CN209620275U - A kind of prefabricated steel column node connecting structure of assembled architecture - Google Patents
A kind of prefabricated steel column node connecting structure of assembled architecture Download PDFInfo
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- CN209620275U CN209620275U CN201920262652.0U CN201920262652U CN209620275U CN 209620275 U CN209620275 U CN 209620275U CN 201920262652 U CN201920262652 U CN 201920262652U CN 209620275 U CN209620275 U CN 209620275U
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Abstract
The utility model discloses a kind of prefabricated steel column node connecting structures of assembled architecture, including prefabricated steel column and precast beam;The prefabricated steel column includes N layers of prefabricated steel column and N+1 layers of prefabricated steel column;The N layers of prefabricated steel column and N+1 layers of prefabricated steel column include concrete column, fashioned iron, column vertical reinforcement and the steel buried plate of rectangle;Region between the N layers of prefabricated steel column and N+1 layers of prefabricated steel column, precast beam is node point connection zone;The node point connection zone includes nucleus and node region;The nucleus and the successive pouring molding of node region;The fashioned iron and steel buried plate of the N layers of prefabricated fashioned iron and N+1 layers of prefabricated fashioned iron are correspondingly arranged and are welded as a whole in node region.The connecting node position of the prefabricated steel column of adjacent two layers since the nucleus that precast beam joins is improved to more than nucleus, is solved the problems, such as prefabricated steel column constructional difficulties in the hinged nucleus of precast beam by the utility model.
Description
Technical field
The utility model relates to assembled architecture technical fields, and in particular to a kind of prefabricated steel column node of assembled architecture
Connection structure.
Background technique
In the development process of building trade, assembled architecture with more and more extensive.Traditional profile steel concrete column
Section steel connecting node be beam and column handover core space.If the section steel connecting node of the prefabricated steel column of assembled architecture is still
So there are many reinforcing bar in length and breadth for beam column in the core space of precast beam handover, have both been unfavorable for prefabrication type steel column welding procedure, have also been unfavorable for
The stability of prefabricated steel column installation process can not finally embody the construction advantage of assembled architecture.
Utility model content
The utility model is directed to the prior art, provides a kind of prefabricated steel column node connecting structure of assembled architecture, will
The connecting node position of the prefabricated steel column of adjacent two layers since the nucleus that precast beam joins is improved to more than nucleus,
Solve the problems, such as prefabricated steel column constructional difficulties in the hinged nucleus of precast beam.
The utility model is achieved through the following technical solutions: a kind of prefabricated steel column node connection knot of assembled architecture
Structure including prefabricated steel column and rides upon the precast beam on the four edges of prefabricated steel column upper end;The prefabricated steel column includes perpendicular
The prefabricated steel column of N layer that is directly arranged and above N layers of prefabricated steel column and the N+1 layer that connect with N layers of prefabricated steel column is prefabricated
Steel column.
The N layers of prefabricated steel column includes the N layer concrete cylinder of rectangle, the N stratotype positioned at N layer concrete cylinder center
Steel, more N layers of column vertical reinforcement positioned at four angles of N layer concrete cylinder, the N layer steel positioned at N layer concrete cylinder one side
Buried plate;N layers of column vertical reinforcement and N stratotype steel are pierced by the upper surface of N layer concrete cylinder and are higher than the upper surface of precast beam;Institute
Stating N+1 layers of prefabricated steel column includes the N+1 layer concrete cylinder of rectangle, the N+1 stratotype positioned at N+1 layer concrete cylinder center
Steel, positioned at the more N layers of column vertical reinforcement at four angles of N+1 layer concrete cylinder, positioned at the N+ of N+1 layer concrete cylinder one side
1 layer of steel buried plate;N+1 stratotype steel and N+1 layers of steel buried plate are pierced by the lower end surface of N+1 layer concrete cylinder.
Region between the N layers of prefabricated steel column and N+1 layers of prefabricated steel column, precast beam is node point connection zone;Institute
Stating node point connection zone includes the nucleus and N+1 layer concrete cylinder lower end surface that precast beam and N layers of prefabricated steel column surround
To the cylindrical node region of precast beam upper surface;The nucleus and the successive pouring molding of node region;The N stratotype steel
It is correspondingly arranged and is welded as a whole with N+1 stratotype steel, the N layers of steel buried plate and N+1 layers of steel buried plate are correspondingly arranged and are welded as one
Body;
The N is the positive integer more than or equal to 1.
The nucleus and node region gradation pouring molding, nucleus elder generation pouring molding make precast beam and N
The prefabricated steel column of layer is connected as one, and improves the self stability during node region construction casting, keeps it safe and reliable, has
Effect solves precast beam before connecting node pours completion, is used to support the steel tube fastener supporting frame and prefabrication type of precast beam
Concern, precast beam, the superimposed sheet between precast beam do not form reliable overall structure, lead to asking for stability difference
Topic.
Further, the N+1 stratotype steel stretches out the N+1 layer concrete cylinder lower end surface 400mm;The N stratotype steel
Floor absolute altitude 400mm where stretching out N layers of coagulation scapus body upper surface and being higher by precast beam.
Further, the diameter of the N layers of column vertical reinforcement is d;The N layers of column vertical reinforcement is higher by where precast beam
Floor absolute altitude 800mm+8d;Closely knit for N+1 layers of grout sleeve connection grouting behind shaft or drift lining, i.e. N layers of column vertical reinforcement protrudes into N+1 layers of grouting
The length of sleeve is 8d.
Further, the N+1 layers of steel buried plate extends downwardly concrete column lower end surface 800mm.
Further, the N+1 layers of steel buried plate stretching N+1 layer concrete cylinder lower end surface part is welded with multiple phases
Mutually parallel U-shaped stirrup, the U-shaped stirrup and the N+1 layers of steel form surround the ring that can be set on the outside of N layers of column vertical reinforcement
Shape region;The N layers of prefabricated steel column and N+1 layers of prefabricated steel column and precast beam are connected as one by poured in place concrete.
Further, the length that the N layers of column vertical reinforcement is higher than the upper surface of N layer concrete cylinder is greater than N stratotype steel
Higher than the length of N layer concrete cylinder upper surface.The N+1 layers of prefabricated steel column further includes being embedded in N+1 layer concrete cylinder
Multiple vertically arranged N+1 layer grout sleeves at the angle of lower end four;The N layers of prefabricated steel column further includes being embedded in N layers of coagulation
Multiple vertically arranged N layer grout sleeves at the angle of earth pillar body lower end four;The N layers of column vertical reinforcement and N+1 layers of grout sleeve
Setting is corresponded, and the N layers of column vertical reinforcement is protruded into N+1 layers of grout sleeve and connect with N+1 layers of grout sleeve;It is described
N+1 layers of grout sleeve are closely knit using grouting material slip casting.
Further, the node region is closed using node template, the node region using pea gravel concreten or
Grouting material filling is closely knit.
Further, the node template side is provided with the dustpan for pouring pea gravel concreten or high-strength grout
The dustpan mouth of shape injects in node template convenient for pea gravel concreten or grouting material, convenient for pouring.
Further, it is provided with the precast beam reinforced bar extended along precast beam in the precast beam, rides upon prefabricated fashioned iron
The precast beam reinforced bar of four precast beams on four side of column avoids the precast beam reinforced bar of precast beam from existing in node point connection zone staggered cross
Nucleus interferes with each other.
The utility model compared with prior art, have the following advantages that and the utility model has the advantages that
(1) the prefabricated steel column node connecting structure of a kind of assembled architecture provided by the utility model, by adjacent two layers
The connecting node position of prefabricated steel column improved to more than nucleus due to the nucleus that precast beam joins, effectively solve
Prefabricated steel column the problem of constructional difficulties, is avoided since precast beam reinforced bar is in core in the nucleus that precast beam joins
Caused by the problems such as region intersection, column vertical reinforcement, small nucleus space in nucleus contiguous prefabricated steel column type
This problem of steel welding difficulty.
(2) the prefabricated steel column node connecting structure of a kind of assembled architecture provided by the utility model, the core space
Pouring molding, nucleus elder generation pouring molding connect precast beam with N layers of prefabricated steel column in two times for domain and node region
It is integrated, improves the self stability during node region construction casting, keep it safe and reliable, efficiently solve precast beam and exist
Before connecting node pours completion, it is used to support the steel tube fastener supporting frame of precast beam and prefabrication type concern, precast beam, is located at
Superimposed sheet between precast beam does not form reliable overall structure, leads to the problem of stability difference.
Detailed description of the invention
Fig. 1 is N layers of prefabricated steel column and precast beam mounting structure schematic diagram in the present invention;
Fig. 2 is prefabricated steel column top view in Fig. 1 in the present invention;
Fig. 3 is superimposed sheet scheme of installation in the present invention;
Fig. 4 is that beam-column of the present invention handover core space coagulation pours figure;
Fig. 5 is N+1 layers of prefabricated steel column installation diagram in the present invention;
Fig. 6 is N+1 stratotype steel column lower end structure schematic diagram in Fig. 5 in the present invention;
Fig. 7 is the node template scheme of installation that dustpan mouth is reserved in the present invention;
Prefabricated steel column node concrete pours figure in Fig. 8 present invention;
N+1 layers of column vertical reinforcement and N layers of column Vertical bar connection structural schematic diagram in Fig. 9 present invention;
Wherein 1-N layers of prefabricated steel column, 2-N+1 layers of prefabricated steel column, 3-steel tube fastener support frames, 4-precast beams,
5-superimposed sheets, 61-N stratotype steel, 62-N+1 stratotype steel, 71-N layer concrete cylinders, 72-N+1 layer concrete cylinders,
81-N layers of steel buried plate, 82-N+1 layers of steel buried plate, 9-U-shaped stirrups, 10-N+1 layers of grout sleeve, 11-precast beam reinforced bars,
121-N layers of column vertical reinforcement, 122-N+1 layers of column vertical reinforcement, 13-node templates, 14-dustpan mouths, 15-nucleus,
16-node regions.
Specific embodiment
The present invention is described in further detail below with reference to embodiment, embodiments of the present invention are not limited thereto.
In the present invention, the precast beam 4 and the erection of prefabricated steel column surrounding are used to support precast beam 4 and prefabrication type
The steel tube fastener support frame 3 of steel column;It is provided with superimposed sheet 5 between described adjacent and orthogonal precast beam 4, as floor.
The precast beam 4 is horizontally disposed, and the prefabricated steel column is vertically arranged.
As shown in Fig. 1 ~ 9, a kind of prefabricated steel column node connecting structure of assembled architecture, including prefabricated steel column and set up
Precast beam 4 on the four edges of prefabricated steel column upper end;The prefabricated steel column includes the prefabricated steel column 1 of N layer being vertically arranged
Be located at the prefabricated steel column 2 of N+1 layer connecting above N layer prefabricated steel column 1 and with N layers of prefabricated steel column 1.
The N layers of prefabricated steel column 1 includes the N layer concrete cylinder 71 of rectangle, positioned at 71 center of N layer concrete cylinder
N stratotype steel 61, positioned at 71 4 angles of N layer concrete cylinder more N layers of column vertical reinforcement 121, be located at N layer concrete cylinder 71
The N layer steel buried plate 81 of one side;N layers of column vertical reinforcement 121 and N stratotype steel 61 are pierced by the upper surface of N layer concrete cylinder 71
And it is higher than the upper surface of precast beam 4;The N+1 layers of prefabricated steel column 2 includes the N+1 layer concrete cylinder 72 of rectangle, is located at N+1
The N+1 stratotype steel 62 at 72 center of layer concrete cylinder, more N layers of column vertical steel positioned at 72 4 angles of N+1 layer concrete cylinder
Muscle 121, the N+1 layer steel buried plate 82 positioned at 72 one side of N+1 layer concrete cylinder;N+1 stratotype steel 62 and N+1 layers of steel buried plate 82 are equal
It is pierced by the lower end surface of N+1 layer concrete cylinder 72.
Region between the N layers of prefabricated steel column 1 and N+1 layers of prefabricated steel column 2, precast beam 4 is node point connection zone;
The node point connection zone includes the nucleus and N+1 layer concrete cylinder 72 that precast beam 4 and N layers of prefabricated steel column 1 surround
Cylindrical node region of the lower end surface to 4 upper surface of precast beam;The nucleus and the successive pouring molding of node region;It is described
N stratotype steel 61 is correspondingly arranged and is welded as a whole with N+1 stratotype steel 62, and the N layers of steel buried plate 81 is corresponding with N+1 layers of steel buried plate 82
It is arranged and is welded as a whole;
The N is the positive integer more than or equal to 1.
N layer column vertical reinforcement 121 in the N layer concrete cylinder 71 stretches out the length of 71 upper end of N layer concrete cylinder
Greater than the length of N stratotype steel 61;The N+1 layers of prefabricated steel column 2 further includes being embedded in 72 lower end of N+1 layer concrete cylinder four
Multiple vertically arranged N+1 layer grout sleeves 10 at angle;The N layers of prefabricated steel column 1 further includes being embedded in N layer concrete cylinder
Multiple vertically arranged N layer grout sleeves of 71 angle of lower ends four;The N layers of column vertical reinforcement 121 and N+1 layers of grout sleeve 10
Setting is corresponded, and the N layers of column vertical reinforcement 121 protrudes into N+1 layers of grout sleeve 10 and connect with N+1 layers of grout sleeve 10
It connects;The N+1 layers of grout sleeve 10 is closely knit using grouting material slip casting.
The corresponding top for being vertically arranged in N layers of prefabricated steel column 1 of N+1 layers of prefabricated steel column 2, makes N+1 fashioned iron and N layers
Fashioned iron 61 is point-blank.Preferably, the column vertical reinforcement of described N+1 layers prefabricated steel column 2 and N layers of prefabricated steel column 1 exists
Rectangular triangular arranged on each angle.
16 gradation pouring molding of the nucleus 15 and node region, the first pouring molding of the nucleus 15, makes pre-
Beam 4 processed and N layers of prefabricated steel column 1 are connected as one, and are improved the self stability during 16 construction casting of node region, are made it
Securely and reliably, precast beam 4 is efficiently solved before connecting node pours completion, is used to support the steel tube fastener branch of precast beam 4
Support 3 and prefabricated steel column, precast beam 4, the superimposed sheet 5 between precast beam 4 do not form reliable overall structure, lead
The problem of uniform stability difference.
N+1 layers of steel buried plate 82 stretch out on the part of 72 lower end surface of N+1 layer concrete cylinder be welded with it is multiple mutually flat
Capable U-shaped stirrup 9, the U-shaped stirrup 9 is surrounded with the N+1 layers of steel form can be set in 121 outside of N layers of column vertical reinforcement
Annular region;The N layers of prefabricated steel column 1 and N+1 layers of prefabricated steel column 2 are connect with precast beam 4 by poured in place concrete
It is integrated, i.e., the described N layer concrete cylinder 71, N layers of column vertical reinforcement 121, U-shaped stirrup 9, N+1 layers of column vertical reinforcement 122, N+1
Layer concrete cylinder 72 is connected as one with precast beam 4 by poured in place concrete.
The node region 16 is closed using node template 13, and the node region 16 uses pea gravel concreten or grouting
Material filling is closely knit.The node template 13 is located at 10 lower section of N+1 layers of grout sleeve, and node template 13 is first closed node region
16, it is located at the junction of N stratotype steel 61 and N+1 stratotype steel 62 in 13 closed area of node template, but N layers of column vertical reinforcement
The tie point of 121 and N+1 layers of column vertical reinforcement 122 not in the closed area of node template 13, using pea gravel concreten or
The filling of person's grouting material is closely knit, then by N+ outside the tie point for being set in N layers of column vertical reinforcement 121 and N+1 layers of column vertical reinforcement 122
The grouting of 1 layer of grout sleeve 10 pours closely knit, closes entire node region 16, obtains the connecting node for pouring completion.
13 side of node template is provided with winnowing with a dustpan for the dustpan shape for pouring pea gravel concreten or high-strength grout
Dustpan mouth 14 injects in node template 13 convenient for pea gravel concreten or grouting material, convenient for pouring.
It is provided with the precast beam reinforced bar 11 extended along precast beam 4 in the precast beam 4, rides upon prefabricated four side of steel column
Four precast beams 4 precast beam reinforced bar 11 in node point connection zone staggered cross, avoid the precast beam reinforced bar 11 of precast beam 4 from existing
Nucleus 15 interferes with each other.
The construction method of the prefabricated steel column node connecting structure of assembled architecture described in the utility model, including following step
It is rapid:
S1: drawing prefabricated steel column drawing, and marks the type steel model of prefabricated steel column, fashioned iron height, concrete section
Highly, column vertical reinforcement model and length, grout sleeve model, steel buried plate size etc., and it is prefabricated according to prefabricated steel column drawing
Produce prefabricated steel column, grout sleeve, steel buried plate etc.;
S2: N layers of prefabricated steel column 1 of lifting;Steel tube fastener support frame 3 is set up along N layers of prefabricated steel column 1;By 4 He of precast beam
Superimposed sheet 5 is mounted on steel tube fastener support frame 3, and the both ends of precast beam 4 is made to ride over left and right or adjacent two N in front and back respectively
On the side of the upper end of the prefabricated steel column 1 of layer;
S3: concreting is carried out to nucleus 15 using concrete;
S4: N+1 layers of prefabricated steel column 2 of lifting set N+1 layers of prefabricated steel column 2 and N layers of prefabricated about 1 steel column correspondence
It sets, N stratotype steel 61 and N+1 stratotype steel 62 are on one wire;N layers of steel buried plate 81 and N+1 layers of steel buried plate 82 are corresponding same vertical
Plane on;
S5: welding multiple U-shaped stirrups 9 being parallel to each other on the steel buried plate for stretching out 72 lower end surface of N+1 layer concrete cylinder,
The annular that the U-shaped stirrup 9 is formed with N+1 layers of steel buried plate 82 is set on N layers of 121 lateral surface of column vertical reinforcement;
S6: installation node template 13, and it is closely knit to use pea gravel concreten or high-strength grout to be filled;
S7: the N+1 layer grout sleeve of prefabricated installation between 72 lower end surface of node template 13 and N+1 layer concrete cylinder
10, slip casting is closely knit, completes the construction of the prefabricated steel column node connecting structure of assembled architecture.
In step s 4, since the N+1 layer steel buried plate 82 of N+1 layers of prefabricated 2 lower end of steel column is more than N+1 layer concrete main body
Lower end surface, to prevent N+1 layers of steel buried plate 82 from deforming in prefabricated steel column hoisting process, hanging device needs can carry out level
Lifting can also be lifted vertically, and level lifting can be changed to vertically lift.According to lifting weight, radius, height,
31 heavy industry STC1000c autocranes can be selected in hanging device.
In construction, the N+1 stratotype steel 62 stretches out the 72 lower end surface 400mm of N+1 layer concrete cylinder;The N stratotype
Steel 61 stretches out 71 upper surface of N layer concrete cylinder and is higher by 4 place floor absolute altitude 400mm of precast beam.
The diameter of the N layers of column vertical reinforcement 121 is d;The N floor column vertical reinforcement 121 is higher by 4 place building of precast beam
Layer absolute altitude 800mm+8d;Closely knit for the N+1 layers of connection grouting behind shaft or drift lining of grout sleeves 10, i.e. N layers of column vertical reinforcement protrudes into N+1 layers of grouting
The length of sleeve is 8d.
The N+1 layers of steel buried plate 82 extends downwardly 72 lower end surface 800mm of N+1 layer concrete cylinder.
The above is only the preferred embodiment of the utility model, not does limit in any form to the utility model
System, any simple modification made by the above technical examples according to the technical essence of the present invention, equivalent variations, each falls within
Within the protection scope of the utility model.
Claims (9)
1. a kind of prefabricated steel column node connecting structure of assembled architecture, including prefabricated steel column and ride upon on prefabricated steel column
Hold the precast beam (4) on four edges;It is characterized by:
The prefabricated steel column include the prefabricated steel column of N layer (1) being vertically arranged and be located at N layer prefabricated steel columns (1) top and
The prefabricated steel column of N+1 layer (2) being connect with N layers of prefabricated steel column (1);
The N layers of prefabricated steel column (1) includes the N layer concrete cylinder (71) of rectangle, is located at N layer concrete cylinder (71) center
N stratotype steel (61), be located at (71) four angles of N layer concrete cylinder more N layer column vertical reinforcement (121), positioned at N layers of coagulation
The N layer steel buried plate (81) of earth pillar body (71) one side;N layers of column vertical reinforcement (121) and N stratotype steel (61) are pierced by N layers of coagulation
The upper surface of earth pillar body (71) and the upper surface for being higher than precast beam (4);
The N+1 layers of prefabricated steel column (2) includes the N+1 layer concrete cylinder (72) of rectangle, is located at N+1 layer concrete cylinder
(72) the N+1 stratotype steel (62) at center, more N layers of column vertical reinforcement positioned at (72) four angles of N+1 layer concrete cylinder
(121), it is located at the N+1 layer steel buried plate (82) of N+1 layer concrete cylinder (72) one side;N+1 stratotype steel (62) and N+1 layers of steel bury
Plate (82) is pierced by the lower end surface of N+1 layer concrete cylinder (72);
Region between the N layers of prefabricated steel column (1) and N+1 layers of prefabricated steel column (2), precast beam (4) is node bonding pad
Domain;The node point connection zone includes precast beam (4) and N layers of prefabricated steel column (1) surround nucleus (15) and N+1 layers it is mixed
Cylindrical node region (16) of solidifying earth pillar body (72) lower end surface to precast beam (4) upper surface;The nucleus (15) and section
Point region (16) successive pouring molding;
N stratotype steel (61) is correspondingly arranged and is welded as a whole with N+1 stratotype steel (62), the N layers of steel buried plate (81) and N+1 layers of steel
Buried plate (82) is correspondingly arranged and is welded as a whole;
The N is the positive integer more than or equal to 1.
2. the prefabricated steel column node connecting structure of a kind of assembled architecture according to claim 1, it is characterised in that: described
N+1 stratotype steel (62) stretches out N+1 layer concrete cylinder (72) the lower end surface 400mm;The N stratotype steel (61) stretches out the N
Layer concrete cylinder (71) upper surface and it is higher by floor absolute altitude 400mm where precast beam (4).
3. the prefabricated steel column node connecting structure of a kind of assembled architecture according to claim 2, it is characterised in that: described
The diameter of N layers of column vertical reinforcement (121) is d;The N layers of column vertical reinforcement (121) is higher by floor absolute altitude where precast beam (4)
800mm+8d。
4. the prefabricated steel column node connecting structure of a kind of assembled architecture according to claim 3, it is characterised in that: described
N+1 layers of steel buried plate (82) extend downwardly N+1 layer concrete cylinder (72) lower end surface 800mm.
5. the prefabricated steel column node connecting structure of described in any item a kind of assembled architectures according to claim 1 ~ 4, feature
Be: the part that N+1 layers of steel buried plate (82) stretch out N+1 layer concrete cylinder (72) lower end surface is welded with multiple mutually flat
Capable U-shaped stirrup (9), the U-shaped stirrup (9) and the N+1 layers of steel form, which surround, can be set in N layers of column vertical reinforcement (121)
The annular region in outside;The N layers of prefabricated steel column (1) and N+1 layers of prefabricated steel column (2) are poured with precast beam (4) by scene
Concrete is built to be connected as one.
6. the prefabricated steel column node connecting structure of a kind of assembled architecture according to claim 5, it is characterised in that: described
N+1 layers of prefabricated steel column (2) further include the multiple vertically arranged N+ for being embedded in N+1 layer concrete cylinder (72) lower end four angle
1 layer of grout sleeve (10);The N layers of prefabricated steel column (1) further includes being embedded in N layer concrete cylinder (71) lower end four angle
Multiple vertically arranged N layer grout sleeves;The N layers of column vertical reinforcement (121) corresponds with N+1 layers of grout sleeve (10)
Setting, and the N layers of column vertical reinforcement (121) is protruded into N+1 layers of grout sleeve (10) and is connect with N+1 layers of grout sleeve (10);
The N+1 layers of grout sleeve (10) is closely knit using grouting material slip casting.
7. the prefabricated steel column node connecting structure of a kind of assembled architecture according to claim 5, it is characterised in that: described
Node region (16) is closed using node template (13), and the node region (16) is filled using pea gravel concreten or grouting material
It is closely knit.
8. the prefabricated steel column node connecting structure of a kind of assembled architecture according to claim 7, it is characterised in that: described
Node template (13) side is provided with the dustpan mouth (14) of the dustpan shape for pouring pea gravel concreten or high-strength grout.
9. a kind of according to claim 1 ~ 4,6 ~ 8 described in any item prefabricated steel column node connecting structures of assembled architecture,
It is characterized in that: being provided with the precast beam reinforced bar (11) extended along precast beam (4) in the precast beam (4), ride upon prefabrication type
The precast beam reinforced bar (11) of four precast beams (4) on four side of steel column is in node point connection zone staggered cross.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109680811A (en) * | 2019-03-01 | 2019-04-26 | 中建四局第三建筑工程有限公司 | A kind of prefabricated steel column node connecting structure of assembled architecture and its construction method |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109680811A (en) * | 2019-03-01 | 2019-04-26 | 中建四局第三建筑工程有限公司 | A kind of prefabricated steel column node connecting structure of assembled architecture and its construction method |
CN109680811B (en) * | 2019-03-01 | 2024-05-28 | 中建四局第三建筑工程有限公司 | Prefabricated steel column node connection structure for assembled building and construction method thereof |
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Address after: Beijing road 563000 in Guizhou province Zunyi city Honghuagang District No. 57 Patentee after: The Third Construction Co.,Ltd. of China Construction Fourth Engineering Bureau Address before: Beijing road 563000 in Guizhou province Zunyi city Honghuagang District No. 57 Patentee before: THE THIRD CONSTRUCTION & ENGINEERING CO. OF CCFED |
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Granted publication date: 20191112 |