JP3106307U - Prefabricated house - Google Patents

Abstract

An assembly type dome-shaped house having sufficient strength and made of styrene foam is provided.
A prefabricated house according to the present invention is a prefabricated house constructed by joining a plurality of divided pieces made of styrene foam with an adhesive, and the divided pieces extend from a top part to a base part by a horizontal member. In the assembly of this divided piece, the reinforcing members of adjacent divided pieces are connected by a connecting tool, and the base of the reinforcing member is connected to the foundation by an anchor plate. It was fixed, and the outer surface of the divided piece was covered with an exterior material.
[Selection diagram] FIG.

Description

  The present invention relates to a prefabricated house made of polystyrene foam and reinforced with a metal reinforcing member.

  A bungalow using wood is known as an outdoor accommodation facility. However, bungalows are expensive to build and require several days to complete. Tent-type accommodation facilities have low construction costs and a short construction period, but are not durable and have a poor feeling of comfort.

  A prefabricated dome-shaped house made of styrene foam is a material that can be constructed with low construction cost, a short construction period, and a durable and high-grade accommodation facility or residence. (See Patent Document 1)

Such a prefabricated dome type house usually has a sufficient strength by itself because the styrofoam layer is reinforced with mortar or the like and is dome-shaped. However, in consideration of unexpected situations such as unexpected landslides and falling objects, it is desired to be more robust.
International Publication Number WO01 / 44593

  An object of the present invention is to provide a prefabricated house having sufficient strength and made of Styrofoam.

  In order to achieve the above object, a prefabricated house according to the present invention is a prefabricated house that is assembled by joining a plurality of pieces of styrofoam with an adhesive, wherein the pieces extend from a top to a base. A reinforcing member having a structure in which vertical members are connected by horizontal members, and formed by integral molding of Styrofoam. When assembling the divided pieces, the reinforcing members of adjacent divided pieces are connected by a connecting tool, and the reinforcement is performed. The base of the member is fixed to a foundation with an anchor plate, and the outer surface of the divided piece is covered with an exterior material.

Since the divided pieces constituting the prefabricated house are formed integrally with the metal reinforcing member and the styrofoam, the strength is remarkably enhanced as compared with the case where only the styrofoam is used. Therefore, even in the event of an unexpected disaster, the collapse of the entire building can be avoided.
Since the divided pieces are integrally formed in the factory in advance, there is no need to process and assemble the steel frame or the like on site, so that the assembling work time and labor can be greatly reduced.
Because of the integral molding, the Styrofoam adheres to the metal reinforcing member without any gap. As a result, the load acting on the styrofoam is transmitted to the entire surface of the reinforcing member, and local stress concentration can be avoided.
Since the reinforcing member combining the vertical member and the horizontal member is incorporated in the divided piece, the strength of the house can be remarkably improved.
Since the reinforcing members of the adjacent dome divided pieces are fastened with fasteners, and the bases of the reinforcing members are fastened to the concrete assembling base with the anchor plate, the dome type house can be firmly installed.

  Hereinafter, the assembled dome type house according to the present invention will be described in detail with reference to the drawings.

  As an example of an assembling type house, an assembling type dome type house composed of a plurality of dome divided pieces using styrofoam as a constituent material will be described, and an overall configuration and a construction method will be described.

  FIG. 1 is an elevation view showing the whole of the assembled dome type house according to the present invention, and FIG. 2 is a plan view. As shown in FIGS. 1 and 2, the dome-shaped house 100 is formed by assembling ten dome divided pieces 10 to 19 to form a hemispherical living space inside. In FIG. 1, WD is a window provided in advance on a predetermined dome segment, and PT is an entrance. The dome-shaped house 100 is assembled on a concrete assembling base 30.

FIG. 3 is a perspective view of the dome split pieces 10 and 13 with attention. Each of the dome divided pieces 10 to 19 has a foaming ratio of 10 to 50 times, and is configured using styrene foam having a thickness of 10 to 50 cm as a base material. For example, when the snow cover is about 80 cm at the maximum, a dome split piece having a foaming ratio of 20 times and a thickness of 20 cm can be obtained. In areas without snowfall, the foaming ratio can be made larger than 20 times, or the thickness can be reduced to 20 cm or less. When the snow cover exceeds 1 m, the foaming ratio is reduced to 20 times or less to secure the strength or to increase the thickness.
As shown in FIG. 3, each of the dome divided pieces 10 to 19 has an L-shaped base DB, joining edges DE and DD rising from the base DB, and a tip DR.

  The distal ends DR of the dome split pieces 10 to 19 are connected to each other by a top joint 22 (see FIG. 2). In addition, the joining edges DE and DD of the adjacent dome divided pieces 10 to 19 are bonded to each other, and are fastened with the fastener 21 (see FIG. 1). The base DB of the L-shaped dome-shaped house is fitted and fixed to a concrete assembling base 30. Thus, the dome-shaped house 100 is assembled.

FIG. 4 is an elevational view of a state in which a dome-shaped house containing a reinforcing member is assembled and before a covering material is covered. Note that the basic shape is the same for each of the dome divided pieces 10 to 19, even though there is a difference in the presence or absence of the window WD and the entrance PT. Hereinafter, the dome split piece 10 will be described.
As shown in FIG. 4, a steel frame is adopted as a reinforcing member, and a steel frame 40 indicated by oblique lines is incorporated in the dome split piece 10. The steel frame 40 has a vertical member 41 extending radially from the top to the base of the dome split piece 10 and a horizontal member 42 orthogonal to the vertical member 41, and forms a skeleton of the dome-shaped house 100 as a whole. The steel frames of the adjacent dome split pieces are connected by fasteners 21. Also, it is fastened to the concrete-made base 30.

Here, the integral molding of the dome split piece 10 will be described.
As shown in FIG. 5A, the dome segment 10 is assembled with a steel frame 40. The steel frame 40 is a steel material having a U-shaped cross section. The opening of the cross section is arranged toward the inside of the dome. Specifically, the vertical member 41a is arranged at the edge of the dome segment 10, and the horizontal member 42b is arranged inside the dome segment 10 according to the size of the dome segment.
As shown in FIGS. 5B and 5C, the vertical member 41 and the horizontal member 42 are fastened by bolts BT so that the vertical member 41 and the horizontal member 42 are orthogonal to each other. In addition, you may join by welding etc. The steel frame 40 is for securing the strength of the dome type house 100.

FIG. 6 is a diagram showing the relationship between a mold for manufacturing a dome split piece, styrene foam to be integrally molded, and a steel frame. As shown in FIG. 6A, the steel frame 40 is set in the female mold G1. Next, as shown in FIG. 6B, the male mold G2 is set. The female mold G1 has substantially the same shape as the outer peripheral surface of the steel frame 40, and the steel frame 40 comes into contact with the female mold G1. There is a gap between the steel frame 40 and the male mold G2. This is the thickness of the polystyrene foam.
Next, the pre-foamed beads as a raw material are sealed between the female mold G1 and the male mold G2. FIG. 6C is a cross-sectional view taken along line CC of FIG. 6B. As shown in FIG. 6C, high-pressure steam is blown from a heating hole G1a provided in the female mold G1 to heat the beads. The high-pressure steam escapes through a small hole (not shown) of the male mold G2.

  As a result, the beads burst in the mold, and the styrofoam 43 is formed along the surface shape of the mold. As shown in FIG. 6C, the styrofoam 43 wraps around the back side of the steel frame 40 having a U-shaped cross section and covers the circumference of the steel frame 40. As a result, the styrofoam 43 adheres to the steel frame 40 in a tightly adhered state. Note that a heating hole 40a penetrating the steel frame 40 was provided, and high-pressure steam was directly blown into the back side of the steel frame 40, that is, the male mold G2 side. Thereby, the foaming on the back side of the steel frame 40 is promoted in the initial stage, and the adhesion between the styrofoam and the steel frame 40 is further enhanced. Thereafter, the steam is stopped, and after sufficiently cooling, the mold is removed, and the formed dome segment is taken out.

FIG. 7 shows a perspective view of the molded body MP of the dome split piece formed in this manner.
As shown in FIG. 7, the steel frame 40 is located outside the molded body MP of the dome split piece, and the outer peripheral surface of the steel frame 40 and the outer peripheral surface of the polystyrene foam 43 are formed without a step. That is, one surface of the steel frame 40 is exposed along the dome meridian.
As shown in FIG. 8, after the dome-shaped house is assembled, the outer surface of the molded body MP is sprayed with a UV-cut and water-resistant paint 44. Finally, a screw hole BH for connecting the dome type house 100 to the assembling base 30 is provided from the outside of the molded body MP in a portion where the horizontal member below the steel frame 40 is arranged, and the dome divided piece 10 is completed. I do.

FIG. 9 is a longitudinal sectional view of the assembled dome type house 100.
As shown in FIG. 9, the top joint 22 of the dome-shaped house 100 has a ring-shaped frame 22A and a lighting glass 22B fitted inside the frame 22A. The outer peripheral surface of the frame 22A is formed in a concave shape. The tip DR of the dome split piece 10 is engaged with and fixed to the recess 22a.

The foundation consists of a concrete plate BB and a concrete base 30 made of concrete. The concrete plate BB has a disk shape, is slightly larger in diameter than the bottom of the dome-shaped house 100, and has a reinforcing bar. On top of this, an assemblable base 30 made of concrete and having an annular shape as a whole is installed. Then, the L-shaped base DB of the dome divided piece 10 is fitted into the locking recess 35 of the assembling base 30. Next, the anchor plate 36 coming out of the concrete plate BB is tightened by bolts BT, and the reinforcing member of the dome divided piece and the assembling base 30 are fastened and fixed.
The floor 32 is formed by filling a crushed stone 371 on a concrete plate BB, laying a resin film 372 thereon, and further laying concrete 373 thereon. In order to stably install the floor 32, the assembled base 30 has a step 33.

  When the dome divided pieces 10 to 19 are assembled, the surface of the styrofoam 43 inside the dome-shaped house is already coated with the paint 44, but is further covered with the interior material 46. The exposed lateral members 42 outside the dome split pieces 10 to 19 are connected and fixed by the fasteners 21. Further, the entire outside of the dome-shaped house 100 is covered with a mortar or resin exterior material 45. Thereby, water resistance, fire resistance and light resistance are improved.

  FIG. 10 is a perspective view of a fastening portion of the dome split pieces 10 and 11. As shown in FIG. 10, the fastener 21 is applied from outside the dome split pieces 10 and 11, and the vertical member 41 a and the horizontal member 42 b are fastened together by inserting the bolt BT into the through hole 21 a. Thereby, the steel frames of the dome split pieces 10 and 11 are connected to each other. The dome-shaped house 100 is the same as being covered with a continuous steel material. Therefore, the strength of the dome type house 100 can be increased. As shown in FIG. 4, the two dome split pieces are fastened at five locations in the height direction.

FIG. 11 is a plan view showing the overall shape of the assembling base 30. FIG. 12 is a perspective view of a curved base block which is a part thereof. As shown in FIG. 11, the prefabricated base 30 is formed by connecting base blocks 310 to 319 in the longitudinal direction. The whole is substantially annular and has a step 33 inside.
As shown in FIG. 12, a step 330 for accommodating the floor 32 is formed on the entire inner circumference of the base blocks 310 to 319. Vertically protruding portions 340A and 340B are formed on the outer peripheral side surfaces of the base blocks 310 to 319 over the entire circumference. A concave portion 350 used as a fitting portion is formed between the upper and lower projecting portions 340A and 340B. As a result, a step 33 (see FIG. 11) is formed on the entire inner circumference of the assembling base 30. On the outer peripheral side of the assembling base 30, a locking recess 35 (see FIG. 9) is formed over the entire periphery. The base blocks 310 to 319 are connected by inserting the guide pins 360 into the guide pin holes. The inserter 370 is used for fixing the interior member.

  FIG. 13 is a perspective view of a portion where the dome segment 10 is connected to the foundation. As shown in FIGS. 13A and 13B, an anchor plate 36 is embedded in the concrete plate BB along the outer periphery of the dome split piece 10. The anchor plates 36 are provided corresponding to the positions of the vertical members of the steel frame 40, respectively. 13 (b), a bolt hole 36a is provided, through which a bolt BT is inserted, and screwed into a screw hole BH (see FIG. 8) provided at the lower part of the dome split piece 10. Combine. Thereby, the anchor plate 36 and the steel frame 40 are fastened. Screw holes are also provided on the outer peripheral surfaces of the base blocks 310 to 319, and the anchor plate 36 and the base blocks 310 to 319 are similarly fastened by bolts BT. Thereby, the dome divided pieces 10 to 19 are fastened and fixed to the base blocks 310 to 319.

  The prefabricated dome-shaped house of the present invention is more robust than bungalows and tents and has excellent livability, so that it can be used as an accommodation facility or a general house.

FIG. 2 is an elevation view of the assembled dome type house according to the present invention. (Example 1) FIG. 3 is a plan view of the assembled dome type house according to the present invention. (Example 1) FIG. 3 is a perspective view of a dome divided piece of the assembled dome type house according to the present invention. (Example 1) FIG. 4 is an elevation view of a dome-shaped house including a reinforcing member according to the present invention. (Example 1) FIG. 3 is a perspective view of a steel frame incorporated in a dome split of the dome type house according to the present invention. (A) is an assembly drawing of a steel frame. (B) and (c) are external views showing the state of assembly. (Example 1) FIG. 4 is a view showing a state in which the dome split pieces of the dome-shaped house according to the present invention are integrally formed with a mold. (A) is a figure in which a steel frame was loaded into a female mold. (B) is a figure in which a styrofoam and a steel dome divided piece are formed by a female mold and a male mold, and (c) is a CC cross-sectional view of (b). (Example 1) FIG. 3 is a perspective view of a molded body MP before completion of a dome segment according to the present invention. (Example 1) FIG. 4 is a perspective view of a completed molded body MP of the dome split piece according to the present invention. (Example 1) FIG. 2 is a sectional view of the dome-shaped house according to the present invention. (Example 1) FIG. 3 is an external view showing a state in which adjacent dome divided pieces of the dome-shaped house according to the present invention are fastened with fasteners. (Example 1) FIG. 4 is a plan view of the dome-shaped house according to the present invention; (Example 1) FIG. 2 is an external view of a base block of the dome type house according to the present invention. (Example 1) FIG. 3 is an external view showing a fastening portion between the anchor plate and the base of the dome type house according to the present invention. (Example 1)

Explanation of reference numerals

10-19 Dome split piece 21 Fastener 21a Through hole 22 Top joint 22a Recess 22A Frame 22B Lighting glass 30 Concrete assembling base 32 Floor 33 Step 35 Engagement recess 36 Anchor plate 36a Bolt hole 40 Steel frame 40a Heating hole 41, 41a Vertical member of steel frame 42, 42b Horizontal member of steel frame 43 Styrofoam 44 Paint 45 Exterior material 46 Interior material 100 Dome-shaped house 310-319 Base block 330 Stepped portion 340A, 340B Upper protruding portion, lower protruding portion 350 Locking recess 360 Guide pin 370 Inserter 371 Crushed stone 372 Resin film 373 Concrete BB Concrete plate with steel BT Bolt BH Screw hole DB Base DR Tip DE, DD Joining edge G1 Female mold G1a Heating hole G2 Male mold MP Molded dome split PT PT Entrance WD Window

Claims (1)

A prefabricated house assembled by joining a plurality of divided pieces made of styrene foam with an adhesive,
The divided piece is formed by integral molding of a reinforcing member having a structure in which a vertical member extending from the top to the base is connected by a horizontal member, and Styrofoam,
When assembling the divided pieces, the reinforcing members of the adjacent divided pieces are connected to each other by a connecting tool, the base of the reinforcing member is fixed to a foundation by an anchor plate, and the outer surface of the divided pieces is covered with an exterior material. A prefabricated house characterized by the following.

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