CN104674995A - Steel meshed body for building energy-saving integration - Google Patents

Steel meshed body for building energy-saving integration Download PDF

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Publication number
CN104674995A
CN104674995A CN201510078712.XA CN201510078712A CN104674995A CN 104674995 A CN104674995 A CN 104674995A CN 201510078712 A CN201510078712 A CN 201510078712A CN 104674995 A CN104674995 A CN 104674995A
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CN
China
Prior art keywords
steel
reticulate body
described
steel reticulate
building energy
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CN201510078712.XA
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Chinese (zh)
Inventor
王本淼
王海崴
马锋
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王本淼
王海崴
湖南标迪夫节能科技有限公司
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Priority to CN201510078712.XA priority Critical patent/CN104674995A/en
Publication of CN104674995A publication Critical patent/CN104674995A/en

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Abstract

The invention provides a steel meshed body for building energy-saving integration. The steel meshed body is composed of columns, beams, flange plates and cavity components formed by steel meshes and thin plates, wherein the beams are reinforced concrete beams or steel reinforced concrete combined beams; the flange plates are transverse H-shaped or T-shaped section plates; the cavity components formed by the steel meshes and the thin plates are formed through the interaction of the steel meshes and the thin plates; the steel meshes form an integrally formed tetrahedron of the top panel, the bottom panel and two sidewalls of the hexahedral cavity components; the front and tail ends of the steel meshes are overlapped on any surface of the tetrahedron; the thin plate comprise calcium silicate boards or plastic boards or composite boards or gypsum boards or corrugated boards; the thin plates constitute other two sidewalls of the steel mesh cavity component and a supporting plate between the top panel and the bottom panel of the cavity component; the other two sidewall plates of the steel mesh cavity component constituted by the thin plates are arranged in edge reinforcing rib grooves on two edges of the steel mesh; and the columns, the beams and the flange plates are concreted on site.

Description

A kind of for the steel reticulate body in building energy conservation integration

Technical field

The present invention relates to a kind of building energy conservation integrated technique building hollow building cover and building wall board, particularly a kind of for the steel reticulate body technology in building energy conservation integration.

Background technology

Building wall board and floor are the chief components of building energy conservation, it plays the going along with sb. to guard him and be incubated of external wall, bears horizontal load effect to the lattice of interior wall and building floor, its wallboard and floor must meet thermal insulation, sound insulation cuts off, the requirement of fire prevention lattice, light firm, and the quality of wallboard is directly connected to using function and construction quality and building energy conservation.

As a kind of steel-mesh separation wall CN102251604.A, the mesh sheet that have employed more than by constructional column and a slice or a slice is formed, and is connected between mesh sheet by constructional column, and steel mesh face and framework form mesh sheet, constructional column, fixes with keeper between mesh sheet and mesh sheet; Have foam concrete etc. in the middle of the mesh sheet, the mesh sheet adopted in scheme by with steel bar mesh welding machine by reinforcement fabrication mesh sheet; But this scheme all exists, and intensity is lower, deadweight is comparatively large, adds the deadweight of agent structure, globality difference is unfavorable for structural seismic; Though the program solves GRC light cellular partition board, aerated concrete building block is used as infilled wall Problems existing, also have that complicated construction technique, claim for eot, cost are too high, the defect of poor thermal insulation property; When Sandwich materials adopts organic material polyurethane foam, during polystyrene foam, fireproof performance and structural performance poor; When Sandwich materials adopts inorganic material gas concrete or fibrous concrete or concrete, structural weight per square meter increases; In the steel-mesh separation wall of CN102251604.A technology, be that common iron wire passes through to be welded into steel mesh, do not possess to take up and carry the function of blocking concrete, need first with pulp shooting machine to integral wall whitewashing, whitewash floating, through at least 4 to 5 days after dry, then with slurry filling machine foam concrete injected mesh sheet hollow in.

The present inventor applies for " a kind of machined steel endoplasmic reticular body and the cast-in-place self-heat conserving wall of light-weight inorganic thing are pulled " application number 201410796580.X, provide a kind of brand-new cast-in-place Self-insulation wall plate new technology, die-cut with by steel plate, the special steel endoplasmic reticular body made of the operations such as stretch-draw is as the envelope network on body of wall two sides, in net, foam cement is injected after reinforcing, reach that to have structural strength higher, from heavy and light, good integrity, construction technology is simple, duration shortens, reduce cost, the Self-insulation wall plate of cast-in-place foam cement slurry in self-heat conserving and the good steel reticulate body of fireproof performance, meet building energy conservation requirement, particularly there is outer wall self heat-preserving performance.

Again due at present in cast-in-situ reinforced concrete hollow floor technical field, the Cavity structural member pore-forming moulding by casting hollow building cover of the all-sealed or light solid formula of usual employing, as the ZL200410082381.9 " a kind of hollow floor slab with small dense ribs " that the present inventor declares, adopt all-sealed thin-wall box body Cavity structural member to be embedded in floor slab with small dense ribs and solve the non-technical barrier taking out heart pore-forming of cast-in-situ hollow building roof.

The present inventor has invented again the hollow building cover (ZL201320466241.6) of the netted box component pore-forming of a kind of combined type, make full use of concrete surface tension force, changing mesh shape does not allow concrete mortar permeate in netted combination Cavity structural member, utilize the netted box component of packing less combined type to substitute prior art hermetically sealed hollow cavity component or the solid Cavity structural member of polystyrene foam, overcome the defect that existing hollow building cover non-core-drawing pore-creating Cavity structural member exists; Reach that manufacturing speed is fast, production efficiency is high, with concrete plyability is good, cost is low, transport and easy construction, buoyancy are little, light weight, zero damaged, unshift, exempt and isolate cushion block and elongated fixing reinforcing bar etc.Achieve the breakthrough of hollow building cover new technology, become hollow building cover art innovative technology;

But realize building energy conservation Integration Strategy to implement, the wallboard technology of the floor technology in building level direction and vertical direction is combined together and solves building energy conservation and also do not have yarn to unite integration scenario; Therefore, research and development are a kind of can meet the multi-functional and building energy conservation integration of building, realizes the breakthrough that cast-in-situ reinforced concrete hollow floor new technology and cast-in-place light fireproof thermal insulation wall board new technology combine, has become the urgent need of building energy-saving building technology and innovating.

Summary of the invention

The object of the present invention is to provide a kind of brand-new component with steel reticulate body combination pore-forming cassette ceiling, with steel reticulate body assembled self-insulation wall plate member and the component solving cold bridge with steel reticulate body, solve building energy conservation integration by this carrier of steel reticulate body; Reach that overall construction intensity is higher, from heavy and light, integral heat insulation is good, construction technology is simple, the duration shortens, reduce the Cavity structural member that the good steel reticulate body of cost, self-heat conserving and fireproof performance and the cast-in-place Self-insulation wall plate of light-weight inorganic thing, steel reticulate body combine in floor, lay formation cast-in-situ hollow building roof, both have insulation, heat insulation, sound insulation effect and to the proper process of cold bridge, meet building energy conservation requirement; Particularly exterior wall has self-heat conserving performance, exempts interpolation insulating layer of external wall and brings security risk and overlapping investment, is of value to building energy conservation integration and realizes.

Technical scheme of the present invention is as follows, a kind of for the steel reticulate body in building energy conservation integration, and described building energy conservation integration comprises the cassette ceiling in building level direction, the wallboard of vertical direction, cold bridge process, steel reticulate body.The Cavity structural member that described cassette ceiling is formed by post, beam, frange plate, steel reticulate body and thin plate forms; Described thin plate is placed in the groove of steel reticulate body marginal edge reinforcing rib; Described wallboard is by steel reticulate body and the cast-in-place Self-insulation wall plate formed of light-weight inorganic thing; Described cold bridge process is at building outer surface of column and post and wallboard bound fraction isothermal holding; Described steel reticulate body is made by the special equipment of steel sheet material through depiler, pay-off, bicker, stretching dilator, punching and shearing machine, quantitatively code-arranging equipment, program control system; Building energy conservation integration is realized by after cassette ceiling, Self-insulation wall plate, cold bridge process.

More preferred, described steel reticulate body is containing reticular lamina and ribs and connecting band and limit reinforcing rib, and reticular lamina and ribs and connecting band and limit reinforcing rib form interaction overall structure; Described steel reticulate body width is between 600mm-1000mm.

More preferred, described steel reticulate body forms the tetrahedron of the top panel of hexahedron Cavity structural member, bottom panel and two sidewalls; Described thin plate comprises calcium silicate board with microporous or plastic plate or composite plate or gypsum plank or corrugated board; Described thin plate forms the another two pieces of sidewall panelings of steel mesh Cavity structural member and gripper shoe between Cavity structural member top panel and bottom panel; Described thin plate is placed in the limit reinforcing rib groove of steel mesh two edges.

More preferred, be added with inorganic matter silicon raw material and the calcareous raw material of discarded object in described calcium silicate board with microporous; Described plastic plate utilizes discarded plastic cement to make; Described gypsum plank is the discarded object after utilizing large-sized boiler coal desulfurization, when desulfurated plaster liquid agitation, is added with enhancement short fiber.

More preferred, have steel combined frame body in described Self-insulation wall plate, Self-insulation wall plate steel reticulate body external surface arranges structural reinforcement, and described structural reinforcement makes " [" type bars by galvanized steel plain sheet machine; It is described that " [" type bars securing member is fixed on Self-insulation wall plate steel reticulate body two external surfaces, and the interior Ullage between two pieces of steel reticulate bodies is from the filling thickness equaling light-weight inorganic thing.

More preferred, described light-weight inorganic thing is foam cement.

More preferred, described cold bridge process is that housing is set a roof beam in place or the external surface of post or the inner surface of housing trestle have steel reticulate body, and the spacing of steel reticulate body and frame column is greater than 30mm, pours into a mould light-weight inorganic thing in spacing.

More preferred, there is steel reticulate body on described wall and beam or post binding site surface, and the spacing of steel reticulate body and binding site pours into a mould light-weight inorganic thing.

Of the present invention a kind of for the steel reticulate body in building energy conservation integration, building energy conservation integration comprises the making of the cassette ceiling in building level direction, the wallboard building vertical direction, the process of building heat preservation cold bridge, steel reticulate body.The Cavity structural member that steel reticulate body cassette ceiling is formed by post, beam, frange plate, steel reticulate body and thin plate forms; Comprise steel sheet material depiler by special equipment, steel reticulate body 1 cast-in-place light inorganic matter 2 under the support of steel skeleton 3 that pay-off, bicker, stretching dilator, punching and shearing machine, quantitatively code-arranging equipment, neat code conveyer, baling press, program control system make forms; Steel reticulate body comprises the limit reinforcing rib at reticular lamina and ribs and connecting band and edge, and reticular lamina and ribs and connecting band and limit reinforcing rib form interaction overall structure; Need the bending trace of bending part bending when the vertical direction of every block steel mesh ribs is suppressed with composition with marking press, be convenient to when scene is combined with thin plate along trace bending; Based on Cavity structural member basal surface indentation line, first roll over two side sidewalls of Cavity structural member respectively, thereafter sidewall paneling and gripper shoe is laid, right-angle bending Cavity structural member top surface plate, general steel mesh head and the tail are at the superimposed overlap joint of top surface, the double-deck anti-working load of top surface both having enhanced Cavity structural member of superimposed overlap joint, serves again the effect being suspended in Cavity structural member top surface concrete mortar anti-leakage, prevents concrete mortar forward from leaking in Cavity structural member; Thin plate in steel reticulate body as two ports of shutoff steel reticulate body with between the upper plate being supported on Cavity structural member steel reticulate body and lower shoe, sidewall paneling is placed in the limit reinforcing rib groove of steel reticulate body two edges, gripper shoe length between Cavity structural member top panel and bottom panel one >=Cavity structural member in headroom length, gripper shoe two ends supports two side wall panels, gripper shoe is stoped to be toppled over, also solve gripper shoe location when assembling, without the need to taking overturning-preventing measure to gripper shoe simultaneously; " II " font can be placed to, with thin plate as two port side wallboards of shutoff steel reticulate body and gripper shoe according to stress thin plate the best; Everyly will hollow building cover be utilized need to seal in short tube by hole reserved for adjacent Cavity structural member book plate as when the transmission passage of hot blast and fire-fighting smoke controlling pipeline, gang up girder and girt strip, form dark air channel, recycling hollow building cover is that building energy conservation plays a role, and realizes the multi-functional utilization of hollow building cover; In the grid that girt strip is formed in length and breadth, after the Cavity structural member that steel reticulate body and thin plate are formed is laid, re-lay and colligation top flange plate reinforcing bar, correct Cavity structural member position, fluid concrete, shock, maintenance, tear the cast-in-situ hollow building roof that superstructure template forms the Cavity structural member pore-forming that required steel reticulate body and thin plate are combined to form open.

Wallboard is by steel reticulate body and the cast-in-place Self-insulation wall plate formed of light-weight inorganic thing, with steel reticulate body and the cast-in-place Self-insulation wall plate of light-weight inorganic thing, at the joint of building post, beam and Self-insulation wall plate, the angle steel of cracking resistance and fixed bit, the vertical vertical structural element body being welded into interior steel skeleton 3 between steel tube component and angle steel with angle steel or band steel are set, building post angle steel on weld galvanized steel plain sheet machine make " [" type bars, is assembled in deck and the wall interior panel of wallboard two sides by steel reticulate body, with tighten up screw mandrel 7 by both sides " [" type bars connects, formation Self-insulation wall plate framework, cement is put into high speed mixer, high speed mix after adding water, form cement paste, when adopting physical blowing, the plant foaming shape produced by foaming machine is injected in high speed mixer and becomes foam cement to starch with cement paste mixing puddle, foam cement stock pump is delivered in the Self-insulation wall plate framework made, steel reticulate body plays to strengthen surface of wall structure and go along with sb. to guard him foam cement starches the special role do not leaked, now foam cement slurry 21 and steel reticulate body 1, steel skeleton 3, the angle steel 4 of cracking resistance and fixed bit is set at joint, vertically stand between steel tube component 31 and angle steel 4 with angle steel or band steel 5, " screw mandrel 7 one-tenth that tightens up of [" type bars 6 is integrated in connection, the lightweight Self-insulation wall plate of cast-in-site is formed after condensation, light-weight inorganic thing 2 can also adopt chemical blowing cement or desulfurated plaster or foaming plaster, this wallboard has lightweight, good integral strength, foam cement is lightweight only has conventional wallboard weight about 15%, foam cement self to have the heat insulation feature of fireproof heat insulating.Described cold bridge process is at building outer surface of column and post and wallboard bound fraction isothermal holding; Building energy conservation integration is realized by after cassette ceiling, Self-insulation wall plate, cold bridge process.

By post, beam external surface and the junction with wall and wall, during wallboard construction, steel reticulate body is prolonged body and fix to post, beam external surface spacing, pouring foaming cement in the space of spacing.

Accompanying drawing explanation

Fig. 1 is the cassette ceiling structure chart of first embodiment of the invention.

Fig. 2 is the Self-insulation wall plate frame construction drawing of second embodiment of the invention.

Fig. 3 is the building energy conservation integration figure of third embodiment of the invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is further described.

Fig. 1 is the cassette ceiling structure chart of first embodiment of the invention, and steel mesh and thin plate combine the hollow building cover of pore-forming, by post 30, girder 21, girt strip 22, and top flange plate 23, bottom wing listrium 24, reinforcing bar 25, the Cavity structural member 1 that steel mesh and thin plate are formed forms; Every using when utilizing hollow building cover as the transmission passage of hot blast and fire-fighting smoke controlling pipeline, short tube 26 need be sealed in by hole reserved for adjacent Cavity structural member book plate, gang up girder and girt strip, form dark air channel, recycling hollow building cover is that building energy conservation plays a role, and realizes the multi-functional utilization of hollow building cover; Cast-in-place concrete 28 in post, beam, frange plate.

Fig. 2 is the Self-insulation wall plate frame construction drawing of second embodiment of the invention, the angle steel of building post welds galvanized steel plain sheet machine and makes " [" type bars, be used for strengthening the stiffness of steel shape body and the restraint strap of wallboard thickness of two sides, on " the edge in [" type bars of welding, blocks of steel reticulate body is assembled in deck and the wall interior panel of wallboard two sides, with tighten up screw mandrel by both sides " [" type bars connects, and forms the framework of Self-insulation wall plate.Spray at the steel reticulate body external surface of Self-insulation wall plate medial surface or touch mortar substrate topping of cementing, cement mortar substrate note ornament materials.Outer wall self heat-preserving wall plate structure dissects and is followed successively by, inner side of outer wall cement mortar substrate topping; " [" type bars; Tighten up screw mandrel; Steel is netted; Light-weight inorganic thing is foam cement slurry; Vertical steel tube component; Angle steel or band steel; Be welded into steel skeleton body; Steel reticulate body; Cement mortar protective course outside exterior wall; Ornament materials; The angle steel of cracking resistance and fixed bit.

Fig. 3 is the building energy conservation integration figure of third embodiment of the invention, the Self-insulation wall plate 32 that the hollow building cover 31 of the Cavity structural member pore-forming that building energy conservation integration is formed by steel mesh and the thin plate of horizontal direction and vertical direction are combined to form by steel mesh and foamed concrete, two boards is at level and vertical engagement mate, stop cold bridge 33, realize self-heat conserving yarn system, highlight insulation, heat insulation, sound insulation comprehensive function, the wallboard 32 that the hollow building cover 31 reaching the Cavity structural member pore-forming that steel mesh and thin plate are formed and steel mesh and foamed concrete are combined to form combines, and realizes building energy conservation integration.

Finally should be noted that: above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit, although with reference to above-described embodiment to invention has been detailed description, those of ordinary skill in the field are to be understood that, still can modify to the specific embodiment of the present invention or equivalent replacement, and end departs from any amendment of spirit and scope of the invention or equivalent replacement, it all should be encompassed in the middle of right of the present invention.

Claims (8)

1., for the steel reticulate body in building energy conservation integration, described building energy conservation integration comprises the cassette ceiling in building level direction, the wallboard of vertical direction, cold bridge process, steel reticulate body; The Cavity structural member that described cassette ceiling is formed by post, beam, frange plate, steel reticulate body and thin plate forms; Described thin plate is placed in the groove of steel reticulate body marginal edge reinforcing rib; Described wallboard is by steel reticulate body and the cast-in-place Self-insulation wall plate formed of light-weight inorganic thing; Described cold bridge process is at building outer surface of column and post and wallboard bound fraction isothermal holding; Described steel reticulate body is made by the special equipment of steel sheet material through depiler, pay-off, bicker, stretching dilator, punching and shearing machine, quantitatively code-arranging equipment, program control system; Building energy conservation integration is realized by after cassette ceiling, Self-insulation wall plate, cold bridge process.
2. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 1, it is characterized in that described steel reticulate body is containing reticular lamina and ribs and connecting band, reticular lamina and ribs and connecting band form interaction overall structure; Described steel reticulate body width is between 600mm-1000mm.
3. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 1, it is characterized in that the tetrahedron of the top panel of described steel reticulate body formation hexahedron Cavity structural member, bottom panel and two sidewalls; Described thin plate comprises calcium silicate board with microporous or plastic plate or composite plate or gypsum plank or corrugated board; Described thin plate forms the another two pieces of sidewall panelings of steel mesh Cavity structural member and gripper shoe between Cavity structural member top panel and bottom panel; Described thin plate is placed in the limit reinforcing rib groove of steel mesh two edges.
4. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 3, it is characterized in that the inorganic matter silicon raw material and the calcareous raw material that are added with discarded object in described calcium silicate board with microporous; Described plastic plate utilizes discarded plastic cement to make; Described gypsum plank is the discarded object after utilizing large-sized boiler coal desulfurization, when desulfurated plaster liquid agitation, is added with enhancement short fiber.
5. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 1, it is characterized in that in described Self-insulation wall plate, there is steel combined frame body, Self-insulation wall plate steel reticulate body external surface arranges structural reinforcement, and described structural reinforcement makes " [" type bars by galvanized steel plain sheet machine; It is described that " [" type bars securing member is fixed on Self-insulation wall plate steel reticulate body two external surfaces, and the interior Ullage between two pieces of steel reticulate bodies is from the filling thickness equaling light-weight inorganic thing.
6. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 5, it is characterized in that described light-weight inorganic thing is foam cement.
7. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 1, it is characterized in that described cold bridge process is that housing is set a roof beam in place or the external surface of post or the inner surface of housing trestle have steel reticulate body, the spacing of steel reticulate body and frame column is greater than 30mm, pours into a mould light-weight inorganic thing in spacing.
8. a kind of for the steel reticulate body in building energy conservation integration as claimed in claim 7, it is characterized in that described wall and beam or post binding site surface have steel reticulate body, the spacing of steel reticulate body and binding site pours into a mould light-weight inorganic thing.
CN201510078712.XA 2015-02-13 2015-02-13 Steel meshed body for building energy-saving integration CN104674995A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105804236A (en) * 2016-05-06 2016-07-27 湖南标迪夫节能科技有限公司 Outer wall for prefabricated wallboard and steel structure assembling
CN105804238A (en) * 2016-05-06 2016-07-27 湖南标迪夫节能科技有限公司 Self-heat-insulation wall body system of prefabricated assembling type wallboard component
CN105804284A (en) * 2016-05-06 2016-07-27 湖南标迪夫节能科技有限公司 Cast-in-place combined outer wall body of prefabricated assembling type wallboard component
CN105821988A (en) * 2016-05-06 2016-08-03 湖南标迪夫节能科技有限公司 Self-insulation exterior wall combined by assembled wall panel components

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08323924A (en) * 1995-05-30 1996-12-10 Mitsubishi Plastics Ind Ltd Unit panel made of fiber reinforced resin
CN102162282A (en) * 2011-03-17 2011-08-24 徐振飞 Automatic heat preservation, energy saving and air-entrapping concrete brick wall and manufacturing method thereof
CN102251604A (en) * 2011-05-26 2011-11-23 刘德政 Steel-mesh separation wall
CN203977572U (en) * 2014-04-30 2014-12-03 王本淼 A kind of high-rise building that adopts cast-in-situ hollow building roof
CN204728545U (en) * 2015-02-13 2015-10-28 王本淼 A kind of building energy conservation integral structure utilizing steel reticulate body to be formed

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08323924A (en) * 1995-05-30 1996-12-10 Mitsubishi Plastics Ind Ltd Unit panel made of fiber reinforced resin
CN102162282A (en) * 2011-03-17 2011-08-24 徐振飞 Automatic heat preservation, energy saving and air-entrapping concrete brick wall and manufacturing method thereof
CN102251604A (en) * 2011-05-26 2011-11-23 刘德政 Steel-mesh separation wall
CN203977572U (en) * 2014-04-30 2014-12-03 王本淼 A kind of high-rise building that adopts cast-in-situ hollow building roof
CN204728545U (en) * 2015-02-13 2015-10-28 王本淼 A kind of building energy conservation integral structure utilizing steel reticulate body to be formed

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105804236A (en) * 2016-05-06 2016-07-27 湖南标迪夫节能科技有限公司 Outer wall for prefabricated wallboard and steel structure assembling
CN105804238A (en) * 2016-05-06 2016-07-27 湖南标迪夫节能科技有限公司 Self-heat-insulation wall body system of prefabricated assembling type wallboard component
CN105804284A (en) * 2016-05-06 2016-07-27 湖南标迪夫节能科技有限公司 Cast-in-place combined outer wall body of prefabricated assembling type wallboard component
CN105821988A (en) * 2016-05-06 2016-08-03 湖南标迪夫节能科技有限公司 Self-insulation exterior wall combined by assembled wall panel components

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Application publication date: 20150603