CN108301508A - A kind of assembly method of reinforced concrete frame - Google Patents

A kind of assembly method of reinforced concrete frame Download PDF

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Publication number
CN108301508A
CN108301508A CN201711474935.3A CN201711474935A CN108301508A CN 108301508 A CN108301508 A CN 108301508A CN 201711474935 A CN201711474935 A CN 201711474935A CN 108301508 A CN108301508 A CN 108301508A
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CN
China
Prior art keywords
reinforced concrete
girder
prefabricated
frame
reinforcing bar
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Pending
Application number
CN201711474935.3A
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Chinese (zh)
Inventor
李国强
王本淼
王海崴
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Hunan BDF Energy Saving Technology Co Ltd
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Hunan BDF Energy Saving Technology Co Ltd
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Priority to CN201711474935.3A priority Critical patent/CN108301508A/en
Publication of CN108301508A publication Critical patent/CN108301508A/en
Pending legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/18Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons
    • E04B1/20Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons the supporting parts consisting of concrete, e.g. reinforced concrete, or other stonelike material
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/18Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons
    • E04B1/20Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons the supporting parts consisting of concrete, e.g. reinforced concrete, or other stonelike material
    • E04B1/21Connections specially adapted therefor

Abstract

The present invention provides a kind of assembly method of reinforced concrete frame, it is characterized in that the first step makes the prefabricated components of required specifications and models in factory;Second step will make required specifications and models prefabricated components transported batchwise to erecting bed in factory;Third step binds column reinforcing bar on ground structure foundation columns position, builds up reinforced concrete combined column;Prefabricated reinforced concrete bearing body is placed in combined column upper end by the 4th step;The girder assembly side assembly that girder is directed at prefabricated reinforced concrete bearing body by the 5th step constitutes girder;6th step repeats the above steps, and simple and direct assembly connection is at reinforced concrete frame.

Description

A kind of assembly method of reinforced concrete frame
Technical field
The present invention relates to a kind of assembled architecture systems technologies, and in particular to a kind of assembly method of reinforced concrete frame.
Background technology
In order to adjust construction industry structure, construction quality is improved, Accelerating The Construction speed realizes energy conservation and environmental protection, reduces engineering Cost, country's proposition widely popularize assembled architecture, specify specific implementation plan;And it requires in reinforced concrete frame knot Extensive use in structure, reinforced concrete frame shear wall structure, steel construction and steel-concrete combined structure system specifies that China fills With formula architectural structure system and application field;But large-span steel-reinforced concrete frame structure assembled architecture ground zero, and Using common laminated floor slab and T plate superstructure technology, cause cost high, earth-free gas constrains assembled architecture industry Development.
Such as a kind of ZL200410082381.9 " hollow floor slab with small dense ribs " of inventor, hollow filling body is embedded in cast-in-situ floor Middle formation " T fonts " stress cross-section hollow layer, solves the problems, such as large span, large space, big load, is assembled architecture floor It lays a good foundation.
Again in order to promote China's housing industrialization to develop, the ZL201620408935.8 of inventor's application " build by passive type Energy saving integrated system " expands to cast-in-place concrete hollow building roof assembled architecture field by creating transition, solves Assembled arthitecutral structure globality poor, large span without bright beam, component super large, component industrialization, construction quality controllability, work efficiency and The problems such as environmental protection;These inventions, although laying the foundation for China's Process of Housing Industrialization, it is pre- that there is also long strip types Crackle, the bidirectional stress in gap when the one-way of assembled cavity plate member stress processed, two pieces of prefabricated assembled cavity plate splits The problems such as connection space of cavity floor transverse direction reinforcing bar is restricted.
In order to capture the low difficulty of steel reinforced concrete assembling building structure assembly rate, inventor applies Assembly rate, within 40% has been increased to 70% or more, has passed through state by 201710951186.2 " a kind of assembled arthitecutral structures " Family's grade experiment is checked and accepted, and safety of structure is strong and good economy performance, carries out assembled architecture for government and has played positive effect;But Beam, column, floor node are all taken at cast-in-place state, although structure safety, need a large amount of temporary support supporting beam, column, building Board member and there are many splices in Liang Yuliang, beam and column infall, bar connecting is loaded down with trivial details and cost is high.
At present, the assembled architecture of reinforced concrete frame structure also has many Ji arts Wen Ti No to have solution, causes to build Cost is high, and popularization is obstructed;Therefore, inventor is again on the basis of existing background technology self, by verification experimental verification, by beam, column, The cast-in-place concrete node region of floor, it is creative to be modified in that prefabricated reinforced concrete bearing body, enhancing shearing and resistance to flush shear force Ability, by the column of rear pouring concrete and beam stress reinforcing bar node, be dispersed in column centre and prefabricated reinforced concrete bearing body except diamond shape In the girder assembly side being arranged on the water chestnut of shape or triangle;Column steel bar stress passes through square column among prefabricated reinforced concrete bearing Crisscross beam stress reinforcing bar up extends in hole, realizes in beam, Column border node position no-reinforcing-bar connector, greatly reduces support Rod piece and assembling speed is further speeded up, assembled quality is improved, reduces project cost;Realize that strong column and weak beam pours on floor afterwards again The assembled architecture overall structure new technology of edge of a wing overlapping layers;It is reinforced concrete frame structure assembled architecture new technology system Important breakthrough, have become assembled architecture technical field innovation urgent need.
Invention content
It is an object of the invention to thoroughly solve the shearing of assembling frame Structure Beam-column node and resistance to flush shear force, reaches and carry High building quality accelerates built speed, realizes that energy conservation and environmental protection, increase assembly rate, reduction cost and structure are safe and reliable;Play wound The advantage of new assembled Building technology, the shortcomings that overcoming the prior art;Prefabricated reinforced concrete bearing body, the column of factorial praluction The prefabricated components such as frame, girder, cavity board member, stair, wallboard, after assembled in situ, then outside prefabricated reinforced concrete bearing body In node, column frame, the connection spaces rear pouring concrete such as the top flange of building floor, realize that strong column and weak beam pours floor top flange overlapping afterwards again The assembled architecture overall structure new technology of layer;Reduce a large amount of supporting bar and easy construction process;By available frame knot Structure, frame core wall structure, steel construction assembled laminated floor slab and T plate superstructure technology, transition and upgrade are a kind of band pre-manufactured steel The assembled architecture technology of muscle concrete bearing body;Reach the existing assembled arthitecutral structure technical system of optimization, overcomes existing structure A series of defects existing for technology.
Technical scheme is as follows, a kind of assembly method of reinforced concrete frame, it is characterized in that
First step:The prefabricated post frame, prefabricated reinforced concrete bearing body of specifications and models needed for being made in factory, precast main beam;It is described Prefabricated reinforced concrete bearing assumes diamond in shape shape or triangular in shape;The water chestnut of the diamond shaped sets girder assembly side;The prefabricated reinforced concrete Be square post holes among bearing;
Second step:Required specifications and models prefabricated components transported batchwise will be made to erecting bed in factory;
Third step:Column reinforcing bar is bound on ground structure foundation columns position;The binding column reinforcing bar, length are more than story height Degree;Prefabricated post frame is sleeved on outside the column reinforcing bar of binding, is poured into a mould in prefabricated post frame after correction prefabricated post frame suit location coordinate Concrete builds up reinforced concrete combined column;
Four steps:By the horizontal handling of prefabricated reinforced concrete bearing body, the post holes that will be square among prefabricated reinforced concrete bearing is directed at steel Muscle concrete combined column, and across the exposed column reinforcing bar of combined column, it is placed in combined column upper end;In adjacent combined column upper end, placement will be pre- Reinforced concrete bearing body processed;Four angles or three angles of bearing are corrected and position support;
5th step:Girder is aligned to the girder assembly side of prefabricated reinforced concrete bearing body, connects contiguous prefabricated reinforced concrete bearing body Girder assembly side girder reinforcing bar, assembly constitute girder;
6th step:It repeats the above steps, simple and direct assembly connection is at reinforced concrete frame.
Another embodiment of the present invention is to indulge girder reinforcing bar and cross among the prefabricated reinforced concrete bearing in rectangular post holes Girder reinforcing bar intersects and no-reinforcing-bar node;The girder assembly side development length >=100mm;The girder assembly side is reserved with master Beam stress bar connecting end.
Another embodiment of the present invention is the prefabricated post frame smooth outer surface, and inner surface is formed recessed by steel mesh concrete The rough surface of convex injustice;The prefabricated post frame is assemblied in the upper surface on the outside of prefabricated reinforced concrete bearing hollow part;It is described prefabricated Column reinforcing bar is connected in column frame.
Another embodiment of the present invention is that the girder assembly side is reserved with vertical or horizontal combination bolt hole;The master Beam assembly side bottom surface is reserved with baltimore groove.
Another embodiment of the present invention is that the precast main beam both ends are in inclined-plane or inclined-plane of vertically slotting;The girder two Reserve vertical bolt hole in end;Girder both ends bottom surface is reserved with baltimore groove;Steel plate connector is assembled in the baltimore groove; Precast main beam both ends reserved steel bar is using mechanical connection or slip casting connection.
Another embodiment of the present invention is the water chestnut side bottom protrusion of the prefabricated reinforced concrete bearing;Under the precast main beam Bottom protrusion;When the contiguous prefabricated reinforced concrete bearing assembling, the square tube component of the fixed specification of girder assembly end side surface faces Shi Dingwei.
Another embodiment of the present invention, which is the prefabricated reinforced concrete bearing body, precast main beam bottom surface, L shape coagulation Native protrusion.
A kind of assembly method of reinforced concrete frame of the present invention is on the basis of Architectural Structure Design drawing for level The girder and superstructure of structure, the column of vertical structure and the geometric dimension of wallboard decompose Architectural Structure Design drawing, to assembling form It carries out quantization Secondary Design or BIM processing, drawing resolves into N number of column and beam and assembled cavity board member and wall body construction etc., Factory is produced into the prefabricated member of the specifications and models by the paper organization of decomposition, by component be transported to engineering site assembly and After pour as assembled monolithic architecture.
A kind of assembly method of reinforced concrete frame of specific implementation, the first process, prefabricated diamond shaped prefabricated reinforced concrete bearing Body, prefabricated post frame, precast main beam, stair, cavity floor component and Self-insulation wall plate component or wallboard;Prefabricated post frame can be adopted With centrifugal force manufacture craft, four interior angle concretes of rectangular prefabricated post frame thicken irregular at this time, answered at four interior angles it is built-in fall water chestnut it is straight Angle internal model control in the Fang Mo of centrifugal force rotation, is placed in steel wire, it is mixed to form strip silk screen when being made of centrifugal force Coagulate the prefabricated post thin-wall frame of soil;When rectangular prefabricated post thin-wall frame using three faces it is smooth, on one side when coarse prefabricated post thin-wall frame, slightly Matte faces exterior wall, and the assembling of preformed self thermal insulation wall plate member is outer to be hung on rough surface.By prefabricated component transport after engineering site by column, The sequence assembling of bearing, beam, floor, wallboard;First column extends rectangular post holes alignment among diamond shaped prefabricated reinforced concrete bearing Column reinforcing bar, column reinforcing bar avoids crisscross girder reinforcing bar in prefabricated reinforced concrete bearing hole, and passes through post holes;Prefabricated reinforced concrete Bearing is assemblied on the capital concrete for acting on lower rear pouring concrete by prefabricated post frame, and the floor of every floor is controlled using prefabricated post frame length Highly;While every column Top assembles bearing, it is pre- to be inserted into girder assembly side with the tightening latch of the square tube of fixed specifications and models size In the bolt hole of setting, reinforced concrete bearing body mutually restrains connection temporarily with the square tube of fixed specifications and models size, measures correction After prefabricated post frame verticality and prefabricated reinforced concrete bearing body positioning accuracy, and reconnects extending column reinforcing bar and bind column reinforcing bar, it will Prefabricated post frame is sleeved on outside the column reinforcing bar bound, the pour concrete in prefabricated post frame, has both secured capital bearing, and the company of control It is continuous to extend every layer height, when placing cavity in column steel reinforcement cage, it can also form open tubular column.
Second process for reinforcement structure intensity and mitigates dead weight, and precast main beam can be used convex hollow beam, can also be used The porous hollow beam of small-bore;The two ends both ends of precast main beam are in inclined-plane or inclined-plane of vertically slotting;Reserve vertical bolt in both ends Hole;Both ends bottom surface is reserved with baltimore groove, and convenient for assembling, permanent steel plate connector is not exposed to cause following table protrusion and steel plate to connect Fitting gets rusty;Again by main cable and girder two capital bearings girder assembly side, in the prefabricated baltimore groove in girder assembly side bottom Junction steel plate is installed, by the connection of bolt hold-down support and girder of vertical bolt hole, then by the reinforcing bar of assembly side extension With girder reserved steel bar main beam stress reinforcing bar is connected into such a way that mechanical connection or slip casting connect;Connection can not also be used The process of steel plate is directly connected the reinforcing bar that assembly side extends with girder reserved steel bar by mechanical connection or slip casting;Assembly side The reinforcing bar and girder reserved steel bar of extension are propped up by four water chestnuts of bearing before mechanical connection with vertical supporting temporarily.
Third process install prefabricated hollow board member, prefabricated hollow board member by longitudinal bar concrete girt strip, cross reinforcement concrete girt strip, Cavity body, lower flange board group at;Vertical and horizontal side girt strip in cavity board member is wide between 50mm~100mm, Zong Xianghe For cross rib deck-siding between 150mm~200mm, the bottom surface of cavity board member longitudinal bar concrete girt strip has L shape concrete protrusion split, Longitudinal rib beam notch is poured after forming split, longitudinal rib reinforcement is added in notch, freely-supported cavity board member is become into continuous floor girt strip Key is notch space, while thoroughly solving the problems, such as that combinated seam cracks when two pieces of cavity plate sections again;Actually L shape The height of concrete protrusion is the depth of shallow combinated seam, and shallow seam depth is generally 30mm;In addition the split notch is that regeneration gate beam carries Connection space has been supplied, the cross rib reinforcing bar of adjacent two pieces of cavity board members has been connected using welding or mechanical connection or grouting method, Regeneration gate beam is formed, cavity board member single load bearing plate is become into a kind of assembly method floor bidirectional stress of reinforced concrete frame Plate;In order to reduce regeneration gate beam connection, also can in cavity board member girt strip preset elongated deformed bar or prestressing force Steel strand rope hole deferent;Deformed bar is sealed in the deferent of hole, post stretching is taken to apply prestressing force;Making beam and cavity plate structure When part, when assembled in situ, Reinforcement can also be changed into prestress steel twisted rope;Between the cavity of cavity board member mutually It is formed through dark air duct;For the dark air duct of fire control smoke exhausting, in order to reduce fire control smoke exhausting resistance, steel mesh with ribbing engrave in set Jiong shape again thin Wall air duct or thin plate air duct, steel mesh with ribbing engrave the end trepanning along Jiong shape thin-walled air duct, form the dark air duct in part, reduce smoke evacuation When due to entire cavity body participate in smoke evacuation caused by resistance, improve smoke discharging effect again;Cavity body in cavity board member is by band Rib steel net is engraved or fish scale steel mesh with ribbing is engraved;Again in place by cavity floor lifting component, cavity floor component is hexagon by two The bevel edge of right-angle side and two isosceles right triangles is formed;Two isosceles right triangle bevel edges are precast reinforced against diamond shaped The water chestnut side of concrete bearing body;When using there is bright girder construction, cavity floor component is assemblied in diamond shaped prefabricated reinforced concrete bearing and master The upper surface of beam bottom surface L shape concrete protrusion, diamond shaped prefabricated reinforced concrete bearing and girder bottom surface L shape concrete protrusion are considered as girder Bright beam portion position;When using without bright girder construction, when making cavity floor component, by the assembly of design convex girder lower shape The concave cavity floor component of formula cavity floor member bottom section, convex girder are combined into re-entrant cavity floor member without bright beam knot Structure.
4th process, in diamond shaped prefabricated reinforced concrete bearing, precast main beam or prefabricated post frame, cavity floor component upper limb Rear pour concrete, maintenance rear pouring concrete form removal obtain a kind of assembly method of required reinforced concrete frame again for edge and above-mentioned each space Object.Prefabricated Self-insulation wall plate is assembled on the rod rest of frame column and is decorated by the 5th process;When implementation framework core wall structure When, the connection type of girder and scheme noted earlier are essentially identical, and only girder one end is connect with triangular pedestals corner girder The girder junction port of end connection, the girder other end and Core Walls Structure connects;Girder Core Walls Structure junction port is preferably from core Heart cylinder stack shell outwardly convex 500mm or more;Diamond shape bearing is as the function of triangular pedestals, and only shape is different;Core Walls Structure Girder extend reinforcing bar and can misplace and connect on the steel plate with precast main beam reinforcing bar.
Description of the drawings
Fig. 1 is frame structure plane embodiment figure of the present invention.
Fig. 2 is diamond shaped prefabricated reinforced concrete bearing plan view of the present invention.
Fig. 3 is prefabricated post block diagram of the present invention.
Fig. 4 is the prefabricated convex beam of the present invention without bright beam floor cross section.
Fig. 5 is cavity plate member planar figure of the present invention.
Fig. 6 is that steel mesh with ribbing engraves structure chart in cavity board member of the present invention.
Specific implementation mode
The present invention is further described below in conjunction with the accompanying drawings.
Fig. 1 is frame structure plane embodiment figure of the present invention, when the present invention is implemented,
First step:Column frame 3, the diamond shaped prefabricated reinforced concrete of the Prefabricated Concrete of specifications and models needed for frame structure 1 are made in factory Bearing body 2 or triangle prefabricated reinforced concrete support body 21, precast main beam 4, precast stair, cavity floor 5 and column reinforcing bar 31;Diamond shaped Prefabricated reinforced concrete bearing body 2 includes between girder assembly side 24, the rectangular post holes 22 in bearing centre, water chestnut side 23, water chestnut 25, Liang Yuliang Reinforced concrete 26, bolt hole 27, girder junction steel plate 28, the girder cross wise reinforcement 29 among bearing in rectangular post holes 22;It again will be Factory makes required specifications and models prefabricated concrete element transported batchwise to frame structure building engineering site;
Second step:Column reinforcing bar 31 is bound on ground structure foundation columns position;It binds column reinforcing bar length and is more than story height;It will Prefabricated post frame 3 is sleeved on outside the column reinforcing bar 31 of binding, and correction prefabricated post frame 3 is set with to pour into a mould in prefabricated post frame after location coordinate and mix Solidifying soil concrete 33, builds up reinforced concrete combined column;
Third step:By the 2 horizontal handling of prefabricated reinforced concrete bearing body, be square post holes among diamond shape prefabricated reinforced concrete bearing body 2 22 alignment reinforced concrete combined columns, and across the exposed column reinforcing bar 31 of combined column, it is placed in the upper end concrete of combined column prefabricated post frame 3 On, four water chestnuts 25 of diamond shape prefabricated reinforced concrete bearing body 2 are propped up with vertical supporting bar, and girder assembly side 24 is aligned adjacent compound The water chestnut of the prefabricated reinforced concrete bearing body 2 of column upper end;Diamond shape or three angle prefabricated reinforced concrete branch are disposed in adjacent combined column upper end Pedestal 21;Girder assembly side between girder assembly side 24 and girder connecting pin 211 is overlapped temporarily with positioning square steel tube, is carried out It corrects and positions support;Girder 4 is aligned to the girder assembly side of prefabricated reinforced concrete bearing body, connects contiguous prefabricated reinforced concrete bearing The steel plate 28 of the girder assembly side girder bottom longitudinal notch of body, steel plate is solid by the screw rod in bolt hole 27, while passing through steel Muscle connector 212, which is linked and packed, constitutes girder;
Four steps:Precast stair is installed;Cavity is disposed in the reinforced concrete frame that prefabricated reinforced concrete bearing body and girder are constituted Floor member 5 connects cross rib beam steel 51 and adds longitudinal michinaga rib joist steel 52 in split slot between plate, is laid on floor thereafter Flange plate reinforcing bar 53 and holder top reinforcing bar;It repeats binding and prolongs the column reinforcing bar 31 risen, length is equal to story height, by prefabricated post Frame 3 is sleeved on outside the column reinforcing bar 31 of binding, and after correction prefabricated post frame suit location coordinate, concrete is poured into a mould in prefabricated post frame 33, build up reinforced concrete combined column;Simultaneously by split slot 54, floor top flange slab between rectangular post holes 22, girder assembly side 24, plate Muscle 52 and holder top reinforcing bar pour concrete;It repeats the above steps, simple and direct assembly is combined into a kind of reinforced concrete frame structure.Also may be used First to assemble the reinforced concrete for reassembling cavity floor component 5 after N layers of frame and pouring into a mould afterwards.
Fig. 2 is diamond shaped prefabricated reinforced concrete bearing plan view of the present invention, and diamond shaped prefabricated reinforced concrete bearing body 2 includes girder Reinforced concrete 26, bolt hole 27, girder connect between rectangular post holes 22, water chestnut side 23, water chestnut 25, Liang Yuliang among assembly side 24, bearing Connect steel plate 28, the girder cross wise reinforcement 29 among bearing in rectangular post holes 22;Diamond shape flat-die is put on a vibration table, is pacified in mold Oneself either binds 29 skeleton of girder reinforcing bar by banded good girder framework of steel reinforcement in diamond shape flat-die, in vertical girder and horizontal girder Between pour concrete 26 after setting shearing resistance reinforcing bar, constitute diamond shaped prefabricated reinforced concrete bearing 2;When as dark air duct or mitigation dead weight When, it is bound in diamond shape flat-die in 29 skeleton of girder reinforcing bar and hollow mold is set, hollow mold can be extracted out after pour concrete, also can be permanent Indwelling.23 bottom of the water chestnut side protrusion of diamond shaped prefabricated reinforced concrete bearing 2,23 bottom projection portion of water chestnut side are in assembly and empty Chamber floor member bumps are coupled, and constitute 2 or bright beam support 2 of concealed beam bearing.
Fig. 3 is prefabricated post block diagram of the present invention, and prefabricated post frame 3 can be used centrifugal force mold system and produce the prefabricated of four marginal rays cunning Column frame 3, at this time the four of centrifugal force mold system interior angle position must dispose local internal model;Also band sealing can be put on a vibration table Three face external molds and four sides internal model, the smooth prefabricated post frame 3 in three faces of production, external mold and internal model Jian Clip steel wires, inject concrete 35 And vibrating casting is at prefabricated post frame 3;The three face external molds and steel mesh with ribbing replacement four sides internal model that band sealing can also be used, outside three faces Concrete vibration is injected between mould and steel mesh with ribbing can obtain prefabricated post frame 3, and outer three faces of prefabricated post frame 3 at this time are smooth, prefabricated post frame 3 Interior four four sides is coarse, is conducive to compound with cast column concrete afterwards.
Fig. 4 is the prefabricated convex beam of the present invention without bright beam floor cross section, and the bottom width of prefabricated convex girder 4 exists Within 600mm, the height of prefabricated convex girder 4 is within 800mm;In order to mitigate weight, hollow 412 can be formed;Again with big mouth Diameter supporting rod 403 supports 4 bottom 401 of prefabricated convex beam, and when prefabricated convex beam without bright beam, cavity plate component end lower end is in recessed Shape, 4 bottom protrusion height h of prefabricated convex girder is usually most preferably 60mm within 100mm, at this time longitudinal rib beam bottom reinforcement bars end Head upwarps;4 bottom protrusion width of prefabricated convex girder is usually most preferably 150mm within 200mm, under cavity plate component end Concave size is held to be matched with beam, bumps combine, and realize without bright beam floor.
Fig. 5 is hexagonal cavities board member plan view of the present invention, and cavity board member 53 is by longitudinal girt strip 501, longitudinal edge rib Beam 502, the L shape concrete protrusion 503 of longitudinal edge rib, lateral girt strip 504, regeneration cross rib beam steel 505, end cross rib Beam 506 engraves 507, dark air hose 508 composition with diamond shaped prefabricated reinforced concrete bearing water chestnut side with edge fit 510, steel mesh with ribbing;Vertical Steel mesh with ribbing is placed in the girt strip grid of traversed by mistake and engraves 507, in order to reduce fire control smoke exhausting resistance, is increased in steel mesh with ribbing engraves 507 If the small dark air duct of plate system is penetrated through with dark air hose hole 508;Surface is equipped with hanging ring 509 and rib reinforcement reserves exposed, girt strip and lower flange Concrete or mortar are prefabricated in plate;With diamond shaped prefabricated reinforced concrete bearing water chestnut side isosceles right triangle is generally with edge fit 510 Bevel edge.
Fig. 6 is that steel mesh with ribbing engraves structure chart in cavity board member of the present invention, cavity board member at cavity steel mesh with ribbing It engraves 507 and body 515, built-in bar-mat reinforcement supporter net 516, in order to reduce fire control smoke exhausting resistance, band rib steel is engraved by steel mesh body with ribbing Net is engraved sets Jiong shape thin-walled air duct 517 or thin plate air duct again in 307;Steel mesh with ribbing is engraved 507 and is opened along the end of Jiong shape thin-walled wind 517 Hole 518 is used as fire-fighting smoke controlling air duct or solar energy air supply duct, realizes cavity floor multifunctional application.
Finally it should be noted that:The above embodiments are merely illustrative of the technical scheme of the present invention and are not intended to be limiting thereof, to the greatest extent Invention is explained in detail with reference to above-described embodiment for pipe, it should be understood by a person of ordinary skill in the art that still The specific implementation mode of the present invention can be modified or replaced equivalently, and end is detached from any of spirit and scope of the invention Modification or equivalent replacement, are intended to be within the scope of the claims of the invention.

Claims (7)

1. a kind of assembly method of reinforced concrete frame, it is characterized in that
First step:The prefabricated post frame, prefabricated reinforced concrete bearing body of specifications and models needed for being made in factory, precast main beam;It is described Prefabricated reinforced concrete bearing assumes diamond in shape shape or triangular in shape;The water chestnut of the diamond shaped sets girder assembly side;The prefabricated reinforced concrete Be square post holes among bearing;
Second step:Required specifications and models prefabricated components transported batchwise will be made to erecting bed in factory;
Third step:Column reinforcing bar is bound on ground structure foundation columns position;The binding column reinforcing bar, length are more than story height Degree;Prefabricated post frame is sleeved on outside the column reinforcing bar of binding, is poured into a mould in prefabricated post frame after correction prefabricated post frame suit location coordinate Concrete builds up reinforced concrete combined column;
Four steps:By the horizontal handling of prefabricated reinforced concrete bearing body, the post holes that will be square among prefabricated reinforced concrete bearing is directed at steel Muscle concrete combined column, and across the exposed column reinforcing bar of combined column, it is placed in combined column upper end;In adjacent combined column upper end, placement will be pre- Reinforced concrete bearing body processed;Four angles or three angles of bearing are corrected and position support;
5th step:Girder is aligned to the girder assembly side of prefabricated reinforced concrete bearing body, connects contiguous prefabricated reinforced concrete bearing body Girder assembly side girder reinforcing bar, assembly constitute girder;
6th step:It repeats the above steps, simple and direct assembly connection is at reinforced concrete frame.
2. a kind of assembly method of reinforced concrete frame as described in claim 1, spy are in the prefabricated reinforced concrete bearing Between girder reinforcing bar is indulged in rectangular post holes and horizontal girder reinforcing bar intersects and no-reinforcing-bar node;The girder assembly side development length >= 100mm;The girder assembly side is reserved with main beam stress bar connecting end.
3. a kind of assembly method of reinforced concrete frame as described in claim 1, it is characterised in that prefabricated post outer frame surface Smooth, inner surface forms rough rough surface by steel mesh concrete;The prefabricated post frame is assemblied in prefabricated reinforced concrete bearing Upper surface on the outside of hollow part;It is connected with column reinforcing bar in the prefabricated post frame.
4. a kind of assembly method of reinforced concrete frame as described in claim 1, it is characterised in that the girder assembly side is reserved There is vertical or horizontal combination bolt hole;The girder assembly side bottom surface is reserved with baltimore groove.
5. a kind of assembly method of reinforced concrete frame as described in claim 1, it is characterised in that the precast main beam both ends are in Inclined-plane or inclined-plane of vertically slotting;Reserve vertical bolt hole in the girder both ends;Girder both ends bottom surface is reserved with baltimore groove; Steel plate connector is assembled in the baltimore groove;Precast main beam both ends reserved steel bar is using mechanical connection or slip casting connection.
6. a kind of assembly method of reinforced concrete frame as described in claim 1, it is characterised in that the prefabricated reinforced concrete bearing Water chestnut side bottom protrusion;Precast main beam bottom protrusion;When the contiguous prefabricated reinforced concrete bearing assembling, girder assembles end side Face is positioned temporarily with the square tube component of fixed specification.
7. a kind of assembly method of reinforced concrete frame as described in claim 1, it is characterised in that the prefabricated reinforced concrete bearing Body, precast main beam bottom surface have L shape concrete raised.
CN201711474935.3A 2017-12-29 2017-12-29 A kind of assembly method of reinforced concrete frame Pending CN108301508A (en)

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3918222A (en) * 1974-06-03 1975-11-11 Bahram Bahramian Prefabricated modular flooring and roofing system
US4333285A (en) * 1977-01-20 1982-06-08 Kajima Kensetsu Kabushiki Kaisha Building structure

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3918222A (en) * 1974-06-03 1975-11-11 Bahram Bahramian Prefabricated modular flooring and roofing system
US4333285A (en) * 1977-01-20 1982-06-08 Kajima Kensetsu Kabushiki Kaisha Building structure

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Application publication date: 20180720