JP2017089357A - Temporary frame structure integrated with external insulation material, for forming reinforced concrete building when clearance from adjacent land lot is narrow - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a temporary frame structure integrated with an external insulation material that enables a reinforced concrete building to be built even when clearance from an adjacent house is narrow, by having the external insulation material installed outside of an external wall function as a temporary mold when casting concrete.SOLUTION: Both edges of a stainless-finished steel plate 58 are bent in parallel with each other to form a fixing sleeve part, the steel plate being formed in a polygonal shape and used as an exterior wall. A heat insulation panel fixing member is fitted and fixed at an edge part of a heat insulation panel 1, for fixing the heat insulation panel 1 with a separator and the fixing sleeve part, the heat insulation panel having styrene foam 3 sandwiched and bonded between two plywood boards 4. A heat insulation panel fitting member is fitted on an edge part on the other side of the heat insulation panel. Then, the plurality of heat insulation panels are lined up in a lateral direction, and the adjacent heat insulation panel fixing member, the heat insulation panel fitting member and the fixing sleeve part are fixed using a bolt, for forming a temporary frame structure integrated with an external heat insulation material used for constructing a reinforced concrete building.SELECTED DRAWING: Figure 5

Description

  The present invention relates to an outer heat insulating temporary frame construction method in which a heat insulating panel is used for the outer plate of a temporary frame of a reinforced concrete building and a stainless steel decorative steel plate is applied to the outer wall.

  Conventionally, as one of the construction methods for RC concrete buildings, there is an outer heat insulation method for constructing a heat insulating material on an outer wall surface. Since heat insulation is applied to the outer wall of the building frame, the heat storage inside the building is enhanced, and the temperature fluctuation in the room is reduced throughout the year, thereby reducing energy consumption such as cooling and heating, thereby contributing to energy saving.

  Furthermore, the outer heat insulation method has the advantages of preventing the occurrence of internal condensation, which is a problem in the inner heat insulation method, suppressing the generation of mold, and increasing the thermal efficiency of air conditioning. In addition, since the building frame does not directly contact the outside air, there is an advantage in that the hot weather in midsummer and the adverse effects on the building frame due to the cold damage in winter are greatly reduced, and the durability of the building frame is improved.

  However, when an RC concrete building is to be constructed by such an external heat insulation method, until now, after constructing the frame concrete, the heat insulating material is bonded to the outer wall surface of the frame concrete, and the refractory material is anchored thereon. For example, a method of fixing to a concrete with a frame or a method of fixing a glass fiber or the like to an outer wall surface of a frame with an anchor or the like and constructing a refractory mortar or the like thereon has been performed.

  In this way, any outer heat insulation method requires manual work to be performed on the outside of the building under construction, so a scaffold must be installed on the outside of the building. In a narrow area where many buildings are densely packed, it was practically impossible to build an RC concrete building by the external insulation method from the viewpoint of effective use of land.

In both of the following two patent documents, after building the concrete of the RC concrete building, the heat insulating material is attached to the outer wall surface of the concrete with an adhesive, and the glass fiber net attached to the heat insulating material is anchored. It is fixed to the frame concrete with the like, or the heat insulation panel for external heat insulation is directly fixed to the frame concrete with an anchor or the like.
JP2003-13583A JP 2010-174501

  As described above, in any external insulation method, after building the concrete of RC concrete building, in order to construct the heat insulating material on the outer wall surface of the concrete, a scaffold must be installed outside the building. The space for constructing scaffolds had to be opened more than 40cm between the two, which hindered effective use of the land.

  Furthermore, glass fiber reinforced cement boards have been used for exterior materials to be constructed outside the building, so hot summer heat and storms in the summer have adverse effects on exterior materials, and the durability of exterior materials over the long term As a result, it was necessary to maintain the outer wall regularly.

  In view of such conventional drawbacks, the present invention has a function as a temporary frame when placing concrete on the outer wall heat insulating material to be constructed outside the outer wall even when the gap with the neighbor is narrow. Therefore, an object of the present invention is to provide a temporary frame that can construct an RC concrete building by an external heat insulation method, can further eliminate maintenance of an outer wall for a long period of time, and can make maximum use of land.

  In order to solve this problem, the invention described in claim 1 is the outer heat-insulating temporary frame forming the reinforced concrete building, in which both ends of the stainless steel decorative steel sheet for the outer wall formed into a multi-face shape are bent in parallel to form the sleeve fixing portion. At the same time, the insulation panel is made of sandwiched polystyrene foam with two veneer plates. The insulation panel, separator, and sleeve fixing part are fixed to one end of the insulation panel. A heat insulation panel fixing member with a tapped hole for mounting is fitted and fixed, and a generally U-shaped heat insulation panel fitting member for fixing the heat insulation panel fixing member adjacent to the sleeve fixing portion is fitted to the other end. The heat insulation panel temporary frame is formed by inserting the heat insulation panel temporary frame between the sleeve fixing parts of the stainless steel decorative steel plate, Cormorant featuring that the sleeve fixing part of the insulating panel fixing member and the heat insulating panel fitting member and the stainless decorative steel plate was bolted.

  In addition to the structure according to claim 1, the invention described in claim 2 forms a stainless steel decorative steel sheet in accordance with the floor height of the building, and the lower end of the stainless steel decorative steel sheet on the upper floor is directed in the indoor direction. Place the flat plate for fixing folded on the outside, arrange the strip-shaped seamed decorative steel plate that matches the multi-sided shape of the stainless steel decorative steel plate on the outdoor side, fix the stainless steel decorative steel plate in a sandwich shape with the fixing flat plate and the seamed decorative steel plate, It is characterized in that the upper and lower floor stainless steel decorative steel plates are formed integrally with the upper floor of the stainless steel decorative steel plate on the floor.

  In addition to the structure of claim 1 or 2, the invention described in claim 3 has both ends of the stainless steel decorative steel sheet for outer walls formed into a multi-face shape, and the width of the heat insulation panel temporary frame and the thickness of the heat insulation panel fixing member. The feature is that the sleeve fixing portion is formed in parallel to match the total length.

  According to the first aspect of the present invention, in the outer heat insulating temporary frame forming the reinforced concrete building, both ends of the stainless steel decorative steel plate for the outer wall formed into a multi-face shape are bent in parallel and the sleeve fixing portion is formed. Tap hole for attaching the separator to the indoor side with a generally U-shape for fixing the heat insulation panel, separator and sleeve fixing part at one end of the heat insulation panel in which polystyrene foam is bonded in sandwich shape with plywood A heat insulation panel is fitted by fitting a heat insulation panel fixing member having a substantially U-shape to fix the heat insulation panel fixing member adjacent to the sleeve fixing portion at the other end. A temporary frame is formed, and the heat insulation panel temporary frame is fitted between the sleeve fixing portions of the stainless decorative steel plate, and a plurality of the heat insulation panel temporary frames are arranged in the horizontal direction. And by fixing the sleeve fixing part of the insulation panel fitting member and stainless steel decorative steel plate with bolts, the outer wall insulation material to be constructed on the outside of the outer wall has a function as an external temporary frame, and the RC concrete building is constructed by the outer insulation method. It has become possible to provide a temporary frame that can be constructed and that can make the most of the land without requiring maintenance of the outer wall for a long time.

  According to the second aspect of the present invention, the stainless steel decorative steel plate is formed in accordance with the floor height of the building, and the fixing flat plate having the lower end bent in the indoor direction is arranged on the indoor side of the lower end of the stainless steel decorative steel plate on the upper floor. A strip-shaped seamed decorative steel plate that matches the multi-sided shape of the stainless steel decorative steel sheet is placed outside, and the stainless steel decorative steel sheet is fixed in a sandwich shape with the fixing flat plate and the seamed decorative steel sheet. By forming the stainless steel decorative steel sheets on the upper and lower floors in one piece, it is possible to easily align the stainless steel decorative sheets on the upper and lower floors during construction, and easily align the beautiful vertical lines on the outer wall of the building. Became possible.

  According to the invention described in claim 3, both ends of the stainless steel decorative steel sheet for the outer wall formed into a multi-face shape are aligned in parallel with the total length of the width of the heat insulating panel temporary frame and the thickness of the heat insulating panel fixing member. By forming the bent sleeve fixing part, the outer part including the side of the heat insulation panel can be completely covered with the stainless steel decorative steel plate, and since the heat insulation panel does not directly contact the outside air, It has become possible to greatly reduce the negative effects on the insulation panels caused by the cold weather in winter.

Embodiments of the present invention will be described below.
[Embodiment of the Invention]

  1 to 9 show an embodiment of the present invention.

  FIG. 1 is an exploded view showing members of a heat insulating panel 1 and corner heat insulating panels 5 and 9 used for an outer temporary frame of an outer wall of a reinforced concrete building. The heat insulation panel 1 is composed of a plywood 2 (thickness 2.5 mm), a plywood 4 (thickness 7.5 mm), and a foamed polystyrene 3 (length 3 m, width 50 cm, thickness 5 cm). A heat insulating panel 1 as shown in FIG. 2 is formed by bonding the veneer plates 2 and 4 with an adhesive.

  Similarly, the heat insulating panel 5 for corners includes a veneer plate 6 (thickness 7.5 mm) that matches the shape of the outside of the foamed polystyrene 7 and a veneer plate 8 (thickness 2.5 mm) that matches the shape of the inside of the foamed polystyrene 7. And a sheet-like foamed polystyrene 7 (thickness 5 cm) in which the corners joined to the corners of adjacent corner heat insulating panels 9 are cut into an L shape, and the foamed polystyrene 7 is bonded to the veneer boards 6 and 8 with an adhesive. The corner heat insulation panel 5 as shown in FIG. 2 is formed.

  Similarly, the heat insulating panel 9 for corners is composed of a plywood board 10 (thickness 2.5 mm), a plywood board 12 (thickness 7.5 mm), and a plate-like foamed polystyrene 11 (thickness 5 cm). By bonding together with an adhesive, a corner heat insulating panel 9 as shown in FIG. 2 is formed.

  FIG. 2 shows a state in which the heat insulating panel 1 and the heat insulating panels 5 and 9 for corners described in FIG. 1 are bonded together with an adhesive in a sandwich shape, and the heat insulating panel 1, the heat insulating panel 5 for corners, and the stainless decorative steel plate for walls. 58 (described in FIG. 4), a U-shaped heat insulation panel fitting member 17 and a heat insulation panel fixing member 18 for fixing a corner stainless steel decorative steel plate 65 (described in FIG. 4) are shown.

  The heat insulation panel fitting member 17 holds one end of the heat insulation panel 1 or the heat insulation panel 9 for the corner, and the stainless decorative steel plate 58 for walls (described in FIG. 4) or the stainless decorative steel plate 65 for corners (described in FIG. 4). ) Is a member for attaching to the heat insulating panel fixing member 18, and a flat steel plate having a thickness of 1 mm is generally U-shaped (outside side length 50 mm, indoor side length 55 mm, height 62 mm, length 100 mm). ) And the bent side 26 is bent to form the bent portion 26. The abutting portion 29 having a height of 62 mm is provided with a heat insulating panel fixing member 18 and a stainless steel decorative panel 58 for a wall. A mounting hole 25 for fixing the stainless steel decorative steel plate 65 (described in FIG. 4) with a bolt 35 (described in FIG. 3) is opened.

  The heat insulation panel fixing member 18 fixes the stainless decorative steel plate 58 for walls and the stainless decorative steel plate 65 for corners to the heat insulation panel 1 or the heat insulation panels 5 and 9 for corners, and further, the heat insulation panel 1 and the heat insulation panels 5 and 7 for corners are separators. A flat steel plate having a thickness of 4.5 mm, which is a member for fixing to (described in FIG. 8), is generally U-shaped (outside side length 40 mm, indoor side length 35 mm, height 69 mm, The side on the indoor side is bent to the indoor side to form a bent portion 23 and a tapping hole for attaching a separator is opened, and the side on the outdoor side is fitted with a heat insulating panel. The fixing hole 22 for fixing the insert member 17 to the heat insulating panel 1 or the corner heat insulating panel 5 is opened, and the heat insulating panel fitting member 17 and the wall stainless steel are provided in the contact portion 28 having a height of 69 mm. Scan decorative steel plate 58, tapping hole 21 for fixing the corner stainless decorative steel plate 65 (described in FIG. 4) (Fig. 4, indicated by the broken line in the enlarged view) is opened.

  FIG. 3 shows the heat insulation panel fixing members 18 for joining the heat insulation panels 1 adjacent to each other, and the heat insulation panels 1 and the corner heat insulation panels 5, 9. The heat insulation panel fixing steel plate 37 and the corner | angular part fixation steel plate 41 for assembling the heat insulation panels 5 and 9 for corners while fixing to the heat insulation panel sleeve part 34 of the edge part of the heat insulation panel 5 for heat are shown. In order to construct the corners of the temporary frame by combining the end portions of the corner heat insulating panels 5 and 9 described in FIG. 2, a rectangular flat steel plate is formed in an isosceles trapezoidal shape outside the corners of the corner heat insulating panels 5 and 9. A plurality of corner fixing steel plates 41 with holes 42 for fixing the corner heat insulating panels 5 and 9 to the heat insulating panel fixing steel plates 37 with bolts 43 are arranged on the left and right surfaces, and the corner heat insulating panels 5 , 9, a rectangular flat steel plate is bent at a right angle, and a plurality of holes 39 and 40 for inserting bolts 43 to be inserted into the holes 42 of the corner fixing steel plate 41 are opened, and both end portions are parallel to each other. The bent portion 38 is formed by bending, and the bent portion 38 is provided with a heat insulating panel fixing steel plate 37 having holes (not shown) for fixing a separator 85 (described in FIG. 8). Insulation panel A plurality of holes 19, 20 for fixing the corners fixed steel 41 and the heat insulating panel fixing steel 37 at positions corresponding to the holes 39 and 40 drilled in the insulating panel fixing steel sheets 37 are opened to 9.

  FIG. 4 shows a combination of the corner heat insulation panel 5 and the corner heat insulation panel 9 at right angles, a corner fixing steel plate 41 is arranged at the corner of the outdoor side, and a heat insulation panel fixing steel plate at the corner on the indoor side. 37, bolts 43 are inserted into the holes 42 of the corner fixed steel plate 41, the holes 19 and 20 of the corner heat insulating panels 5 and 9 and the holes 39 and 40 of the heat insulating panel fixed steel plate 37 described in FIG. 45, the corner fixed steel plate 41, the corner heat insulating panels 5, 9 and the heat insulating panel fixed steel plate 37 are fixed and the wall stainless steel decorative steel plate 58 to be attached to the heat insulating panel 1 is disposed, and the corner heat insulating panels 5, 9 The state which has arrange | positioned the stainless steel decorative steel plate 65 for corners attached to is shown in a three-dimensional view.

  As shown in the cross-sectional view of FIG. 6, the wall-mounted stainless steel decorative plate 58 is a decorative steel plate for an outer wall that is formed by bending a flat stainless steel plate into a polyhedral shape. 58, the heat insulation panel fitting member 17 and the heat insulation panel fixing member 18 are fixed to the wall stainless steel decorative steel plate 58 at both ends by bending about 35 mm in parallel to form the sleeve fixing portions 50, 56, and the sleeve fixing portions 50, 56. Are provided with a plurality of holes 57 and 68 for fixing the wall-mounted stainless steel decorative sheet 58 to the heat-insulating panel fitting member 17, the heat-insulating panel fixing member 18, the adjacent wall-use stainless steel decorative steel sheet 58, or the corner stainless steel decorative steel sheet 65. In addition to opening, the wall-mounted stainless steel decorative steel plate 58 has a generally trapezoidal five-face shape (outer sleeve portion 51, inner sleeve portion 5) between the sleeve fixing portion 50 and the sleeve fixing portion 56. , Flat portion 53, the inner sleeve portion 54 is formed in a polygonal shape by bending the five surfaces) of the outer sleeve portion 55.

  Similarly, as shown in the cross-sectional view of FIG. 7, the corner stainless decorative steel plate 65 is a decorative steel plate formed by folding a flat stainless steel plate into a multi-face shape, and heat insulating panels are provided at both ends of the corner stainless decorative steel plate 65. In order to overlap and fix the fitting member 17, the heat insulation panel fixing member 18, and the sleeve fixing portion 50 or 56 of the stainless decorative steel plate 58 for the wall, the sleeve fixing portions 66 and 67 having a width of about 35 mm are formed, and the sleeve fixing portion 66 and the sleeve fixing portion 67 are folded into a substantially semi-circular six-face shape (the outer sleeve 59, the sleeve 60, the corner 61, the corner 62, the sleeve 63, and the outer sleeve 64). It is formed in a polyhedral shape.

  FIG. 5 shows the insulation panel 1 and the corner insulation panels 5 and 9 described in FIG. 4, the wall stainless steel decorative steel plate 58, the corner stainless steel decorative steel plate 65, the heat insulation panel fitting member 17, and the heat insulation panel fixing member 18. The state which fixed and assembled by 35 and constructed | assembled the outer heat insulation temporary frame 69 is shown with a three-dimensional view.

  FIG. 6a shows a heat insulating panel fitting member 17, a heat insulating panel fixing member 18, a separator 75, a bolt 35, a tree, in order to fix the stainless steel decorative panel 58 for walls to the adjacent heat insulating panels 1 described in FIGS. A state in which the screw 36 is arranged is shown in a sectional view. The heat insulation panel fixing member 18 is fitted into the heat insulation panel sleeve portion 33 of the heat insulation panel 1 arranged as described above, the heat insulation panel fixing member 18 is fixed to the heat insulation panel 1 with the wood screws 36, and further, the heat insulation panel insertion member 17 and the heat insulation panel 17 are insulated. Between the abutting portion 29 and the abutting portion 28 of the panel fixing member 18, the sleeve fixing portions 50 and 56 of the adjacent stainless steel decorative steel plates 58 for walls are overlapped and the bolt 35 is attached to the heat insulating panel fitting member 17. It is inserted into the hole 25, the hole 68 of the stainless steel decorative wall steel plate 58 adjacent to the hole, and the hole 57 of the stainless steel decorative steel plate 58 for wall, and the bolt 35 is screwed and fixed to the tapping hole 21 of the heat insulating panel fixing member 18 to fix the heat insulating panel. A state in which the separator 75 is fixed to the tapping hole 16 of the member 18 is shown by a wall outer heat insulating temporary frame 74 in FIG.

  By configuring in this way, one end of the heat insulation panel 1 can be incorporated into the heat insulation panel fitting member 17 with a slight degree of free displacement without being fixed to the fitting portion 27 of the heat insulation panel fitting member 17. The tolerance of deviation when assembling at the site is absorbed by the on-site delivery with respect to the bending error range and the cutting error range of the heat insulating panel 1 and the stainless steel decorative steel plate 58 for the lot generated at the factory. It became possible.

  FIG. 7 shows a structure for fixing the heat insulating panels 5 and 9 for corners to the heat insulating panel 1 in addition to the structure for fixing the adjacent heat insulating panels 1 described in FIG. FIG. 7a shows that the insulating panel 1 is fitted into the adjacent insulating panel 1 and the corner insulating panels 5 and 9 described in FIGS. A state in which the member 17, the heat insulation panel fixing member 18, the separators 76 and 77, the bolt 35, and the wood screw 36 are arranged is shown in a sectional view. The heat insulating panel fixing member 18 is fitted into the corner heat insulating panel sleeve 34 of the corner heat insulating panel 5 arranged as described above, the heat insulating panel fixing member 18 is fixed to the corner heat insulating panel 5 with the wood screws 36, and the heat insulating panel is further fitted. The sleeve fixing part 56 of the stainless steel decorative steel plate 58 for the wall and the sleeve fixing part 66 of the stainless steel decorative sheet 65 for the corner are overlapped between the contact part 29 and the contact part 28 of the insert member 17 and the heat insulation panel fixing member 18. The bolt 35 is inserted into the mounting hole 25 of the heat insulation panel fitting member 17, the hole 57 of the wall stainless steel decorative steel plate 58 and the hole 79 of the corner stainless steel decorative steel plate 65, and the tapping hole 21 of the heat insulation panel fixing member 18. In addition, the separator 77 is fixed to the tapping hole 16 of the heat insulating panel fixing member 18 and the continuous corner portion is fixed. The heat insulation panel fixing member 18 is fitted into the heat insulation panel sleeve portion 33 of the heat panel 1, the heat insulation panel fixing member 18 is fixed to the heat insulation panel 1 with the wood screw 36, and the heat insulation panel fitting member 17 and the heat insulation panel fixing member 18 are contacted. Between the contact portion 29 and the contact portion 28, the sleeve fixing portion 66 of the adjacent stainless decorative steel plate for corner 65 and the sleeve fixing portion 56 of the stainless decorative steel plate for wall 58 are sandwiched and overlapped, and the bolt 35 is inserted into the heat insulating panel fitting member. 17 is inserted into the mounting hole 25, the hole 80 of the stainless decorative steel plate for corner 65, and the hole 68 of the stainless decorative steel plate for wall 58, and the bolt 35 is screwed and fixed to the tapping hole 21 of the heat insulating panel fixing member 18. A state where the separator 77 is fixed to the tapping hole 16 of the fixing member 18 is indicated by a corner outer heat insulating temporary frame 78 in FIG.

  FIG. 8 shows a temporary outer frame 87 and an outer thermal insulating temporary frame 74 and a corner outer thermal temporary frame 78 described in FIGS. 6b and 7b installed on the indoor side of the walls and pillars (building prisms). The state attached with the separators 75, 76, 77, 85 and the plastic cones 86, 88, 89, 90, 91 attached to the separators 75, 76, 77, 85 is shown. The members for fixing the temporary frame siding plate 87 installed on the indoor side are the plywood temporary frame, the inner end thicker of the temporary frame, the single pipe, and the tightening that are generally used for constructing the temporary frame. Assemble a temporary frame by using hardware.

  FIG. 9 shows a seamed decorative steel plate 97 for fixing the upper and lower floor stainless steel decorative steel plate 58, a contact plate 94, 101 for fixing the seamed decorative steel plate 97 to the wall stainless steel decorative steel plate 58, and the upper and lower floor walls. The stainless steel decorative steel plate 58 is shown in a three-dimensional view. The joint decorative steel plate 97 is the outer surface shape of the outer sleeve portion 51, the inner sleeve portion 52, the flat portion 53, the inner sleeve portion 54, and the outer sleeve portion 55 described with reference to FIG. Are formed of a stainless steel plate having a thickness of 1 mm and a width of 60 mm so as to conform to the above, and holes 96 and 99 are formed in the outer sleeve portions 51 and 55 for fixing the joint decorative steel plate 97 to the stainless steel decorative plate 58 for walls. Stainless steel decorative steel plate 58 for the wall is formed on the upper side of the upper and lower middle portions of the joint decorative steel plate 97 at the lower part of the stainless steel decorative steel plate 58 for use. The lower part of the stainless steel decorative sheet 58 for walls is bonded to the outer lower part of the wall with a metal bond, and the lower part of the stainless steel sheet having a thickness of 1 mm is bent to the indoor side to form bent portions 102 and 103. Adhering two contact plates 94, 101 having holes 95, 100 at positions opposite to the holes 96, 99 formed in the decorative steel plate 97, respectively, with a metal adhesive on the inner lower part of the stainless steel decorative plate 58 for walls, By making tap screws 96, 98 penetrate the holes 99, 104 in the jointed decorative steel plate 97, the holes 92, 93 in the stainless steel decorative plate 58 for walls, and the holes 95, 100 in the backing plates 94, 101, for the wall. A joint decorative steel plate 97 is fixed to the lower part of the stainless decorative steel plate 58. By inserting the wall-mounted stainless steel decorative steel plate 58 thus fixed into the upper part of the wall stainless steel decorative steel plate 58 constructed previously, as shown in FIG. It became possible to align the line brilliantly and easily.

  As described above, based on the embodiment, the adjacent ground empty and the outer heat insulation integrated temporary frame structure for forming the reinforced concrete building according to the present invention has been described in detail, but the present invention is limited to the above embodiment. Of course, even if various modifications are made without departing from the gist of the invention, it is of course within the technical scope of the present invention.

  4-9, although the multi-sided shape of the stainless steel decorative wall steel plate 58 for walls and the stainless steel decorative steel plate 65 for corners was demonstrated, it is not limited to this multi-sided shape, The heat insulation panel 1 or the heat insulation panels 5 and 9 for corners, and walls Of course, it is also possible to use a stainless steel decorative steel plate having a multifaceted shape in which a gap is formed between the stainless steel decorative steel plate 58 or the heat insulating panel 65 for corners to allow ventilation.

  In FIG. 9, the seamed decorative steel plate 97 for combining the upper and lower floor stainless steel decorative steel plates 58 has been described. However, the wall decorative stainless steel plate for combining the upper and lower floor stainless steel decorative steel plates 65 is also described. Of course, it is possible to form the decorative steel plate 58 with the same configuration as that of the joint decorative steel plate 97.

It is an exploded view of the heat insulation panel based on embodiment of this invention. It is an assembly drawing of the heat insulation panel of FIG. 1 based on the embodiment. It is a three-dimensional view of the heat insulation panel fixed steel plate and corner | angular part fixed steel plate for assembling the heat insulation panel for corners of FIG. 2 based on the embodiment. It is the three-dimensional figure of the state which has arrange | positioned the stainless steel decorative steel plate for walls and the stainless steel decorative steel plate for corners to the heat insulation panel and the heat insulation panel for corners based on the embodiment. It is the three-dimensional view of the state which fixed the stainless steel decorative steel plate for walls and the stainless steel decorative steel plate for corners of FIG. 4 to the heat insulation panel and the heat insulation panel for corners based on the embodiment. It is sectional drawing of the state which has arrange | positioned the heat insulation panel fixing member and heat insulation panel insertion member for fixing the stainless steel decorative steel plate for walls, and a heat insulation panel based on the embodiment. It is sectional drawing of the state which has arrange | positioned the heat insulation panel fixing member and heat insulation panel insertion member for fixing the stainless steel decorative steel plate for walls and the stainless steel decorative steel plate for corners to the heat insulation panel and the heat insulation panel for corners based on the embodiment is there. It is sectional drawing of the state which fixed the heat insulation panel and corner heat insulation panel which concern on the embodiment to the stainless steel decorative wall steel plate for walls, and the stainless steel decorative steel plate for corners, and was attached to the temporary frame inner board with the separator and the plastic cone. It is a three-dimensional view of the joint decorative steel plate for fixing the stainless decorative steel plate for walls of the upper and lower floors based on the embodiment.

DESCRIPTION OF SYMBOLS 1 Insulation panel 2 Plywood board 3 Styrofoam 4 Plywood board 5 Corner insulation panel 6 Corner plywood board 7 Corner foam board 8 Corner plywood board 9 Corner insulation panel 10 Corner plywood board 11 Corner foam board 12 Corner plywood board 16 Tapping hole 17 Insulation panel fitting Insertion member 18 Insulation panel fixing member 19 Hole 20 Hole 21 Tapping hole 22 Fixing hole 23 Folding part 24 Fitting part 25 Mounting hole 26 Folding part 27 Fitting part 28 Abutting part 29 Abutting part 33 Insulating panel sleeve part 34 Insulating panel sleeve 35 for corners 36 Bolt 36 Wood screw 37 Insulating panel fixing steel plate 38 Folded portion 39 Hole 40 Hole 41 Corner portion fixing steel plate 42 Hole 43 Bolt 44 Square plane 45 Nut 50 Sleeve fixing portion 51 Outer sleeve portion 52 Inner sleeve portion 53 Flat part 54 Inner sleeve part 55 Outer sleeve part 56 Sleeve fixing part 57 Hole 58 Stainless decorative steel plate for wall 59 Outer sleeve portion 60 Sleeve portion 61 Corner portion 62 Corner portion 63 Sleeve portion 64 Outer sleeve portion 65 Stainless steel decorative steel plate for corner 66 Sleeve fixing portion 67 Sleeve fixing portion 68 Hole 69 External heat insulating temporary frame 74 Wall Outer heat insulating temporary frame 75 Separator 76 Separator 77 Separator 78 Outer heat insulating temporary frame for corner 79 Hole 80 Hole 83 Nut 84 Bolt 85 Separator 86 Plastic cone 87 Temporary frame shroud 88 Plastic cone 89 Plastic cone 90 Plastic cone 91 Plastic cone 92 Hole 93 hole 94 backing plate 95 hole 96 tap screw 97 joint decorative steel plate 98 tap screw 99 hole 100 hole 101 backing plate 102 bent portion 103 bent portion

Claims (3)

  Insulation panel that forms a fixed sleeve by bending both ends of a stainless steel decorative steel sheet for outer walls formed into a multi-sided shape in parallel to form a reinforced concrete building, forming a sleeve fixing part, and adhering polystyrene foam in a sandwich shape with two plywood plates A heat insulation panel fixing member having a generally U-shape for fixing the heat insulation panel, the separator and the sleeve fixing portion at one end and having a tap hole for attaching the separator to the indoor side is fitted and fixed. The heat insulation panel temporary frame is formed by fitting a heat insulation panel fitting member having a substantially U-shape for fixing the heat insulation panel fixing member adjacent to the sleeve fixing portion to the other end, and the heat insulation panel temporary frame. Are inserted between the sleeve fixing parts of the stainless steel decorative steel plate, arranged in the horizontal direction, and the adjacent heat insulating panel fixing member, heat insulating panel insertion member and stainless steel Adjacent land sky without that feature that it has fixed the sleeve fixed portion of the scan cosmetic steel plate with bolts, external insulation integrated temporary frame structure for molding a reinforced concrete building.   A stainless steel decorative steel sheet is formed to match the floor height of the building, a flat plate for fixing the lower end of the stainless steel decorative steel sheet on the upper floor is bent indoors, and the stainless steel decorative steel sheet is multi-sided on the outdoor side. A stainless steel decorative steel plate is sandwiched between the fixing flat plate and the seamed decorative steel plate and sandwiched between the upper and lower stainless steel decorative steel plates. The temporary frame structure with an outer heat insulation integrated to form a reinforced concrete building according to claim 1, wherein there is no adjacent ground empty.   Features that have both ends of the stainless steel decorative steel sheet for outer walls molded into a multi-sided shape are bent in parallel to match the total length of the heat insulation panel temporary frame width and the thickness of the heat insulation panel fixing member. The outer heat-insulated integrated temporary frame structure for forming a reinforced concrete building with no adjacent ground empty according to claim 1 or 2.

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