JPH0726628A - Wooden building of framework structure connecting centers in regular hexagon - Google Patents

Abstract

PURPOSE:To reduce cost, by arranging a hexagonal post in the center or tune profile or a hexagonal column and arranging radial beams and external beams in the hexagonal column. CONSTITUTION:Regular hexagonal posts are arranged at the corners 2 of a regular hexagon to form a regular hexagonal wall structure. And a regular hexagonal post 1 is positioned likewise in the center. And radial beams 3 connecting the hexagonal posts at the profile and the central hexagonal post and the external beams 4 or regular triangles forming the profile are connected to each other to form a polygonal building having a framework structure connecting centers. Accordingly, a sufficient strength and a pleasant living space can be obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for constructing a wooden structure building which can be simplified in all aspects by a load bearing structure of columns and beams in a wooden building.

[0002]

2. Description of the Related Art A conventional wooden building is constructed by a combination of a frame construction method and a wall structure, and there is a wall that cannot be removed.
As a result, lighting, ventilation, strength, comfort, aesthetics, extension,
There was wasted skill, construction period, construction cost, materials, and everything.

[0003]

The object of the present invention is (00
In order to eliminate all the waste of (02), the wall as a load bearing structure is fundamentally eliminated, and the construction method of a wooden structure having strength only by columns and beams is established. As a result, it is to provide a wooden structure with sufficient strength, reduced construction cost and a comfortable living space.

[0004]

The present invention replaces a regular hexahedron wall structure as a regular hexagonal column on a regular hexagonal dot diagram-2, and also equips a regular hexagonal column diagram-1 at its center point. (A) Other than the present invention, the fundamental difference from the polygonal building is that the pillar figure-1 is arranged at the center point. (B) Same as above The shape of the column-1 of the central axis is a regular hexagonal column. At the center of all shapes is a pillar of the same structure that forms the outer contour. (C) Central beam The beam 3 extending radially from Fig. 1 to 2 and the outer beam 4 forming the outer shell form an equilateral triangle, which has the advantages of both strength increase and dispersion of force due to impact. . It is assumed that the same beam also functions as the floor reinforcement, and the upper beam 3 is provided as a 2F, 3F floor base. (D) With the hoso set shown in FIGS. 8 and 9, the beams are pushed and pulled by the weight of the beam shown in FIG.
It is an earthquake-resistant structure and is a system unit construction method. ▲ e ▼ The roof shall be a panel hexahedron, and the receiving shall be as shown in Figures 5 and 6.

[0005]

With the pillar and beam structure constructed according to the present invention, it is possible to provide a space that is aesthetically pleasing and that reduces strength and construction costs with a minimum of resources.

[0006]

[Examples] Examples of past and present forms include: Mongolia Pao, pit dwellings, arabesque umbrellas, umbrella bridges, towers, etc. Examples of the shape of a single body are the same as those described above, but the present invention is to develop a system kit for a building that can be added to a single body.

[0007]

【effect】

A. Reduction of construction cost 1) A building that enables cost reduction through factory production by using the uniform columns shown in Figures 2 and 1 and the uniform beams shown in Figures 3 and 4. 2) A building that enables cost reduction by carrying in / out and transportation. 3) Cost reduction due to unnecessary need of skilled workers. 4) Cost reduction by factory production of roofs, windows, partitions 5) Floors can be used together by the beams of the floor base material for the 2nd and 3rd floors shown in Fig. 3 6) Hexagonal rather than square as the pillar surface In this case, there is less material loss, and the strength in the lateral force increases, which can save resources. B. Simplification of extension 1) A building that can be connected with hexagonal blocks. 2) A building that can be connected to either side of the hexahedron. 3) A building that can be expanded to the upper floors by using beams as shown in Figure 3. 4) A simple structure in which non-bearing panels that are not structural bodies are removed when the building is remodeled. Free design and comfort in C, daylighting, and aesthetics 1) No bearing walls are required, so glass is used for all parts. A space that can be overlooked can be secured, and it can be applied to buildings such as shops and second houses where design is emphasized. 2) The same as above makes it possible to design better comfort in all aspects. D, System unitization 1) A unit building that can be constructed without the need for skilled workers by using uniform columns and beams. 2) It is a unit structure that can be dropped as the self-weight structure of the beam of Fig. 2 by the hozo system structure of Fig. 1 and does not require skilled workers. 3) Vertical joints in Figure-10 are all window frames, wall panel frames,
Simplify the installation of the entrance frame. Note that joints that are not needed are removable joint packing as shown in Figure 11. 4) Due to the hozo system structure, it is a unit building that can be removed and reconstructed with little waste at that time. E, Polygonal structure drawing of center point framework structure In the figure, if the shape of the pillar as the axis is set at the center point and the pillars of the same shape are continuously arranged on the radiation from that plane, the strength and internal space will be increased. Can be secured. The hexagon is the most lean of all. It should be noted that a regular square wooden structure with a central point frame structure is also possible depending on the strength of the beam itself in terms of radiation. F, a building using the deformation of the central point frame structure In the drawing, a work office that uses a triangular structure forming panel in which the hexagonal divided ceiling surface and floor surface replace the radial dynamic structure of columns and beams from the central point It is a simple assembly building such as.

[Brief description of drawings]

FIG. 1 is a plan view of the present invention FIG. 2 is a side view of the present invention FIG. 1 is a perspective view of the present invention FIG. 1 is a perspective view of a hoso assembly portion of the present invention FIG. It is a radial mechanical structure diagram in the central point triangular column that represents the basic theory of the invention. FIG. It is a radial mechanical structure diagram in the central point quadrangular column that represents the basic theory of the present invention. FIG. It is a radiation mechanical structure figure in a central point hexagonal column. It is a perspective view of a ceiling and floor panel in a modification of the central point frame structure of the present invention.

[Explanation of symbols]

 1. Center point hexagonal column 2. Outer hexagonal column 3. Radiant beam 4. Outer beam 5. Roof 6. Receiving tree 7. Pillar Hoso 8. Liang Hoso 9. Embedded unit for frame 10. Holographic joint for frame 11. Joint filling packing

Claims (5)

[Claims] 1. A central hexagonal wooden building with a center point frame composed of only a pillar 1 and beams 3 and 4 on which a regular hexagonal pillar 2 is arranged in the figure and a regular hexagonal pillar is arranged at the center thereof. 2. In the drawing, a portion where a radial beam 3 connecting a regular hexagonal point 2 and its center point 1 and an outer beam 4 connecting the regular hexagonal point 2 are connected to each other constitutes one block, and all columns 1, 2 themselves Expanded regular hexagonal wooden building whose center point is 3. A hexagonal wooden building in which a hexagonal surface of a pillar and a mouth of a beam are assembled by a hoso assembly unit and a detachable regular hexagonal shape in the drawing. 4. A non-bearing wall regular hexagonal wooden structure that does not require bearing walls for inside, outside, all walls and windows. 5. An upper expanded regular hexagonal wooden building in which floors for the first floor, the second floor, and the third floor can be provided by the beams 3 arranged on the radiation from the center point.