CN108487512A - Cast-in-place skeleton, processing method and structural wall - Google Patents
Cast-in-place skeleton, processing method and structural wall Download PDFInfo
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- CN108487512A CN108487512A CN201810401923.6A CN201810401923A CN108487512A CN 108487512 A CN108487512 A CN 108487512A CN 201810401923 A CN201810401923 A CN 201810401923A CN 108487512 A CN108487512 A CN 108487512A
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- putamina
- keel
- cast
- thermal insulation
- insulation board
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- 238000003672 processing method Methods 0.000 title claims abstract description 17
- 238000009413 insulation Methods 0.000 claims abstract description 135
- 239000004567 concrete Substances 0.000 claims abstract description 55
- 239000000463 material Substances 0.000 claims abstract description 10
- 239000000203 mixture Substances 0.000 claims description 15
- 239000002131 composite material Substances 0.000 claims description 14
- 210000003205 muscle Anatomy 0.000 claims description 14
- 210000000988 bone and bone Anatomy 0.000 claims description 10
- 230000002787 reinforcement Effects 0.000 claims description 7
- 239000012774 insulation material Substances 0.000 claims description 2
- 239000000758 substrate Substances 0.000 claims 1
- 238000000034 method Methods 0.000 abstract description 11
- 238000012545 processing Methods 0.000 abstract description 7
- 230000007115 recruitment Effects 0.000 abstract description 7
- 230000008569 process Effects 0.000 abstract description 6
- 238000013461 design Methods 0.000 abstract description 4
- 238000009434 installation Methods 0.000 abstract description 4
- 238000010586 diagram Methods 0.000 description 47
- 239000010410 layer Substances 0.000 description 19
- 238000010276 construction Methods 0.000 description 14
- 238000004321 preservation Methods 0.000 description 5
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- 229910000831 Steel Inorganic materials 0.000 description 3
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- 239000010959 steel Substances 0.000 description 3
- 238000005491 wire drawing Methods 0.000 description 3
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- 238000005266 casting Methods 0.000 description 2
- 230000015271 coagulation Effects 0.000 description 2
- 238000005345 coagulation Methods 0.000 description 2
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- 238000011065 in-situ storage Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 239000011241 protective layer Substances 0.000 description 2
- 239000002689 soil Substances 0.000 description 2
- 229910000679 solder Inorganic materials 0.000 description 2
- 238000012546 transfer Methods 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- 229910000838 Al alloy Inorganic materials 0.000 description 1
- 230000006978 adaptation Effects 0.000 description 1
- 230000003044 adaptive effect Effects 0.000 description 1
- 238000013459 approach Methods 0.000 description 1
- 230000004888 barrier function Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
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- 230000007797 corrosion Effects 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000011888 foil Substances 0.000 description 1
- 230000007774 longterm Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 239000004570 mortar (masonry) Substances 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 239000011505 plaster Substances 0.000 description 1
- 229920006389 polyphenyl polymer Polymers 0.000 description 1
- 238000000275 quality assurance Methods 0.000 description 1
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- 239000011376 self-consolidating concrete Substances 0.000 description 1
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/84—Walls made by casting, pouring, or tamping in situ
- E04B2/86—Walls made by casting, pouring, or tamping in situ made in permanent forms
- E04B2/8635—Walls made by casting, pouring, or tamping in situ made in permanent forms with ties attached to the inner faces of the forms
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/74—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
- E04B1/76—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
- E04B1/78—Heat insulating elements
- E04B1/80—Heat insulating elements slab-shaped
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Acoustics & Sound (AREA)
- Building Environments (AREA)
- Forms Removed On Construction Sites Or Auxiliary Members Thereof (AREA)
Abstract
The invention discloses a kind of cast-in-place skeleton, processing method and structural walls, cast-in-place with skeleton includes the first putamina, the second putamina and the thermal insulation board between the first putamina, the second putamina, it is connected at least one first keel between first putamina and thermal insulation board, at least one second keel are connected between the second putamina and thermal insulation board;The first keel, the second keel are individually fixed in thermal insulation board two sides when processing;First keel another side is fixed on the first putamina, the second keel another side, which is fixed on the second putamina, is made skeleton;Structural wall include it is described it is cast-in-place use skeleton, wallboard made of concreting is respectively equipped between the first putamina, the second putamina and thermal insulation board, the concrete of each wallboard wraps up the first keel, the second keel respectively.Skeleton structure design of the present invention is simple, processes, is easy for installation, saving material and recruitment, at low cost, structural wall bonding strength is big, and service life is long.
Description
Technical field
The present invention relates to construction engineering technical fields, more particularly to a kind of cast-in-place skeleton, processing method and structural wall.
Background technology
It is all made of template system in the cast-in-situ concrete construction of China's architectural engineering at present, is had the following disadvantages:
One, more using material and accessory, there are all steel mould, steel wooden model, multi-layer board wooden model, plastic foil, aluminium alloy mould etc., accessory has
Split bolt etc., the material selected according to engineering practice before the construction time is complicated, enormous amount, high material consumption, fund
Input is big, cost is high;
Two, working procedure is complicated, and working procedure increases, and causes human resources input more, labor intensity is big, the duration is slow, manpower at
This height.Because concrete exposure is difficult effectively to be conserved in a natural environment, concrete strength is difficult to ensure, and water wasting of taking a lot of work;
Three, conventional outer wall heat preservation is most of is protected by the way of pasting nail and hanging with wall connecting, the mortar that 3~6mm thickness is done on surface
Sheath, in practice it has proved that, insulating layer and protective layer in the technology are being used due to the natural environment influences such as expose to the weather, drench with rain
Universal cracking, obscission, affects heat insulation effect and service life, insulating layer mostly uses polyphenyl in short period in period
Plate belongs to combustible material, and the construction period exposed time is long, and protective layer is relatively thin, is easily damaged and long-term exposed, meets open fire easily
Cause fire;
Four, the composite insulation boards that sandwich thermal insulated wall mostly uses mesh sheet and thermal insulation board is combined into now lead between thermal insulation board and mesh sheet
It crosses and is connect with the lateral wire drawing that mesh sheet is welded, such composite insulation boards has the following disadvantages:
(1)Wall is connected with thermal insulation board and mesh sheet by lateral wire drawing, and the steel wire for penetrating thermal insulation board is more, and heat transfer area is big, the winter
Energy is easy to lose within doors for it, waste of energy, and heat transfer is more to interior outside summer room, and easily improves indoor temperature, and waste is empty
Adjust energy;
(2)Human weld is mostly used, recruitment is more, waste is big, and processing technology is complicated, first welded net, then by lateral wire drawing
It is welded in mesh sheet, reconnects thermal insulation board;
(3)Solder joint is more, is easy desoldering, snaps;
(4)Mesh sheet easily exposed more, poor corrosion resistance when construction;
(5)Due to mesh sheet poor flatness, vibrating head cannot be added to vibrate using normal concrete, self-compacting concrete can only be used,
Not only cost greatly improves, and durability is poor, and wall overall structure is poor;
(6)Displacement is easy tod produce in casting process thermal insulation board, causes thermal insulation board to leak outside, influences construction quality.
Therefore, how to design a kind of can solve the above problem cast-in-place with skeleton, processing method and structural wall is this
The project that inventor concentrates on studies.
Invention content
The purpose of the present invention is to provide a kind of cast-in-place skeleton, processing method and structural wall, skeleton structure design letters
It is single, it processes, is easy for installation, saving material and recruitment, at low cost, structural wall bonding strength is big, and service life is long.
To achieve the goals above, the present invention provide it is a kind of it is cast-in-place use skeleton, including the first putamina, the second putamina and
The thermal insulation board being set between the first putamina and the second putamina is connected at least one between first putamina and thermal insulation board
One keel.
Preferably, at least one second keel are connected between second putamina and thermal insulation board.
Preferably, first putamina, the second putamina are made of composite board or non-composite plank or thermal insulation material.
Preferably, the thermal insulation board includes heat insulation base plate and the enhancement layer positioned at heat insulation base plate one or both sides.
Preferably, reinforcement connection rod structure is provided between two enhancement layers.
Preferably, thermal insulation board and at least one first keel are provided between second keel and the second putamina, it is described
First keel are connect with the second putamina.
Preferably, between first putamina and thermal insulation board or/and between the second putamina and thermal insulation board or/and the first putamina
Between the second putamina or/and between the first keel and the second keel or/and the first keel/second keel and the first putamina/the
It is connected between two putaminas and sockets part.
Preferably, the part that sockets is set as at least one, and each part that sockets is integrated composition or is drawn by multiple points
Fitting connection composition.
Preferably, the keel of first keel/second are the frame body knot for being transversely equipped at least one dowel thereon
Structure or net-like frame structure or more dowels being connected between the keel of the first keel/second and thermal insulation board or mesh sheet frame knot
Structure.
Preferably, the frame structure include the support portion being set between the putamina of the first putamina/second and thermal insulation board and
The interconnecting piece of the both sides of the putamina of the first putamina/second and thermal insulation board is connected, an at least institute is extended laterally through on the support portion
State dowel.
Preferably, at least one logical concrete hole is horizontally arranged on the support portion.
Preferably, the dowel is installed in logical concrete hole.
Preferably, the net-like frame structure includes the netted stereochemical structure being made of more dowel interconnections.
Preferably, the mesh sheet frame structure includes the support connection being set on the first putamina/second putamina/thermal insulation board
Part is respectively arranged at the putamina of the first putamina/second and two support connectors on thermal insulation board, on each support connector
The mesh sheet being made of more cross one another dowels is installed, two support connectors link together.
Preferably, two support connectors are linked together by the dowel in mesh sheet.
Preferably, the support connector includes at least one outwardly directed support portion, and the support portion is equipped with extremely
The/the second wears groove of few one first the/the first wears groove of perforation or/and at least one second perforation, at least a dowel pass through described
First the/the first wears groove of perforation, remaining described dowel are each passed through the/the second wears groove of multiple second perforation.
Preferably, further include interconnecting piece, the support portion is fixed on interconnecting piece, the interconnecting piece be fixed on thermal insulation board/
On the putamina of first putamina/second.
Preferably, the interconnecting piece is set as one or more, and fixed support portion is distinguished on each interconnecting piece.
Preferably, the interconnecting piece is integrally formed or connect composition with support portion.
Preferably, each support portion is equipped at least one logical concrete hole.
A kind of cast-in-place skeleton processing method, including following steps:
(1)First keel, the second keel are individually fixed in the two sides of thermal insulation board;
(2)First keel another side is fixed on the first putamina, the second keel another side is fixed on the second putamina, is made
Skeleton.
A kind of cast-in-place skeleton processing method, including following steps:
(1)First keel are fixed on the first putamina, the first keel another side is fixed on to the side of thermal insulation board;
(2)Second keel are fixed on the thermal insulation board other side on one side, the second keel another side is fixed on the second putamina, and bone is made
Frame.
A kind of cast-in-place skeleton processing method, including following steps:
(1)First keel are fixed on thermal insulation board one side, the first keel another side is fixed on the first putamina;
(2)Firm banking is built, keeps its inner distance corresponding with keel siding obtained is waited for;
(3)By step(1)Composite insulation boards obtained are erected in together with the second keel in firm banking, and the two is made to be connected to one
It rises;
(4)Second putamina is installed on the gap between the second keel and the madial wall of firm banking, and makes the second putamina and
Two keel link together, and skeleton is made.
A kind of structural wall cast-in-place uses skeleton, cast-in-place the first putamina, second putamina with skeleton including described
Wallboard made of concreting is respectively arranged between thermal insulation board, the concrete of each wallboard is enclosed with the first dragon respectively
Bone, the second keel.
After adopting the above scheme, the present invention is cast-in-place is had the advantages that with skeleton, processing method and structural wall:
(1)The cast-in-place skeleton processing and installation of the present invention is convenient, saves a large amount of templates, easy to operate, reduces recruitment, and construction cost is big
Width reduces, and wall plastering and concrete curing process are saved after molding, has saved cost, reduces the generation of building waste;
(2)Keel of the present invention are various informative, and bonding strength is big, are arranged on keel and lead to concrete hole, can make concrete lateral flow, no
But pressure is consistent everywhere for concrete when so that concrete is linked together in the horizontal direction, and pouring;
(3)The present invention is cast-in-place to can be achieved to wear longitudinally connected muscle and lateral connection muscle is formed with skeleton by making on the original basis
Mechanically joined mesh sheet frame structure, relatively traditional welding, improving bud grafting, reducing solder skip desoldering, binding, loosely leakage is tied up
Universal phenomenon, construction is simple, quality of connection is reliable, reduces welding, a large amount of recruitments of binding;This structure is longitudinal and transverse simultaneously
It is dowel, uniform force deforms always, avoids cracking.It is to have space around single support connecting frame after transformation, in wall
Concrete is mutually communicated when body pours, and is constructed more convenient reliable, quality assurance;
(4)Keel meet requirement of the traditional architecture specification to anti-cracking concrete using mesh sheet frame structure, are conducive to using existing
Specification is tested, is designed, is constructed and reduces cost, is ensured using existing a large amount of technical know-how resources, convenient for realizing as early as possible
The technology is universal and promotes;
(5)Structure of the invention wall passes through in the gap between the first putamina and thermal insulation board, between the second putamina and thermal insulation board
Casting concrete forms wallboard in gap, and the structural wall bonding strength is big, between insulating layer and wallboard on the outside of insulating layer
Not easily to fall off, service life is long.And process at one time, it need not again plaster in wall outer side, wall smoothness is good;It utilizes
The cast-in-place structural wall made of skeleton solves that the heat preservation of traditional outer patch crack, falls off, fire protecting performance is poor, service life short heat preservation is imitated
The technical barriers such as fruit difference, realize heat preservation with it is structure-integrated, solve existing sandwich thermal insulated wall processing complexity, insulating layer position
It moves, the technological deficiencies such as construction cost height;
(6)Compared with traditional architecture engineering cast-in-place concrete structure, instead of the high template system of wall complex procedures cost, take
Disappeared wall plastering, is bound without live reinforcing bar, is not necessarily to the complicated process such as in-site installation heat preservation and reduces engineering with material, recruitment
Cost;
(7)The cast-in-place concrete on skeleton has putamina protection, can reach design strength without maintenance, has saved a large amount of support
Shield water, recruitment;
(8)It is cast-in-place to realize plant produced with skeleton putamina, thermal insulation board, dowel, reduce the construction work of construction site complexity
Sequence has saved a large amount of human and material resources and the energy, and construction cost is low, and speed is fast;
(9)It is cast-in-place to be applied in building assembled architecture field with skeleton, assembly rate is improved, because processing cost is low, relatively existing
Construction weight is light, concrete parts integral cast-in-situ, overcome existing assembled architecture cost is higher, freight charges increase, size limitation,
Application field is small, shock resistance is poor, the technological deficiency more than various prefabricated component seams.It is widely used, adapts to be widely applied, have
Vast market prospect and good social benefit;
(10)Cast-in-place to be combined by rational structure with skeleton putamina, thermal insulation board, dowel, stress science can between each component
It leans on, fully meets construction needs, there is very strong practicability.
Description of the drawings
Fig. 1 is the cast-in-place structural schematic diagram with skeleton embodiment one of the invention;
Fig. 2 is the cast-in-place dimensional decomposition structure diagram with skeleton embodiment two of the invention;
Fig. 3 is the structural schematic diagram of the process of Fig. 2;
Fig. 4 is the cast-in-place structural schematic diagram with skeleton embodiment three of the invention;
Fig. 5 is the cast-in-place structural schematic diagram with skeleton example IV of the invention;
Fig. 6 is the cast-in-place dimensional decomposition structure diagram with skeleton embodiment five of the invention;
Fig. 7 is the cast-in-place combining structure schematic diagram with skeleton embodiment five of the invention;
Fig. 8 is the cast-in-place cross-sectional structure schematic diagram with skeleton embodiment six of the invention;
Fig. 9 is the second keel dimensional structure diagram of Fig. 8;
Figure 10 is the cast-in-place cross-sectional structure schematic diagram with skeleton embodiment seven of the invention;
Figure 11 is the cast-in-place cross-sectional structure schematic diagram with skeleton embodiment eight of the invention;
Figure 12 is the cast-in-place structural schematic diagram with skeleton embodiment nine of the invention;
Figure 13 is the cast-in-place structural schematic diagram with skeleton embodiment ten of the invention;
Figure 14 is the cast-in-place structural schematic diagram with skeleton embodiment 11 of the invention;
Figure 15 is the cast-in-place structural schematic diagram with skeleton embodiment 12 of the invention;
Figure 16 is the cast-in-place structural schematic diagram with skeleton embodiment 13 of the invention;
Figure 17 is the cast-in-place structural schematic diagram with skeleton embodiment 14 of the invention;
Figure 18 is the cast-in-place structural schematic diagram with skeleton embodiment 15 of the invention;
Figure 19 is the structural schematic diagram of structure of the invention wall embodiment one;
Figure 20 is the structural schematic diagram of structure of the invention wall embodiment two;
Figure 21 is the structural schematic diagram of structure of the invention wall embodiment three;
Figure 22 is the structural schematic diagram of structure of the invention wall example IV;
Figure 23 is the structural schematic diagram of structure of the invention wall embodiment five;
Figure 24 is the structural schematic diagram of structure of the invention wall embodiment six;
Figure 25 is the structural schematic diagram of structure of the invention wall embodiment seven.
Specific implementation mode
The present invention is illustrated below according to attached drawing illustrated embodiment.This time disclosed embodiment can consider in all sides
Face is to illustrate, without limitation.The scope of the present invention is not illustrated to be limited by following implementation, only by claims
Shown in range, and include all deformations having with right in the same meaning and right.
Cast-in-place skeleton, processing method and structure according to the present invention are specifically illustrated with reference to the accompanying drawings of the specification
Wall.
The cast-in-place structural schematic diagram with skeleton embodiment one of the present invention as shown in Figure 1, including the first putamina 1, the second putamina 2
And it is set to the thermal insulation board 3 between the first putamina 1 and the second putamina 2.It is connected at least one between first putamina 1 and thermal insulation board 3
A first keel 4, the second putamina 2 are adhesively fixed together with thermal insulation board 3.
The present embodiment thermal insulation board 3 is formed by heat insulation base plate 6 and positioned at the connection of enhancement layer 7 of 6 arranged on left and right sides of heat insulation base plate.
It is connected between first putamina 1 and the second putamina 2 and at least one sockets part 8.
Each first keel 4 be transversely be equipped with thereon at least one dowel frame structure or net-like frame structure or
More dowels or the mesh sheet frame structure being connected between the first keel 4 and thermal insulation board 3.The first keel of the present embodiment 4 use
The frame structure of at least one dowel is transversely installed thereon.
First keel 4 include be set to support portion 10 between the first putamina 1 and thermal insulation board 3 and the first putamina of connection 1 with
It is I-shaped, U that cross section, which may be used, in the overall structure of the interconnecting piece of the both sides of thermal insulation board 3, support portion 10 and two interconnecting pieces
Shape, Z-shaped, the degree of lip-rounding plate body, do not limit herein.Multiple perforation 12 are horizontally arranged on support portion 10 from top to bottom, it is multiple
Perforation 12 forms a row, may be set to be multiple wears grooves, and a dowel 13 is each passed through in each perforation 12.Each dowel 13
Also cross two the first keel 4 with the perforation 12 on position.It is horizontally arranged with from top to bottom on support portion 10 at least one
Logical concrete hole 14, the quantity in the logical concrete hole 14 on each first keel of the present embodiment 4 with perforate 12 quantity it is corresponding, and respectively perforate 12
It is connected to corresponding logical concrete hole 14.Setting perforation or wears groove not on support portion 10 are may be otherwise, and only sets logical concrete hole, is made each
Dowel 12 is respectively arranged in can also in each logical concrete hole 14.
The cast-in-place dimensional decomposition structure diagram with skeleton embodiment two of the present invention as shown in Figure 2, including the first putamina 1,
Second putamina 2 and the thermal insulation board 3 being set between the first putamina 1 and the second putamina 2.It is connected between first putamina 1 and thermal insulation board 3
There are at least one first keel 4, at least one second keel 5, the present embodiment are connected between the second putamina 2 and thermal insulation board 3
One keel 4 are set as two in front and back, and the second keel 5 are set as two in front and back.
The present embodiment thermal insulation board 3 is formed by heat insulation base plate 6 and positioned at the connection of enhancement layer 7 of 6 arranged on left and right sides of heat insulation base plate.
Be connected between first putamina 1 and the second putamina 2 it is at least one socket part 8, the present embodiment is set as two.It is each to draw
Fitting 8 sockets the connection of part 9 by two points and forms, and one end that one of them point sockets part 9 is connected and fixed on the first putamina 1, separately
One point of one end for socketing part 9 is connected and fixed on the second putamina 2, and two points of other ends for socketing part 9 are reconnected and fixed, wherein
The other end that one point of other end for socketing part 9 sockets part 9 after thermal insulation board 3 with another point is connect, and connection type can
With a variety of, for example, both both make to connect by bonding, or by intermediate connector, belong to the scope of protection of the invention.
4/ second keel 5 of each first keel are the frame structure or netted for being transversely equipped at least one dowel thereon
Frame structure or more dowels being connected between 4/ second keel 5 of the first keel and thermal insulation board 3 or mesh sheet frame structure.This
The first keel of embodiment 4 also use it using the frame structure for being transversely equipped at least one dowel thereon, the second keel 5
Upper edge is horizontally installed with the frame structure of at least one dowel.
First keel 4 include be set to support portion 10 between the first putamina 1 and thermal insulation board 3 and the first putamina of connection 1 with
It is I-shaped that cross section, which may be used, in the overall structure of the interconnecting piece 11 of the both sides of thermal insulation board 3, support portion 10 and two interconnecting pieces 11
Shape, U-shaped, Z-shaped, the degree of lip-rounding plate body, do not limit herein.Multiple perforation 12 are horizontally arranged on support portion 10 from top to bottom,
Multiple perforation 12 form a row, may be set to be multiple wears grooves, and a dowel 13 is each passed through in each perforation 12.Each connection
Muscle 13 is also cross two the first keel 4 with the perforation 12 on position.It is horizontally arranged with from top to bottom at least on support portion 10
The quantity in one logical concrete hole 14, the logical concrete hole 14 on each first keel of the present embodiment 4 is corresponding with the quantity of perforation 12, and respectively wears
Hole 12 is connected to corresponding logical concrete hole 14.Setting perforation or wears groove not on support portion 10 are may be otherwise, and only sets logical concrete hole,
So that each dowel 12 is respectively arranged in can also in each logical concrete hole 14.
Most of structure of second keel 5 is identical as the structure of above-mentioned first keel 4, and something in common repeats no more, different
Place is:Perforation 12 on the support portion of second keel 5 is set as two row, and each dowel 13 is also cross two the second keel 5
With the perforation 12 on position.
Above-mentioned first keel 4, the second keel 5 can also be integrally formed with the enhancement layer 7 on thermal insulation board 3 or respectively with first
Putamina 4,5 integrally connected of the second putamina are constituted, and belong to the scope of protection of the invention.
In conjunction with shown in Fig. 3, the present embodiment procedure of processing includes:
(1)The one side of first keel 4, one of them one end for point socketing part 9 are adhesively fixed on the first putamina 1, by the
One end that one side, another point of two keel 5 socket part 9 is adhesively fixed on the second putamina 2;
(2)The another side of first keel 4 is bonded and fixed on an enhancement layer 7 of thermal insulation board 3, while dividing for homonymy being socketed
The other end of part 9 passes through thermal insulation board 3, and the another side of the second keel 5 is bonded and fixed on another enhancement layer 7 of thermal insulation board 3,
And make two points to socket and be connected and fixed between part 9, skeleton is made using being adhesively fixed in the present embodiment.
When by this it is cast-in-place poured with skeleton build up structural wall when, it is also necessary to follow the steps below:
(3)Firm banking 15 is built, keeps the distance between its madial wall corresponding with keel siding obtained;
(4)Keel obtained are erected in firm banking 15 and are clamped, and by being set to the first keel 4,5 outside of the second keel
Two supporting racks 16 in face carry out supporting to keel top.
The present embodiment processing method can also use following step:
(1)The one side of the one side of first keel 4, the second keel 5 is individually fixed on two enhancement layers 7 of thermal insulation board 3;
(2)One end that one of them point is socketed to part 9 is bonded and fixed on the first putamina 1, and the other end for socketing part 9 will be divided to pass through
Part 9 is socketed with another point to connect, and the another side of the first keel 4 is bonded after first keel 4, thermal insulation board 3 and the second keel 5
It is fixed on the first putamina, the another side of the second keel 5 and another point of other end for socketing part 9 is bonded and fixed to the second film
On shell 2, skeleton is made.
The cast-in-place structural schematic diagram with skeleton embodiment three of the present invention as shown in Figure 4, most of structure and above-mentioned Fig. 2 institutes
The structure for stating embodiment is identical, and something in common repeats no more, and is a difference in that:It is connected between two enhancement layers 7 of thermal insulation board 3
Have multiple reinforcements connection rod structures 17, reinforce connection rod structure 17 by across thermal insulation board 3 reinforcement connecting rod and be installed on reinforcement
The reinforcement block piece connection composition at connector both ends.
The cast-in-place structural schematic diagram with skeleton example IV of the present invention as shown in Figure 5, most of structure and above-mentioned Fig. 2 institutes
The structure for stating embodiment is identical, and something in common repeats no more, except that being only arranged on the first keel of the present embodiment 4 multiple
Lead to concrete hole 14, is separately installed with a dowel 13 on each logical concrete hole 14, the perforation 12 on the second keel 5 is set to logical concrete hole 14
The left and right sides, and the quantity of the perforation 12 of same column and the quantity in logical concrete hole 14 is not corresponding.
The present invention cast-in-place dimensional decomposition structure diagram and composite structure of skeleton embodiment five is shown as shown in Figure 6, Figure 7
It is intended to, most of structure is identical as the structure of embodiment described in above-mentioned Fig. 4, and something in common repeats no more, except that the
Two keel 5 use net-like frame structure, and the second keel 5 include the netted stereochemical structure being made of more dowel interconnections,
The present embodiment connects the length formed by more first lateral connection muscle 18, the second lateral connection muscle 19 and more vertical dowels 20
Cube shape frame structure.It is provided between thermal insulation board 3 and the second putamina 2 and sockets part 8.
The processing method of the present embodiment, includes the following steps:
(1)First keel 4 are bonded and fixed to the one side of thermal insulation board 3, one end that one of them point is socketed to part 9 is bonded and fixed to
On first putamina 1, the another side of the first keel 4 is bonded and fixed on the first putamina 1, and point other end for socketing part 9 is made to wear
Go out thermal insulation board 3;
(2)Firm banking 15 is built, keeps the distance between its madial wall corresponding with keel siding obtained is waited for;
(3)By step(1)Composite insulation boards obtained and the second keel 5 are erected in together in firm banking 15, and the two is made to connect
It is fixed together, the side of composite insulation boards is made to be close on a madial wall of firm banking 15, composite insulation boards are tightened herein
The outer upper for pasting firm banking 15 carries out supporting by supporting rack 16;
(4)Part 9 is socketed by two points to link together, and the second putamina 2 is made to be installed on the inside of the second keel 5 and firm banking 15
Gap between wall, makes that another point sockets the other end of part 9 and the second putamina 2 links together, and to 2 outside of the second putamina
Top carries out supporting by supporting rack 16.
The cast-in-place cross-sectional structure schematic diagram with skeleton embodiment six of the present invention as shown in Figure 8, most of structure with it is upper
It is identical to state example structure described in Fig. 7, something in common repeats no more, and is a difference in that:The first putamina 1 is set in the present embodiment
The part 8 that sockets between the second putamina 2 is integrated composition, and 5 structure of the second keel in the present embodiment can refer to shown in Fig. 9,
The overall structure of support portion and interconnecting piece is that cross section is I-shaped plate body, is provided with from top to bottom in the left and right sides of the structure
Multiple open slots 22, each open slot 22 is interior to install a dowel 13.
The cast-in-place cross-sectional structure schematic diagram with skeleton embodiment seven of the present invention as shown in Figure 10, most of structure with it is upper
It is identical to state example structure described in Fig. 2, something in common repeats no more, and is a difference in that:The present embodiment sockets part 8 using one
It constitutes, it includes being respectively arranged on the second putamina 2 and thermal insulation board 3 that the second keel 5, which use mesh sheet frame structure, second keel 5,
Support connector 23, it is each support to be separately installed on connector 23 erected by more cross one another lateral connection muscle 24 and Duo Gen
To the mesh sheet 26 of the connection composition of dowel 25, two connection composition frames of mesh sheet 26.
It includes multiple outwardly directed support portions 27 to support connector 23, be respectively equipped on a portion support portion 27 to
Few one first perforation 28, may be set to be the first wears groove, at least one second is respectively equipped on remaining support portion 27 and is worn
Hole 29 may be set to be the second wears groove, and multiple first perforation, 28 formation are multiple rows of, and one is placed in all first perforation 28 often arranged
Root lateral connection muscle 24, multiple second perforation 29 form multiple row, a vertical connection are placed in all second perforation 29 of each column
Muscle 25.Further include interconnecting piece 30, support portion 27 is fixed on interconnecting piece 30, and interconnecting piece 30 is fixed on 3/ second putamina 2 of thermal insulation board
On.Interconnecting piece 30 could be provided as one or more, and interconnecting piece 30 can be integrated composition with support portion 27 or connect composition, respectively
A support portion 27 is respectively fixed on interconnecting piece 30.
At least one logical concrete hole can also be set again on each support portion of above-described embodiment 27.Or it is not provided with the first perforation 28/
First wears groove makes each lateral connection muscle 24 be directly mounted in logical concrete hole, is the scope of protection of the invention.Or in order to save
Through-hole or groove is arranged in material on interconnecting piece 30.
It is connected between two support connectors 23 and sockets part 8.If support portion 27 is arranged long, it is located at thermal insulation board
The suspension end of support portion 27 on 3 is approached or is fixed on support connector 23 over there or on the second putamina 2, and the second film is located at
Support portion 27 on shell 2 suspends end and approaches or be fixed on thermal insulation board 3 or the support connector 23 on opposite, may dispense in this way
Setting sockets part.Support portion 27 can not also be set, socketed part 8 with multiple and replaced support portion 27, the present invention protects
Range.
The processing method of the present embodiment and the procedure of processing of embodiment described in above-mentioned Fig. 2 are essentially identical, and details are not described herein again.
The cast-in-place cross-sectional structure schematic diagram with skeleton embodiment eight of the present invention as shown in figure 11, most of structure with it is upper
The structure for stating embodiment described in Figure 10 is identical, and something in common repeats no more, and is a difference in that:First keel 4 of the present embodiment are
It is linked into an integrated entity by multiple support portions 10 and multiple interconnecting pieces 11, composition cross section is the wavy plate body of rectangle, the first keel 4
It is set as one, the structure on each support portion 10 can refer to example structure described in Fig. 2, and details are not described herein again, in this way, knot
Structure is simpler.
The cast-in-place structural schematic diagram with skeleton embodiment nine of the present invention as shown in figure 12, most of structure and above-mentioned Figure 10
The structure of the embodiment is identical, and something in common repeats no more, and is a difference in that:First keel 4 of the present embodiment are using Fig. 2 institutes
Example structure is stated, with specific reference to Fig. 2 example structures.
The cast-in-place structural schematic diagram with skeleton embodiment ten of the present invention as shown in figure 13, most of structure and above-mentioned Figure 12
The structure of the embodiment is identical, and something in common repeats no more, and is a difference in that:The present embodiment is in the second keel 5 and the second film
Thermal insulation board 3 and the first keel 4 are additionally provided between shell 2 from left to right, the two is adhesively fixed.
The cast-in-place structural schematic diagram with skeleton embodiment 11 of the present invention as shown in figure 14, including the first putamina 1, the second film
Shell 2 and the thermal insulation board 3 being set between the first putamina 1 and the second putamina 2.Between first putamina 1 and thermal insulation board 3 there are one connections
First keel 4, there are one the second keel 5 for connection between the second putamina 2 and thermal insulation board 3.
Enhancement layer 7 connection of the present embodiment thermal insulation board 3 by heat insulation base plate 6 and positioned at 6 side of heat insulation base plate forms.
First keel 4 use mesh sheet frame structure.First keel 4 include the support connector being set on the first putamina 1,
The support connector other end is fixed on thermal insulation board 3, is equipped on support connector and is made of more cross one another dowels
Mesh sheet 26, the present embodiment mesh sheet 26 is made of more lateral connection muscle 24 and Duo Gen vertical dowel 25 connections.Support connects
Fitting includes multiple support portions 27 and at least one interconnecting piece 30 for being connected on the first putamina 1, multiple support portions 27 at least
One interconnecting piece 30 can be integrated composition or connection composition.It is respectively arranged on each support portion 27 and places for lateral connection muscle 24
First perforation and the second perforation for supplying vertical dowel 25 to place, may be designed in the first wears groove and the second wears groove, or support
It is mounted directly mesh sheet on connector, for example hangs or welds, is the scope of protection of the invention.
Be connected between second putamina 2 and the first keel 4 it is at least one socket part 8, socket part 8 and lateral connection muscle 24 and connect
The one end connect uses hook-type, the two to be connected by hooking.
Second keel 5 are using the structure of embodiment described in Fig. 6, and details are not described herein again.
The cast-in-place structural schematic diagram with skeleton embodiment 12 of the present invention as shown in figure 15, most of structure and above-mentioned figure
14 example structures are identical, and something in common repeats no more, and is a difference in that:The present embodiment is in the second keel 5 and the second film
Thermal insulation board 3 and the first keel 4 are additionally provided between shell 2 from left to right, the two is adhesively fixed.
The cast-in-place structural schematic diagram with skeleton embodiment 13 of the present invention as shown in figure 16, including the first putamina 1, the second film
Shell 2 and the thermal insulation board 3 being set between the first putamina 1 and the second putamina 2.Between first putamina 1 and thermal insulation board 3 there are one connections
First keel 4, there are one the second keel 5 for connection between the second putamina 2 and thermal insulation board 3.
The present embodiment thermal insulation board 3 is formed by heat insulation base plate 6 and positioned at the connection of enhancement layer 7 of 6 arranged on left and right sides of heat insulation base plate.
Second keel 5 use example structure as described in Figure 10, and details are not described herein again.
First keel 4 use the mesh sheet frame structure of monolithic mesh sheet.Its structure is identical as the structure of 5 left part of the second keel,
But the suspension end of the support portion 27 on first keel 4 may be set to be close to thermal insulation board 3 and be directly fixed on thermal insulation board 3
On.
It is equipped between first putamina 1 and the second putamina 2 and sockets part 8, also installed between the first keel 4 and the second keel 5
Socket part 8.Multiple reinforcement connection rod structures 17 are connected between two enhancement layers 7 of thermal insulation board 3.
The cast-in-place structural schematic diagram with skeleton embodiment 14 of the present invention as shown in figure 17, most of structure and above-mentioned figure
16 example structures are identical, and something in common repeats no more, and is a difference in that:Second keel structure of the present embodiment and first
Keel structure is identical, and the two is symmetrical arranged.
The cast-in-place structural schematic diagram with skeleton embodiment 15 of the present invention as shown in figure 18, most of structure and above-mentioned figure
10 example structures are identical, and something in common repeats no more, and is a difference in that:Support connection on the present embodiment thermal insulation board 3
The support connector 23 or the second putamina 2 close to opposite are stretched in the suspension end of support portion 27 on part 23, may be set to be straight
It connects on the support connector 23 for being fixed on opposite or on the second putamina 2, the support portion on support connector 23 on the second putamina 2
27 suspension end is stretched to close to the support connector 23 on opposite or the position of thermal insulation board 3, be may be set to be and is directly fixed on pair
On the support connector 23 in face or on thermal insulation board 3, it is in intersect to make the support portion 27 on two support connectors 23, and at least one
Root lateral connection muscle 24 passes through all support portions 27 of the homonymy on two support connectors 23.
Stirrup 34 can also be further arranged in the embodiment between thermal insulation board 3 and the second putamina 2, and stirrup 34 binds round multiple
Vertical dowel 25.
The first putamina 1, the second putamina 2 can be non-composite plank or composite board, each first putamina in the various embodiments described above
1, the second putamina 2 could be provided as foldable putamina.
According to actual conditions in the various embodiments described above, socketing part not can set, and the enhancement layer of thermal insulation board 3 is according to reality
Situation, can set can not set, or side is only arranged.It is also that can set set to reinforce connection rod structure 17 according to actual conditions.
The support portion 27 that above-described embodiment is designed as in the first keel 4 of net-like frame structure, the second keel 5 can be set can not
It is the scope of protection of the invention if being socketed part 8 with multiple and being replaced support portion 27.
The structural schematic diagram of structure of the invention wall embodiment one as shown in figure 19, including it is as described in Figure 2 it is cast-in-place use skeleton,
The first wallboard 31, the second putamina made of concreting are provided between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
The second wallboard 32 made of concreting is provided between 2 and thermal insulation board 3, the concrete of the first wallboard 31 is wrapped in the first dragon
The concrete of bone 4, the second wallboard 32 is wrapped in the second keel 5.
The structural schematic diagram of structure of the invention wall embodiment two as shown in figure 20, including it is as described in Figure 6 it is cast-in-place use skeleton,
The first wallboard 31, the second putamina made of concreting are provided between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
The second wallboard 32 made of concreting is provided between 2 and thermal insulation board 3, the concrete of the first wallboard 31 is wrapped in the first dragon
The concrete of bone 4, the second wallboard 32 is wrapped in the second keel 5.
The structural schematic diagram of structure of the invention wall embodiment three as shown in figure 21, including as described in Figure 12 cast-in-place use bone
Frame is provided with the first wallboard 31, second made of concreting between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
The second wallboard 32 made of concreting is provided between putamina 2 and thermal insulation board 3, the concrete of the first wallboard 31 is wrapped in
The concrete of one keel 4, the second wallboard 32 is wrapped in the second keel 5.
The structural schematic diagram of structure of the invention wall example IV as shown in figure 22, including as described in Figure 13 cast-in-place use bone
Frame is provided with the first wallboard 31, two made of concreting between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
It is provided between thermal insulation board 3 between second wallboard 32, the second putamina 2 and thermal insulation board 3 made of concreting and is provided with coagulation
The concrete of third wallboard 33 made of soil pours, the first wallboard 31 is wrapped in the first keel 4, the concrete packet of the second wallboard 32
The second keel 5 are wrapped up in, the concrete of third wallboard 33 is wrapped in another first keel 4.
The structural schematic diagram of structure of the invention wall embodiment five as shown in figure 23, including as described in Figure 14 cast-in-place use bone
Frame is provided with the first wallboard 31, second made of concreting between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
The second wallboard 32 made of concreting is provided between putamina 2 and thermal insulation board 3, the concrete of the first wallboard 31 is wrapped in
The concrete of one keel 4, the second wallboard 32 is wrapped in the second keel 5.
The structural schematic diagram of structure of the invention wall embodiment six as shown in figure 24, including as described in Figure 15 cast-in-place use bone
Frame is provided with the first wallboard 31, two made of concreting between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
It is provided between thermal insulation board 3 between second wallboard 32, the second putamina 2 and thermal insulation board 3 made of concreting and is provided with coagulation
The concrete of third wallboard 33 made of soil pours, the first wallboard 31 is wrapped in the first keel 4, the concrete packet of the second wallboard 32
The second keel 5 are wrapped up in, the concrete of third wallboard 33 is wrapped in another first keel 4.
The structural schematic diagram of structure of the invention wall embodiment seven as shown in figure 25, including as described in Figure 18 cast-in-place use bone
Frame is provided with the first wallboard 31, second made of concreting between cast-in-place first putamina 1 and thermal insulation board 3 with skeleton
The second wallboard 32 made of concreting is provided between putamina 2 and thermal insulation board 3, the concrete of the first wallboard 31 is wrapped in
The concrete of one keel 4, the second wallboard 32 is wrapped in the second keel 5.
Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to its of the present invention
Its embodiment.This application is intended to cover the present invention any variations, uses, or adaptations, these modifications, purposes or
Person's adaptive change follows the general principle of the present invention and includes undocumented common knowledge or usual in the art
Technological means.The description and examples are only to be considered as illustrative, and true scope and spirit of the invention are wanted by following right
It asks and points out.
It should be understood that the invention is not limited in the precision architectures for being described above and being shown in the accompanying drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is limited only by the attached claims.
Claims (24)
1. a kind of cast-in-place skeleton, which is characterized in that including the first putamina, the second putamina and be set to the first putamina and the second film
Thermal insulation board between shell is connected at least one first keel between first putamina and thermal insulation board.
2. cast-in-place skeleton according to claim 1, which is characterized in that be connected between second putamina and thermal insulation board
At least one second keel.
3. cast-in-place skeleton according to claim 2, which is characterized in that first putamina, the second putamina are by composite plate
Material or non-composite plank or thermal insulation material are made.
4. it is according to claim 1 it is cast-in-place use skeleton, which is characterized in that the thermal insulation board include heat insulation base plate and positioned at protect
The enhancement layer of warm substrate one or both sides.
5. cast-in-place skeleton according to claim 4, which is characterized in that be provided with reinforcement between two enhancement layers and connect
Connection rod structure.
6. cast-in-place skeleton according to claim 2, which is characterized in that be arranged between second keel and the second putamina
There are thermal insulation board and at least one first keel, first keel to be connect with the second putamina.
7. using skeleton according to claim 2-6 any one of them is cast-in-place, which is characterized in that first putamina and thermal insulation board it
Between or/and the second putamina and thermal insulation board between or/and the first putamina and the second putamina between or/and the first keel and the second keel
Between or/and the putamina of the keel of the first keel/second and the first putamina/second between be connected with and socket part.
8. cast-in-place skeleton according to claim 7, which is characterized in that the part that sockets is set as at least one, and each
It is described socket part be integrated composition or by multiple points socket part connection form.
9. cast-in-place skeleton is used according to claim 2, which is characterized in that the keel of first keel/second are its upper edge
It is horizontally installed with the frame structure of at least one dowel or net-like frame structure or is connected to the keel of the first keel/second and protects
More dowels between warm plate or mesh sheet frame structure.
10. cast-in-place skeleton according to claim 9, which is characterized in that the frame structure includes being set to the first film
The interconnecting piece of the both sides of the putamina of the first putamina of support portion and connection between the putamina of shell/second and thermal insulation board/second and thermal insulation board,
An at least dowel is extended laterally through on the support portion.
11. cast-in-place skeleton according to claim 10, which is characterized in that be horizontally arranged at least on the support portion
One logical concrete hole.
12. cast-in-place skeleton according to claim 11, which is characterized in that the dowel is installed in logical concrete hole.
13. cast-in-place skeleton according to claim 9, which is characterized in that the net-like frame structure includes by more companies
Connect the netted stereochemical structure of muscle interconnection composition.
14. cast-in-place skeleton is used according to claim 9, which is characterized in that the mesh sheet frame structure includes being set to the
Support connector on one putamina/the second putamina/thermal insulation board or be respectively arranged at the putamina of the first putamina/second on thermal insulation board
Two support connectors, are equipped with the mesh sheet being made of more cross one another dowels on each support connector, two
The support connector links together.
15. cast-in-place skeleton according to claim 14, which is characterized in that two support connectors pass through in mesh sheet
Dowel link together.
16. it is according to claim 14 it is cast-in-place use skeleton, which is characterized in that the support connector include it is at least one to
The support portion of outer stretching, the support portion are worn equipped at least one first the/the first wears groove of perforation or/and at least one second
The wears groove of hole/second, at least a dowel pass through described first to perforate the/the first wears groove, remaining described dowel is each passed through more
The/the second wears groove of a second perforation.
17. cast-in-place skeleton according to claim 16, which is characterized in that further include interconnecting piece, the support portion is fixed
In on interconnecting piece, the interconnecting piece is fixed on the putamina of the putamina of thermal insulation board/first/second.
18. cast-in-place skeleton according to claim 17, which is characterized in that the interconnecting piece is set as one or more,
Fixed support portion is distinguished on each interconnecting piece.
Cast-in-place use skeleton 19. according to claim 18, which is characterized in that the interconnecting piece and support portion be integrally formed or
Connection composition.
20. using skeleton according to claim 16-19 any one of them is cast-in-place, which is characterized in that each support portion is equipped with
At least one logical concrete hole.
21. a kind of cast-in-place skeleton processing method, which is characterized in that include the following steps:
(1)First keel, the second keel are individually fixed in the two sides of thermal insulation board;
(2)First keel another side is fixed on the first putamina, the second keel another side is fixed on the second putamina, is made
Skeleton.
22. a kind of cast-in-place skeleton processing method, which is characterized in that include the following steps:
(1)First keel are fixed on the first putamina, the first keel another side is fixed on to the side of thermal insulation board;
(2)Second keel are fixed on the thermal insulation board other side on one side, the second keel another side is fixed on the second putamina, and bone is made
Frame.
23. a kind of cast-in-place skeleton processing method, which is characterized in that include the following steps:
(1)First keel are fixed on thermal insulation board one side, the first keel another side is fixed on the first putamina;
(2)Firm banking is built, keeps its inner distance corresponding with keel siding obtained is waited for;
(3)By step(1)Composite insulation boards obtained are erected in together with the second keel in firm banking, and the two is made to be connected to one
It rises;
(4)Second putamina is installed on the gap between the second keel and the madial wall of firm banking, and makes the second putamina and
Two keel link together, and skeleton is made.
24. a kind of structural wall, which is characterized in that described cast-in-place including the cast-in-place skeleton of claim 1-20 any one of them
It is each described with being respectively arranged with protection board made of concreting between the first putamina of skeleton, the second putamina and thermal insulation board
Protection board is enclosed with the first keel, the second keel respectively.
Applications Claiming Priority (18)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721595088 | 2017-11-25 | ||
CN201721595089 | 2017-11-25 | ||
CN2017111969347 | 2017-11-25 | ||
CN2017215950881 | 2017-11-25 | ||
CN2017111969629 | 2017-11-25 | ||
CN201711196962 | 2017-11-25 | ||
CN201711196934 | 2017-11-25 | ||
CN2017215950896 | 2017-11-25 | ||
CN201721673306 | 2017-12-05 | ||
CN201711271154.4A CN107724573A (en) | 2017-11-25 | 2017-12-05 | Cast-in-place skeleton, preparation method and the structural wall made of the skeleton |
CN201711270165.0A CN108005275A (en) | 2017-11-25 | 2017-12-05 | A kind of cast-in-place skeleton, preparation method and the wall made of the skeleton |
CN2017112701650 | 2017-12-05 | ||
CN2017216732969 | 2017-12-05 | ||
CN2017112711544 | 2017-12-05 | ||
CN201721673296 | 2017-12-05 | ||
CN2017216733069 | 2017-12-05 | ||
CN201810254617 | 2018-03-26 | ||
CN2018102546174 | 2018-03-26 |
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CN108487512A true CN108487512A (en) | 2018-09-04 |
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ID=63313527
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201810401923.6A Pending CN108487512A (en) | 2017-11-25 | 2018-04-28 | Cast-in-place skeleton, processing method and structural wall |
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CN (1) | CN108487512A (en) |
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CN111364640A (en) * | 2020-04-17 | 2020-07-03 | 捷士通(天津)集成房屋有限公司 | Novel three-wall two-empty type assembled wall body system |
CN112814203A (en) * | 2021-01-11 | 2021-05-18 | 万志芳 | Prefabricated assembly type shear wall with improved connection reliability |
CN112900782A (en) * | 2021-01-14 | 2021-06-04 | 日照海盛智能装备有限公司 | Framework mounting structure for hanging plate, hanging plate and heat-insulation and decoration integrated plate |
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