초록 ▼

Laminated interlocking stackable wall units are assembled using a large proportion of wood species unsuitable for use in the construction industry. The interlocking stackable wall units are used in combination with a laminated roof beam, and a roof panel to construct an earthquake-resistant building

Laminated interlocking stackable wall units are assembled using a large proportion of wood species unsuitable for use in the construction industry. The interlocking stackable wall units are used in combination with a laminated roof beam, and a roof panel to construct an earthquake-resistant buildings. Each building is tied together by composite steel bands that lend the structure flexibility and excellent resistance to wracking forces induced by natural phenomena, such as earthquakes and windstorms. The buildings are rapidly assembled with a minimum of labor, and are inexpensive to construct. The advantage is a high quality building constructed at reasonable cost.

대표청구항 ▼

Laminated interlocking stackable wall units are assembled using a large proportion of wood species unsuitable for use in the construction industry. The interlocking stackable wall units are used in combination with a laminated roof beam, and a roof panel to construct an earthquake-resistant building

Laminated interlocking stackable wall units are assembled using a large proportion of wood species unsuitable for use in the construction industry. The interlocking stackable wall units are used in combination with a laminated roof beam, and a roof panel to construct an earthquake-resistant buildings. Each building is tied together by composite steel bands that lend the structure flexibility and excellent resistance to wracking forces induced by natural phenomena, such as earthquakes and windstorms. The buildings are rapidly assembled with a minimum of labor, and are inexpensive to construct. The advantage is a high quality building constructed at reasonable cost. . 2. Construction elements as claimed in claim 1 wherein the inner laminate and the outer laminate are constructed using a significant percentage of wood that is generally unsuitable for use in the construction industry. 3. Construction elements as claimed in claim 2 wherein inner layers of the inner laminate and the outer laminate are assembled using finger joints to join pieces together at their ends, and edge lamination to build up beams that are re-sawn to a required shape. 4. Construction elements as claimed in claim 2 wherein an outer surface of the outer laminate is a solid wood plank that extends a length and width of the stackable wall unit. 5. Construction elements as claimed in claim 1 wherein the inner load bearing member of the roof beam is narrower than the outer load bearing members, to form a channel in an inner side of the roof beam, the channel serving as a conduit recess to permit wiring to be run along the roof beam. 6. Construction elements as claimed in claim 5 further comprising a conduit recess cover adapted to cover the conduit recess after the wiring has been run. 7. Construction elements as claimed in claim 1 wherein the roof beam is laminated using bolts inserted through bores drilled through the outer load bearing members, the inner load bearing member and the elongated metal plate. 8. Construction elements as claimed in claim 1 further comprising a roof panel, that is laid over the roof beams to construct a roof, the roof panel including; a finished inner surface having respective longitudinal edges that mate with corresponding edges of adjacent roof panels, the finished inner surface being connected to spacers that interconnect panel sides, the panel sides surrounding insulating material for insulating the roof. 9. Construction elements as claimed in claim 8 wherein the finished inner surface is a tongue-and-groove finish made of wood. 10. Construction elements as claimed in claim 1 further comprising C-shaped reinforcement members which are driven into a top surface of each stackable wall unit to tie together the inner and outer laminates. 11. Construction elements as claimed in claim 1 further comprising wall reinforcement members comprising a vertically oriented metal stud positioned in each side of the wall and secured thereto, and a wood plate that covers each of the metal studs. 12. Construction elements as claimed in claim 1 further comprising a corner reinforcing angle adapted to the secure to corners of the building, and trim boards that are applied to the corners of the building to conceal the corner reinforcing angles. 13. A method of constructing an earthquake-resistant building, comprising: a) connecting in a vertical orientation to a foundation for the building, a plurality of steel rods, the steel rods being spaced apart a predetermined distance and having respective threaded top ends; b) erecting walls for the building by stacking over the steel rods predrilled, stackable wall units comprising a load bearing inner laminate, a load bearing outer laminate and a rigid insulating core bonded between the respective inner and outer laminates; c) securing a wall plate to a top of the erected walls; d) erecting a ridge beam to support center ends of opposed pairs of roof beams for supporting a roof for the building; d) mounting the opposed pairs of roof beams to the ridge beam and opposed side wall plates, adjacent a top end of each of the steel rods that extend through the opposed side wall plates, each roof beam comprising opposed outer load bearing members having a predetermined length and a predetermined width, an inner load bearing member having the predetermined length and at most the predetermined width, and a metal plate having the predetermined length and at most the predetermined width, the respective outer members, inner members and the metal plate being laminated together so that the metal plate is between one of the outer members and the inner member; and e) in stalling brackets to tie the respective roof beams to the respective steel rods, and to tie together ends of the roof beams where they meet above the ridge beam; and f) installing nuts on the top ends of the vertical steel rods to secure the walls and the roof beams to the foundation. 14. The method as claimed in claim 13 wherein the step of erecting walls comprises a first step of commencing the wall with a solid wood starter member having a top surface that is complementary with a bottom surface of the stackable wall units. 15. The method as claimed in claim 13 wherein the step of erecting walls further comprises a step of placing a weather seal on a top surface of each stackable wall unit before a next stackable wall unit is added to the wall, to provide a weather-tight seal between the stackable wall units. 16. The method as claimed in claim 13 wherein the step of placing a weather seal comprises a step of adhering a foam tape along and inner edge of a longitudinal groove in a top surface of each on the inner and outer laminates of the stackable wall units. 17. The method as claimed in claim 13 wherein the step of securing a wall plate to a top of the erected walls comprises a step of securing a solid wood plate to a top of the erected walls. 18. The method as claimed in claim 13 wherein the step of installing the brackets to tie the roof beams to the respective steel rods comprises a step of installing an L-shaped bracket on each of the respective steel rods adjacent a roof beam, drilling a hole through the roof beam in alignment with a complementary hole in the L-shaped bracket, and inserting a bolt through the L-shaped bracket and the roof beam to tie the roof beam to the steel rod. 19. The method as claimed in claim 13 wherein the step of installing the brackets to tie together the roof beams where they meet over the ridge pole comprises a step of boring holes through the laminated roof beams in alignment with complimentary holes in brackets on opposite sides of the roof beams, and inserting bolts through the respective holes. 20. The method as claimed in claim 13 further comprising a step of mounting roof panels on the roof beams to provide a roof for the building. 21. The method as claimed in claim 20 comprising a step of installing a first panel at a bottom edge of the roof beams, and building the roof towards the peak by adding respective subsequent panels. 22. The method as claimed in claim 21 further comprising installing sheathing to a top of the roof panels. 23. The method as claimed in claim 22 further comprising a step of installing strapping at right angles to the panels prior to applying the roof sheathing and applying the sheathing to the strapping. 24. The method as claimed in claim 13 further comprising a step of after stacking each one of the stackable wall units, driving at least one C-shaped reinforcement member into a top surface of the stackable wall units to tie together the inner and outer load bearing laminants. 25. The method as claimed in claim 13 further comprising a step of applying to walls constructed using the stackable wall units at least one wall reinforcement member by forming a vertical notch in each side of the constructed wall, placing a metal stud in the respective notches, securing the studs to the stackable wall units, and securing a wood plate to the constructed wall to conceal the metal studs.