention, and its construction method. It is sectional drawing for demonstrating embodiment of the outer wall structure which concerns on this invention, and its construction method. It is detailed sectional drawing for demonstrating embodiment of the outer wall structure which concerns on this invention, and its construction method. It is detailed sectional drawing for demonstrating embodiment of the outer wall structure which concerns on this invention, and its construction method. It is detailed sectional drawing for demonstrating other embodiment of the outer wall structure which concerns on this invention, and its construction method.

Explanation of symbols

1 building 4 frame 10 rooms (living room)
DESCRIPTION OF SYMBOLS 11,107 Steel frame 12,106 Base material 13,102 Outer wall panel 16 Calcium oxalate board 17 Water stop part 18,108 Waterproof seal 19,109 Waterproof tape 21,110 Waterproof sheet 28,101 Surface material 110 Cement board

Claims (2)

A steel frame attached to a building frame, a base material made of a calcium oxalate plate attached to the steel frame, and a surface material made of either cement siding or cement board attached to the outer surface of the base material door is provided,
At least the steel frame and the base material are panelized for each room of the building to form an outer wall panel,
A plurality of the outer wall panels are arranged in close proximity to each other in the building frame,
Between the adjacent outer wall panels, there is at least a waterproofing portion comprising a waterproof seal interposed between the adjacent steel frame frames and a waterproof tape respectively attached to a small edge surface of the facing base material. Formed,
The side of the waterproof tape on the side of the steel frame is projected from the small edge surface of the base material and stuck to the steel frame and embedded in the waterproof seal,
The outer surface of the base material is covered with a waterproof sheet formed larger than the outer wall panel,
The end of the waterproof sheet is provided to extend to the adjacent outer wall panel, and closes the gap between the adjacent outer wall panels,
The ends of the waterproof sheets covered with the adjacent outer wall panels are overlapped with each other,
The outer wall structure is characterized in that the waterproof sheet is installed by loosening a portion between the outer wall panels . In the construction method of the outer wall structure according to claim 1 ,
A step of attaching a steel frame to a building frame, a step of attaching a base material made of a calcium oxalate plate to the steel frame, and a surface layer material made of either cement siding or cement board on the outer surface of the base material A method for constructing an outer wall structure, comprising a step of pasting.

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