KR101514144B1 - Precast Concrete Frame and Construction Method thereof - Google Patents

Abstract

The present invention relates to a precast concrete method for constructing a frame by topping concrete in a state where the precast concrete members previously prepared in a factory are transported to a site and installed as a structural member, and more particularly, The present invention relates to a precast concrete frame and a method of constructing the precast concrete frame, which can securely mount precast concrete beams without forming separate brackets and assemble them easily and reliably.
The precast concrete frame according to a preferred embodiment of the present invention includes a lower pillar composed of a lower layer pillar, an upper pillar spaced upward from the lower pillar and composed of an upper pillar, a lower pillar spaced apart from the lower pillar, The PC column is composed of reinforcing columns, PC columns which are arranged at the end edges of the upper columns and lower columns and are arranged in the longitudinal direction of the upper columns and lower columns so as to be exposed in the spaces between the upper columns and lower columns, An angle member having a vertical plane joined to the PC column, and a PC beam having an end fixed to the horizontal plane of the angle member and joined to the PC column.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a precast concrete frame,

The present invention relates to a precast concrete method for constructing a frame by topping concrete in a state where the precast concrete members previously prepared in a factory are transported to a site and installed as a structural member, and more particularly, The present invention relates to a precast concrete frame and a method of constructing the precast concrete frame, which can securely mount precast concrete beams without forming separate brackets and assemble them easily and reliably.

Generally, a structure made of precast concrete (hereinafter referred to as "PC") method is constructed by transporting factory PC columns and PC beams to the site, placing PC columns at planned positions, placing PC beams on the top, It is installed in a way to put concrete on a plate or a PC slab.

In order to fix the PC beam, the bracket formed by enlarging the column section was formed at the top of the conventional PC column to prevent the beam from being conducted.

However, since the conventional bracket of the conventional PC frame is protruded outwardly, the conventional bracket is outwardly unobtrusive, and there is a limitation in transportation, and it is cumbersome to manufacture, and the deformation concentrates on the joint part due to the elastic rotation behavior of the joint part structurally, Damage, breakage, sagging, cracking, or destruction of the battery.

The main purpose of the bracket is to prevent the beam from falling on the column during construction and to secure the safety of the construction. Especially, the roof layer bracket is for the fixing of the beam. Formation is not economical.

As a background of the present invention, Patent Registration No. 10-0079547 (Patent Document 1) discloses a fall prevention structure of a PC board for building construction using a bracket and a weld plate. This patent proposes a PC structure in which a separate angle bracket is attached to the upper edge of the PC column, or a separate welding plate is attached to the upper and lower corner edges of the contact between the PC column and the PC beam, do. The PC structure proposed by this patent has the advantage of improving the safety of the construction by preventing the fall of the PC beam at the time of construction, but when the high load is applied during construction, the brittle fracture .

Patent Publication No. 10-0079547 'The fall prevention structure of PC board for building construction using bracket and welding plate'

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art described above, and it is an object of the present invention to provide a precast concrete frame structure in which precast concrete frames are prevented from falling off from PC columns, And to provide a construction method.

Another object of the present invention is to provide a connecting device capable of expecting a ductile behavior even when a high load is applied during precast concrete frame construction and recycling after the frame is completed.

Another object of the present invention is to provide a PC column in which stability of a column during transportation and installation on the site is enhanced and high stiffness of a column and a beam joint can be expected even in a finished frame.

Another object of the present invention is to provide a precast concrete frame and a method of constructing the same, which do not require the formation of separate brackets on the columns, so that the outer appearance is smooth and beautiful and the space utilization is excellent.

The precast concrete frame according to a preferred embodiment of the present invention includes a lower pillar composed of a lower layer pillar, an upper pillar spaced upward from the lower pillar and composed of an upper pillar, a lower pillar spaced apart from the lower pillar, The PC column is composed of reinforcing columns, PC columns which are arranged at the end edges of the upper columns and lower columns and are arranged in the longitudinal direction of the upper columns and lower columns so as to be exposed in the spaces between the upper columns and lower columns, An angle member having a vertical plane joined to the PC column, and a PC beam having an end fixed to the horizontal plane of the angle member and joined to the PC column.

At this time, a through hole is formed in the upper end portion of the lower column, a vertical bolt hole is drilled in the vertical surface of the angle member, a thread is formed at both ends of the angle member, and the through hole of the vertical bolt hole and the PC column, And a through bolt that rotates and connects with the nut from the outside of the vertical plane of the angle member.

Alternatively, at the upper end of the lower column, a buried member composed of a pair of nut members spaced apart from each other and a connecting reinforcing bar connecting a pair of nut members is formed so that both ends are exposed at the outer surface of the lower column, The bolt hole is drilled, and the angle member can be rotatably inserted into the embedding member through the vertical bolt hole and joined to the PC column.

A horizontal bolt hole is drilled in a horizontal plane of the angle member, and a projecting step to be inserted into the PC column is formed so as to protrude from a part of the end, and a buried nut is embedded in advance at one end to expose one end. Can be rotatably inserted into the buried nut through the horizontal bolt hole of the angle member and joined to the PC column.

A method of constructing a precast concrete frame according to a preferred embodiment of the present invention comprises the steps of: (a) forming a lower column having a widthwise through hole at an upper end thereof and a lower layer column, an upper column having an upper layer column spaced apart from the lower column, A reinforcing column formed so as to connect the spaced lower column to the center section of the upper column, a reinforcing column formed in the longitudinal direction of the upper column and the lower column so as to be exposed to the spacing space between the upper column and the lower column, (B) installing a vertical face of the angle member, which is composed of a vertical plane and a horizontal plane, on the upper end of the lower column, (c) arranging the PC columns on a plane plan (D) placing an end of the PC beam on a horizontal plane of the angle member, (e) mounting a deck plate or PC through the slab, and is characterized in that it comprises the step of curing by pouring concrete between the upper and lower poles, the upper pole.

In the step (a), a through hole is formed in the width direction at the upper end of the lower column. In the step (b), a vertical bolt hole is drilled in the vertical surface of the angle member. The through bolts having threads formed at opposite ends thereof may be inserted into the through holes of the vertical bolt holes and the PC columns so that both ends of the through bolts are rotatably connected to the PC columns from the outside of the vertical surface of the angle member.

Alternatively, in the step (a), the embedding member composed of a pair of nut members spaced apart from each other and a connecting reinforcing bar connecting a pair of nut members is formed at the upper end of the lower column so that both ends are exposed at the outer surface of the lower column, A vertical bolt hole is drilled in the vertical plane of the angle member and the angle member can be installed on the PC column by inserting the bolt through the vertical bolt hole into the embedding member.

At this time, a vertical bolt hole is drilled in the horizontal plane of the angle member, the PC is buried in advance so that the buried nut is exposed at one end, and the protruding jaw is formed at a part of the end, The end of the PC beam is mounted on the horizontal plane of the angle member, the protrusion of the PC beam is mounted on the upper end of the lower column, the bolt is inserted into the horizontal bolt hole of the angle member,

In the precast concrete frame formation, since the PC beam is not simply mounted on the PC column, it is prevented that the PC column is dropped from the PC column, so that the safety of the worker is improved and the stability of the construction is improved. The economy is improved.

In addition, when the PC beam is connected to the PC column, it induces the failure of the steel of the connecting device. Therefore, the ductile behavior can be expected even when the high load is applied and when the frame is completed, it is disassembled from the frame and recovered. There are advantages.

The PC column according to the present invention has high stability of the column during transportation and installation in the field, and high stiffness of the column and beam connection can be expected even in the finished frame.

Since the protruding jaws of the connecting device and the PC beam according to the present invention provide firm integration with the column beam joint, there is no need to form a separate bracket on the column, thereby making it possible to form a structure having a smooth appearance, good appearance and excellent space utilization.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is an exploded perspective view of a precast concrete frame according to the present invention.
2 is an elevational view of a PC column in which a connecting device according to the present invention is installed.
3 is an elevational view of a PC column in which a connecting device according to another embodiment of the present invention is installed.
FIG. 4A is a side view of the PC beam according to the present invention, and FIG. 3B is a sectional view taken along line AA of FIG. 3A.
5 is a partial perspective view of a precast concrete framework according to the present invention.
6 is a cross-sectional view of a precast concrete framework according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

1 is an exploded perspective view of a precast concrete frame according to the present invention.

As shown in FIG. 1, the precast concrete frame according to the present invention includes a PC column 10, a connecting device 20, and a PC beam 30.

The PC column 10 has two or more pillars constituting a duplex frame and includes a lower column 11 formed of a lower layer column, an upper column 12 spaced upward from the lower column 11 and composed of upper layer pillars, A reinforcing column 13 formed so as to connect the lower column 11 and the center portion of the upper end of the upper column 12, a reinforcing column 13 disposed at a corner of the upper column 12 and the lower column 11, And a cast iron rope (14) arranged in the longitudinal direction of the column (12).

The spaced space between the upper column 12 and the lower column 11 is for connection that can ensure the integrity with the PC beam 30. That is, when the PC beam 30 is coupled to the space separated from the upper column 12 and the lower column 11 by the method described below and the concrete is cured by being poured, the PC column 10 and the PC beam 30 are moment- Thereby forming a rigid frame.

The reinforcing pillar 13 is formed at a central portion of the columnar section in the spaced space between the upper pillar 12 and the lower pillar 11. Compared to the conventional double-layer PC column in which the upper and lower pillar columns are connected only by the cast iron root, And strengthen the joint between the column and the beam. In other words, the stability of the column during transport and installation in the field is higher than that of the conventional multi-layered PC column connected only with the cast iron rope, and the high rigidity of the column and the beam connection can be expected even in the finished frame.

The cast iron rope 14 is also disposed at the edge of the cross section so as to connect the upper column 12 and the lower column 11 and is exposed to the space between the upper column 12 and the lower column 11.

2 is an elevational view of a PC column in which a connecting device according to the present invention is installed.

As shown in FIGS. 1 and 2, the connecting device 20 is composed of an angle member 21 and a through bolt 22.

The angle member 21 is a member having a vertical surface 211 and a horizontal surface 212. A vertical bolt hole 211h is drilled in the vertical surface 211 and a horizontal bolt hole 212h is drilled in the horizontal surface 212. [

The through bolt (22) has threads formed at both ends thereof and is made to have a length larger than the width of the column. A through hole 11h is formed in the upper end portion of the lower column 11 in advance so that the penetrating bolt 22 is inserted so as to penetrate the lower column 11 and the angle member 21, The connecting device 20 is installed on the PC column 10 in such a manner that the connecting device 20 is fixed with the nut N from the outside of the vertical surface 211 of the member 21. [

The horizontal surface 212 of the angle member 21 is provided to provide a mounting space for mounting the beam on the column, and the beam can be joined to the column by simple assembly without forming a separate bracket protruding outward from the column.

Anchor bolts may be used to join the angle member 21 to the PC column 10, but in this case brittle fracture may occur, such as partly falling off the column concrete on the anchor bolt main surface. According to the present invention, when the PC column 10 is manufactured, the through-hole 11h is formed in advance and the through-bolt 22 is inserted so as to cross the end face of the column to join the angle member 21, The strength due to the steel material is exhibited and the ductility behavior can be expected by inducing the steel material failure.

3 is an elevational view of a PC column in which a connecting device according to another embodiment of the present invention is installed.

In this embodiment, the connecting device 20 is composed of the angle member 21 and the embedding member 22a.

The embedding member 22a is composed of a pair of nut members 221 and 221 spaced apart from each other and a connecting reinforcing bar 222 connecting the pair of nut members 221 and 221. Both ends And is embedded in the column 10.

The angle member 21 can be easily installed on the PC column 10 in such a manner that the bolt B is rotatably inserted into the embedding member 22a through the vertical bolt hole 211h.

The connecting device 20 of the present invention can be configured for a hypothetical that can be removed after the frame is completed. The connecting device 20 is provided with a PC beam 30 on the PC column 10 and is used for safety of construction such as the prevention of the conduction during the completion of the framing. When the framing is safely completed, the connecting device 20 is disassembled and recovered from the framing, There is an advantage that it is possible.

FIG. 4A is a side view of the PC beam according to the present invention, and FIG. 4B is a cross-sectional view taken along line A-A of FIG. 4A.

The PC beam 30 according to the present invention includes a projecting step 31 protruding from the end portion of the PC beam 30 so that one side of the beam is extended so that the projecting step 31 is inserted into the PC column 10 to be integrally coupled .

The protruding jaws 31 have more rigid integrity in the present invention in which the beams are connected to the columns by using angles without forming separate brackets on the columns, and prevent dropping of the beams in the stationary state.

The other end of the buried nut 32 is connected to the hook reinforcement 33 provided in the end face of the PC beam 30.

The buried nut 32 is for assembling the PC beam 30 to the PC column 10 in a simple manner and the bolt B is rotated and inserted into the horizontal bolt hole 212h of the angle member 21 to be tightened.

It is preferable that the other end of the buried nut 32 is connected to the hook reinforcement 33 by fixing the buried nut 32 so as to provide a predetermined embedment length necessary for embedding the buried nut 32.

Although the cross section of the PC beam 30 is shown to have an inverted T-shaped cross-section in which the upper end portion is smaller than the lower end portion, the present invention is not limited thereto and an appropriate cross-section can be selected for structural design.

5 is a partial perspective view of a precast concrete framework according to the present invention.

5, the vertical surface 211 of the angle member 21 is bonded to the PC column 10, and the horizontal surface 212 is bonded to the PC beam 30, respectively. As described above, the connection of the vertical surface 211 connects the nut N to the protruded both ends of the through bolt 22, and the horizontal surface 212 connects the bolt B to the buried nut 32 of the PC beam 30, As shown in Fig.

6 is a cross-sectional view of a precast concrete framework according to the present invention.

The PC column 10 and the PC beam 30 are assembled in such a manner that the connecting device 20 is joined to the PC column 10 and the PC beam 30 is joined to the connecting device 20, After-concrete (T) is installed. The concrete T forms a slab at the upper part of the beam and is also simultaneously poured between the lower column 11 and the upper column 12 to integrally form the column and the beam. 5, a PC slab (not shown) is further installed on the beam, and the upper and lower pillars 11, the upper pillars 12, Topping concrete may be placed on site.

Hereinafter, a method of constructing a precast concrete frame according to the present invention will be described in order.

(a) First, the PC column 10 and the PC beam 30 are manufactured in the factory.

The lower column 11, the upper column 12 and the reinforcing column 13 are integrally fabricated in the factory by appropriately laying the cast iron rope 14 using a predetermined mold as described above.

Likewise, the PC beam 30, which is buried in advance so as to expose one end of the buried nut 32 and has the projecting step 31 at a part of the end, is prepared and prepared.

(b) Next, the angle member 21 is installed on the PC column 10.

When the through hole 11h is formed on the upper end of the lower column 11, the vertical surface 211 of the angle member 21 is brought into contact with the upper end of the lower column 11, and through bolts 22, Holes 211h and the through holes 11h of the PC column 10 so that both ends of the through bolts 22 are rotationally coupled to the nut N from the outside of the vertical surface 211 of the angle member 21. [

When the embedding member 22a is embedded in the lower column 11, the angle member 21 is inserted into the PC column (not shown) in such a manner that the bolt B is rotationally inserted into the embedding member 22a through the vertical bolt hole 211h 10).

The engagement of the angle member 21 may be performed at the factory, but may be performed in the field after the PC column 10 is brought into the field.

(c) Then, the PC column 10 is set at a predetermined position according to the plan plan.

The factory PC column (10) is transported to the site, and the PC column (10) is set up at a predetermined position on the foundation by confirming the design drawing. The transportation and installation of the PC column 10 may be carried out by any method known in the art.

(d) Subsequently, the PC beam 30 is mounted on the angle member 21.

The end of the PC beam 30 is mounted on the horizontal surface 212 of the angle member 21 and the projecting step 31 of the PC beam 30 is mounted on the upper end of the lower column 11, Is inserted into the horizontal bolt hole (212h) of the member (21) and inserted into the recessed nut (32). Thus, the PC beam 30 is coupled to the PC column 10 through the connecting device 20. The PC beam 30 is prevented from falling off because the PC beam 30 is not simply mounted on the PC column 10 and the protrusions 31 of the connecting device 20 and the PC beam 30 provide solid integrity to the column beam joint, It is not necessary to form a separate bracket.

(e) Curing by pouring concrete into the site.

A deck plate is placed on the upper portion of the PC beam 30 and concrete is placed between the upper and lower columns 11 and the upper columns 12 to cure the slab and the joint.

Instead of the deck plate, the PC slab may be mounted on the upper portion of the PC beam 30 and the topping concrete may be cured to construct the slab as a PC slab. Deck plate installation and topping Proper mold installation and disassembly for concrete pouring can be accomplished by any method known in the art.

As described above, according to the present invention, in the precast concrete frame formation, since the PC beam is not simply mounted on the PC column, it is prevented that the PC column falls off and falls, so that the safety of the worker, Economy is improved by saving work and materials recovery cost.

In addition, when the PC beam is connected to the PC column, it induces the failure of the steel of the connecting device. Therefore, the ductile behavior can be expected even when the high load is applied and when the frame is completed, it is disassembled from the frame and recovered. There are advantages.

The PC column according to the present invention has high stability of the column in transportation and installation in the field, and high rigidity of the column and the beam connection can be expected even in the finished frame

Since the protruding jaws of the connecting device and the PC beam according to the present invention provide firm integration with the column beam joint, there is no need to form a separate bracket on the column, thereby making it possible to form a structure having a smooth appearance, good appearance and excellent space utilization.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: PC column 11h: Through hole
11: lower column 12: upper column
13: reinforcement column 14: cast iron rope
20: connecting device 21: an angle member
211: vertical surface 211h: vertical bolt hole
212: horizontal plane 212h: horizontal bolt hole
22: penetrating bolt 22a: embedding member
30: PC beam 31: protruding chin
32: fillet nut 33: hook reinforcement

Claims (8)

A lower column 11 composed of a lower layer column and an upper column 12 spaced upward from the lower column 11 and composed of an upper layer column and a lower column 11 spaced apart from the lower column 11, The upper column 12 and the lower column 11 are disposed at the edge portions of the upper column 12 and the lower column 11 so as to be exposed to the spaces between the upper column 12 and the lower column 11, A PC column (10) including a cast iron (14) arranged in the longitudinal direction of the column (11);
An angle member 21 composed of a vertical surface 211 and a horizontal surface 212 and having a vertical surface 211 bonded to the PC column 10; And
And a PC beam (30) having an end fixed to a horizontal plane (212) of the angle member (21) and joined to the PC column (10)
A horizontal bolt hole 212h is formed in the horizontal surface 212 of the angle member 21,
The PC beam 30 is formed such that a projecting step 31 inserted into the PC column 10 is formed to protrude from a part of the end portion and the buried nuts 32 are embedded beforehand at one end so as to expose one end, B is rotatably inserted into the buried nuts (32) through the horizontal bolt holes (212h) of the angle member (21) and joined to the PC column (10). The method according to claim 1,
A through hole 11h is formed in the upper end of the lower column 11 in the width direction,
A vertical bolt hole 211h is formed in the vertical surface 211 of the angle member 21,
The angle member 21 is threaded at both ends and passes through the vertical bolt hole 211h and the through hole 11h of the PC column 10 so that both ends of the angle member 21 are connected to the nut N And a through bolt (22) rotatably coupled to the PC column (10). The method according to claim 1,
The upper end of the lower column 11 is provided with a buried member 22a composed of a pair of nut members 221 and 221 spaced from each other and a connecting reinforcing bar 222 connecting the pair of nut members 221 and 221, Is formed to be exposed to the outer surface of the body 11,
A vertical bolt hole 211h is formed in the vertical surface 211 of the angle member 21,
Wherein the angle member (21) is rotatably inserted into the embedding member (22a) through the vertical bolt hole (211h) and joined to the PC column (10). delete (a) a lower column 11 composed of a lower layer column, an upper column 12 formed as an upper layer column apart from the lower column 11, a lower column 11 separated from the center portion of the upper column 12 The upper column 12 and the lower column 11 are formed at the edge portions of the upper column 12 and the lower column 11 so as to be exposed to the spaces between the upper column 12 and the lower column 11, A step of planting the PC column 10 integrally using a predetermined mold by disposing the cast iron rope 14 in the longitudinal direction of the column 11;
(b) installing a vertical surface (211) of an angle member (21) composed of a vertical surface (211) and a horizontal surface (212) at the upper end of the lower column (11);
(c) installing the PC column 10 at a predetermined position according to a plan plan;
(d) placing an end of the PC beam 30 on a horizontal plane 212 of the angle member 21;
(e) placing a deck plate or a PC slab on the upper portion of the PC beam 30 and curing the concrete by placing a concrete between the upper and lower columns 11 and the upper column 12;
A vertical bolt hole 211h is formed in the horizontal surface 212 of the angle member 21,
The PC beam 30 is factory-fabricated so that one end of the buried nut 32 is buried in the bottom end and the protruding step 31 is formed in a part of the end,
(d), the PC beam 30 mounts the end of the PC beam 30 on the horizontal plane 212 of the angle member 21 and the protruding jaws 31 of the PC beam 30 to the lower side of the lower column 11 And the bolt B is inserted into the horizontal bolt hole 212h of the angle member 21 and inserted into the recessed nut 32 so as to be rotatably inserted into the PC column 10. The precast concrete frame . The method of claim 5,
In the step (a), a through hole 11h is formed in the upper end portion of the lower column 11 in the width direction,
a vertical bolt hole 211h is formed in the vertical surface 211 of the angle member 21 in the step (b), and the angle member 21 is inserted into the vertical surface 211 of the angle member 21, The through bolts 22 having threads formed at both ends thereof are inserted into the vertical bolt holes 211h and the through holes 11h of the PC column 10 so that both ends of the through bolts 22 are connected to the vertical surfaces of the angle member 21 Is installed on the PC column (10) by rotationally connecting the nut (N) from the outside of the PC frame (211). The method of claim 5,
(a), at the upper end of the lower column 11,
A buried member 22a composed of a pair of nut members 221 and 221 spaced apart from each other and a connecting reinforcing bar 222 connecting the pair of nut members 221 and 221 is formed so that both ends are exposed on the outer surface of the lower column 11 ,
a vertical bolt hole 211h is drilled in the vertical surface 211 of the angle member 21 in the step (b), and the bolt B is inserted into the embedding member 22a through the vertical bolt hole 211h. Is installed on the PC column (10). delete

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