CN204252375U

CN204252375U - Sandwiched plate

Info

Publication number: CN204252375U
Application number: CN201420349846.1U
Authority: CN
Inventors: 王广武
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-02-04
Filing date: 2014-06-28
Publication date: 2015-04-08
Anticipated expiration: 2024-06-28
Also published as: CN104818796A

Abstract

A kind of sandwiched plate comprises: plate core, sandwich backplate, packing material, net, sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, to set up defences up and down outside edge sandwich backplate riser off-gear muscle and filling slot, locating slot or location lug or baffle plate is established outside edge sandwich backplate, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, wire lath or high score subnet is spread above plate core, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, upper layer packing material to cover in plate core top and sandwich backplate top and wire lath or is combined into one with plate core and wire lath or high score subnet and sandwich backplate in the outer filling slot of anticreep block reinforcement in macromolecular material net and on sandwich backplate, cutting optimal packing material covers in plate core bottom and wire lath or is combined into one with plate core and wire lath or macromolecular material net and sandwich backplate in the outer filling slot of anticreep block reinforcement under in macromolecular material net and sandwich backplate bottom and sandwich backplate.

Description

Sandwiched plate

Technical field

The utility model relates to building wall board, floor, roof panel field.

Background technology

CN101586377A proposes a kind of fire-proof adiabatic concrete sandwich plate, this structure does not relate to fixes sandwich backplate and therebetween central layer and outer packing material and plate core side inside and outside clip slot with plate core and injects adjacent sandwich backplate plate core and fix combining structure in clip slot, do not relate to and being moved by sandwich backplate anticreep block reinforcement barrier plate surface layer packing material and plate core vertical direction, vertically moved by the packing material barrier plate core in clip slot plate and plate core intercommunicating pore and sandwich backplate and move with horizontal direction, the combining structure of sandwich backplate and the movement of plate core horizontal direction is stopped by U-board surface layer both sides packing material.

Utility model content

The purpose of this utility model is: 1, the sandwich backplate of clip slot and therebetween central layer and outer packing material composition sandwiched plate is fixed with plate core, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, perfusion upper plate surface layer packing material covers in the outer and filling slot in plate core top and sandwich backplate top and sandwich backplate riser, perfusion lower plate surface layer packing material covers in the outer and filling slot in plate core bottom and sandwich backplate bottom and sandwich backplate riser, after upper plate surface layer packing material and lower plate surface layer packing material solidify and plate core and sandwich backplate be combined into one, moved by the packing material barrier plate surface layer packing material in sandwich backplate anticreep block reinforcement groove and plate core vertical direction, reduce the exposed area of locating slot or location lug or baffle plate outside sandwich backplate, improve the heat-insulating property and the intensity that manufacture plate with metal sandwich backplate.Sandwich backplate and plate core being linked together by connected nail or joint pin or adhesives prevents sandwich backplate and plate core from producing movement each other, improves inside and outside sandwich backplate and therebetween central layer and outer packing material combined strength.2, by pouring into plate surface layer packing material in plate core one side; shingle nail is connected on sandwich backplate by plate core opposite side connector and adhesives, makes plate inner surface and external surface realize different-style and function, improves speed of production; suitability for scale production, reduces cost of production.3, by being connected on sandwich backplate by shingle nail at plate core upper and lower surface connector and adhesives, providing the new type of plate of suitable factorial praluction, making interior and exterior finishes and plate that disposable completing is installed, improve speed of production, reduce cost of production.4, by filling clay and be mechanically connected with connector between plate face and sandwich backplate between plate core and plate face, plate core and the bonding strength between plate face and sandwich backplate is improved.5, place metal shaped steel or wire lath or macromolecular material anti-cracking net in sandwiched plate, improve plate cracking resistance.6, making face, plate surface layer packing material surface decorative layer, improves plate decorate properties and weather resistance.7, plate core is combined by multilayer material and makes, and improves the combination property of plate.8, establish dovetail link slot outside sandwich backplate in overhanging locating slot or overhangingly determine to establish dovetail link slot in tenon position, preventing from adjacent panels dovetail link slot placing anticracking fastener or adjacent dovetail link slot fills cracking-resistant material, solving adjacent panels problem of Cracking.9, H-shaped sandwiched plate and edge sandwich guard board association in sandwiched plate, increases sandwiched plate intensity and width and anti-deformation ability.10, baffled outside sandwich backplate and profile groove, can combine with curtain wall cross beam and make wallboard curtain wall.

A kind of sandwiched plate that the utility model proposes comprises: plate core, sandwich backplate, packing material, net, sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, to set up defences up and down outside edge sandwich backplate riser off-gear muscle and filling slot, locating slot or location lug or baffle plate is established outside edge sandwich backplate, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, wire lath or high score subnet is spread above plate core, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, upper layer packing material to cover in plate core top and sandwich backplate top and wire lath or is combined into one with plate core and wire lath or high score subnet and sandwich backplate in the outer filling slot of anticreep block reinforcement in macromolecular material net and on sandwich backplate, cutting optimal packing material covers in plate core bottom and wire lath or is combined into one with plate core and wire lath or macromolecular material net and sandwich backplate in the outer filling slot of anticreep block reinforcement under in macromolecular material net and sandwich backplate bottom and sandwich backplate.

The another kind of sandwiched plate that the utility model proposes comprises: plate core, sandwich backplate, packing material, shingle nail, net, sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, to set up defences up and down outside edge sandwich backplate riser off-gear muscle and filling slot, locating slot or location lug or baffle plate is established outside edge sandwich backplate, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, shingle nail is connected on sandwich backplate by plate core side connector or sandwich backplate location lug and adhesives, wire lath or high score subnet is spread above another side plate core of plate core, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, surface layer packing material covers in plate core top and wire lath or in macromolecular material net and sandwich backplate top and sandwich backplate both sides and plate core and wire lath or high score subnet and sandwich backplate are combined into one.

The another kind of sandwiched plate that the utility model proposes comprises: plate core, sandwich backplate, packing material, shingle nail, it is characterized in that: sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, locating slot or location lug or baffle plate is established in the middle part of edge sandwich backplate, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, upper shingle nail connector or sandwich backplate location lug and adhesives are connected on sandwich backplate, lower shingle nail connector or sandwich backplate location lug and adhesives are connected on sandwich backplate.

H-shaped sandwiched plate is established in sandwiched plate, plate core one end side inserts H-shaped sandwiched plate and fixes in clip slot, plate core other end side injects adjacent sandwich backplate plate core and fixes in clip slot, H-shaped sandwiched plate and edge sandwich guard board association in sandwiched plate, increases sandwiched plate intensity and width and anti-deformation ability

For improving the anti-detachment performance of plate surface layer packing material, to set up defences outside sandwich backplate riser off-gear muscle and filling slot, plate surface layer packing material covers outside plate core and outside sandwich backplate and outside sandwich backplate anticreep block reinforcement and in filling slot, packing material barrier plate surface layer packing material in anticreep block reinforcement and filling slot and plate core vertical direction depart from, reduce the exposed area of locating slot or location lug or baffle plate outside sandwich backplate, improve heat-insulating property and the intensity of plate.

Shingle nail comprises: the shingle nail that refractory material and inorganic adhesive mixed material make, the shingle nail that refractory material and organic adhesive mixed material make, the shingle nail that refractory material and phase-changing energy storage material mixed material make, the shingle nail that refractory material and self-hardening resin mixed material make, the shingle nail that gypsum makes, the shingle nail that cement makes, the shingle nail of making moulded by wood, the shingle nail that metal makes, the shingle nail that organic resin material makes, the shingle nail of wooden work, the shingle nail that flyash makes, the shingle nail of concrete for making, stone material, glass, solar panel.

For improving the bonding strength of shingle nail and sandwich backplate, prevent shingle nail and sandwich backplate from producing mobile, shingle nail side processes link slot, and connector one end sticks in shingle nail link slot, other end screw is connected on sandwich backplate fixing, adjacent slits adhesives adhering and sealing.

Apertured or groove on plate core, perfusion plate surface layer packing material is filled in plate core bore or in groove, and rear for the solidification of plate surface layer packing material and plate core are combined, preventing board surface layer packing material and plate core vertical direction move.

For improving plate intensity, prevent sandwiched plate from ftractureing, sandwichmetal shaped steel, wire lath or macromolecular material anti-cracking net is placed in plate.

For improving plate functional performance, water pipe or fulgurite or tracheae are placed in sandwiched plate inside.

For solving plate indoor and outside performance requirement problem, plate core upper plate surface layer packing material adopts identical packing material from plate core lower plate surface layer packing material or adopts different packing material, as: outdoor side plate surface layer packing material adopts concrete or fiber reinforced calcium silicate board or fiber reinforced cement board, indoor side plate surface layer packing material adopts gypsum or fiber reinforced calcium silicate board.

Packing material comprises: refractory material and inorganic adhesive mixed material, refractory material and organic adhesive mixed material, refractory material and phase-changing energy storage material mixed material, refractory material and self-hardening resin mixed material, clay, gypsum, cement, flyash, concrete and combine the packing material made by internal layer packing material and surface layer packing material.

Internal layer packing material adopts inorganic material and the organic material with some strength and adhesive property and water resistance, improves intensity and the water resistance of plate core.The outer overlay surface layer packing material of internal layer packing material with adhesive property, improves the adhesive strength of internal layer packing material and plate surface layer packing material.

Plate core material comprises: inorganic lightweight material plate, organic light material plate, organic light material plate and inorganic lightweight material composite plate, vegetable fibre board, and combination.

Sandwich backplate adopts metal sandwich backplate or macromolecular material sandwich backplate or inorganic material sandwich backplate.

For improving plate decorate properties or anti ageing property, plate surface layer packing material surface making face decorative layer or stone material.

For improving plate water resistance, plate surface layer packing material surface is coated with protective materials.

With curtain wall cross beam combine make wallboard curtain wall time, baffled and profile groove outside edge sandwich backplate, for installing cladding glass or curtain wall opening frame in the embedding groove between baffle plate and profile groove.

Accompanying drawing explanation

Below in conjunction with Figure of description and embodiment, the utility model is further described.

Fig. 1 is the aluminium alloys sandwich backplate sectional drawing with location lug with the utility model feature.

Fig. 2 is the aluminium alloys sandwich backplate sectional drawing with locating slot with the utility model feature.

Fig. 3 is the sandwiched plate sectional drawing that Fig. 1 and Fig. 2 and sandwich backplate and plate core and steel mesh and top and bottom layer material form.

Fig. 4 is that adjacent Fig. 3 combines part sectioned view.

Fig. 5 is the sandwiched plate sectional drawing that Fig. 1 and Fig. 2 and sandwich backplate and H-shaped sandwiched plate and plate core and steel mesh and top and bottom layer material form.

Fig. 6 is the sandwiched plate sectional drawing that Fig. 1 and Fig. 2 and sandwich backplate and plate core and steel mesh and surface material and shingle nail form.

Fig. 7 is the sandwiched plate sectional drawing that Fig. 1 and Fig. 2 and sandwich backplate and plate core and steel mesh and upper and lower shingle nail form.

Fig. 8 is the aluminium alloys sandwich backplate sectional drawing with shingle nail plug tenon and location lug with the utility model feature.

Fig. 9 is the aluminium alloys sandwich backplate sectional drawing with shingle nail plug tenon and locating slot with the utility model feature.

The sandwiched plate sectional drawing that Figure 10 is Fig. 8 and Fig. 9 and forms with shingle nail plug tenon sandwich backplate and plate core and steel mesh and surface material and shingle nail.

Figure 11 is the aluminium alloys sandwich backplate sectional drawing with upper and lower shingle nail plug tenon and location lug.

Figure 12 is the aluminium alloys sandwich backplate sectional drawing with upper and lower shingle nail plug tenon and locating slot.

The sandwiched plate sectional drawing that Figure 13 is Figure 11 and Figure 12 and forms with shingle nail plug tenon sandwich backplate and plate core and steel mesh and upper and lower shingle nail.

Figure 14 is baffled aluminium alloys sandwich backplate sectional drawing with the utility model feature.

Figure 15 is the sandwiched plate sectional drawing of Figure 14 sandwich backplate and plate core and steel mesh and top and bottom layer material composition.

Figure 16 is the sandwiched plate sectional drawing of Figure 14 sandwich backplate and plate core and steel mesh and surface material and shingle nail composition.

Detailed description of the invention

Embodiment 1:

The sandwiched plate sectional drawing of a kind of sandwich backplate and plate core and steel mesh and top and bottom layer material composition as shown in Figure 3, Fig. 1 is the sandwich backplate sectional drawing of Fig. 3 with location lug, Fig. 2 is the aluminium alloys sandwich backplate sectional drawing of Fig. 3 with locating slot, Fig. 4 is that adjacent Fig. 3 combines part sectioned view, wherein: 1 is the sandwich backplate with location lug, 2 is tenon upper fastening groove plates, 3 is anticreep block reinforcements on tenon, 4 is filling slots on the upside of tenon, 5 is tenon lower fastening groove plates, 6 is anticreep block reinforcements under tenon, 7 is filling slots on the downside of tenon, 8 is that clip slot fixed by tenon, 9 is plug tenons, 10 is tenon crack resistence dovetail link slots, 11 is the sandwich backplates with locating slot, 12 is groove upper fastening groove plates, 13 is anticreep block reinforcements on groove, 14 is filling slots on the upside of groove, 15 is groove lower fastening groove plates, 16 is anticreep block reinforcements under groove, 17 is filling slots on the downside of groove, 18 is that groove fixes clip slot, 19 is slots, 20 is groove crack resistence dovetail link slots, 21 is central layers, 22 is U-shaped steel meshes, 23 is upper layer packing materials, 24 is upper side packing materials, 25 is cutting optimal packing materials, 26 is downside packing materials, 27 is connect steel column, 28 is crack resistence packing materials.

During making, step 1: precast plate core 21 side is injected and fixed in clip slot 8 with sandwich backplate 1 tenon of location lug, precast plate core 21 opposite side injects to be fixed in clip slot 18 with sandwich backplate 11 groove of locating slot, with connecting steel column 27, the sandwich backplate 1 with location lug being linked together with precast plate core 21, with connecting steel column 27, the sandwich backplate 11 with locating slot being linked together with precast plate core 21, step 2: U-shaped steel mesh 22 is placed on above precast plate core 21, two ends to be placed on the upside of tenon in filling slot 4 and on the upside of groove in filling slot 14 respectively, it is outside and with in filling slot 4 on the upside of sandwich backplate 1 top of location lug and tenon and with in filling slot 14 on the upside of sandwich backplate 11 top of locating slot and groove that perfusion upper layer packing material 23 covers plate core 21, after upper layer packing material 23 and upper side packing material 24 solidify and plate core 21 and wire lath 22 and the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot be combined into one, on tenon, on anticreep block reinforcement 3 and groove, anticreep block reinforcement 13 prevents upside surface layer packing material 24 from departing from the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot, step 3: prefabricated sandwich plate is turned over turnback, U-shaped steel mesh 22 is placed on above precast plate core 21, two ends to be placed on the downside of tenon in filling slot 7 and on the downside of groove in filling slot 17 respectively, perfusion cutting optimal packing material 25 cover plate core 21 outside and with in filling slot 7 on the downside of sandwich backplate 1 top of location lug and tenon and and with in filling slot 17 on the downside of sandwich backplate 11 top of locating slot and groove, after cutting optimal packing material 25 and downside packing material 26 solidify and plate core 21 and wire lath 22 and the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot be combined into one, under tenon, under anticreep block reinforcement 6 and groove, anticreep block reinforcement 16 prevents downside surface layer packing material 26 from departing from the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot.

During assembling, adjacent sandwiched plate combination part sectioned view as shown in Figure 4, crack resistence packing material 28 is filled in the cavity of tenon crack resistence dovetail link slot 10 and the combination of groove crack resistence dovetail link slot 20, and after crack resistence packing material 28 solidifies, the dovetail at two ends prevents adjacent sandwiched plate from moving cracking.

Embodiment 2:

The sandwiched plate sectional drawing of a kind of sandwich backplate and H-shaped sandwiched plate and plate core and steel mesh and top and bottom layer material composition as shown in Figure 5, Fig. 1 is the sandwich backplate sectional drawing of Fig. 5 with location lug, Fig. 2 is the aluminium alloys sandwich backplate sectional drawing of Fig. 5 with locating slot, wherein: 1 is the sandwich backplate with location lug, 2 is tenon upper fastening groove plates, 3 is anticreep block reinforcements on tenon, 4 is filling slots on the upside of tenon, 5 is tenon lower fastening groove plates, 6 is anticreep block reinforcements under tenon, 7 is filling slots on the downside of tenon, 8 is that clip slot fixed by tenon, 9 is plug tenons, 10 is tenon crack resistence dovetail link slots, 11 is the sandwich backplates with locating slot, 12 is groove upper fastening groove plates, 13 is anticreep block reinforcements on groove, 14 is filling slots on the upside of groove, 15 is groove lower fastening groove plates, 16 is anticreep block reinforcements under groove, 17 is filling slots on the downside of groove, 18 is that groove fixes clip slot, 19 is slots, 20 is groove crack resistence dovetail link slots, 29 is central layers, 30 is H-shaped sandwiched plates, 31 is that H-shaped sandwiched plate fixes clip slot, 32 is U-shaped steel meshes, 33 is upper layer packing materials, 34 is upper side packing materials, 35 is cutting optimal packing materials, 36 is downside packing materials, 37 is connect steel column.

During making, step 1: precast plate core 21 side is injected and fixed in clip slot 8 with sandwich backplate 1 tenon of location lug, precast plate core 21 opposite side injects H-shaped sandwiched plate and fixes in clip slot 31, contiguous prefabricated plate core 21 side is injected and is fixed in clip slot 18 with sandwich backplate 11 groove of locating slot, opposite side injects H-shaped sandwiched plate and fixes in clip slot 31, with connecting steel column 27, the sandwich backplate 1 with location lug being linked together with precast plate core 21, with connecting steel column 27, the sandwich backplate 11 with locating slot being linked together with precast plate core 21 and H-shaped sandwiched plate 30, step 2: U-shaped steel mesh 32 is placed on above precast plate core 29, two ends to be placed on the upside of tenon in filling slot 4 and on the upside of groove in filling slot 14 respectively, perfusion upper layer packing material 33 cover outside and H-shaped sandwiched plate 30 top of plate core 29 and with filling slot 4 on the upside of sandwich backplate 1 top of location lug and tenon interior and and with in filling slot 14 on the upside of sandwich backplate 11 top of locating slot and groove, after upper layer packing material 29 and upper side packing material 34 solidify and plate core 29 and wire lath 32 and the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot be combined into one, on tenon, on anticreep block reinforcement 3 and groove, anticreep block reinforcement 13 prevents upside surface layer packing material 34 from departing from the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot, step 3: prefabricated sandwich plate is turned over turnback, U-shaped steel mesh 32 is placed on above precast plate core 29, two ends to be placed on the downside of tenon in filling slot 7 and on the downside of groove in filling slot 17 respectively, perfusion cutting optimal packing material 35 cover outside and H-shaped sandwiched plate 30 top of plate core 29 and with filling slot 7 on the downside of sandwich backplate 1 top of location lug and tenon interior and and with in filling slot 17 on the downside of sandwich backplate 11 top of locating slot and groove, after cutting optimal packing material 35 and downside packing material 36 solidify and plate core 29 and wire lath 32 and the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot be combined into one, under tenon, under anticreep block reinforcement 6 and groove, anticreep block reinforcement 16 prevents downside surface layer packing material 36 from departing from the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot.

Embodiment 3:

Shown in sandwiched plate sectional drawing Fig. 6 of a kind of sandwich backplate and plate core and steel mesh and surface material and shingle nail composition, Fig. 1 is the sandwich backplate sectional drawing of Fig. 6 with location lug, Fig. 2 is the aluminium alloys sandwich backplate sectional drawing of Fig. 6 with locating slot, wherein: 1 is the sandwich backplate with location lug, 2 is tenon upper fastening groove plates, 3 is anticreep block reinforcements on tenon, 4 is filling slots on the upside of tenon, 5 is tenon lower fastening groove plates, 6 is anticreep block reinforcements under tenon, 7 is filling slots on the downside of tenon, 8 is that clip slot fixed by tenon, 9 is plug tenons, 10 is tenon crack resistence dovetail link slots, 11 is the sandwich backplates with locating slot, 12 is groove upper fastening groove plates, 13 is anticreep block reinforcements on groove, 14 is filling slots on the upside of groove, 15 is groove lower fastening groove plates, 16 is anticreep block reinforcements under groove, 17 is filling slots on the downside of groove, 18 is that groove fixes clip slot, 19 is slots, 20 is groove crack resistence dovetail link slots, 38 is central layers, 39 is U-shaped steel meshes, 40 is surface layer packing materials, 41 is side infill materials, 42 is clay, 43 is shingle nails, 44 is shingle nail side grooves, 45 is connectors, 46 is connected nails, 47 is side infill materials.

During making, step 1: precast plate core 38 side is injected and fixed in clip slot 8 with sandwich backplate 1 tenon of location lug, precast plate core 38 opposite side injects to be fixed in clip slot 18 with sandwich backplate 11 groove of locating slot, and the sandwich backplate 1 with location lug and the sandwich backplate with locating slot 11 link together with plate core 38 by connected nail 46, step 2: the sandwich backplate 1 with location lug and the sandwich backplate with locating slot 11 are filled with plate core 38 recess clay 42, connector 45 one end is injected in shingle nail side groove 44, connector 45 other end is fixing with on the sandwich backplate 1 of location lug and with on the sandwich backplate 11 of locating slot respectively with connected nail 46, and on the downside of tenon, filling slot 7 is filled bonding with the gap side infill material 47 between filling slot on the downside of groove 17 with shingle nail 43, step 3: prefabricated sandwich plate is turned over turnback, U-shaped steel mesh 39 is placed on above precast plate core 38, two ends to be placed on the upside of tenon in filling slot 4 and on the upside of groove in filling slot 14 respectively, it is outside and with in filling slot 4 on the upside of sandwich backplate 1 top of location lug and tenon and with in filling slot 14 on the upside of sandwich backplate 11 top of locating slot and groove that perfusion upper layer packing material 40 covers plate core 38, after upper layer packing material 40 and upper side packing material 41 solidify and plate core 38 and wire lath 39 and the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot be combined into one, on tenon, on anticreep block reinforcement 3 and groove, anticreep block reinforcement 13 prevents upside surface layer packing material 41 from departing from the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot.

Embodiment 4:

The sandwiched plate sectional drawing of a kind of sandwich backplate and plate core and steel mesh and upper and lower shingle nail composition as shown in Figure 7, Fig. 1 is the sandwich backplate sectional drawing of Fig. 7 with location lug, Fig. 2 is the aluminium alloys sandwich backplate sectional drawing of Fig. 7 with locating slot, wherein: 1 is the sandwich backplate with location lug, 2 is tenon upper fastening groove plates, 3 is anticreep block reinforcements on tenon, 4 is filling slots on the upside of tenon, 5 is tenon lower fastening groove plates, 6 is anticreep block reinforcements under tenon, 7 is filling slots on the downside of tenon, 8 is that clip slot fixed by tenon, 9 is plug tenons, 10 is tenon crack resistence dovetail link slots, 11 is the sandwich backplates with locating slot, 12 is groove upper fastening groove plates, 13 is anticreep block reinforcements on groove, 14 is filling slots on the upside of groove, 15 is groove lower fastening groove plates, 16 is anticreep block reinforcements under groove, 17 is filling slots on the downside of groove, 18 is that groove fixes clip slot, 19 is slots, 20 is groove crack resistence dovetail link slots, 48 is central layers, 49 is upper shingle nails, 50 is upper shingle nail side grooves, 51 is upper bonding clay, 52 is lower shingle nails, 53 is lower shingle nail side grooves, 54 is lower bonding clay, 55 is connectors, 56 is connected nails, 57 is side infill materials.

During making, step 1: precast plate core 48 side is injected and fixed in clip slot 8 with sandwich backplate 1 tenon of location lug, precast plate core 48 opposite side injects to be fixed in clip slot 18 with sandwich backplate 11 groove of locating slot; Step 2: the sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot are used bonding clay 51 with recess on plate core 48 and fills, upper shingle nail 49 is placed in compacting above upper bonding clay 51, connector 55 one end is injected in upper shingle nail side groove 50, connector 55 other end is fixing with on the sandwich backplate 1 of location lug and with on the sandwich backplate 11 of locating slot respectively with connected nail 56, and on the downside of tenon, filling slot 7 is filled bonding with the gap side infill material 57 between filling slot on the downside of groove 17 with shingle nail 43; Step 3: prefabricated sandwich plate is turned over turnback, sandwich backplate 1 with location lug and the sandwich backplate 11 with locating slot are filled with the lower bonding clay 54 of recess on plate core 48, lower shingle nail 52 is placed in compacting above lower bonding clay 54, connector 55 one end is injected in lower shingle nail side groove 53, connector 55 other end is fixing with on the sandwich backplate 1 of location lug and with on the sandwich backplate 11 of locating slot respectively with connected nail 56, and on the downside of tenon, filling slot 7 is filled bonding with the gap side infill material 57 between filling slot on the downside of groove 17 with lower shingle nail 52.

Embodiment 5:

With shingle nail plug tenon sandwich backplate and plate core and steel mesh and surface material and shingle nail composition sandwiched plate sectional drawing as shown in Figure 10, Fig. 8 is the aluminium alloys sandwich backplate sectional drawing with shingle nail plug tenon and location lug, Fig. 9 is the aluminium alloys sandwich backplate sectional drawing with shingle nail plug tenon and locating slot, wherein: 58 is with shingle nail plug tenon sandwich backplate, 59 is tenon upper fastening groove plates, 60 is anticreep block reinforcements on tenon, 61 is filling slots on the upside of tenon, 62 is tenon lower fastening groove plates, 63 is tenon shingle nail plug tenons, 64 is filling slots on the downside of tenon, 65 is that clip slot fixed by tenon, 66 is plug tenons, 67 is tenon crack resistence dovetail link slots, 68 is with shingle nail plug tenon groove sandwich backplate, 69 is groove upper fastening groove plates, 70 is anticreep block reinforcements on groove, 71 is filling slots on the upside of groove, 72 is groove lower fastening groove plates, 73 is groove shingle nail plug tenons, 74 is filling slots on the downside of groove, 75 is that groove fixes clip slot, 76 is slots, 77 is groove crack resistence dovetail link slots, 78 is central layers, 79 is U-shaped steel meshes, 80 is upper layer packing materials, 81 is upper side packing materials, 82 is fill clay, 83 is shingle nails, 84 is shingle nail side grooves, 85 is interior filling clay.

During making, step 1: precast plate core 78 side is injected and fixed in clip slot 65 with shingle nail plug tenon sandwich backplate 58 tenon, precast plate core 78 opposite side injects to be fixed in clip slot 75 with shingle nail plug tenon groove sandwich backplate 68 groove, precast plate core 78 shingle nail side is coated with fills clay 82 and interior filling clay 85, tenon shingle nail plug tenon 63 and groove shingle nail plug tenon 73 inject in shingle nail side groove 84 respectively, are fixed by shingle nail 83, step 2: prefabricated sandwich plate is turned over turnback, U-shaped steel mesh 79 is placed on above precast plate core 78, two ends to be placed on the upside of tenon in filling slot 61 and on the upside of groove in filling slot 71 respectively, it is outside and with in filling slot on the upside of shingle nail plug tenon sandwich backplate 58 top and tenon 61 and with in filling slot 71 on the upside of shingle nail plug tenon groove sandwich backplate 68 top and groove that perfusion upper layer packing material 80 covers plate core 78, after upper layer packing material 80 and upper side packing material 81 solidify and plate core 78 and wire lath 79 and be combined into one with shingle nail plug tenon sandwich backplate 58 with shingle nail plug tenon groove sandwich backplate 68, on tenon, on anticreep block reinforcement 60 and groove, anticreep block reinforcement 70 prevents upside surface layer packing material 81 and departs from shingle nail plug tenon sandwich backplate 58 with shingle nail plug tenon groove sandwich backplate 68.

The advantage of the present embodiment is: tenon shingle nail plug tenon 63 and groove shingle nail plug tenon 73 inject in shingle nail side groove 84 respectively, are fixed by shingle nail 83, can effectively prevent shingle nail 83 from coming off, and makes simple.

Embodiment 6:

With shingle nail plug tenon sandwich backplate and plate core and steel mesh and upper and lower shingle nail composition sandwiched plate sectional drawing as shown in figure 13, Figure 11 is the aluminium alloys sandwich backplate sectional drawing with upper and lower shingle nail plug tenon and location lug, Figure 12 is the aluminium alloys sandwich backplate sectional drawing with upper and lower shingle nail plug tenon and locating slot, wherein: 86 is with upper and lower shingle nail plug tenon sandwich backplate, 87 is tenon upper fastening groove plates, 88 is plug tenons on tenon shingle nail, 89 is filling slots on the upside of tenon, 90 is tenon lower fastening groove plates, 91 is plug tenons under tenon shingle nail, 92 is filling slots on the downside of tenon, 93 is that clip slot fixed by tenon, 94 is plug tenons, 95 is tenon crack resistence dovetail link slots, 96 is with upper and lower shingle nail plug tenon groove sandwich backplate, 97 is groove upper fastening groove plates, 98 is plug tenons on groove shingle nail, 99 is filling slots on the upside of groove, 100 is groove lower fastening groove plates, 101 is plug tenons under groove shingle nail, 102 is filling slots on the downside of groove, 103 is that groove fixes clip slot, 104 is slots, 105 is groove crack resistence dovetail link slots, 106 is central layers, 107 is upper filling clay, 108 is upper shingle nails, 109 is upper shingle nail side grooves, 110 is lower filling clay, 111 is lower shingle nails, 112 is lower shingle nail side grooves, 113 is interior filling clay.

During making, precast plate core 106 side is injected and is fixed in clip slot 93 with upper and lower shingle nail plug tenon sandwich backplate 86 tenon, precast plate core 106 opposite side injects to be fixed in clip slot 103 with upper and lower shingle nail plug tenon groove sandwich backplate 96 groove, precast plate core 106 shingle nail side is coated and is filled clay 107 and interior filling clay 113, on tenon shingle nail, on plug tenon 88 and groove shingle nail, plug tenon 98 injects in shingle nail side groove 109 respectively, upper shingle nail 108 is fixed, precast plate core 106 shingle nail opposite side is coated with lower filling clay 110 and interior filling clay 113, under tenon shingle nail, under plug tenon 91 and groove shingle nail, plug tenon 101 injects in lower shingle nail side groove 112 respectively, lower shingle nail 111 is fixed.

The advantage of the present embodiment is: tenon shingle nail plug tenon and groove shingle nail plug tenon inject in upper and lower shingle nail side groove respectively, are fixed by upper and lower shingle nail, can effectively prevent upper and lower shingle nail from coming off, and makes simple.

Embodiment 7:

A kind of baffled aluminium alloys sandwich backplate sectional drawing as shown in figure 14, Figure 15 is the sandwiched plate sectional drawing of Figure 14 sandwich backplate and plate core and steel mesh and top and bottom layer material composition, wherein: 114 is baffled sandwich backplates, 115 is upper fastening groove plates, 116 is upper anticreep block reinforcements, 117 is upside filling slots, 118 is baffle plates, 119 is lower fastening groove plates, 120 is fixing clip slots, 121 is profile grooves, 122 is embedding glass grooves, 123 is central layers, 124 is U-shaped steel meshes, 125 is upper layer packing materials, 126 is upper side packing materials, 127 is cutting optimal packing materials, 128 is lower steel meshes, 129 is connect steel column, 130 is steel mesh fixtures.

During making, step 1: precast plate core 123 side is injected baffled sandwich backplate 114 and fixed in clip slot 120, precast plate core 123 opposite side injects adjacent baffled sandwich backplate 114 and fixes in clip slot 120, is linked together by baffled sandwich backplate 114 with connecting steel column 129 with precast plate core 123; Step 2: U-shaped steel mesh 124 is placed on above precast plate core 123, two ends are placed in the filling slot 117 of upside respectively, perfusion upper layer packing material 125 covers in outside and baffled sandwich backplate 114 top of plate core 123 and upside filling slot 117, be combined into one with plate core 123 and U-shaped steel mesh 124 and baffled sandwich backplate 114 after upper layer packing material 125 and upper side packing material 126 solidify, upper anticreep block reinforcement 116 prevents upside surface layer packing material 125 and baffled sandwich backplate 114 from departing from; Step 3: prefabricated sandwich plate is turned over turnback, lower steel mesh 128 is placed on above precast plate core 123, with steel mesh fixture 130, lower steel mesh 128 is fixed on lower fastening groove plate 119, perfusion cutting optimal packing material 127 covers outside and baffled sandwich backplate 114 top of plate core 123, and cutting optimal packing material 127 solidifies afterwards and plate core 123 and lower steel mesh 128 and baffled sandwich backplate 114 are combined into one.

Embodiment 8:

A kind of baffled aluminium alloys sandwich backplate sectional drawing as shown in figure 14, Figure 16 is the sandwiched plate sectional drawing of Figure 14 sandwich backplate and plate core and steel mesh and surface material and shingle nail composition, wherein: 114 is baffled sandwich backplates, 115 is upper fastening groove plates, 116 is upper anticreep block reinforcements, 117 is upside filling slots, 118 is baffle plates, 119 is lower fastening groove plates, 120 is fixing clip slots, 121 is profile grooves, 122 is embedding glass grooves, 131 is prefabricated central layers, 132 is U-shaped steel meshes, 133 is upper layer packing materials, 134 is upper side packing materials, 135 is lower shingle nails, 136 is bonded adhesivess, 137 is connect steel column, 138 is hold-down screws, 139 is lute ins.

During making, step 1: precast plate core 131 side is injected baffled sandwich backplate 114 and fixed in clip slot 120, precast plate core 131 opposite side injects adjacent baffled sandwich backplate 114 and fixes in clip slot 120, is linked together by baffled sandwich backplate 114 with connecting steel column 137 with precast plate core 131; Step 2: U-shaped steel mesh 132 is placed on above precast plate core 131, two ends are placed in the filling slot 117 of upside respectively, perfusion upper layer packing material 133 covers in outside and baffled sandwich backplate 114 top of precast plate core 131 and upside filling slot 117, be combined into one with precast plate core 131 and U-shaped steel mesh 132 and baffled sandwich backplate 114 after upper layer packing material 133 and upper side packing material 134 solidify, upper anticreep block reinforcement 116 prevents upside surface layer packing material 134 and baffled sandwich backplate 114 from departing from; Step 3: prefabricated sandwich plate is turned over turnback, is coated with bonded adhesives 136 above precast plate core 123, is fixed on lower fastening groove plate 119 with hold-down screw 138 by lower shingle nail 135, is sealed by steel mesh fixing screw hole with lute in 139.

Claims

1. a sandwiched plate comprises: plate core, sandwich backplate, packing material, net, it is characterized in that: sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, to set up defences up and down outside edge sandwich backplate riser off-gear muscle and filling slot, the outer middle side part setting position groove of edge sandwich backplate or location lug, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, wire lath or high score subnet is spread above plate core, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, upper layer packing material to cover in plate core top and sandwich backplate top and wire lath or is combined into one with plate core and wire lath or high score subnet and sandwich backplate in the outer filling slot of anticreep block reinforcement in macromolecular material net and on sandwich backplate, cutting optimal packing material covers in plate core bottom and wire lath or is combined into one with plate core and wire lath or macromolecular material net and sandwich backplate in the outer filling slot of anticreep block reinforcement under in macromolecular material net and sandwich backplate bottom and sandwich backplate.

2. a sandwiched plate comprises: plate core, sandwich backplate, packing material, shingle nail, net, it is characterized in that: sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, to set up defences up and down outside edge sandwich backplate riser off-gear muscle and filling slot, the outer middle side part setting position groove of edge sandwich backplate or location lug, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, shingle nail is connected on sandwich backplate by plate core side connector or sandwich backplate location lug and adhesives, wire lath or high score subnet is spread above another side plate core of plate core, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, surface layer packing material covers in plate core top and wire lath or in macromolecular material net and sandwich backplate top and sandwich backplate both sides and plate core and wire lath or high score subnet and sandwich backplate are combined into one.

3. a sandwiched plate comprises: plate core, sandwich backplate, packing material, shingle nail, it is characterized in that: sandwich backplate riser divides into clip slot plate, that clip slot fixed by plate core between upper lower fastening groove plate, locating slot or location lug is established in the middle part of edge sandwich backplate, plate core side injects adjacent sandwich backplate plate core and fixes in clip slot, sandwich backplate and plate core link together by connected nail or joint pin or adhesives, upper shingle nail connector or sandwich backplate location lug and adhesives are connected on sandwich backplate, lower shingle nail connector or sandwich backplate location lug and adhesives are connected on sandwich backplate.

4. the sandwiched plate as described in claim 1 or 2 or 3, is characterized in that: establish H-shaped sandwich backplate in sandwiched plate, and plate core one end side inserts H-shaped sandwich backplate and fixes in clip slot, and plate core other end side injects adjacent sandwich backplate plate core and fixes in clip slot.

5. the sandwiched plate as described in claim 1 or 2 or 3, is characterized in that: intralamellar part places metal shaped steel, lifting components, wire lath or macromolecular material anti-cracking net.