JPH0726628A - Wooden building of framework structure connecting centers in regular hexagon - Google Patents
Wooden building of framework structure connecting centers in regular hexagonInfo
- Publication number
- JPH0726628A JPH0726628A JP17973093A JP17973093A JPH0726628A JP H0726628 A JPH0726628 A JP H0726628A JP 17973093 A JP17973093 A JP 17973093A JP 17973093 A JP17973093 A JP 17973093A JP H0726628 A JPH0726628 A JP H0726628A
- Authority
- JP
- Japan
- Prior art keywords
- hexagonal
- regular hexagonal
- regular
- beams
- wooden building
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Residential Or Office Buildings (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は木造建築物において柱と
梁だけの耐力構造により、あらゆる面で簡素化出来る木
造構造体建築物の工法に関する。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】[0002]
【従来の技術】従来の木造建築物は、軸組工法と壁構造
の併用により成り立ち、撤去不可能なる壁が存在する。
その結果、採光、通風、強度、快適性、美観、増移築、
熟練度、工期、建造コスト、資材、あらゆる面での無駄
があった。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】[0003]
【発明が解決しようとする課題】本発明の目的は(00
02)の全ての無駄を除去するために耐力構造としての
壁を根本的に無くし、柱と梁だけでの強度を持つ木造構
造体の工法の確立である。その結果、十分な強度と、建
造コストの縮小と快適な生活空間としての木造建築物を
提供することにある。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】[0004]
【課題を解決するための手段】本発明は正六面体の壁構
造を正六角形点図−2上に正六角形柱として置き換
え、かつ、その中心点に同じく、正六角形柱図−1を
設置する。 ▲a▼本発明が他、多角形状建築物との根本的な相違は
中心点に柱図−1を配置する点である。 ▲b▼同上中心軸の柱−1の形状は正六角形柱であ
る。全ての形の中心には、外郭を形成する同じ形の構造
の形の柱が存在する。 ▲c▼中心軸図−1より2へ放射線上に伸びる3の梁
と、外郭を形成する4の外梁が正三角形を成し、強度の
増加衝撃による力の分散との両面の利点を有する。床配
筋の役目も同じ梁で設けるものとする上梁3においては
2F、3F床下地として設けるものとする。 ▲d▼図−8、9におけるホゾ組により、上からの抜
け防止の落とし込みと半残りにより図−3の梁の自重
量で、押しと引きを兼ね、尚かつ、六面体で分割する。
耐震構造体であり、システムユニット工法である。 ▲e▼屋根はパネル六面体とし、受けを図−5、6で
受けるものとする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】[0005]
【作用】本発明で構成される柱と梁構造体により、最小
の資源により強度と建造コストの低減と美観的にも快適
な空間を提供出来る。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】[0006]
【実施例】過去及現在の形態の実施例としては ・モンゴルーパオ ・竪穴式住居 ・唐傘 ・傘橋 ・塔 などがあげられる。 単体の形状としての実施例としては同上のものがあげら
れるが本発明は単体に増設可能な建築物のシステムキッ
トを開発したものである。[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】[0007]
A.建造コストの低減化 1)図−2及1の均一柱と図−¥3及4の均一梁に
より工場生産によるコストダウンを可能とする建築物で
ある。 2)搬出搬入、輸送によるコストダウンを可能とする建
築物である。 3)熟練工の不必要によるコストダウン。 4)屋根、窓、間仕切りの工場生産によるコストダウン 5)第2階、第3階用床下地材の図−3の梁によって
床面を併用可能となる 6)柱の面として、四角より六角の方がより材料ロスが
無く、又、横の力にも強度が増し、資源の節約と成り得
る。 B,増築の簡素化 1)六角形ブロックによる接続可能な建築物である。 2)六面体方面へのどちらへも接続可能な建築物であ
る。 3)上層階への図−3の梁利用による増築可能な建築
物である。 4)増改築の際構造体でない非耐力パネルの撒去の簡易
な建築物である C,採光、美観における自由なデザインと快適性 1)耐力壁を必要としないため、全ての部分にガラスな
ど見渡せる空間も確保でき、店舗、セカンドハウスなど
デザイン性の強調される建築物にも対応出来る。 2)同上により全ての面でよりよい快適さをデザイン可
能とする。 D,システムユニット化 1)均一柱と均一梁により熟練工を必要とせず建造出来
るユニット建築物である。 2)図−1のホゾシステム構造により図−2の梁の
自重量構造として落とし込みを可能とし、熟練工を必要
としないユニット建造物である。 3)図−10のタテ目地が全ての窓枠、壁パネル枠、
入り口枠の取り付けを簡素化する。なお、必要としない
目地は図−11のように取りはずし可能な目地埋めパ
ッキングとする。 4)ホゾシステム構造のため、撤去、移築が可能であり
その際の無駄が少ないユニット建築物である。 E,中心点軸組構造体の多角形体建造物 図 図 図 において、中心点に軸として
の柱の形状を定め、その面より放射線上に同じ形状の柱
を配置し続ければ強度と内部空間を確保出来る。その中
でも全てに無駄のないのが六角体である。なお、中心点
軸組構造による正四角体の木造建築物も放射線上として
の梁自身の強度によっては可能である。 F,中心点軸組構造体の変形利用の建造物 図において、中心点からの柱と梁による放射力学構造
を六角体の分割天井面と床面に置き換えた三角構造成形
パネルとする作業事務所などの簡易組立建造物である。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.
図本発明の平面図である 図本発明の側面図である 図本発明の斜視図である 図本発明のホゾ組立部の斜視図である 図本発明のホゾ組立部の平面図である 図本発明の基本理論を表した中心点三角形状柱におけ
る放射力学構造図である 図本発明の基本理論を表した中心点四角形状柱におけ
る放射力学構造図である 図本発明の基本理諭を表した中心点六角形状柱におけ
る放射力学構造図である 図本発明の中心点軸組構造体の変形における天井、床
パネル斜視図である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.
1.中心点六角軸柱 2.外郭六角軸柱 3.放射梁 4.外梁 5.屋根 6.受木 7.柱ホゾ 8.梁ホゾ 9.枠用埋込ユニット 10.枠付用ホリコミ目地 11.目地埋パッキング 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)
に正六角形柱を配置した柱1と梁3、4だけによる中心
点軸組正六角形状木造建築物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.
1を結ぶ放射線状の梁3と正六角形点2を連結する外梁
4が各々結ぶ部分を1ブロックとし、全ての柱1、2自
体が中心点となる増設正六角形状木造建築物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
おけるホゾ組立ユニットによる組立及着脱式正六角形状
木造建築物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.
しない非耐力壁正六角形状木造建築物4. A non-bearing wall regular hexagonal wooden structure that does not require bearing walls for inside, outside, all walls and windows.
り、第1階及第2階及第3階用の床面を設けられる上部
増設正六角形状木造建築物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.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP17973093A JPH0726628A (en) | 1993-06-10 | 1993-06-10 | Wooden building of framework structure connecting centers in regular hexagon |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP17973093A JPH0726628A (en) | 1993-06-10 | 1993-06-10 | Wooden building of framework structure connecting centers in regular hexagon |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0726628A true JPH0726628A (en) | 1995-01-27 |
Family
ID=16070870
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP17973093A Pending JPH0726628A (en) | 1993-06-10 | 1993-06-10 | Wooden building of framework structure connecting centers in regular hexagon |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0726628A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2016069842A (en) * | 2014-09-29 | 2016-05-09 | 二六 瀬尾 | Simple frame house and constituent members thereof |
-
1993
- 1993-06-10 JP JP17973093A patent/JPH0726628A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2016069842A (en) * | 2014-09-29 | 2016-05-09 | 二六 瀬尾 | Simple frame house and constituent members thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
KR101131980B1 (en) | Building structure | |
CN1912301B (en) | Section bar frame and module structure and house constructed by section bar frame and constructing method | |
JP3162786B2 (en) | Building | |
JPH0726628A (en) | Wooden building of framework structure connecting centers in regular hexagon | |
KR100444155B1 (en) | a sectional sphere architecture and building method | |
RU2725356C1 (en) | Building frame module | |
JP3453520B2 (en) | Wall support device | |
CN1207437A (en) | Imitation honeycomb design system | |
JP2608490B2 (en) | Composite structure | |
JP2711186B2 (en) | Dwelling unit and mid-to-high-rise building consisting of dwelling unit | |
JP2990333B2 (en) | Building | |
JPH0132342B2 (en) | ||
KR930002644B1 (en) | Domical building structure | |
JPH0291384A (en) | Execution method for building such as bay window | |
SU885472A1 (en) | Framework of building | |
JP4004946B2 (en) | Building construction method using exterior wall panels | |
SU1518464A1 (en) | Modular skeleton of building or structure | |
JP2001032406A (en) | Wall body construction method of wooden building and wall body structure therefor | |
SU623943A1 (en) | Multistory building | |
JPH02279823A (en) | Construction of plural-story underground structure | |
JP5467211B2 (en) | Building structure whose vertical cross-sectional shape is approximated by inverse catenary curve and its connecting material | |
JPH0519441Y2 (en) | ||
JPS6328274Y2 (en) | ||
RU11235U1 (en) | FRAME OF A MULTI-STOREY BUILDING | |
JPH0357261U (en) |