CN107269087B - The integrated building of high-grade earthquake can be resisted - Google Patents
The integrated building of high-grade earthquake can be resisted Download PDFInfo
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- CN107269087B CN107269087B CN201710624621.0A CN201710624621A CN107269087B CN 107269087 B CN107269087 B CN 107269087B CN 201710624621 A CN201710624621 A CN 201710624621A CN 107269087 B CN107269087 B CN 107269087B
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- wallboard
- steel pipe
- floor
- building materials
- middle layer
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Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H9/00—Buildings, groups of buildings or shelters adapted to withstand or provide protection against abnormal external influences, e.g. war-like action, earthquake or extreme climate
- E04H9/02—Buildings, groups of buildings or shelters adapted to withstand or provide protection against abnormal external influences, e.g. war-like action, earthquake or extreme climate withstanding earthquake or sinking of ground
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B28/00—Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements
- C04B28/30—Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements containing magnesium cements or similar cements
- C04B28/32—Magnesium oxychloride cements, e.g. Sorel cement
-
- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B2111/00—Mortars, concrete or artificial stone or mixtures to prepare them, characterised by specific function, property or use
- C04B2111/00474—Uses not provided for elsewhere in C04B2111/00
- C04B2111/00637—Uses not provided for elsewhere in C04B2111/00 as glue or binder for uniting building or structural materials
Abstract
The invention discloses the integrated buildings that one kind can resist high-grade earthquake, are related to integrated house field, which includes ground and prefabricated profiled wallboard and floor;It further include steel framework, steel framework includes vertical steel pipe, lateral steel pipe;It is provided with wallboard slot in ground and connects built-in fitting with steel pipe;Wallboard is inserted into wallboard slot, and sticky building materials are filled between wallboard and wallboard groove sidewall;Wallboard and floor pass through sticky building materials and bond;Steel pipe is provided in wallboard by pipe, wallboard top is provided with cast-in-place slot;Vertical steel pipe passes through steel pipe by pipe, and vertical steel pipe is connect with wallboard by the cast-in-place sticky building materials in cast-in-place slot;Vertical steel pipe top is threadedly coupled with loose flange;Vertical steel pipe positioned at bottom connect built-in fitting connection by mounting flange and fastener with steel pipe;The vertical steel pipe of remaining adjacent layer is connected by mounting flange, loose flange with fastener;Lateral steel pipe is set to above roof and both ends are connect with vertical steel pipe.
Description
Technical field
The present invention relates to integrated house fields, more particularly to a kind of integrated building that can resist high-grade earthquake.
Background technique
Integrated house also known as industrializes rapid assembling house, the various pieces structure in the house that is mainly characterized by being prefabricated in the factory
Part module, the scene of can be realized is assembled into rapidly complete house, to reduce waste of material and labor intensive operation.Integrated house
It is a kind of specialized design, standardization, modularization, generalization production are easy to removal, install convenient, convenient transport, storage just
Victory, interim or with permanent nature the house that can be repeatedly used and have enough to meet the need.Integrated house is widely used in rural resident's use
Room, villa, office, dormitory;Room is used in the large size such as traffic, water conservancy, petroleum, natural gas ground observation, field work construction;City
The temporary houses such as office, civilian placement, exhibition;Tourist district's leisure villa, chalet;Earthquake relief work and military field etc. are used
Room.
In recent years, the anti-seismic performance in house was increasingly taken seriously, the anti-seismic performance of the raising integrated house occurred at present
Mode be mainly change intermodule connection structure to improve bonding strength or connect in house with ground flexible.Above-mentioned side
Formula can improve to a certain degree the anti seismic efficiency of integrated house, but be difficult to resist high-grade earthquake;And house is higher, the number of plies compared with
When more, anti seismic efficiency is undesirable.
Summary of the invention
The invention solves a technical problem be: a kind of integrated building that can resist high-grade earthquake is provided.
In order to solve the above problem the technical solution adopted is that: can resist high-grade earthquake integrated building include ground and
Prefabricated profiled wallboard and floor;It further include steel framework, steel framework includes vertical steel pipe, lateral steel pipe and loose flange,
One end of vertical steel pipe is provided with mounting flange;It is provided with wallboard slot in ground and connects built-in fitting with steel pipe;
Wallboard is inserted into wallboard slot, and sticky building materials are filled between wallboard and wallboard groove sidewall;Wallboard and wallboard, floor and floor
And wallboard and floor pass through sticky building materials and bond;The thickness of the wallboard on upper layer is less than the thickness of the wallboard of lower layer;It is set in wallboard
The steel pipe of short transverse perforation wallboard is equipped with by pipe, wallboard top, which is provided with, passes through the corresponding cast-in-place slot in pipe position with steel pipe;
The edge of floor is provided with steel pipe corresponding with cast-in-place groove location and passes through slot;
One vertical steel pipe passes through a steel pipe by pipe, and vertical steel pipe is with wallboard by cast-in-place in the viscosity in cast-in-place slot
Building materials connection;Vertical steel pipe top in addition to the vertical steel pipe for being located at top layer is threadedly coupled with loose flange;Positioned at bottom
Vertical steel pipe connect built-in fitting connection with steel pipe by mounting flange and fastener;The vertical steel pipe of remaining adjacent layer passes through fixation
Flange, loose flange are connected with fastener, and mounting flange, loose flange and fastener, which connect, is respectively positioned on steel pipe by slot;It is horizontal
It is set to above roof to steel pipe and both ends is connect with vertical steel pipe, each vertical steel pipe is connected by lateral steel pipe;
The raw material of sticky building materials includes: magnesia 20~25%, magnesium chloride 10%~13%, stabilizer by weight ratio
0.2%~0.5%, adhesive 0.65%~0.85%, thickener 0.35%~0.55%, stalk 30%~35%, glass increasing
Strong fiber 5%~6.5%;Surplus is water.
Further, wallboard includes wallboard frame, in wallboard frame through-thickness be disposed with wallboard outer layer,
Wallboard middle layer and wallboard la m pass through sticky building materials connection between adjacent layer;Wallboard outer layer include sticky building materials and
Through-thickness is successively layered the grid cloth being arranged at intervals in sticky building materials, bamboo reinforcement, cypress item, grid cloth, cypress item, bamboo
Muscle, grid cloth;Wallboard la m includes that sticky building materials and through-thickness are successively layered and are arranged at intervals in sticky building materials
Grid cloth, cypress item, bamboo reinforcement and grid cloth;Wallboard middle layer includes middle muscle;Middle muscle is arranged along short transverse, and middle muscle will be in wallboard
Interbed is divided into wallboard middle layer interconnecting piece and the disconnected portion of wallboard middle layer;Steel pipe is located at wallboard middle layer interconnecting piece by pipe
Interior, its complementary space in wallboard middle layer interconnecting piece fills sticky building materials, is provided with multilayer cypress item in sticky building materials;In wallboard
The wallboard bracket of hollow structure, the non-company of wallboard middle layer outside sticky building materials filled-in panel bracket are provided in the disconnected portion of interbed
Socket part space.
Further, floor includes floor frame, setting there are two floor topping and is located at two buildings in floor frame
Floor middle layer between board finish passes through sticky building materials connection between adjacent layer;Floor topping includes sticky building materials and edge
Thickness direction is successively layered the grid cloth being arranged at intervals in sticky building materials, cypress item, bamboo reinforcement and grid cloth;Floor middle layer packet
Include middle muscle;Middle muscle is arranged in the width direction, and floor middle layer is divided into floor middle layer interconnecting piece and floor middle layer by middle muscle
Disconnected portion;Sticky building materials are filled in floor middle layer interconnecting piece, are provided with multilayer cypress item in sticky building materials;Floor middle layer
The floor bracket of hollow structure, the disconnected portion of floor middle layer outside sticky building materials filled floor bracket are provided in disconnected portion
Space.
Further, wallboard is corresponding with wallboard middle layer interconnecting piece position with the connection position of wallboard;Wallboard with
The connection of floor is corresponding with wallboard middle layer interconnecting piece and floor middle layer interconnecting piece position.
Further, the middle muscle of wallboard protrudes into wallboard outer layer.
Further, cypress item is arranged in the width direction in wallboard;Bamboo reinforcement is arranged along short transverse.
Further, the cypress item of the adjacent layer in wallboard middle layer interconnecting piece is perpendicular, floor middle layer interconnecting piece
The cypress item of interior adjacent layer is perpendicular.
The beneficial effects of the present invention are: 1, prefabricated panel and steel framework organically combined, wallboard, floor and steel framework
Vibration is resisted jointly, and integrated house anti-seismic performance is greatly improved.2, made using the high sticky building materials of intensity after sticky strong and solidification
For binding material, and optimize the internal structure of wallboard and floor, greatly improve wallboard and floor self-strength and
Bonding strength, to improve the anti-seismic performance of integrated house.3, wallboard and floor are according to whether to be that junction is arranged different
Internal structure, so that junction intensity is high, portion other than connected portion is light-weight, to reduce integrated house in the case where guaranteeing high-intensitive
The weight in room.4, the connection type of integrated house and ground is optimized, so that integrated house and ground bonding strength are high.5, under
And cornice sheathing thickness successively reduces, so that entire integrated house entirety anti-seismic performance is balanced, and reduces lower layer's load-bearing.
Detailed description of the invention
Fig. 1 is the structural schematic diagram that can resist the integrated building of high-grade earthquake;
Fig. 2 is wallboard and ground connection schematic diagram;
Fig. 3 is that vertical steel pipe connect built-in fitting connection schematic diagram with steel pipe;
Fig. 4 is two vertical steel pipe connection schematic diagrams;
Fig. 5 is wallboard schematic diagram of internal structure;
Fig. 6 is wallboard thickness sectional view;
Fig. 7 is wallboard outer layer thickness direction cross-sectional view;
Fig. 8 is wallboard la m thickness direction cross-sectional view;
Fig. 9 is floor schematic diagram of internal structure;
Figure 10 is floor carrier structure schematic diagram;
Figure 11 is lateral steel pipe and vertical steel pipe connection schematic diagram;
In the figure, it is marked as wallboard 1, wallboard frame 11, middle muscle 12, wallboard bracket 13, wallboard middle layer interconnecting piece 14, wallboard
The disconnected portion 15 of middle layer, wallboard outer layer 16, cypress item 161, grid cloth 162, bamboo reinforcement 163, wallboard la m 17, in wallboard
Interbed 18, steel pipe pass through pipe 19, cast-in-place slot 110, floor 2, floor frame 21, floor bracket 22, floor middle layer interconnecting piece
23, the disconnected portion 24 of floor middle layer, steel pipe connect built-in fitting 32, sticky building materials by slot 25, ground 3, wallboard slot 31, steel pipe
4, vertical steel pipe 5, mounting flange 51, lateral steel pipe 6, loose flange 7.
Specific embodiment
The present invention is further described with reference to the accompanying drawings and detailed description.
In order to provide a kind of integrated building that can resist high-grade earthquake, as shown in Figures 1 to 4: can resist high-gradely
The integrated building of shake includes ground 3 and prefabricated profiled wallboard 1 and floor 2;It further include steel framework, steel framework includes perpendicular
Steel pipe 5, lateral steel pipe 6 and loose flange 7, one end of vertical steel pipe 5 are provided with mounting flange 51;Wall is provided in ground 3
Board slot 31 connects built-in fitting 32 with steel pipe;Wallboard 1 is inserted into wallboard slot 21, and filling viscosity is built between 31 side wall of wallboard 1 and wallboard slot
Material 4;Wallboard 1 and wallboard 1, floor 2 and floor 2 and wallboard 1 and floor 2 pass through sticky building materials 4 and bond;The wallboard 1 on upper layer
Thickness is less than the thickness of the wallboard 1 of lower layer;The steel pipe that short transverse perforation wallboard 1 is provided in wallboard 1 passes through pipe 19, wallboard 1
Top, which is provided with, passes through the corresponding cast-in-place slot 110 in 19 position of pipe with steel pipe;The edge of floor 2 is provided with and cast-in-place 110 position of slot
Corresponding steel pipe passes through slot 25;One vertical steel pipe 5 passes through a steel pipe by pipe 19, and vertical steel pipe 5 passes through cast-in-place with wallboard 1
It is connected in the sticky building materials 4 in cast-in-place slot 110;5 top of vertical steel pipe and mobilization in addition to the vertical steel pipe 5 for being located at top layer
Orchid 7 is threadedly coupled;Built-in fitting 32 is connect with steel pipe by mounting flange 51 and fastener positioned at the vertical steel pipe 5 of bottom to connect;
The vertical steel pipe 5 of remaining adjacent layer is connected by mounting flange 51, loose flange 7 with fastener, mounting flange 51, loose flange
7 connect with fastener and are respectively positioned on steel pipe by slot 25;Lateral steel pipe 6 is set to above roof and both ends and vertical steel pipe 5 connect
It connects, each vertical steel pipe 5 is connected by lateral steel pipe 6;The raw material of sticky building materials 4 include: by weight ratio magnesia 20~
25%, magnesium chloride 10%~13%, stabilizer 0.2%~0.5%, adhesive 0.65%~0.85%, thickener 0.35%~
0.55%, stalk 30%~35%, fiberglass reinforcement 5%~6.5%;Surplus is water.
It is disclosed in the patent that sticky building materials 4 were applied before applicant, has been a kind of with certain fluidity, has simultaneously
The very high building material of intensity after toughness and solidification.
The integrated building of high-grade earthquake can be resisted builds that steps are as follows: A, modulating sticky building materials 4,1 He of prefabricated panel
Ground 3 is arranged in floor 2.B, vertical steel pipe 5 is connect built-in fitting 32 with steel pipe using fastener to connect, is guaranteed vertical after connecting
The position degree and verticality of steel pipe 5.C, wallboard 1 is set on vertical steel pipe 5 by steel pipe by pipe 19, then move down wallboard 1 to
It is inserted into wallboard slot 31, then with 4 filled-in panel slot 31 of sticky building materials, the sticky building materials 4 of smearing in the junction of wallboard 1 and wallboard 1, from
And by wallboard 1 and ground, wallboard 1 is connect with wallboard 1;D, sticky building materials 4 are poured in cast-in-place slot 110, by vertical steel pipe 5 and wall
Plate 1 connects;Upper loose flange 7 is connected on 5 top of vertical steel pipe again.E, on 1 top of wallboard sticky building materials 4 are smeared and by floor 2
It covers on wallboard 1, then smears sticky building materials 4 at the angle of cut that wallboard 1 and floor 2 are formed and connect wallboard 1 and floor 2, thus
Form the first layer of integrated building;Due to steel pipe by slot 25 there are vertical steel pipe 5, mounting flange 51 and loose flanges 7 simultaneously
Floor 2 is not interfered.F, vertical steel pipe 5 is connected on loose flange 7, it is same to guarantee the position degree of vertical steel pipe 5 after connecting and hang down
Straight degree.G, upper one layer of wallboard 1 is set on vertical steel pipe 5 by steel pipe by pipe 19, then move down wallboard 1 to next layer
Floor 2 contacts, then covers floor 2, and everywhere with the sticky connection of building materials 4, loose flange 7 is loaded on, to form integrated building
The second layer.H, it repeats G step and repeatedly forms the integrated building of multilayer.I, it after the last layer completion is built, is connected with lateral steel pipe 6
Vertical steel pipe 5, connection type can be as shown in figure 11, and lateral steel pipe 6 is to intersect, and each junction can be welding;Connection
Steel framework is formed after the completion.
For the ease of guarantee vertical steel pipe 5 position degree can suitably increase the diameter of the fastener hole on mounting flange 51 with
Just vertical steel pipe 5 is suitably moved.For the ease of guaranteeing the verticality of vertical steel pipe 5, can certain side under mounting flange 51 pad
Upper suitable gasket.
The specific structure of wallboard 1 is recommended as follows: wallboard 1 includes wallboard frame 11, in wallboard frame 11 through-thickness according to
It is secondary to be provided with wallboard outer layer 16, wallboard middle layer 18 and wallboard la m 17, it is connected between adjacent layer by sticky building materials 4;
Wallboard outer layer 16 includes that sticky building materials 4 and through-thickness are successively layered the grid cloth being arranged at intervals in sticky building materials 4
162, bamboo reinforcement 163, cypress item 161, grid cloth 162, cypress item 161, bamboo reinforcement 163, grid cloth 162;Wallboard la m 17 includes
Sticky building materials and through-thickness are successively layered the grid cloth 162 being arranged at intervals in sticky building materials 4, cypress item 161, bamboo reinforcement
163 and grid cloth 162;Wallboard middle layer 18 includes middle muscle 12;Middle muscle 12 is arranged along short transverse, and middle muscle 12 is by wallboard middle layer
18 are divided into wallboard middle layer interconnecting piece 14 and the disconnected portion 15 of wallboard middle layer;Steel pipe is located at wallboard middle layer company by pipe 19
In socket part 14, its complementary space in wallboard middle layer interconnecting piece 14 fills sticky building materials 4, is provided with multilayer cypress in sticky building materials 4
Batten 161;The wallboard bracket 13 of hollow structure, sticky 4 filled-in panel support of building materials are provided in the disconnected portion 15 of wallboard middle layer
Disconnected 15 space of portion of wallboard middle layer outside frame 13.
The specific structure of floor 2 is recommended as follows: floor includes floor frame 21, and there are two floors for setting in floor frame 21
Surface layer and the floor middle layer between two floor toppings are connected by sticky building materials 4 between adjacent layer;Floor topping packet
Include sticky building materials 4 and through-thickness be successively layered the grid cloth 162 being arranged at intervals in sticky building materials 4, cypress item 161,
Bamboo reinforcement 163 and grid cloth 162;Floor middle layer includes middle muscle 12;Middle muscle 12 is arranged in the width direction, and middle muscle 12 will be among floor
Layer is divided into floor middle layer interconnecting piece 23 and the disconnected portion 24 of floor middle layer;Filling viscosity in floor middle layer interconnecting piece 23
Building materials 4 are provided with multilayer cypress item 161 in sticky building materials 4;The building of hollow structure is provided in the disconnected portion 24 of floor middle layer
Board bracket 22, disconnected 24 space of portion of floor middle layer outside sticky 4 filled floor bracket 22 of building materials.
The manufacturing step of wallboard 1 is as follows: A, modulating sticky building materials 4.B, wallboard outer layer 16 is manufactured, specifically: B1, setting
Wallboard frame 11 has cast-in-place slot 110 on frame 11, and when wallboard 1 does not have window or door, frame 11 is only frame;Wallboard 1 has
When window or door, 11 flash trimming outer frame of frame further includes doorframe or window frame in frame.B2, in frame 11 doorframe or
It is laid with one layer of sticky building materials 4 except window frame, is laid with grid cloth 162 on the sticky building materials 4 of this layer, then re-lays one layer of viscosity
Building materials 4;B3, it is laid with bamboo reinforcement 163, then re-lays one layer of sticky building materials 4, sticky building materials 4 flow into the gap of bamboo reinforcement 163;
B4, it is laid with cypress item 161, then re-lays one layer of sticky building materials 4, sticky building materials 4 flow into the gap of cypress item 161;F, again
Then secondary laying grid cloth 162 re-lays one layer of sticky building materials 4;It is laid with cypress item 161 again, then re-lays one layer of viscosity
Building materials 4;It is laid with bamboo reinforcement 163 again, then re-lays one layer of sticky building materials 4;Third time is laid with grid cloth 162, then re-lays
One layer of sticky building materials 4;B5, wallboard outer layer 16 is formed after the solidification of sticky building materials 4.C, on wallboard outer layer 16 in setting
Wallboard bracket 13 is arranged in muscle 12 in the disconnected portion 15 of wallboard middle layer, and disconnected with 4 filled-in panel middle layer of sticky building materials
The remaining space in portion 15;Setting passes through pipe 19 through the steel pipe of wallboard frame 11 in wallboard middle layer interconnecting piece 14, then surplus
Multilayer viscosity building materials 4 and cypress item 161 are successively laid in complementary space.D, wallboard la m 17 is manufactured, wallboard la m 17 is manufactured
Only fewer than wallboard outer layer 16 some layers, manufacturing method are similar with the manufacturing method of wallboard outer layer 16.
The manufacturing step of floor 2 is similar with wallboard 1, and which is not described herein again.
Wallboard middle layer interconnecting piece 14 and floor middle layer interconnecting piece 23 should be according to wallboards 1 and wallboard 1 and floor 2 and wall
The link position of plate 1 is arranged;Guarantee that wallboard 1 is corresponding with wallboard middle layer 14 positions of interconnecting piece with the connection position of wallboard 1;
Wallboard 1 is corresponding with wallboard middle layer interconnecting piece 14 and floor middle layer 23 positions of interconnecting piece with the connection of floor 2.In this way
It ensure that junction has higher intensity.
For the fixed effect of muscle 12 in improving and the bending resistance of wallboard 1 is improved, the middle muscle 12 of wallboard 1 protrudes into wallboard
In outer layer 16.Middle muscle 12 can be inserted into wallboard outer layer 16 before sticky building materials 4 solidify.
In order to make 1 all directions of wallboard all have high intensity, in wallboard 1, cypress item 161 is arranged in the width direction;Bamboo reinforcement
163 are arranged along short transverse.The cypress item 161 of adjacent layer in wallboard middle layer interconnecting piece 14 is perpendicular, floor middle layer
The cypress item 161 of adjacent layer in interconnecting piece 23 is perpendicular.
Floor bracket 22 can be as shown in figure 8, be that several wooden partitions are arranged inside wooden hollow frame.Wallboard bracket 13
Small volume can be not provided with partition.
Integrated building of the invention, there is good anti seismic efficiency the number of plies is higher.
Claims (5)
1. the integrated building of high-grade earthquake can be resisted, including ground (3) and prefabricated profiled wallboard (1) and floor (2);Its
Be characterized in that: including steel framework, steel framework includes vertical steel pipe (5), lateral steel pipe (6) and loose flange (7), vertical steel
One end of pipe (5) is provided with mounting flange (51);Wallboard slot (31) is provided in ground (3), and built-in fitting (32) are connected with steel pipe;
Wallboard (1) is inserted into wallboard slot (31), and sticky building materials (4) are filled between wallboard (1) and wallboard slot (31) side wall;Wallboard (1)
Pass through sticky building materials (4) with floor (2) and wallboard (1) and floor (2) with wallboard (1), floor (2) to bond;The wallboard on upper layer
(1) thickness is less than the thickness of the wallboard (1) of lower layer;The steel pipe that short transverse perforation wallboard (1) is provided in wallboard (1) passes through
It manages (19), wallboard (1) top, which is provided with, passes through the corresponding cast-in-place slot (110) in pipe (19) position with steel pipe;The edge of floor (2) is set
It is equipped with steel pipe corresponding with cast-in-place slot (110) position and passes through slot (25);
One vertical steel pipe (5) passes through a steel pipe by pipe (19), and vertical steel pipe (5) passes through cast-in-place in cast-in-place with wallboard (1)
Sticky building materials (4) connection in slot (110);Vertical steel pipe (5) top and activity in addition to the vertical steel pipe (5) for being located at top layer
Flange (7) is threadedly coupled;Vertical steel pipe (5) positioned at bottom connect built-in fitting with steel pipe by mounting flange (51) and fastener
(32) it connects;The vertical steel pipe (5) of remaining adjacent layer is connected by mounting flange (51), loose flange (7) with fastener, fixed
Flange (51), loose flange (7) are connected with fastener is respectively positioned on steel pipe by slot (25);Lateral steel pipe (6) is set to roof
Top and both ends are connect with vertical steel pipe (5), each vertical steel pipe (5) is connected by lateral steel pipe (6);
The raw material of sticky building materials (4) includes: magnesia 20~25%, magnesium chloride 10%~13%, stabilizer by weight ratio
0.2%~0.5%, adhesive 0.65%~0.85%, thickener 0.35%~0.55%, stalk 30%~35%, glass increasing
Strong fiber 5%~6.5%;Surplus is water;
Wallboard (1) includes wallboard frame (11), wallboard frame (11) interior through-thickness be disposed with wallboard outer layer (16),
Wallboard middle layer (18) and wallboard la m (17) are connected by sticky building materials (4) between adjacent layer;Wallboard outer layer (16) packet
It includes sticky building materials (4) and through-thickness and is successively layered grid cloth (162), the bamboo reinforcement being arranged at intervals in sticky building materials (4)
(163), cypress item (161), grid cloth (162), cypress item (161), bamboo reinforcement (163), grid cloth (162);Wallboard la m
It (17) include that sticky building materials (4) and through-thickness are successively layered the grid cloth being arranged at intervals in sticky building materials (4)
(162), cypress item (161), bamboo reinforcement (163) and grid cloth (162);Wallboard middle layer (18) includes middle muscle (12);Middle muscle (12)
It is arranged along short transverse, wallboard middle layer (18) is divided into wallboard middle layer interconnecting piece (14) and wallboard middle layer by middle muscle (12)
Disconnected portion (15);Steel pipe is located in wallboard middle layer interconnecting piece (14) by managing (19), in wallboard middle layer interconnecting piece (14)
Its complementary space fill sticky building materials (4), is provided with multilayer cypress item (161) in sticky building materials (4);Wallboard middle layer is disconnected
The wallboard bracket (13) of hollow structure is provided in portion (15), among the wallboard of sticky building materials (4) filled-in panel bracket (13) outside
Disconnected portion (15) space of layer;
Floor includes floor frame (21), in floor frame (21) setting there are two floor topping and be located at two floor toppings it
Between floor middle layer, connected by sticky building materials (4) between adjacent layer;Floor topping is including sticky building materials (4) and along thickness
Degree direction is successively layered the grid cloth (162) being arranged at intervals in sticky building materials (4), cypress item (161), bamboo reinforcement (163) and net
Ge Bu (162);Floor middle layer includes middle muscle (12);Middle muscle (12) is arranged in the width direction, and middle muscle (12) is by floor middle layer
It is divided into floor middle layer interconnecting piece (23) and the disconnected portion of floor middle layer (24);Filling in floor middle layer interconnecting piece (23)
Sticky building materials (4), sticky building materials (4) are interior to be provided with multilayer cypress item (161);It is provided in the disconnected portion of floor middle layer (24)
The floor bracket (22) of hollow structure, the disconnected portion of floor middle layer (24) of sticky building materials (4) filled floor bracket (22) outside
Space.
2. the integrated building according to claim 1 for resisting high-grade earthquake, it is characterised in that: wallboard (1) and wallboard
(1) connection position is corresponding with wallboard middle layer interconnecting piece (14) position;The connection of wallboard (1) and floor (2) with
Wallboard middle layer interconnecting piece (14) is corresponding with floor middle layer interconnecting piece (23) position.
3. the integrated building according to claim 2 for resisting high-grade earthquake, it is characterised in that: the middle muscle of wallboard (1)
(12) it protrudes into wallboard outer layer (16).
4. the integrated building according to claim 3 for resisting high-grade earthquake, it is characterised in that: in wallboard (1), cypress
Item (161) is arranged in the width direction;Bamboo reinforcement (163) is arranged along short transverse.
5. the integrated building according to claim 4 for resisting high-grade earthquake, it is characterised in that: the connection of wallboard middle layer
The cypress item (161) of adjacent layer in portion (14) is perpendicular, the cypress item of the adjacent layer in floor middle layer interconnecting piece (23)
(161) perpendicular.
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CN107269087B true CN107269087B (en) | 2019-03-19 |
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Effective date of registration: 20191115 Address after: 610036 No.527, Jinzhou Road, Jinniu high tech Industrial Park, Chengdu, Sichuan Province Patentee after: Sichuan Xinghe Green Building Materials Group Co., Ltd Address before: 610036 No. 527, golden week Road, Jinniu District hi tech park, Sichuan, Chengdu Patentee before: Zhou Xinghe |