JP2005315025A - Assembly house - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an assembly house which is easy in handling, does not necessitate a wide space for storage of a wall unit and is capable of enhancing a transfer efficiency of a truck. <P>SOLUTION: In an assembly house of the present invention, wall units 1, 1-1, 1-2 divided into a plurality of units are connected to each other in series on the upper face of a foundation K and form an assembly house H so as to assemble a domed house. The wall unit 1 is composed of a side wall part 2 erected on the upper face of the foundation K and a roof wall part 3 foldably pivoted at the side wall 2 erected on the upper face of the foundation K and side wall part 2, and it is provided with a fixing means fixing the roof wall part 3 in the side wall part 2 in the widely opened condition of the roof wall part 3 against the side wall part 2. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention is used as a building such as an accommodation facility, a nursing facility, an employee dormitory, a rental facility, a warehouse, or a store, and is assembled in a dome shape by sequentially connecting a plurality of divided wall units to the upper surface of the foundation. It is about the house.

As an assembly house assembled in a dome shape, for example, there are the following. That is, in this assembly house, a FRP wall unit divided into a plurality of parts is mounted on a fixed base as a base by bolt fastening means, the lower part of the wall units is a connecting plate, and the upper part is a support frame. And the support frame is supported by two support columns (for example, see Patent Document 1).
JP 2000-120171 A (page 3-6, FIG. 4, FIG. 11)

  In the assembly house of Patent Document 1, each wall unit is produced in a factory. Since the wall unit is formed by integrally molding the side wall and the roof wall, if the assembly house is large, The dividing wall unit is also enlarged. As described above, when the wall unit is enlarged, it is difficult to handle on-site when constructing an assembly house, which is an obstacle to increasing work efficiency. Moreover, not only a large space is required for storage, but also there is a problem that the transportation efficiency is extremely poor because the blank area increases when truck transporting from the factory to the site.

  Accordingly, the present invention has been made to solve the above problems, and provides an assembly house that is easy to handle on-site, does not require a large space for storing wall units, and can also improve the transportation efficiency by truck. It is intended to do.

  To achieve this object, an assembly house according to the present invention is an assembly house in which a plurality of divided wall units are sequentially connected to an upper surface of a foundation and assembled into a dome shape, and the wall unit is an upper surface of the foundation. And a roof wall portion that is foldably attached to the upper end portion of the side wall portion, and the roof wall is expanded on the side wall portion with the roof wall portion being expanded. It consists of the structure provided with the fixing means which fixes a part.

  In the present invention, the side wall portion and the roof wall portion constituting the wall unit are molded separately and the roof wall portion is pivotally attached to the upper end portion of the side wall portion so that the wall unit can be folded during construction. Therefore, it can be handled in a small size, and the handling becomes easy. Further, if the wall unit is folded, a large space is not required for storage, and the wall unit can be downsized and transport efficiency can be improved even when transporting by truck. In addition, the wall unit can be pre-assembled with exterior materials and interior materials such as stone plates and plywood at the factory, and the finishing work when each wall unit is assembled can be smoothly performed. Furthermore, since the entire assembly house is integrated, there is also an effect that it becomes extremely strong in terms of strength compared to ordinary buildings.

  Embodiments of an assembly house according to the present invention will be described below in detail with reference to the drawings. The assembly house of the present invention is used in buildings such as accommodation facilities such as hotels, nursing care facilities, employee dormitories, rental facilities, warehouses, stores and the like. 1 is an overall perspective view of the assembly house, FIG. 2 is a plan sectional view thereof, and FIG. 3 is an enlarged side sectional view of the same portion.

  The assembly house H according to the present invention is such that, for example, a plurality of divided wall units 1 are sequentially connected to the upper surface of the foundation K and assembled into a dome shape. 7200 mm, the height is set to 4500 mm, and it has a planar circular shape. In addition, the assembly house H can be assembled even if it is a plane triangle, a plane quadrangle, a plane pentagon, a plane hexagon, a plane heptagon, a plane octagon, or a plane polygon more than these. Alternatively, the side wall portion may be assembled into a flat circular shape, the roof wall portion may be a polygonal pyramid shape, the side wall portion may be a flat polygonal shape, and the roof wall portion may be assembled into a conical shape.

  The wall unit 1 corresponds to one when the assembly house H is divided into 16 equal parts in the circumferential direction when seen in a plan view. That is, as shown in FIG. 4, the wall unit 1 includes a side wall portion 2 erected on the upper surface of the foundation K and a roof wall portion 3 pivotally attached to the upper end portion of the side wall portion 2. The division method is not limited to 16 divisions, and can be freely selected, for example, 12 divisions, 14 divisions, 18 divisions, 20 divisions, and the like.

  As for the side wall part 2, the plane cross section when standing is curved in circular arc shape. As shown in FIG. 3, the side wall 2 is framed by a steel frame 4, filled with a heat insulating material 5, and an outer iron plate 6a and an inner iron plate 6b are stretched on the outer surface and the inner surface, respectively. Further, a metal mesh 7 is stretched with a predetermined gap on the front side of the outer iron plate 6a, and a plurality of substantially square stone plates 8 having an uneven portion on the front surface are attached to the metal mesh 7 at appropriate positions. An inverted U-shaped latch 9 is fixed to the back surface of these stone plates 8, and the latch 9 is latched on the wire mesh 7. Furthermore, the mortar 10 is applied to the surface of the outer iron plate 6a including between each stone plate 8 and the outer iron plate 6a so as to have an aesthetic design. On the other hand, on the back surface of the inner iron plate 6b, for example, a decorated veneer plate 11 which is an interior material is stretched. The interior material may be mortar instead of the plywood board 11.

  Fixed to the lower end surface 2b of the side wall 2 is a fixed plate 12 whose inner end edge protrudes inward from the inner iron plate 6b along the lower end surface 2b. A screw insertion hole 14 communicating with a screw insertion hole 13 provided in the steel frame 4 and a screw insertion hole 15 positioned on the inner side of the side wall 2 are provided on both sides of the fixing plate 12 along the circumferential direction. Yes.

  The roof wall portion 3 is formed into a substantially triangular plane and bulges upward. And this roof wall part 3 is also framed with the steel frame 4, and the inside is filled with the heat insulating material 5, and the outer iron plate 16a and the inner iron plate 16b are respectively stretched by the outer surface and the inner surface. An appropriate color paint is applied to the surface of the outer iron plate 16a, and a decorative veneer plate 17 is stretched on the back surface of the inner iron plate 16b.

  The upper end surface 2 a of the side wall portion 2 and the lower end surface 3 b of the roof wall portion 3 are connected by a pair of hinges 18 and 18. In this case, since both the side wall 2 and the roof wall 3 are curved in cross-sectional shape, the mounting plates 18 a of the hinges 18 are respectively connected to the upper end surface 2 a of the side wall 2 and the lower end surface 3 b of the roof wall 3. It is fixed. Moreover, the shaft portion 18 b of each hinge 18 is positioned on the rotation center axis of the roof wall portion 3. Thereby, the roof wall part 3 is pivotally attached to the side wall part 2 so as to be foldable.

  The peripheral portions of the inner surfaces of the side wall portion 2 and the roof wall portion 3 are positioned so as to correspond to each other between the side wall portions 2 and the roof wall portions 3 adjacent to each other along the steel frame 4, and the side wall portion 2 and the roof wall portion 3. A plurality of openings 19 are provided. Bolt insertion holes 20 are formed in the steel frame 4 in contact with these openings 19. These bolt insertion holes 20 fix the side wall part 2 to the upper surface of the stationary part k of the foundation K, or the adjacent side wall parts 2, 2 and the roof wall parts 3, 3, or the side wall part 2 and the roof wall part 3. This is because they are connected and fixed together. A lid 19a can be detachably fitted to these openings 19. Further, on both side edges along the longitudinal direction of the roof wall portion 3, steps 21 and 21 having low steps are provided along the side edges. This is for inserting a cover member 28 which will be described later in order to prevent rainwater from entering from the joint.

  The wall unit 1 is manufactured by attaching the roof wall portion 3 to the side wall portion 2 at a factory, and is transported on a truck in a folded state to the site where the assembly house H is assembled. Then, at the site installation position, the roof wall portion 3 is rotated about the hinges 18 to the position shown by the solid line in FIG. 4, and the lower end surface 3 b of the roof wall portion 3 is brought into contact with the upper end surface 2 a of the side wall portion 2. At this time, as shown in FIG. 5, both openings 19, 19 at the upper end of the side wall portion 2 coincide with both openings 19, 19 at the lower end of the roof wall portion 3. Bolts 25 as fixing means are respectively inserted into the bolt insertion holes 20 and 20, and nuts 26 as fixing means are screwed to the bolts 25. Thereby, the roof wall part 3 is firmly fixed to the side wall part 2. Instead of using such bolts 25 and nuts 26, the opposing steel frames 4, 4 of the side wall 2 and the roof wall 3 may be fixed by spot welding.

  Next, the wall unit 1 is erected, and the wall unit 1 is installed on the upper surface of the planar circular stationary part k in the foundation K through the non-shrink mortar 22 as shown in FIG. At this time, the two anchor bolts 23, 23 protruding from the upper surface of the stationary part k are inserted into the screw insertion holes 14, 15 of the fixing plate 12 including the screw insertion holes 13 formed in the lower end surface 2 b of the side wall 2. And a nut 24 is screwed to each anchor bolt 23. Thereby, the side wall 2 is erected and fixed on the upper surface of the stationary part k.

  Subsequently, the next wall unit 1-1 is arranged on the upper surface of the stationary part k so as to be adjacent to the wall unit 1, and the same operation as described above is repeated to fix the wall unit 1-1 upright. Further, as shown in FIG. 6, bolt insertion holes 20 penetrating through the steel frames 4 and 4 and communicating with each other in the openings 19 and 19 that coincide with each other at the adjacent side ends of the both wall units 1 and 1-1. The wall units 1, 1-1 are connected to each other by inserting a bolt 25 through 20 and screwing a nut 26 into the bolt 25. A rubber plate 44 is interposed between the side surfaces of the adjacent wall units 1, 1-1 along the longitudinal direction thereof. This is to prevent the intrusion of rainwater and to absorb the expansion and contraction because the steel frame expands and contracts depending on the temperature.

  Furthermore, a concave groove 27 is formed by a step 21 facing each other at the joint of the roof wall portions 3 and 3 between the wall unit 1 and the adjacent wall unit 1-1. A plate-like cover member 28 is fitted. The cover member 28 has a two-layer structure in which a rubber plate 29 on the back surface and a belt plate 30 made of a stainless steel plate or iron plate on the back surface are bonded together, and a screw 31 provided at an appropriate position is fitted into the concave groove 27. Screwed into a screw hole 32 provided in the steel frame 4. Rubber plates 33 are also attached to both sides of the bottom surface of the concave groove 27. Thereby, the intrusion of rainwater from the joint is prevented. Thereafter, similar operations are repeated to assemble the wall units 1-2, 1-3,... In order as shown in FIG.

  A circular hole 34 is formed between the upper ends of the roof wall portions 3, 3... In each of the wall units 1, 1-1, 1-2..., And a transparent glass plate 35 for lighting is fitted into the circular holes 34. Worn. Among the wall units 1, 1-1, 1-2..., A predetermined wall unit, for example, an entrance where the door 36 is attached to the wall unit 1-13 is provided, and the predetermined wall units 1, 1-5 are provided. , 1-11 are fitted with window members 37.

  A flooring 38 is laid on the floor. The flooring 38 is provided with an iron plate 39 on the lower surface and a plurality of wooden boards 40 as a heating finishing material on the upper surface, and a heat insulating material 41 is interposed therebetween. The peripheral end portion of the flooring 38 is supported by a frame 42 having a predetermined height provided along the inner surface of the side wall portion 2. In addition, the center side of the flooring 38 is erected in a plurality of appropriate positions on the upper surface of the foundation K and is supported by support legs 43 whose vertical length is adjustable.

  As described above, the present invention divides the wall units 1, 1-1, 1-2... Into the side wall portion 2 and the roof wall portion 3, and at the upper end of the side wall portion 2, the roof wall portion 3 can be folded freely Since it wore, wall unit 1,1-1,1-2 ... can be folded compactly and size reduction is attained. Therefore, even when moving the wall units 1, 1-1, 1-2. Further, if the wall units 1, 1-1, 1-2... Are folded, a large space is not required for storage, and the wall units 1, 1-1, 1-2. Can be miniaturized and transportation efficiency is improved.

  In the present invention, a stone-like assembly house H is assembled. Eventually, water and electricity are drawn into the assembly house H, and facilities necessary for life such as a toilet, a kitchen, a sink, and a bath are arranged inside. In addition, the assembly house H of the present invention is easy to assemble and disassemble, and is only fixed to the foundation K by bolting. For example, the assembly house H may be moved to another location. It is easy to disassemble and work easily.

  Furthermore, in the assembly house H of the present invention, since there are no columns in the interior, there is no obstacle when designing the floor plan in the assembly house H, and a free design in the assembly house H is possible. Further, in the assembly house H of the present invention, the side wall 2 and the roof wall 3 are integrally formed, and the wall units 1, 1-1, 1-2... Are all firmly connected by bolting. The whole building will be a strong building.

The whole perspective view of an assembly house. FIG. The expanded side sectional view of the same part. The perspective view of a wall unit. Sectional drawing of the connection part of a side wall part and a roof wall part. Sectional drawing of the connection part of an adjacent roof wall part. The perspective view explaining the assembly procedure of an assembly house.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wall unit 1-1 Wall unit 1-2 Wall unit 2 Side wall part 3 Roof wall part 25 Adhering means (bolt)
26 Fixing means (nut)
H assembly house K foundation

Claims (1)

  An assembly house in which a plurality of divided wall units are sequentially connected to an upper surface of a foundation and assembled into a dome shape, wherein the wall unit includes a side wall portion standing on the upper surface of the foundation and an upper end of the side wall portion And a fixing means for fixing the roof wall portion to the side wall portion in a state where the roof wall portion is expanded with respect to the side wall portion. Assembly house to do.

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