KR101766807B1 - the rigid connection structure between precast concrete column and precast concrete girder and the rigid connection structure between precast concrete girder and precast concrete beam using the plate, the modular system using the same - Google Patents
the rigid connection structure between precast concrete column and precast concrete girder and the rigid connection structure between precast concrete girder and precast concrete beam using the plate, the modular system using the same Download PDFInfo
- Publication number
- KR101766807B1 KR101766807B1 KR1020150131737A KR20150131737A KR101766807B1 KR 101766807 B1 KR101766807 B1 KR 101766807B1 KR 1020150131737 A KR1020150131737 A KR 1020150131737A KR 20150131737 A KR20150131737 A KR 20150131737A KR 101766807 B1 KR101766807 B1 KR 101766807B1
- Authority
- KR
- South Korea
- Prior art keywords
- column
- plate
- fastening hole
- delete delete
- connection plate
- Prior art date
Links
Images
Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/18—Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons
- E04B1/30—Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons the supporting parts being composed of two or more materials; Composite steel and concrete constructions
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/18—Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons
- E04B1/20—Structures comprising elongated load-supporting parts, e.g. columns, girders, skeletons the supporting parts consisting of concrete, e.g. reinforced concrete, or other stonelike material
- E04B1/21—Connections specially adapted therefor
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/38—Connections for building structures in general
- E04B1/58—Connections for building structures in general of bar-shaped building elements
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Joining Of Building Structures In Genera (AREA)
Abstract
The present invention relates to a method for rapidly and firmly coupling a PC beam 200 to a vertically installed PC column 100 with a small force,
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof;
The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, Characterized in that a larger beam plate (220) is installed,
The PC plate 200 is lifted so that the column plate fastening holes 224 are lowered to conform to the beam plate fastening holes 124 so that the column plate fastening holes 224 and the beam plate fastening holes 124 are integrally formed After tightening with bolts (B)
One end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122,
And the compensating part reinforcing bar 500 is joined to the other end of the compensating part end reinforcing bar 400 by a reinforcing steel bar, wherein the PC column-PC reinforcing steel jointing structure and the PC girder- To provide a modular system.
Description
The present invention relates to a PC column-to-PC beam splicing structure and a PC girder-PC beam splice splicing structure that utilize a plate having improved masonry joining method by improving the joining portion between column and beam, Modular system.
In recent years, the use of PC (precast concrete) method has been increasing in order to secure workability and to save air.
Conventional PC method is mainly used for (1) simple installation of PC beams on PC columns, and (2) construction of PC columns and PC beams in one body.
(1) The method of simply mounting the PC beam on the PC column,
Although the air is somewhat reduced as one of the currently used methods, when a lateral force such as an earthquake acts, the column-to-beam connection is simply connected, and the moment can not be transmitted. Therefore, it is necessary to install a shear wall, brace, etc., which is a lateral reinforcement means, so that it is inevitable to increase the construction cost and air without meeting the merit of the PC method planned for air saving.
In addition, the collision with the crane caused by the collision of the PC with the PC mounted on the PC column may lead to the collapse of the column - beam connection due to the collapse of many PC members.
The above-mentioned (2) method of integrally installing the PC column -PC beam member,
The use of concrete in the large-scale logistics structures is limited due to the possibility of structural instability during the air delay and curing period due to concrete curing. Therefore, the use of high - rise structures is limited due to the possibility of structural instability in column - beam connections.
In order to solve the drawbacks of the conventional PC method,
Recently, the researcher of the "PC method of moment joint method" has actively carried out, but it is not widely used especially in the high-rise structure due to various disadvantages such as complicated construction details, low economic efficiency and poor workability.
Therefore, the present inventor proposed a moment-resisting frame which can eliminate the installation of lateral reinforcement means such as an additional shear wall (formwork and wet method) or a brace while being dry type. Especially, I have come to propose a PC construction method that can be constructed.
Disclosure of Invention Technical Problem [8] The present invention has been made in order to solve the above-mentioned problems of the related art,
PC column-PC beam splice structure, PC girder-PC beam beam splice structure, and modular system using the plate, which realizes the moment-splitting method by improving the joint between column and beam, .
In order to solve the above-described problems, the present invention provides a method for quickly and firmly coupling a
A
The
The
One end of the compensating end
And the compensating
According to the present invention, a PC column-PC beam splice joining structure and a PC girder-PC beam splice joining structure, which utilize a plate in which a moment joining method is implemented by improving a joining portion between a column and a beam, To provide a modular system.
1 is a view showing a PC column of an interior column structure in a PC column-PC beam joining structure utilizing the plate of the present invention.
2 is a view showing a PC beam in the PC column-PC beam splice joining structure utilizing the plate of the present invention.
FIGS. 3 to 17 show the construction process of the interior column structure in the PC column-PC beam splice joining structure utilizing the plate of the present invention in order.
18 shows the cross-section of the PC column of the interior column structure and the state of the anchor rib arrangement in the PC column-PC beam splice joining structure utilizing the plate of the present invention.
19 is a view showing a PC beam of an exter- nal column structure in a PC column-PC beam splice joining structure utilizing the plate of the present invention.
FIGS. 20 to 23 show the construction process of the outer column structure in the PC column -PC beam strengthening bonding structure utilizing the plate of the present invention in order.
24 shows the cross-section of the PC column of the outer column structure and the state of the anchor rib arrangement in the PC column -PC steel reinforced joining structure utilizing the plate of the present invention.
25 shows a PC column of a corner post structure in a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
Figs. 26 to 29 show a construction process of a corner post structure in order in a PC column-PC reinforced joining structure utilizing the plate of the present invention.
30 shows the cross-section of the PC column of the corner column structure and the state of the anchor rib arrangement in the PC column -PC steel reinforced joining structure utilizing the plate of the present invention.
FIGS. 31 to 32 illustrate a process of installing an inter-column filler plate on a column upper connecting plate of a lower column in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
33 to 36 illustrate a process of installing a framing unit on a lower column in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
37 shows an example in which a column-to-column filler plate is selectively applied in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
FIG. 38 shows an example in which an inter-column filler plate is essentially applied in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
FIGS. 39 to 43 show in detail a process of installing a frame unit on a lower column in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
44 to 48 show a construction process in which a PC column-PC beam splice joining structure utilizing the plate of the present invention is applied to a modular system using a PC column -PC beam splice joining structure utilizing the plate of the present invention It is.
Figs. 49 to 61 show the overall construction sequence of the modular system using the PC column-PC beam splice joining structure utilizing the plate of the present invention in order.
62 to 63 illustrate the completion of the modular system using the PC column -PC beam strengthening bonding structure utilizing the plate of the present invention from a different angle.
FIG. 64 shows the coupling relationship in the case where there is no filler plate in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
FIGS. 65 to 67 illustrate a relationship in which a top portion of a columnar root of a lower column is bent and joined when a filler plate is provided in a modular system using a PC column -PC beam reinforced joining structure utilizing the plate of the present invention.
68 is a view showing a relationship in which a nut of a column main shaft rod is accommodated in a single hole when a filler plate is provided in a modular system using a PC column-PC beam splice joining structure utilizing the plate of the present invention.
Figs. 69 to 83 show a PC girder-PC beam joining joining structure utilizing the plate of the present invention in order.
84 to 86 show another embodiment of the PC girder-PC beam steel joint bonding structure utilizing the plate of the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
(1) interior pillars, (2) exterior pillars, (3) pillars, and (4) pillars and pillars. 3) corner pillars, and (4) modular systems.
The stud bolt SB is a complementary measure for the occurrence of a joint between the
The stud bolts (SB)
May be embedded in the column concrete, joined to the
However,
In order to prevent interference with the stud bolt SB when the
1) The stud bolts SB may be installed in a range that does not overlap with both ends of the
2) As shown in the respective drawings, the stud bolts SB must be installed after the
1 is a view showing a PC column of an interior column structure in a PC column-PC beam joining structure utilizing the plate of the present invention.
2 is a view showing a PC beam in the PC column-PC beam splice joining structure utilizing the plate of the present invention.
FIGS. 3 to 17 show the construction process of the interior column structure in the PC column-PC beam splice joining structure utilizing the plate of the present invention in order.
18 shows the cross-section of the PC column of the interior column structure and the state of the anchor rib arrangement in the PC column-PC beam splice joining structure utilizing the plate of the present invention.
The PC column-to-PC beam splice bonding structure utilizing the plate of the present invention,
The
A
The
The
One end of the compensating end
And the compensating
And,
A
Also,
One end of the deck plate (DP) is mounted on an end portion of the upper part of the beam concrete (250)
The slab concrete SC is installed on the upper portion of the deck plate DP so that the compensating
As shown in Figure 2,
At the upper end of the
A
One end of the deck plate (DP) is mounted on the deck plate rest unit (270)
The
10,
And stud bolts (SB) are installed on left and right sides of the top of the
At this time, as described above,
The stud bolts SB should be installed after the
As shown in Fig. 7,
A protruding stopper (SP) is provided at the lower end of the
And the position of the PC beam is not changed until the stopper (SP) tightens the bolt (B).
As shown in Figure 2,
In the beam concrete (250), in the beam plate (220)
And at least one of the one end of the beam lower reinforcing
Ⅰ. Interior columns
1 is a view showing a PC column of an interior column structure in a PC column-PC beam joining structure utilizing the plate of the present invention.
2 is a view showing a PC beam in the PC column-PC beam splice joining structure utilizing the plate of the present invention.
FIGS. 3 to 17 show the construction process of the interior column structure in the PC column-PC beam splice joining structure utilizing the plate of the present invention in order.
18 shows the cross-section of the PC column of the interior column structure and the state of the anchor rib arrangement in the PC column-PC beam splice joining structure utilizing the plate of the present invention.
In the PC column-PC beam spliced joining structure utilizing the plate of the present invention,
Four
A coupler CP is installed in the
The anchor ribs (RB) crossing each other are different in level difference.
Ⅱ. Exterior Exterior column
19 is a view showing a PC beam of an exter- nal column structure in a PC column-PC beam splice joining structure utilizing the plate of the present invention.
FIGS. 20 to 23 show the construction process of the outer column structure in the PC column -PC beam strengthening bonding structure utilizing the plate of the present invention in order.
24 shows the cross-section of the PC column of the outer column structure and the state of the anchor rib arrangement in the PC column -PC steel reinforced joining structure utilizing the plate of the present invention.
The outer column structure in the PC column-PC steel reinforced bonding structure utilizing the plate of the present invention,
Three
A coupler CP is installed in the
The anchor ribs RB directed to the outer surface of the
The anchor ribs (RB) crossing each other are different in level difference.
Ⅲ. Corner column
25 shows a PC column of a corner post structure in a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
Figs. 26 to 29 show a construction process of a corner post structure in order in a PC column-PC reinforced joining structure utilizing the plate of the present invention.
30 shows the cross-section of the PC column of the corner column structure and the state of the anchor rib arrangement in the PC column -PC steel reinforced joining structure utilizing the plate of the present invention.
The corner post structure in the PC column-PC steel reinforced joining structure utilizing the plate of the present invention,
Two
A coupler CP is installed in the
The other end of the anchor rib (RB) is provided with a dead anchor (DA) which is an enlarged head or is bent to form a vertical fixing part (RB)
The anchor ribs (RB) crossing each other are different in level difference.
IV. Modular system
FIGS. 31 to 32 illustrate a process of installing an inter-column filler plate on a column upper connecting plate of a lower column in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
33 to 36 illustrate a process of installing a framing unit on a lower column in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
37 shows an example in which a column-to-column filler plate is selectively applied in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
FIG. 38 shows an example in which an inter-column filler plate is essentially applied in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
FIGS. 39 to 43 show in detail a process of installing a frame unit on a lower column in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
44 to 48 show a construction process in which a PC column-PC beam splice joining structure utilizing the plate of the present invention is applied to a modular system using a PC column -PC beam splice joining structure utilizing the plate of the present invention It is.
Figs. 49 to 61 show the overall construction sequence of the modular system using the PC column-PC beam splice joining structure utilizing the plate of the present invention in order.
62 to 63 illustrate the completion of the modular system using the PC column -PC beam strengthening bonding structure utilizing the plate of the present invention from a different angle.
In the modular system using the PC column -PC beam strengthening bonding structure utilizing the plate of the present invention,
The PC column-PC reinforced joint structure utilizing the above-described plate of the present invention is used,
And a plurality of prefabricated frame units (1000) in which the PC columns (100) form outer pillars,
The
And a PC column-PC reinforced joint connection structure utilizing the plate is constructed.
The
The column lower connection plate CDP at the lower end of the
FIG. 64 shows the coupling relationship in the case where there is no filler plate in a modular system using a PC column -PC beam strengthening bonding structure utilizing the plate of the present invention.
As shown in Figs. 37 (b) and 64,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, Or,
As shown in Fig. 37 (a)
An inter-column filler plate (PP) having a hole formed therein for receiving a nut projecting from the column lower connection plate (CDP) and the column upper connection plate (CUP) ) And the column upper connecting plate (CUP).
FIGS. 65 to 67 illustrate a relationship in which a top portion of a columnar root of a lower column is bent and joined when a filler plate is provided in a modular system using a PC column -PC beam reinforced joining structure utilizing the plate of the present invention.
As shown,
In the present invention, the
A hole is separately formed in the inter-column filler plate PP to accommodate a nut for fixing the columnar root of the
68 is a view showing a relationship in which a nut of a column main shaft rod is accommodated in a single hole when a filler plate is provided in a modular system using a PC column-PC beam splice joining structure utilizing the plate of the present invention.
As shown,
When the column main shaft of the
The thickness of the inter-column filler plate PP is not less than the sum of the thickness of the nut for fixing the columnar root of the
And a nut for fixing the column main shaft of the
And,
All of the drawings shown in FIG. 64 and the following description are not only a 'modular system using a PC column-PC beam splice coupling structure utilizing a plate' of the present invention,
The present invention can be applied solely to the PC column-PC beam splice joining structure using the plate of the present invention described above.
When the present invention is applied to a PC column-PC beam splice joining structure utilizing the plate of the present invention,
In the PC column-PC beam splice joining structure utilizing the plate of the present invention, the
The column lower connection plate CDP at the lower end of the
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, Or,
An inter-column filler plate (PP) having a hole formed therein for receiving a nut projecting from the column lower connection plate (CDP) and the column upper connection plate (CUP) ) And the column upper connecting plate (CUP)
The
A hole is separately formed in the inter-column filler plate PP to accommodate a nut for fixing the columnar root of the
Ⅴ. Utilizing plates PC girder - PC beam Steel joint Joint structure
Figs. 69 to 83 show a PC girder-PC beam joining joining structure utilizing the plate of the present invention in order.
The PC girder-to-PC beam splice joining structure utilizing the plate of the present invention,
A PC beam (3000), which is small in size, is fastened to a large-sized PC girder (2000)
A
The
The girder
A beam
The
The
And,
A
In the present invention, one end of a deck plate (DP) is mounted on an end portion of the beam concrete (3450)
The slab concrete SC is installed on the upper portion of the deck plate DP so that the beam
At the upper end of the
A
One end of the deck plate (DP) is mounted on the deck plate rest unit (270)
70,
The deck
70,
A protruding stopper (SP) is installed at the lower end of the girder plate (2200)
So that the position of the PC beam (3000) is not changed until the stopper (SP) tightens the bolt (B).
When two
Two of the
When two
84 to 86 show another embodiment of the PC girder-PC beam steel joint bonding structure utilizing the plate of the present invention.
84. In the embodiment described below, only one
When one of the
The beam
And the beam upper reinforcing
In conclusion,
According to the present invention, a PC column-PC beam splice joining structure and a PC girder-PC beam splice joining structure, which utilize a plate in which a moment joining method is implemented by improving a joining portion between a column and a beam, To provide a modular system.
While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.
It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.
DP: Deck plate
SC: Slab Concrete
G: Spacing
SB: Stud bolt
SP: Stopper
SR: Sutup
B: Bolt
CP: Coupler
RB: Anchor Ribe
DA: dead anchor
RB`: vertical fixing unit
CDP: Column lower connection plate
CUP: Column top connection plate
PP: Column filler plate
100: PC pole
120: column plate
122: Compensation end portion Reinforcing hole
124: Beam plate fastening hole
200: PC Bo
220: beam plate
224: Column plate fastening hole
250: Beam concrete
270: Deck plate holder
300: filler plate
400: Compensation end reinforcement
500: Reinforced section reinforcement
1000: Frame unit
1100: Lower column
2000: PC girder
2200: girder plate
2240: Beam plate fastening hole
3000: PC beam
3200: beam plate
3240: girder plate fastening hole
3400: Beam upper end reinforcement
3450: Beam concrete
3500: Beam upper bar
Claims (59)
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating part reinforcing bars (500) are connected to the reinforcing part reinforcing bars (400) at the other end of the compensating part reinforcing bars (400). The PC column-
And a plurality of prefabricated frame units (1000) forming the outer pillars of the PC columns (100), wherein the PC frames (100) are arranged between the PC columns (100) And the PC column-PC reinforced joint connection structure utilizing the plate is installed,
The PC column 100 is coupled to the upper part of the lower column 1100 so that the frame lower connection plate CDP at the lower end of the PC column 100 and the lower end of the lower part of the lower column 1100 And the column upper connecting plates (CUP) are bolted to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
The lower pillar 1100 is bent at an upper angle of the pillar of the column to displace the center line of the pillar of the PC column 100,
A hole is separately formed in the inter-column filler plate PP to accommodate a nut for fixing the columnar root of the lower column 1100 and a nut for fixing the columnar root of the PC column 100, respectively Modular system using PC column -PC beam strengthened joint structure using plate made of steel plate.
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating part reinforcing bar 500 is reinforced at the other end of the compensating part supporting reinforcing bar 400,
A deck plate DP is mounted on one end of the upper part of the beam concrete 250 and a slab concrete SC is placed on the deck plate DP, Wherein the reinforcing bars (500) and the stirrups (SR) and the column plates (120) are placed so as to be embedded.
And a plurality of prefabricated frame units (1000) forming the outer pillars of the PC columns (100), wherein the PC frames (100) are arranged between the PC columns (100) And the PC column-PC reinforced joint connection structure utilizing the plate is installed,
The PC column 100 is coupled to the upper part of the lower column 1100 so that the frame lower connection plate CDP at the lower end of the PC column 100 and the lower end of the lower part of the lower column 1100 And the column upper connecting plates (CUP) are bolted to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
The lower pillar 1100 is bent at an upper angle of the pillar of the column to displace the center line of the pillar of the PC column 100,
A hole is separately formed in the inter-column filler plate PP to accommodate a nut for fixing the columnar root of the lower column 1100 and a nut for fixing the columnar root of the PC column 100, respectively Modular system using PC column -PC beam strengthened joint structure using plate made of steel plate.
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating part reinforcing bar 500 is reinforced at the other end of the compensating part supporting reinforcing bar 400,
A deck plate DP is mounted on one end of the upper part of the beam concrete 250 and a slab concrete SC is placed on the deck plate DP, The reinforcing bars 500 and the stirrups SR and the column plates 120 are buried.
Characterized in that a deck plate rest unit (270) is installed continuously or intermittently at the upper end of the beam concrete (250), and one end of the deck plate (DP) is mounted on the deck plate rest unit PC beam-to-PC beam splice structure using the structure,
And a plurality of prefabricated frame units (1000) forming the outer pillars of the PC columns (100), wherein the PC frames (100) are arranged between the PC columns (100) And the PC column-PC reinforced joint connection structure utilizing the plate is installed,
The PC column 100 is coupled to the upper part of the lower column 1100 so that the frame lower connection plate CDP at the lower end of the PC column 100 and the lower end of the lower part of the lower column 1100 And the column upper connecting plates (CUP) are bolted to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
The lower pillar 1100 is bent at an upper angle of the pillar of the column to displace the center line of the pillar of the PC column 100,
A hole is separately formed in the inter-column filler plate PP to accommodate a nut for fixing the columnar root of the lower column 1100 and a nut for fixing the columnar root of the PC column 100, respectively Modular system using PC column -PC beam strengthened joint structure using plate made of steel plate.
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating part reinforcing bars (500) are connected to the reinforcing part reinforcing bars (400) at the other end of the compensating part reinforcing bars (400). The PC column-
And a plurality of prefabricated frame units (1000) forming the outer pillars of the PC columns (100), wherein the PC frames (100) are arranged between the PC columns (100) And the PC column-PC reinforced joint connection structure utilizing the plate is installed,
The PC column 100 is coupled to the upper part of the lower column 1100 so that the frame lower connection plate CDP at the lower end of the PC column 100 and the lower end of the lower part of the lower column 1100 And the column upper connecting plates (CUP) are bolted to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
When the column main shaft of the lower column 1100 and the column main shaft of the PC column 100 coincide with the center line,
The thickness of the inter-column filler plate PP is not less than the sum of the thickness of the nut for fixing the columnar root of the lower column 1100 and the thickness of the nut for fixing the columnar root of the PC column 100,
And a nut for fixing the column main shaft of the lower column 1100 and a nut for fixing the column main shaft of the PC column 100 to and from above and below one hole of the inter-column filler plate PP are received Modular system using plate-PC column-PC beam spliced structure.
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating part reinforcing bar 500 is reinforced at the other end of the compensating part supporting reinforcing bar 400,
A deck plate DP is mounted on one end of the upper part of the beam concrete 250 and a slab concrete SC is placed on the deck plate DP, Wherein the reinforcing bars (500) and the stirrups (SR) and the column plates (120) are placed so as to be embedded.
And a plurality of prefabricated frame units (1000) forming the outer pillars of the PC columns (100), wherein the PC frames (100) are arranged between the PC columns (100) And the PC column-PC reinforced joint connection structure utilizing the plate is installed,
The PC column 100 is coupled to the upper part of the lower column 1100 so that the frame lower connection plate CDP at the lower end of the PC column 100 and the lower end of the lower part of the lower column 1100 And the column upper connecting plates (CUP) are bolted to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
When the column main shaft of the lower column 1100 and the column main shaft of the PC column 100 coincide with the center line,
The thickness of the inter-column filler plate PP is not less than the sum of the thickness of the nut for fixing the columnar root of the lower column 1100 and the thickness of the nut for fixing the columnar root of the PC column 100,
And a nut for fixing the column main shaft of the lower column 1100 and a nut for fixing the column main shaft of the PC column 100 to and from above and below one hole of the inter-column filler plate PP are received Modular system using plate-PC column-PC beam spliced structure.
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating part reinforcing bar 500 is reinforced at the other end of the compensating part supporting reinforcing bar 400,
A deck plate DP is mounted on one end of the upper part of the beam concrete 250 and a slab concrete SC is placed on the deck plate DP, The reinforcing bars 500 and the stirrups SR and the column plates 120 are buried.
Characterized in that a deck plate rest unit (270) is installed continuously or intermittently at the upper end of the beam concrete (250), and one end of the deck plate (DP) is mounted on the deck plate rest unit PC beam-to-PC beam splice structure using the structure,
And a plurality of prefabricated frame units (1000) forming the outer pillars of the PC columns (100), wherein the PC frames (100) are arranged between the PC columns (100) And the PC column-PC reinforced joint connection structure utilizing the plate is installed,
The PC column 100 is coupled to the upper part of the lower column 1100 so that the frame lower connection plate CDP at the lower end of the PC column 100 and the lower end of the lower part of the lower column 1100 And the column upper connecting plates (CUP) are bolted to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
When the column main shaft of the lower column 1100 and the column main shaft of the PC column 100 coincide with the center line,
The thickness of the inter-column filler plate PP is not less than the sum of the thickness of the nut for fixing the columnar root of the lower column 1100 and the thickness of the nut for fixing the columnar root of the PC column 100,
And a nut for fixing the column main shaft of the lower column 1100 and a nut for fixing the column main shaft of the PC column 100 to and from above and below one hole of the inter-column filler plate PP are received Modular system using plate-PC column-PC beam spliced structure.
A column plate 120 attached to an outer surface of the PC column 100 and having a beam plate fastening hole 124 and a compensating end end reinforcing fastening hole 122 formed at both ends thereof; The PC beam 200 has a beam concrete 250 exposed at an upper portion thereof and a beam concrete 250 having a height equal to that of the beam concrete 250 and having a width exposed to a column plate fastening hole 224, The PC plate 200 is lowered so that the column plate fastening hole 224 is aligned with the fastening hole 124 of the beam plate, The one end of the compensating end portion reinforcing bar 400 is fastened to the compensating end portion reinforcing fastening hole 122 after the bolt B is integrally fastened to the hole 224 and the beam plate fastening hole 124, And the compensating portion reinforcing bar 500 is reinforced at the other end of the compensating reinforcing portion reinforcing bar 400,
The PC column 100 is coupled to the upper part of the lower column 1100 and the column lower connection plate CDP at the lower end of the PC column 100 and the column upper connection plate CUP at the upper end of the lower column 1100 And the bolts are connected to each other,
A hole is formed in the column lower connection plate CDP and the column upper connection plate CUP in order to accommodate a nut projected to the column lower connection plate CDP and the column upper connection plate CUP for fixing the columnar root of the column, And an inter-column filler plate (PP) having a hole formed therein for receiving a nut projected to the column lower connection plate (CDP) and the column upper connection plate (CUP) for fixing the column root, And is installed between the connection plate (CDP) and the column upper connection plate (CUP)
The lower pillar 1100 is bent at an upper angle of the pillar of the column to displace the center line of the pillar of the PC column 100,
A hole is separately formed in the inter-column filler plate PP to accommodate a nut for fixing the columnar root of the lower column 1100 and a nut for fixing the columnar root of the PC column 100, respectively PC column - PC beam spliced joint structure using the plate made of.
When the column main shaft of the lower column 1100 and the column main shaft of the PC column 100 coincide with the center line,
The thickness of the inter-column filler plate PP is not less than the sum of the thickness of the nut for fixing the columnar root of the lower column 1100 and the thickness of the nut for fixing the columnar root of the PC column 100,
And a nut for fixing the column main shaft of the lower column 1100 and a nut for fixing the column main shaft of the PC column 100 to and from above and below one hole of the inter-column filler plate PP are received PC Column - PC Beam Joint Bonding Structure Using Plate.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR20150122117 | 2015-08-28 | ||
KR1020150122117 | 2015-08-28 |
Publications (2)
Publication Number | Publication Date |
---|---|
KR20170027236A KR20170027236A (en) | 2017-03-09 |
KR101766807B1 true KR101766807B1 (en) | 2017-08-18 |
Family
ID=58402560
Family Applications (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
KR1020150131723A KR101713863B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete beam using the temporary bracket installing precast concrete column, the modular system using the same |
KR1020150131737A KR101766807B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete girder and the rigid connection structure between precast concrete girder and precast concrete beam using the plate, the modular system using the same |
KR1020150131716A KR101766806B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete beam using the temporary bracket installing precast concrete column, the modular system using the same |
KR1020150131703A KR101713862B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete beam using the temporary bracket installing precast concrete column, the modular system using the same |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
KR1020150131723A KR101713863B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete beam using the temporary bracket installing precast concrete column, the modular system using the same |
Family Applications After (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
KR1020150131716A KR101766806B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete beam using the temporary bracket installing precast concrete column, the modular system using the same |
KR1020150131703A KR101713862B1 (en) | 2015-08-28 | 2015-09-17 | the rigid connection structure between precast concrete column and precast concrete beam using the temporary bracket installing precast concrete column, the modular system using the same |
Country Status (1)
Country | Link |
---|---|
KR (4) | KR101713863B1 (en) |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106545086B (en) * | 2016-10-17 | 2019-03-05 | 华南理工大学 | A kind of steel bar regeneration monolith beam-column joint and its construction method |
CN108978854A (en) * | 2018-07-23 | 2018-12-11 | 同济大学 | One kind being bolted Precast Concrete Frame |
CN109183985A (en) * | 2018-10-19 | 2019-01-11 | 沈华 | A kind of novel dry full-prefabricated assembled concrete frame linked system |
CN110924525A (en) * | 2019-11-13 | 2020-03-27 | 中国矿业大学 | Steel plate interface bolt connecting structure and method for reinforced concrete column and column |
CN112031159B (en) * | 2020-09-03 | 2021-09-21 | 黄淮学院 | Combination structure of precast beam and precast column |
KR102282151B1 (en) * | 2020-11-20 | 2021-07-26 | 김상모 | Reinforcement structure of joints using duoble steel beams |
KR102372473B1 (en) | 2021-03-30 | 2022-03-10 | 정성대 | Constuction Structure for Joint of PC-Colunm and PC-Girder Using Temporay Bracket |
KR102682970B1 (en) * | 2023-08-02 | 2024-07-08 | 김용석 | Support Device Set for Steel Frame Connection and Steel Frame Connecting Method using the Same |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005048537A (en) * | 2003-07-31 | 2005-02-24 | Daiwa House Ind Co Ltd | Structure for connecting members together by bolt |
JP2006037648A (en) * | 2004-07-29 | 2006-02-09 | Sekisui House Ltd | Structure for joining column and beam together |
KR100937745B1 (en) * | 2009-04-24 | 2010-01-20 | 에스에이치공사 | Constructing method using precast concrete column |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH05321327A (en) * | 1992-05-18 | 1993-12-07 | Shimizu Corp | Joint form between large beam of precast concrete and small beam of precast concrete, and construction method using the joint form |
KR100761785B1 (en) * | 2005-06-28 | 2007-09-28 | (주)엠씨에스공법 | Mold-concrete composite crossbeam |
KR20120064489A (en) * | 2010-12-09 | 2012-06-19 | 대명건영(주) | Mounting structure of steel material in building and method to mount thereof |
KR101324884B1 (en) * | 2011-08-26 | 2013-11-01 | 현대건설주식회사 | Hybrid building construction method combining dry type and wet type |
KR101369998B1 (en) | 2012-03-27 | 2014-03-06 | 삼성물산 주식회사 | Composite PC Column for Connecting Steel Column |
KR101289934B1 (en) | 2012-12-18 | 2013-07-25 | (주) 동양구조안전기술 | Connection of compressed joint using post-tension between pc-column and pc beam and it's construction method |
KR101514144B1 (en) * | 2013-10-02 | 2015-04-21 | 삼성물산 주식회사 | Precast Concrete Frame and Construction Method thereof |
-
2015
- 2015-09-17 KR KR1020150131723A patent/KR101713863B1/en active IP Right Grant
- 2015-09-17 KR KR1020150131737A patent/KR101766807B1/en active IP Right Grant
- 2015-09-17 KR KR1020150131716A patent/KR101766806B1/en active IP Right Grant
- 2015-09-17 KR KR1020150131703A patent/KR101713862B1/en active IP Right Grant
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005048537A (en) * | 2003-07-31 | 2005-02-24 | Daiwa House Ind Co Ltd | Structure for connecting members together by bolt |
JP2006037648A (en) * | 2004-07-29 | 2006-02-09 | Sekisui House Ltd | Structure for joining column and beam together |
KR100937745B1 (en) * | 2009-04-24 | 2010-01-20 | 에스에이치공사 | Constructing method using precast concrete column |
Also Published As
Publication number | Publication date |
---|---|
KR20170027236A (en) | 2017-03-09 |
KR101713862B1 (en) | 2017-03-23 |
KR101713863B1 (en) | 2017-03-23 |
KR20170027233A (en) | 2017-03-09 |
KR20170027235A (en) | 2017-03-09 |
KR101766806B1 (en) | 2017-08-31 |
KR20170027234A (en) | 2017-03-09 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
KR101766807B1 (en) | the rigid connection structure between precast concrete column and precast concrete girder and the rigid connection structure between precast concrete girder and precast concrete beam using the plate, the modular system using the same | |
KR102187993B1 (en) | Prefabricated Bridge Structure and Construction Method | |
KR101295740B1 (en) | Joint of Steel Column | |
JP2008025125A (en) | Column unit and construction method for building using it | |
KR101844344B1 (en) | the rigid connection structure between precast concrete column and precast concrete beam, the construction method of rigid connection structure using the same | |
KR101962853B1 (en) | Joint for Precast Beam and Columns | |
KR101844343B1 (en) | the rigid connection structure between hybrid precast concrete column and precast concrete beam, the construction method of rigid connection structure using the same | |
KR101995497B1 (en) | the rigid connection structure between the upper precast concrete column and the lower precast concrete column and the rigid connection structure of the precast concrete girder using the same | |
KR101766810B1 (en) | the rigid connection structure between precast concrete column and precast concrete beam using the permanent bracket installing precast concrete column | |
KR100626543B1 (en) | Hybrid structure system of precast concrete beam and steel beam, precast concrete beam with bracket for connection with steel beam | |
KR101766809B1 (en) | the rigid connection structure between precast concrete column and precast concrete beam using the permanent bracket installing precast concrete column | |
KR101766808B1 (en) | the rigid connection structure between precast concrete column and precast concrete beam using the permanent bracket installing precast concrete column | |
US20220018112A1 (en) | Modular building systems | |
KR100710583B1 (en) | Hybrid system of pc column and steel beam | |
KR101257752B1 (en) | Non-welding type seismic reinforcing structure and method for column using cft | |
KR101864198B1 (en) | the SRC connection structure between precast concrete column and precast concrete beam, the plate connection structure between precast concrete upper column and precast concrete lower column | |
KR101872274B1 (en) | the rigid connection structure between the upper precast concrete column and the lower precast concrete column and the rigid connection structure between precast concrete column and precast concrete beam | |
KR101858972B1 (en) | the rigid connection structure without concrete between the upper precast concrete column and the lower precast concrete column and the rigid connection structure between precast concrete column and precast concrete beam | |
KR101766811B1 (en) | the rigid connection structure between precast concrete column and precast concrete beam using the permanent bracket installing precast concrete column | |
KR101083062B1 (en) | Hybrid reinforced concrete system | |
KR101872298B1 (en) | the rigid connection structure between precast concrete column and precast concrete beam | |
KR20210004289A (en) | Transfer Structure Construction Method Using U-shaped Steel Girder | |
KR102289243B1 (en) | Underground Parking Lot Construction Method Using Pre-assembled bar column, U-shaped beam, Corrugated deck | |
KR101398435B1 (en) | Constructing method of complex girder and the structure thereby | |
KR102554408B1 (en) | Connection Structure Between Steel-Concrete Hybrid Columns Using Vetical Member |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
A201 | Request for examination | ||
E902 | Notification of reason for refusal | ||
E701 | Decision to grant or registration of patent right | ||
GRNT | Written decision to grant |