CN101967899A - Wood plastic and metal integrated earthquake-resistant construction - Google Patents

Abstract

The invention discloses a wood plastic and metal integrated earthquake-resistant construction, comprising a construction base, metal profiles, wood plastic profiles, connecting pieces, outer wall plates, inner wall plates, insulating materials, a roof, ground, doors and windows. A wood plastic and metal integrated earthquake-resistant construction frame is manufactured by using the wood plastic profiles and the connecting piece with internally-embedded metal materials through assembly of screws or rivets or is manufactured by using the wood plastic profiles and the connecting pieces with internally-embedded metal materials through assembly of screws or rivets and the metal profiles.

Description

Wood is moulded and the integrated earthquake proof construction of metal

Technical field:

The present invention relates to wood moulds and the metal integrated building.

Background technology:

Existing metal construction building has the intensity height, shock resistance, and manufacturing process is simple, the strong advantage of shock resistance, but metal construction building weight is big, perishable, the cost height, and damping property is poor, and heat insulating ability is poor, when especially processing mosaic structure, processing difficulties, expense height.

Wood-plastic profiles has in light weight, and switching performance is good, handling ease, and damping property is good, and is corrosion-resistant, and cost hangs down advantage.But hot-extrudable Wood-plastic profiles adopts resin and wood powder extrusion molding at high temperature, fibre-bearing not in the Wood-plastic profiles, when being hit, easily fracture, another problem that the PVC Wood-plastic profiles exists are to give birth to highly to more than 80 ℃ the time when temperature, and Wood-plastic profiles softens, lose intensity, when temperature was reduced to subzero, Wood-plastic profiles became fragile, and above-mentioned two critical defects make Wood-plastic profiles can not be used as building structural materials.

It is big that plank has cutting output, and processed complex is yielding, the easy moisture absorption, and easy firing, the consumption of natural resource characteristics, wood and the integrated earthquake proof construction price of metal height, the life-span is low.

The Wood-plastic profiles of interior embedded with metal material is compared with wood section has following advantage; 1, the Wood-plastic profiles shock resistance of interior embedded with metal material is higher than wood section.2, the Wood-plastic profiles Corrosion Protection and the non-deformability of interior embedded with metal material are higher than wood section.3, the Wood-plastic profiles switching performance of interior embedded with metal material is higher than wood section, because the existence of metal material, the bolt junction is not easy to occur fracture.4, the Wood-plastic profiles of interior embedded with metal material promptly has the characteristics of timber, has the metal material characteristics again, and earthquake resisting performance is higher than wood section.5, the Wood-plastic profiles flame resistant performance of interior embedded with metal material is higher than wood section, during burning, Wood-plastic profiles forms the porous charring layer at the shape external surface, the porous charring layer stops the further heating of metal section bar of flame, the resistance to elevated temperatures of metal material, the Wood-plastic profiles of embedded with metal material has the higher anti-deformation of anti-the burning in making when flame combustion.6, the corrosion-resistant and water-fast erosion performance of the Wood-plastic profiles of embedded with metal material is higher than wood section.

Summary of the invention:

The objective of the invention is: 1, the Wood-plastic profiles of embedded with metal material in adding aluminium or steel metal material produce in the Wood-plastic profiles, use the Strength of Metallic Materials height, shock resistance, the advantage that is connected firmly, it is low to overcome Wood-plastic profiles intensity, shock resistance is poor, hot mastication, the shortcoming of brittle fracture under low temperature, in light weight with Wood-plastic profiles, handling ease, corrosion resistant advantage overcomes the metal material Heavy Weight, and is perishable, the shortcoming that processing cost is high, improve the intensity of Wood-plastic profiles, improve the Corrosion Protection of metal material, during high temperature, interior embedded with metal material makes the Wood-plastic profiles shape that remains unchanged, during baked wheaten cake, the charring layer of Wood-plastic profiles burning stops flame directly to contact with metal, lower the transmission of heat, the flame resistant ability of embedded with metal material in improving combines the advantage of Wood-plastic profiles with the advantage of metal material, make interior embedded with metal material Wood-plastic profiles can be used for building structural member.2, by adopting high temperature resistant, low bulk resin manufacture Wood-plastic profiles, improve the heat resistance and the expansion character of Wood-plastic profiles.3, earthquake proof construction main structure is with the shape manufacturing or with the Wood-plastic profiles manufacturing of interior embedded with metal material, guarantee the bulk strength of earthquake proof construction, the Wood-plastic profiles rod member of interior embedded with metal material is fixed in the earthquake proof construction main structure with connector, reduce the weight of earthquake proof construction, reduce the cost of earthquake proof construction, improve the damping performance and the corrosion resistance of earthquake proof construction.4, Wood-plastic profiles workability energy, the machining accuracy that the Wood-plastic profiles rod member of embedded with metal material is inlayed mortise and tenon in improving, reduce processing charges, the Wood-plastic profiles mortise and tenon of embedded with metal material accurately is connected with earthquake proof construction main structure section bar groove in making, and improves bonding strength.5, the Wood-plastic profiles of interior embedded with metal material is connected by screw or rivet with connector, the bonding strength height, and shock resistance is strong, dismantles easily and changes.6, substitute wood section with Wood-plastic profiles, save the forest reserves.

A kind of wood that the present invention proposes moulds that integrated earthquake proof construction comprises: building foundation with metal, shape, Wood-plastic profiles, connector, side fascia, inner wall panel, heat insulating material, the roof, ground, door, window, wood is moulded with the integrated earthquake proof construction framework of metal with the Wood-plastic profiles of interior embedded with metal material and connector by screw or rivet assembly, the Wood-plastic profiles of interior embedded with metal material comprises: worker's shape Wood-plastic profiles of interior embedded with metal material, the cavity rectangle Wood-plastic profiles of interior embedded with metal material, the water jacket inner chamber Wood-plastic profiles of interior embedded with metal material, the open slot Wood-plastic profiles of interior embedded with metal material, the pipe Wood-plastic profiles of interior embedded with metal material, the metal material that screw or rivet pass connector hole and Wood-plastic profiles section bar inside links together the Wood-plastic profiles of embedded with metal material in adjacent, for improving bonding strength, the shape that is complementary with adjacent interior embedded with metal material Wood-plastic profiles groove is processed in the Wood-plastic profiles end of interior embedded with metal material, Wood-plastic profiles end tenon is inlayed in the into adjacent Wood-plastic profiles groove, on the Wood-plastic profiles of embedded with metal material, the connector other end was connected on the Wood-plastic profiles of adjacent interior embedded with metal material with screw in connector one end was connected with screw or rivet.

The another kind of wood that the present invention proposes moulds that integrated earthquake proof construction comprises: building foundation with metal, shape, Wood-plastic profiles, connector, side fascia, inner wall panel, heat insulating material, the roof, ground, door, window, it is characterized in that: wood is moulded with the integrated earthquake proof construction framework of metal with the Wood-plastic profiles of interior embedded with metal material and connector by screw or rivet and shape assembly, shape comprises: the rectangular metal section bar, worker's shape shape, the open slot shape, the pipe shape, metal framework structure with connector is connected manufacturing with the pipe shape by welding or with screw or rivet with the open slot shape with worker's shape shape with the rectangular metal section bar, rectangular metal section bar and pipe shape are used for stressed column and crossbeam, and worker's shape shape and open slot shape are used for tie-beam or joint pin, for improving bonding strength, the Wood-plastic profiles end processing tongue-and-groove of interior embedded with metal material, tongue-and-groove is inlayed in the worker's shape metal and groove metal groove, and right-angle connector one end is connected on the Wood-plastic profiles with screw or rivet, and the right-angle connector other end is connected on the shape with screw or is welded on the shape.

The earthquake proof construction of out-hung panel metal framework, side fascia or outer glass wallboard or outer stone material wallboard are fixed on the metal framework structure outside, and the slit seals with glue between adjacent wall board.

The earthquake proof construction of another kind of out-hung panel metal framework, the Wood-plastic profiles frame construction outside of embedded with metal material in side fascia or outer glass wallboard or outer stone material wallboard are fixed on, the slit seals with glue between adjacent wall board.

Roof beam shape manufacturing, the wood of interior embedded with metal material are moulded the interior lacing wire section bar of roof beam and are fixed on the roof beams of metal with connector and connected nail, shop, roof beam top roof panel, and waterproofing materials and roof tile are laid in roof panel top.

Roof beam is with the Wood-plastic profiles manufacturing of interior embedded with metal material, the wood of interior embedded with metal material is moulded the interior lacing wire section bar of roof beam and is fixed on the Wood-plastic profiles roof beam of embedded with metal with connector and connected nail, shop, roof beam top roof panel, waterproofing materials and roof tile are laid in roof panel top.

Minimizing earthquake lateral wave and longitudinal wave are the Wood-plastic profiles of the interior embedded with metal material of placement in the building frame to the measure of the destruction of metal framework building, and the Wood-plastic profiles of interior embedded with metal material is done triangular form support or regional anyhow alternately arrangement.

The Wood-plastic profiles of interior embedded with metal material comprises: the Wood-plastic profiles of embedded with metal material in the MPPO, the Wood-plastic profiles of embedded with metal material in the PVDF, the Wood-plastic profiles of embedded with metal material in the ASA, the Wood-plastic profiles of embedded with metal material in the PA, the Wood-plastic profiles of embedded with metal material in the PVC, the Wood-plastic profiles of embedded with metal material in the PP, the Wood-plastic profiles of embedded with metal material in the PE, the Wood-plastic profiles of embedded with metal material in PVDF and the PVC co-extrusion, the Wood-plastic profiles of embedded with metal material in ASA and the PVC co-extrusion.

Be the bond strength of embedded with metal material in improving and Wood-plastic material, gluing between metal material and Wood-plastic material.

Be to improve the heat-insulating property of metal framework earthquake proof construction, inlay heat insulating material or phase-change energy-storing thermal insulation material in the sash that Wood-plastic profiles and metal framework are formed or inlay hollow wood and mould plate.

Mould and the integrated earthquake proof construction anti-seismic performance of metal for improving wood, wood mould with the integrated earthquake-resistant building foundation of metal and bottom enclosure wall with brick or stone or concrete manufacturing, be that wood is moulded and the integrated earthquake proof construction framework of metal on brick or stone or the concrete building foundation.

Metal framework comprises: steel metal framework, aluminum metal framework, steel and aluminum metal framework.

The embedded with metal material comprises in the Wood-plastic profiles: steel, aluminium.

Advantage of the present invention is: 1, the Wood-plastic profiles of embedded with metal material in adding aluminium or steel metal material produce in the Wood-plastic profiles, use the Strength of Metallic Materials height, shock resistance, the advantage that is connected firmly, it is low to overcome Wood-plastic profiles intensity, shock resistance is poor, hot mastication, the shortcoming of brittle fracture under low temperature, in light weight with Wood-plastic profiles, handling ease, corrosion resistant advantage overcomes the metal material Heavy Weight, and is perishable, the shortcoming that processing cost is high, improve the intensity of Wood-plastic profiles, improve the Corrosion Protection of metal material, during high temperature, interior embedded with metal material makes the Wood-plastic profiles shape that remains unchanged, during baked wheaten cake, the charring layer of Wood-plastic profiles burning stops flame directly to contact with metal, lower the transmission of heat, the flame resistant ability of embedded with metal material in improving combines the advantage of Wood-plastic profiles with the advantage of metal material, make interior embedded with metal material Wood-plastic profiles can be used for building structural member.2, the workability energy of Wood-plastic profiles improves the machining accuracy of inlaying mortise and tenon, reduces processing charges, and the Wood-plastic profiles mortise and tenon accurately is connected with the section bar groove, improves bonding strength.3, do building structural materials with the alternative wood section of the Wood-plastic profiles of interior embedded with metal material, save the forest reserves.

Description of drawings:

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 be have feature wood of the present invention mould with the integrated earthquake proof construction of metal in embedded with metal worker shape Wood-plastic profiles end face structure figure.

Fig. 2 be have feature wood of the present invention mould with the integrated earthquake proof construction of metal in embedded with metal degree of lip-rounding Wood-plastic profiles end face structure figure.

Fig. 3 be have feature wood of the present invention mould with the integrated earthquake proof construction of metal in embedded with metal open slot Wood-plastic profiles end face structure figure.

Fig. 4 be have feature wood of the present invention mould with the integrated earthquake proof construction of metal in embedded with metal right angle water jacket inner chamber Wood-plastic profiles end face structure figure.

Fig. 5 be have feature wood of the present invention mould with the integrated earthquake proof construction of metal in embedded with metal threeway water jacket inner chamber Wood-plastic profiles end face structure figure.

Fig. 6 be have feature wood of the present invention mould with the integrated earthquake proof construction of metal in embedded with metal four-way water jacket inner chamber Wood-plastic profiles end face structure figure.

Fig. 7 has feature of the present invention to have and inlay tenon right angle type connector front view.

Fig. 8 has feature of the present invention to have and inlay tenon right angle type connector left view.

Fig. 9 has feature right angle type connector front view of the present invention.

Figure 10 has feature right angle type connector left view of the present invention.

Figure 11 has a kind of wood of feature of the present invention to mould and the integrated earthquake proof construction frame side of metal end face structure figure.

Figure 12 is that Figure 11 inlays and moulds wooden side fascia appearance assumption diagram.

Figure 13 be have feature of the present invention a kind of in embedded with metal wood mould integrated earthquake proof construction and arrange floor plates end face structure figure in length and breadth.

Figure 14 is that Figure 13 lays the plastic-wood floor appearance assumption diagram.

Figure 15 has the interior embedded with metal wood of feature of the present invention to mould integrated earthquake proof construction rounded projections arranged floor plates end face structure figure.

Figure 16 is Figure 15 Wood-plastic floor arrangement diagram of mating formation.

Figure 17 has feature steel wood of the present invention to mould combination domatic roof truss arrangement diagram.

Figure 18 has the interior embedded with metal wood of feature of the present invention to mould combination domatic roof truss arrangement diagram.

Figure 19 has feature internal thermal insulated wall plate end face assembling assumption diagram of the present invention.

Figure 20 has to inlay hollow Wood plastic wall board end face assembling assumption diagram in the feature of the present invention.

Figure 21 has the interior embedded with metal material wood of feature of the present invention to mould earthquake proof construction frame side end face structure figure.

Figure 22 is that Figure 21 inlays and moulds wooden side fascia appearance assumption diagram.

Figure 23 has in the feature of the present invention embedded with metal wood to mould integrated earthquake proof construction and arrange floor plates end face structure figure in length and breadth.

Figure 24 is that Figure 23 lays the plastic-wood floor appearance assumption diagram.

Figure 25 has the interior embedded with metal wood of feature of the present invention to mould integrated earthquake proof construction rounded projections arranged floor plates end face structure figure.

Figure 26 is that Figure 25 lays the plastic-wood floor appearance assumption diagram.

Figure 27 has in the feature of the present invention embedded with metal wood to mould integrated earthquake proof construction and be connected the end face structure chart with the stone material concrete foundation.

The specific embodiment:

Embodiment 1:

Wood mould with the integrated earthquake proof construction worker of metal shape Wood-plastic profiles end face structure figure as shown in Figure 1, wherein: the 1st, worker's shape Wood-plastic profiles, the 2nd, interior embedded with metal core.Wood mould with the integrated earthquake proof construction of metal in embedded with metal degree of lip-rounding Wood-plastic profiles end face structure figure as shown in Figure 2, wherein: the 3rd, degree of lip-rounding Wood-plastic profiles, the 4th, in to inlay the degree of lip-rounding metal-cored.Wood mould with the integrated earthquake proof construction of metal in embedded with metal open slot Wood-plastic profiles end face structure figure as shown in Figure 3, wherein: the 5th, open slot Wood-plastic profiles, the 6th, interior embedded with metal core.Wood mould with the integrated earthquake proof construction of metal in embedded with metal right angle water jacket inner chamber Wood-plastic profiles end face structure figure as shown in Figure 4, wherein: the 7th, water jacket inner chamber Wood-plastic profiles, the 8th, last embedding groove, the 9th, side embedding groove, the 10th, rectangular metal inner core.Wood mould with the integrated earthquake proof construction of metal in embedded with metal threeway water jacket inner chamber Wood-plastic profiles end face structure figure as shown in Figure 5, wherein: the 11st, threeway water jacket inner chamber Wood-plastic profiles, the 12nd, last embedding groove, the 13rd, left embedding groove, the 14th, right embedding groove, the 15th, rectangular metal inner core.Wood mould with the integrated earthquake proof construction of metal in embedded with metal four-way water jacket inner chamber Wood-plastic profiles end face structure figure as shown in Figure 6, wherein: the 16th, four-way water jacket inner chamber Wood-plastic profiles, the 17th, last embedding groove, the 18th, left embedding groove, the 19th, right embedding groove, the 20th, following embedding groove, the 21st, rectangular metal inner core.

Embodiment 2:

Have and inlay tenon right angle type connector front view as shown in Figure 7, Fig. 8 has to inlay tenon right angle type connector left view, wherein: the 22nd, junction plate, the 23rd, joint tongue, the 24th, connecting hole, the 25th, right-angle connecting plate, the 26th, right-angle connecting plate hole.

During installation, screw passes connecting hole 24 junction plate 22 is fixed on the Wood-plastic profiles, in joint tongue 23 insertion worker's shape beams of metals and the groove beams of metal groove and on the brace groove inclined-plane, prevent that junction plate 22 and worker's shape beams of metal and groove beams of metal from producing mobile, right-angle connecting plate 25 usefulness bolts pass right-angle connecting plate hole 26 and are connected on worker's shape metal and the groove metal, and Wood-plastic profiles and shape are linked together.

Embodiment 3:

Right angle type connector front view as shown in Figure 9, Figure 10 is a right angle type connector left view, wherein: the 27th, the rectangle junction plate, the 28th, connecting hole, the 29th, right angle rectangle junction plate, the 30th, the right angle rectangle connects plate hole.

During installation, screw passes connecting hole 28 rectangle junction plate 27 is fixed on the Wood-plastic profiles, rectangle junction plate 29 usefulness bolts in right angle pass right angle rectangle connection plate hole 30 and are connected on worker's shape beams of metal or groove beams of metal or the degree of lip-rounding beams of metal, and Wood-plastic profiles and shape are linked together.

Embodiment 4:

A kind of wood mould with the integrated earthquake proof construction frame side of metal end face structure figure as shown in figure 11, Figure 12 is that Figure 11 inlays and moulds wooden side fascia appearance assumption diagram, wherein: the 31st, the rectangular metal column, the 32nd, the flute profile metal upright post, the 33rd, last flute profile metal beam, the 34th, flute profile metal beam in going up, the 35th, down middle flute profile metal beam, the 36th, following flute profile metal beam, the 37th, following rectangular metal crossbeam, the 38th, worker's shape Wood-plastic profiles of interior embedded with metal material is very upright, the 39th, worker's shape Wood-plastic profiles upper connector of interior embedded with metal material, the 40th, connector under worker's shape Wood-plastic profiles of interior embedded with metal material, the 41st, worker's shape Wood-plastic profiles crossbeam of interior embedded with metal material, the 42nd, worker's shape wood plastic sectional edge connector of interior embedded with metal material, the 43rd, limit connector in worker's shape Wood-plastic profiles of interior embedded with metal material, the 44th, interior fill insulant material, the 45th, perpendicular wood is moulded side fascia, the 46th, beam is moulded side fascia, and the 47th, door.

During use, rectangular metal column 31 is assembled into earthquake proof construction metal framework with following rectangular metal crossbeam 37 usefulness welding with the method that is connected with following flute profile metal beam 36 with down middle flute profile metal beam 35 with last middle flute profile metal beam 34 with last flute profile metal beam 33 with flute profile metal upright post 32, in last rectangular frame, during the upright very 38 top tenons of worker's shape Wood-plastic profiles of interior embedded with metal material insert and go up on the flute profile metal beam section bar 34 in the groove, be connected with last middle flute profile metal beam section bar 34 by screw or rivet with upper connector 39, the upright very 38 bottom tenons of worker's shape Wood-plastic profiles of interior embedded with metal material insert in down middle 35 times grooves of flute profile metal beam section bar, following connector 40 is connected with down middle flute profile metal beam section bar 35 by screw or rivet, worker's shape Wood-plastic profiles crossbeam 41 usefulness limit connectors 42 of interior embedded with metal material are connected with rectangular metal column 31 by screw or rivet, worker's shape Wood-plastic profiles crossbeam 41 side end tenons of interior embedded with metal material insert in flute profile metal upright post section bar 32 grooves, connector 43 is connected with flute profile metal upright post section bar 32 by screw or rivet, fill insulant material 44 in inlaying in the sash of forming by worker's shape Wood-plastic profiles of shape and interior embedded with metal material, perpendicular wood is moulded side fascia 45 and beam and is moulded side fascia 46 and be installed in that wood is moulded and the integrated earthquake proof construction framework of the metal outside, in the metal sash that door 47 is embedded in by flute profile metal upright post 32 and flute profile metal beam 35 and following rectangular metal crossbeam 37 are formed down.

Embodiment 5:

Interior embedded with metal wood is moulded integrated earthquake proof construction and is arranged floor plates end face structure figure in length and breadth as shown in figure 13, Figure 14 is that Figure 13 lays the plastic-wood floor appearance assumption diagram, wherein: the 48th, metal flute profile longeron section bar, the 49th, metal worker shape section bar, the 50th, metal flute profile beam type material, the 51st, worker's shape wood of interior embedded with metal material is moulded the crossbeam section bar, the 52nd, worker's shape wood of interior embedded with metal material is moulded longeron section bar, the 53rd, right-angle connector, the 54th, heat insulating material, the 55th, perpendicular Wood-plastic floor, the 56th, beam is moulded the floor.

During use, welding is assembled into earthquake proof construction metal floor plates framework with the method that is connected with metal flute profile beam type material 50 usefulness with metal worker shape longeron section bar 49 with metal flute profile longeron section bar 48, earthquake proof construction metal floor plates framework is welded or is connected on the earthquake proof construction main frame column, worker's shape wood of interior embedded with metal material is moulded crossbeam section bar 51 end tenons and is inserted in the adjacent metal section bar groove, right-angle connector 53 is moulded crossbeam section bar 51 by screw or rivet with worker's shape wood of interior embedded with metal material and is connected on metal flute profile longeron section bar 48 and the metal worker shape longeron section bar, worker's shape wood of interior embedded with metal material is moulded longeron section bar 52 end tenons and is inserted in the adjacent metal section bar groove, right-angle connector 53 is moulded longeron section bar 52 by screw or rivet with worker's shape wood of interior embedded with metal material and is connected on metal flute profile beam type material 50 and the metal worker shape section bar 49, fill insulant material 54 in the sash of forming by worker's shape Wood-plastic profiles of shape and interior embedded with metal material, perpendicular Wood-plastic floor 55 and beam mould floor 56 be laid on wood mould with the integrated earthquake proof construction floor plates of metal framework on fixing.

Wood is moulded the destruction that the floor plates of alternately arranging in length and breadth with the integrated earthquake proof construction of metal can effectively reduce P wave and shear wave.

Embodiment 6:

Interior embedded with metal wood is moulded integrated earthquake proof construction rounded projections arranged floor plates end face structure figure as shown in figure 15, Figure 16 is that Figure 15 lays the plastic-wood floor appearance assumption diagram, wherein: the 57th, metal flute profile longeron section bar, the 58th, metal worker shape section bar, the 59th, metal flute profile beam type material, the 60th, worker's shape wood of interior embedded with metal material is moulded the cant beam section bar, the 61st, connector, the 62nd, heat insulating material, the 63rd, perpendicular Wood-plastic floor, the 64th, beam is moulded the floor.

During use, welding is assembled into earthquake proof construction metal floor plates framework with the method that is connected with metal flute profile beam type material 59 usefulness with metal worker shape longeron section bar 58 with metal flute profile longeron section bar 57, earthquake proof construction metal floor plates framework is welded or is connected on the earthquake proof construction main frame column, worker's shape wood of interior embedded with metal material is moulded cant beam section bar 60 end tenons and is inserted in the adjacent metal section bar groove, connector 61 is moulded cant beam section bar 60 by screw or rivet with worker's shape wood of interior embedded with metal material and is connected on metal flute profile longeron section bar 57 and metal worker shape section bar 58 and the metal flute profile beam type material 59, mould fill insulant material 62 in the sash that cant beam section bar 60 forms by worker's shape wood of shape and interior embedded with metal material, perpendicular Wood-plastic floor 63 and beam mould floor 64 be laid on wood mould with the integrated earthquake proof construction floor plates of metal framework on fixing.

Wood is moulded the destruction that can effectively reduce P wave and shear wave with the floor plates of the integrated earthquake proof construction rounded projections arranged of metal.

Embodiment 7:

Steel wood is moulded combination domatic roof truss arrangement diagram as shown in figure 17, wherein: the 65th, oblique girder steel, the 66th, horizontal girder steel, the 67th, worker's shape wood of interior embedded with metal material is moulded Vertical section, and the 68th, worker's shape wood of interior embedded with metal material is moulded cant beam section bar, the 69th, connector.

During use, with 66 welding of oblique girder steel 65 and horizontal girder steel or connect into triangular roof truss, worker's shape wood that connector 69 is moulded worker's shape wood of interior embedded with metal material Vertical section 67 and interior embedded with metal material is respectively moulded cant beam section bar 68 and is fixed in the triangular roof truss with oblique girder steel 65 and 66 manufacturings of horizontal girder steel.

Embodiment 8:

Interior embedded with metal material wood is moulded combination domatic roof truss arrangement diagram as shown in figure 18, wherein: the 70th, worker's shape wood of interior embedded with metal material is moulded the cant beam section bar, the 71st, worker's shape wood of interior embedded with metal material is moulded the horizontal beam section bar, the 72nd, worker's shape wood of interior embedded with metal material is moulded Vertical section, the 73rd, worker's shape wood of interior embedded with metal material is moulded cant beam section bar, the 74th, connector.

During use, connector 74 is moulded cant beam section bar 70 and interior embedded with metal material supplier shape wood with interior embedded with metal material supplier shape wood and is moulded horizontal beam section bar 71 and connect into triangular roof truss, and worker's shape wood that connector 74 is moulded worker's shape wood of interior embedded with metal material Vertical section 72 and interior embedded with metal material is respectively moulded cant beam section bar 73 and is fixed on worker's shape wood and moulds worker's shape wood of cant beam section bar 70 and interior embedded with metal material and mould in the triangular roof truss that horizontal beam section bar 71 makes.

Embodiment 9:

Internal thermal insulated wall plate end face assembling assumption diagram as shown in figure 19, wherein: the 75th, worker's shape Wood-plastic profiles of interior embedded with metal material, the 76th, interior embedded with metal material, the 77th, the indoor junction plate of worker's shape Wood-plastic profiles, the 78th, the outdoor junction plate of worker's shape Wood-plastic profiles, the 79th, outdoor Wood plastic wall board, the 80th, butt hook on the outdoor Wood plastic wall board, the 81st, butt hook under the outdoor Wood plastic wall board, the 82nd, indoor veneer gypsum plank, the 83rd, warming plate, the 84th, connected nail.

During use, worker's shape Wood-plastic profiles 75 two ends of interior embedded with metal material are fixed on the metal framework with connector or are fixed on the interior embedded with metal material Wood-plastic profiles framework, screw 84 passes that butt hook 80 is fixed on outdoor Wood plastic wall board 79 on the outdoor junction plate 78 of worker's shape Wood-plastic profiles on the outdoor Wood plastic wall board, butt hook 81 inserts on the outdoor Wood plastic wall board in the butt hook 80 under the outdoor Wood plastic wall board, outdoor Wood plastic wall board 79 other ends are fixed, and the slit of Wood plastic wall board 79 seals with glue outside the adjacent chamber.In the sash that worker's shape Wood-plastic profiles 75 of interior embedded with metal material is formed, fill warming plate 83, indoor veneer gypsum plank 82 is fixed on the indoor junction plate 77 of worker's shape Wood-plastic profiles with connected nail 84.

Embodiment 10:

In inlay hollow Wood plastic wall board end face assembling assumption diagram as shown in figure 20, wherein: the 85th, worker's shape Wood-plastic profiles of interior embedded with metal material, the 86th, interior embedded with metal material, the 87th, the indoor junction plate of worker's shape Wood-plastic profiles, the 88th, the outdoor junction plate of worker's shape Wood-plastic profiles, the 89th, outdoor Wood plastic wall board, the 90th, butt hook on the outdoor Wood plastic wall board, the 91st, butt hook under the outdoor Wood plastic wall board, the 92nd, indoor veneer gypsum plank, the 93rd, hollow wood is moulded plate, and the 94th, connected nail.

During use, worker's shape Wood-plastic profiles 85 two ends of interior embedded with metal material are fixed on the metal framework with connector or are fixed on the interior embedded with metal material Wood-plastic profiles framework, screw 94 passes that butt hook 90 is fixed on outdoor Wood plastic wall board 89 on the outdoor junction plate 88 of worker's shape Wood-plastic profiles on the outdoor Wood plastic wall board, butt hook 91 inserts on the outdoor Wood plastic wall board in the butt hook 90 under the outdoor Wood plastic wall board, outdoor Wood plastic wall board 89 other ends are fixed, and the slit of Wood plastic wall board 89 seals with glue outside the adjacent chamber.In the sash that worker's shape Wood-plastic profiles 75 of interior embedded with metal material is formed, fill hollow wood and mould plate 93, indoor veneer gypsum plank 92 is fixed on the indoor junction plate 87 of worker's shape Wood-plastic profiles with connected nail 94.

Embodiment 11:

Embedded with metal material wood is moulded earthquake proof construction frame side end face structure figure as shown in figure 21 in a kind of, Figure 22 is that Figure 21 inlays and moulds wooden side fascia appearance assumption diagram, wherein: the 95th, interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles, the 96th, interior embedded with metal material opening trough_like column, the 97th, interior embedded with metal material upper shed channel crossbar, the 98th, split shed groove crossbeam on the interior embedded with metal material, the 99th, split shed channel crossbar under the interior embedded with metal material, the 100th, interior embedded with metal material under shed channel crossbar, the 101st, rectangle crossbeam under the interior embedded with metal material, the 102nd, worker's shape Wood-plastic profiles of interior embedded with metal material is very upright, the 103rd, worker's shape Wood-plastic profiles upper connector of interior embedded with metal material, the 104th, connector under worker's shape Wood-plastic profiles of interior embedded with metal material, the 105th, worker's shape Wood-plastic profiles crossbeam of interior embedded with metal material, the 106th, worker's shape wood plastic sectional edge connector of interior embedded with metal material, the 107th, limit connector in worker's shape Wood-plastic profiles of interior embedded with metal material, the 108th, interior fill insulant material, the 109th, perpendicular wood is moulded side fascia, the 110th, beam is moulded side fascia, and the 111st, door.

During use, split shed channel crossbar 99 under split shed channel crossbar 98 on interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles 95 and interior embedded with metal material opening trough_like column 96 and interior embedded with metal material upper shed channel crossbar 97 and the interior embedded with metal material and the interior embedded with metal material is assembled into the earthquake proof construction framework with the method that interior embedded with metal material under shed channel crossbar 100 usefulness are connected, in last rectangular frame, worker's shape Wood-plastic profiles of interior embedded with metal material is upright very in 102 top tenons insert on the embedded with metal material on the split shed groove crossbeam 98 in the groove, be connected with split shed groove crossbeam 98 on the interior embedded with metal material by screw or rivet with upper connector 103, worker's shape Wood-plastic profiles of interior embedded with metal material is upright very in 102 bottom tenons insert under the embedded with metal material in 99 times grooves of split shed channel crossbar, following connector 104 is connected with split shed channel crossbar 99 under the interior embedded with metal material by screw or rivet, worker's shape Wood-plastic profiles crossbeam 105 usefulness limit connectors 106 of interior embedded with metal material are connected with interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles 95 by screw or rivet, worker's shape Wood-plastic profiles crossbeam 105 side end tenons of interior embedded with metal material insert in interior embedded with metal material opening trough_like column 96 grooves, connector 107 is connected with interior embedded with metal material opening trough_like column 96 by screw or rivet, fill insulant material 108 in the sash that the Wood-plastic profiles of interior embedded with metal material is formed, inlaying, perpendicular wood is moulded side fascia 109 and beam and is moulded side fascia 110 and be installed in that wood is moulded and the integrated earthquake proof construction framework of the metal outside, and door 111 is embedded in by in the sash that rectangle crossbeam 101 is formed under split shed channel crossbar 99 and the interior embedded with metal material under interior embedded with metal material opening trough_like column 96 and the interior embedded with metal material.

Embodiment 12:

Interior embedded with metal wood is moulded integrated earthquake proof construction and is arranged floor plates end face structure figure in length and breadth as shown in figure 23, Figure 24 is that Figure 23 lays the plastic-wood floor appearance assumption diagram, wherein: the 112nd, interior embedded with metal material open slot longeron section bar, the 113rd, interior embedded with metal material supplier shape longeron section bar, the 114th, interior embedded with metal material open slot crossbeam section bar, the 115th, worker's shape wood of interior embedded with metal material is moulded the crossbeam section bar, the 116th, worker's shape wood of interior embedded with metal material is moulded the longeron section bar, the 117th, right-angle connector, the 118th, heat insulating material, the 119th, perpendicular Wood-plastic floor, the 120th, beam is moulded the floor.

During use, interior embedded with metal material open slot longeron section bar 112 and interior embedded with metal material supplier shape longeron section bar 113 and interior embedded with metal material open slot crossbeam section bar 114 usefulness right-angle connectors 117 are assembled into earthquake proof construction metal floor plates framework, earthquake proof construction metal floor plates framework is connected on the earthquake proof construction main frame column, worker's shape wood of interior embedded with metal material is moulded crossbeam section bar 115 end tenons and is inserted in the adjacent interior embedded with metal material section bar groove, right-angle connector 117 is moulded crossbeam section bar 115 by screw or rivet with worker's shape wood of interior embedded with metal material and is connected on interior embedded with metal material open slot longeron section bar 112 and the interior embedded with metal material supplier shape longeron section bar 113, worker's shape wood of interior embedded with metal material is moulded longeron section bar 116 end tenons and is inserted in the adjacent interior embedded with metal material section bar groove, right-angle connector 117 is moulded longeron section bar 116 by screw or rivet with worker's shape wood of interior embedded with metal material and is connected on interior embedded with metal material open slot crossbeam section bar 114 and the interior embedded with metal material supplier shape longeron section bar 113, fill insulant material 118 in the sash that the Wood-plastic profiles of interior embedded with metal material is formed, perpendicular Wood-plastic floor 119 and beam mould floor 120 be laid on wood mould with the integrated earthquake proof construction floor plates of metal framework on fixing.

Wood is moulded the destruction that the floor plates of alternately arranging in length and breadth with the integrated earthquake proof construction of metal can effectively reduce P wave and shear wave.

Embodiment 13:

Interior embedded with metal wood is moulded integrated earthquake proof construction rounded projections arranged floor plates end face structure figure as shown in figure 25, Figure 26 is that Figure 25 lays the plastic-wood floor appearance assumption diagram, wherein: the 121st, interior embedded with metal material open slot longeron section bar, the 122nd, interior embedded with metal material supplier shape longeron section bar, the 123rd, interior embedded with metal material open slot crossbeam section bar, the 124th, interior embedded with metal material supplier shape crossbeam section bar, the 125th, right-angle connector, the 126th, worker's shape wood of interior embedded with metal material is moulded the cant beam section bar, the 127th, connector, the 128th, heat insulating material, the 129th, perpendicular Wood-plastic floor, the 130th, beam is moulded the floor.

During use, interior embedded with metal material open slot longeron section bar 121 and interior embedded with metal material supplier shape longeron section bar 122 and interior embedded with metal material open slot crossbeam section bar 123 and interior embedded with metal material supplier shape crossbeam section bar 124 usefulness right-angle connectors 125 are assembled into earthquake proof construction metal floor plates framework, earthquake proof construction metal floor plates framework is connected on the earthquake proof construction main frame column, worker's shape wood of interior embedded with metal material is moulded cant beam section bar 126 end tenons and is inserted in the adjacent interior embedded with metal material section bar groove, connector 127 is moulded cant beam section bar 126 by screw or rivet with worker's shape wood of interior embedded with metal material and is connected on interior embedded with metal material open slot longeron section bar 121 and interior embedded with metal material supplier shape longeron section bar 122 and interior embedded with metal material open slot crossbeam section bar 123 and the genus material supplier shape crossbeam section bar 124, fill insulant material 128 in the sash that the Wood-plastic profiles of interior embedded with metal material is formed, perpendicular Wood-plastic floor 129 are moulded floor 130 with beam and are laid on the building storey plate framework fixing.

Embodiment 14:

Interior embedded with metal wood is moulded integrated earthquake proof construction and is connected the end face structure chart as shown in figure 27 with the stone material concrete foundation, wherein: the 131st, worker's shape wood of interior embedded with metal material is moulded the cant beam section bar, the 132nd, worker's shape wood of interior embedded with metal material is moulded the horizontal beam section bar, the 133rd, worker's shape wood of interior embedded with metal material is moulded Vertical section, the 134th, worker's shape wood of interior embedded with metal material is moulded the cant beam section bar, the 135th, connector, the 136th, wood is moulded roofing slab, the 137th, waterproofing course, the 138th, roof tile, the 139th, roof and framework connector, the 140th, interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles, the 141st, interior embedded with metal material opening trough_like column, the 142nd, interior embedded with metal material opening trough_like crossbeam, the 143rd, worker's shape Wood-plastic profiles crossbeam of interior embedded with metal material, the 144th, the Wood-plastic profiles connector of interior embedded with metal material, the 145th, interior fill insulant material, the 146th, interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles column built-in connection, the 147th, interior embedded with metal material opening trough_like column built-in connection, the 148th, stone material concrete foundation.

During use, water jacket inner chamber Wood-plastic profiles column 140 lower ends, interior embedded with metal right angle are deep in the stone material concrete foundation 148, be connected on the stone material concrete foundation 148 by interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles column built-in connection 146, water jacket inner chamber Wood-plastic profiles column 140 upper ends, interior embedded with metal right angle are fixed on the roof on the interior embedded with metal right angle water jacket inner chamber Wood-plastic profiles column 140 by roof and framework connector 139, interior embedded with metal material opening trough_like column 141 lower ends are deep in the stone material concrete foundation 148, be connected on the stone material concrete foundation 148 by interior embedded with metal material opening trough_like column built-in connection 147, worker's shape wood of embedded with metal material was moulded on the horizontal beam section bar 132 in interior embedded with metal material opening trough_like column 141 tops were fixed on connector, interior embedded with metal wood is moulded the roof and interior embedded with metal wood is moulded integrated earthquake proof construction frame fixation on stone material concrete foundation 148, top, roof is laid wood and is moulded roofing slab 136, wood is moulded roofing slab 136 tops and is laid waterproofing course 137, and roof tile 138 is laid on waterproofing course 137 tops.

The advantage of present embodiment is: interior embedded with metal wood is moulded the roof and interior embedded with metal wood is moulded integrated earthquake proof construction frame fixation on the stone material concrete foundation, embedded with metal wood was moulded the anti-seismic performance of integrated earthquake proof construction in firm stone material concrete foundation improved, during earthquake, can the gene basis do not destroy and cause the house to stride to collapse, the roof moulded by interior embedded with metal wood and interior embedded with metal wood is moulded integrated earthquake proof construction framework good integrity, in light weight, connect with connector, can integral body not collapse, reduce earthquake the human injury.

Claims (10)

1. wood moulds that integrated earthquake proof construction comprises: building foundation with metal, shape, Wood-plastic profiles, connector, side fascia, inner wall panel, heat insulating material, roof, ground, door, window is characterized in that: wood is moulded with the integrated earthquake proof construction framework of metal and is passed through screw or rivet and shape assembly with the Wood-plastic profiles of interior embedded with metal material and connector by screw or rivet assembly or with the Wood-plastic profiles and the connector of interior embedded with metal material.

2. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, and it is characterized in that: shape comprises: rectangular metal section bar, worker's shape shape, open slot shape, pipe shape.

3. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: the Wood-plastic profiles of interior embedded with metal material comprises: worker's shape Wood-plastic profiles of interior embedded with metal material, the cavity rectangle Wood-plastic profiles of interior embedded with metal material, the water jacket inner chamber Wood-plastic profiles of interior embedded with metal material, the open slot Wood-plastic profiles of interior embedded with metal material, the pipe Wood-plastic profiles of interior embedded with metal material.

4. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: the Wood-plastic profiles end of interior embedded with metal material is inlayed in worker's shape shape groove and in the open slot shape groove and be connected on the rectangle section bar, on the Wood-plastic profiles of embedded with metal material, the connector other end was connected on the shape with screw or is welded on the shape in connector one end was connected with screw or rivet.

5. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: side fascia or outer glass wallboard or outer stone material wallboard are fixed on the framework outside.

6. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: roof beam is with the shape manufacturing or with the Wood-plastic profiles manufacturing of interior embedded with metal material, and the wood of interior embedded with metal material is moulded in the roof beam lacing wire section bar and is fixed on the roof beams of metal with connector and connected nail or is fixed on connector and connected nail on the Wood-plastic profiles roof beam of embedded with metal.

7. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: the Wood-plastic profiles of embedded with metal material in the placement in the building frame, the Wood-plastic profiles of interior embedded with metal material are done triangular form support or alternately arrangement of zone anyhow.

8. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: inlay hollow wood in the building sash and mould plate.

9. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: inlay heat insulating material or phase-change energy-storing thermal insulation material in the building sash.

10. wood as claimed in claim 1 is moulded and the integrated earthquake proof construction of metal, it is characterized in that: wood mould with the integrated earthquake-resistant building foundation of metal and bottom enclosure wall with brick or stone or concrete manufacturing.

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