The architectonic spacer building system is a simplified prefabrication assembly using industrialized building system concept. The architectonic spacer building system for skeleton construction includes a spacer (2, 4, 6, 8, 10) having a predetermined shape for use in constructing modular form of bu
The architectonic spacer building system is a simplified prefabrication assembly using industrialized building system concept. The architectonic spacer building system for skeleton construction includes a spacer (2, 4, 6, 8, 10) having a predetermined shape for use in constructing modular form of building components, including a modular floor joist assembly (18), corner and crisscross junctions assembly (17, 19). The spacer acts as an anchored dowel connector (2, 10), composite key roof connector (22, 24, 26) and/or a bracing (2, 4, 6, 8) of adjoining wall panel (12).
대표청구항▼
1. An architectonic spacer building system comprising: a plurality of beams, each beam including a first board layer, a second board layer, and at least one spacer in between the first and second board layer; anda composite key roof connector including two or more of the plurality of beams, wherein
1. An architectonic spacer building system comprising: a plurality of beams, each beam including a first board layer, a second board layer, and at least one spacer in between the first and second board layer; anda composite key roof connector including two or more of the plurality of beams, wherein the at least one spacer of each beam includes a key plate spacer and a key bracket spacer, the key plate spacer and the key bracket spacer extending from a modular hip rafter at angles relative to one another, wherein the modular hip rafter is oriented vertically, wherein the composite key roof connector further includes at least four spacers configured as key ties, the key ties configured as a bundle and oriented vertically to hold the key plate spacer and the modular hip rafter therebetween at one end of the key ties, and to further hold the key bracket spacers therebetween at another end of the key ties opposite the key plate spacers. 2. The architectonic spacer building system of claim 1, wherein two or more of the plurality of beams is configured as floor beams to construct a modular floor joist assembly with two or more layers of the floor beams assembled in a grid, and each layer of floor beams of the modular floor joist assembly includes at least one spacer acting as an anchored dowel connector. 3. The architectonic spacer building system of claim 1, wherein the at least one spacer is one of a rectangular shape, a square shape, a triangular shape and a polygonal shape. 4. The architectonic spacer building system of claim 1, wherein the spacer is a solid, hollowed or extruded form of different shape profile. 5. The architectonic spacer building system of claim 1, wherein the composite key roof connector is configured for flexible assembly of a roof including a pyramid roof, a mansard roof, and a cone roof by using the composite key roof connector to hold main rafters to form a span truss. 6. The architectonic spacer building system of claim 1, wherein the at least one spacer includes one of a solid form, a hollowed form, and an extruded form. 7. The architectonic spacer building system of claim 1, wherein two or more of the plurality of beams is configured to construct a wall panel corner assembly including at least two of the plurality of beams joined together at an angle relative to one another by a spacer to form a corner junction of two wall panels. 8. The architectonic spacer building system of claim 1, wherein two or more of the plurality of beams is configured to construct a corner assembly including one of the plurality of beams with a board member joined at each end of said beam at an angle thereto. 9. The architectonic spacer building system of claim 8, wherein two or more of the plurality of beams is configured to construct a crisscross junction assembly including two or more of the plurality of beams intersecting one another in a cross to form a wall junction of a wall panel. 10. The architectonic spacer building system of claim 9, wherein the spacer used to form the corner junction is configured as a bracing of adjoining wall panel assemblies. 11. The architectonic spacer building system of claim 9, wherein two or more of the plurality of beams is configured to construct a wall panel assembly including at least two corner assemblies and at least one crisscross junction assembly, wherein at least one end of a beam of the at least one crisscross junction assembly is operatively connected to the board member of the corner assembly. 12. The architectonic spacer building system of claim 11, wherein the at least one spacer of each beam is configured to create a slit between the first and second boards and within the wall panel assembly thereby allowing utility conduits to pass therethrough. 13. The architectonic spacer building system of claim 11, wherein the wall panel assembly is configured as an angular wall, a radiated wall, or a polygonal wall.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (5)
Matthews LeRoy ; Vrechek Paul R., Floor joist system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.