KR102331556B1 - Pc double girder, manufacturing method thereof, construction method thereof, and pc double girder structure - Google Patents

Abstract

The present invention relates to a PC double girder, a manufacturing method and a construction method thereof, and a PC double girder structure, wherein an assembly work at a construction site is simplified to reduce a construction period and a construction cost. Specifically, the present invention relates to the PC double girder comprising: a block main body; a lower wire mesh unit which is placed on a lower surface side of the block main body; an upper wire mesh unit which is placed on an upper surface side of the block main body; a double girder reinforcing unit which is placed on both sides of the block main body; and a girder concrete unit which covers the block main body, the lower wire mesh unit, and the double girder reinforcing unit, wherein concrete is poured on the lower wire mesh unit.

Description

PC double girder, manufacturing method and construction method thereof, and PC double girder structure

The present invention relates to a PC double girder, a manufacturing method and construction method thereof, and a PC double girder structure. It relates to a manufacturing method and construction method thereof, and a PC double girder structure.

In the past, the traditional wet method of casting on site has been mainly used for the reinforced concrete structure, but major structures such as columns, beams, and slabs are installed in the factory to prevent defective construction that may occur due to on-site construction and shorten the construction period. The application of the dry method of manufacturing in advance and simply assembling it in the field is gradually increasing.

However, in a structure that strengthens each structure, such as a ramen structure, construction by a pure dry method requires precision in the construction at the connection or joint, so there is a risk of poor construction.

Therefore, recently, PC columns, PC beams, PC double girders, or deck plates, etc., which are manufactured in a factory with only part of the body of beams and slabs, are transported to the site, and then PC members are assembled at the site and the overlaid concrete is poured. A method capable of structuring the bond between structures is widely used.

The background technology of the present invention is disclosed in Korean Patent Publication No. 2019-0007991 (published on January 23, 2019, title of invention: post-tension double girder and slab construction method using the same).

An object of the present invention relates to a PC double girder, a manufacturing method and construction method thereof, and a PC double girder structure, which can simplify assembly work at a construction site and thereby reduce construction period and construction cost.

PC double girder according to an aspect of the present invention for solving the above-mentioned problems is a block body; a lower wire mesh portion disposed on the lower side of the block body; an upper wire mesh portion disposed on the upper side of the block body; Double girder reinforcing bars disposed on both sides of the block body; And concrete is poured on the lower wire mesh portion, characterized in that it comprises a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion.

In the present invention, the double girder reinforcing bar portion, a reinforcing wire mesh portion laminated on the upper side of the lower wire mesh portion; Reinforcing bar portions disposed on both sides of the block body and stacked on the upper side of the lower wire mesh portion; a vertical reinforcing bar connected to the reinforcing wire mesh part or the reinforcing bar part, installed upright on both sides of the block body, and arranged in a plurality of spaced apart from each other in the longitudinal direction of the block body; and an extended reinforcing bar disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bar.

In the present invention, it characterized in that it further comprises a connection hardware portion coupled to the reinforcing bar portion.

In the present invention, the connecting iron portion is characterized in that the welding is coupled to the reinforcing bar portion.

In the present invention, the girder concrete part, the concrete is poured on the lower wire mesh part, the lower wire mesh part, the reinforcing wire mesh part, the reinforcing bar part, the first girder concrete part covering the vertical reinforcing bar part; And Concrete is poured on the first girder concrete portion is characterized in that it comprises a second girder concrete portion covering the vertical reinforcing bar portion and the extended reinforcing bar portion.

A PC double girder manufacturing method according to an aspect of the present invention comprises the steps of: installing a lower wire mesh portion disposed on the lower side of the block body, and an upper wire mesh portion disposed on the upper side of the block body; Installing double girder reinforcing bars disposed on both sides of the block body; and pouring concrete on the lower wire mesh portion to form a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion.

In the present invention, the double girder reinforcing bar portion, a reinforcing wire mesh portion laminated on the upper side of the lower wire mesh portion; Reinforcing bar parts stacked on both sides of the block body on the upper side of the lower wire mesh part; a vertical reinforcing bar connected to the reinforcing wire mesh portion or the reinforcing bar portion, installed upright on both sides of the block body, and arranged to be spaced apart in a plurality in the longitudinal direction of the block body; and an extended reinforcing bar disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bar.

In the present invention, the step of installing the double girder reinforcing bar part is characterized in that it includes the step of welding the reinforcing bar part and the connecting hardware part.

In the present invention, in the step of forming the girder concrete part, pouring concrete on the lower wire mesh part to cover the lower wire mesh part, the reinforcing wire mesh part, the reinforcing bar part, and the vertical reinforcing bar part. forming wealth; and pouring concrete on the first girder concrete part to form a second girder concrete part covering the vertical reinforcement part and the extended reinforcement part part.

A PC double girder structure according to an aspect of the present invention includes: a pillar on which a support is installed; and a PC double girder mounted on the support part, wherein the PC double girder includes a block body; a lower wire mesh portion disposed on the lower side of the block body; an upper wire mesh portion disposed on the upper side of the block body; Double girder reinforcing bars disposed on both sides of the block body; And concrete is poured on the lower wire mesh portion, characterized in that it comprises a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion.

In the present invention, the double girder reinforcing bar portion, a reinforcing wire mesh portion laminated on the upper side of the lower wire mesh portion; Reinforcing bar parts stacked on both sides of the block body on the upper side of the lower wire mesh part; a vertical reinforcing bar connected to the reinforcing wire mesh portion or the reinforcing bar portion, installed upright on both sides of the block body, and arranged to be spaced apart in a plurality in the longitudinal direction of the block body; extended reinforcing bars disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bars; And it characterized in that it comprises a connecting iron portion coupled to the reinforcing bar portion.

In the present invention, the support portion is detachably mounted to the pillar portion by a coupling portion, the coupling portion, the bolt portion is installed on the pillar portion, penetrating the support portion and protruding to the outside of the support portion; and a nut part screwed to the bolt part protruding to the outside of the support part to press the support part toward the pillar part.

In the present invention, the coupling portion, it characterized in that it further comprises a sleeve portion installed to penetrate the pillar portion, the bolt portion is disposed inside the sleeve portion.

A PC double girder construction method according to an aspect of the present invention comprises the steps of mounting a PC double girder to a support part installed on a column; disposing a slab between the PC double girder mounted on the support part of the adjacent pillar part; disposing a connecting reinforcing bar network portion or a reinforcing connecting reinforcing bar portion on the slab and the PC double girder; and pouring concrete on the slab and the PC double girder to form an upper concrete part.

In the present invention, the PC double girder, the block body; a lower wire mesh portion disposed on the lower side of the block body; an upper wire mesh portion disposed on the upper side of the block body; Double girder reinforcing bars disposed on both sides of the block body; And concrete is poured on the lower wire mesh portion, characterized in that it comprises a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion.

In the present invention, the double girder reinforcing bar portion, a reinforcing wire mesh portion laminated on the upper side of the lower wire mesh portion; Reinforcing bar parts stacked on both sides of the block body on the upper side of the lower wire mesh part; a vertical reinforcing bar connected to the reinforcing wire mesh portion or the reinforcing bar portion, installed upright on both sides of the block body, and arranged to be spaced apart in a plurality in the longitudinal direction of the block body; extended reinforcing bars disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bars; And it characterized in that it comprises a connecting iron portion coupled to the reinforcing bar portion.

In the present invention, the PC double girder adjacent to each other mounted on the support part installed on one of the pillar parts and arranged to be in contact with each other is characterized in that each of the connecting hardware parts is integrated by welding.

According to the solution of the above-mentioned problem, the present invention can simplify the assembly work at the construction site because the PC double girder is manufactured in advance in the factory.

In addition, according to the present invention, since the PC double girder is a lightweight material, it is possible to miniaturize the lifting equipment in the field.

In addition, according to the present invention, since the individual PC double girder is integrated by pouring concrete on site, the joint rigidity of the PC double girder can be improved.

In addition, according to the present invention, since the individual PC double girder is integrated by welding between the connecting hardware parts, it is possible to improve the joint rigidity of the PC double girder.

1 is a view showing a panel body, a lower wire mesh portion, and an upper wire mesh portion of a PC double girder according to an embodiment of the present invention.
2 is a view showing a state in which a double girder reinforcing bar part of a PC double girder is installed according to an embodiment of the present invention.
3 is a view showing a state in which the connecting hardware part of the PC double girder is coupled to the reinforcing bar part according to an embodiment of the present invention.
4 is a view showing a state in which the connecting hardware part of the PC double girder is welded to the reinforcing bar part according to an embodiment of the present invention.
5 is a view showing a state in which the first girder concrete part of the PC double girder is formed according to an embodiment of the present invention.
6 is a view showing a state in which the second girder concrete part of the PC double girder is formed according to an embodiment of the present invention.
7 is a view showing a column part of a PC double girder structure according to an embodiment of the present invention.
8 is a view showing a state in which the PC double girder is mounted on the column part of the PC double girder structure according to an embodiment of the present invention.
9 is a view showing a state in which the PC double girder is mounted on the column part of the PC double girder structure according to an embodiment of the present invention.
10 is a view showing a state in which a slab is arranged between the PC double girder of the PC double girder structure according to an embodiment of the present invention.
11 is a view showing a state in which the connecting reinforcing bar network part and the reinforcing bar network part are installed on the PC double girder and the slab of the PC double girder structure according to an embodiment of the present invention.
12 and 13 are views showing a state in which the upper concrete part is formed on the PC double girder and the slab of the PC double girder structure according to an embodiment of the present invention.
14 is a view showing a state in which the connecting hardware parts of the PC double girder are welded together according to an embodiment of the present invention.
15 is a view showing a state in which the support part of the PC double girder structure is removed according to an embodiment of the present invention.
16 is a view showing a state in which a PC double girder according to an embodiment of the present invention is constructed.
17 and 18 are a side view and a plan cross-sectional view showing the support part and the coupling part of the PC double girder structure according to an embodiment of the present invention.
19 and 20 are a side cross-sectional view and a plan cross-sectional view showing the coupling state of the connecting hardware part of the PC double girder according to an embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and are common in the art to which the present invention pertains. It is provided to fully inform those with knowledge of the scope of the invention, and the present invention is only defined by the scope of the claims.

In addition, the terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention.

As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of elements other than those mentioned.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a view showing a panel body, a lower wire mesh portion, and an upper wire mesh portion of a PC double girder according to an embodiment of the present invention, Figure 2 is a double girder reinforcing bar portion of a PC double girder according to an embodiment of the present invention It is a view showing an installed state, and FIG. 3 is a view showing a state in which the connecting hardware part of the PC double girder is coupled to the reinforcing bar part according to an embodiment of the present invention, and FIG. 4 is a PC double according to an embodiment of the present invention. It is a view showing the state in which the connecting hardware part of the girder is welded to the reinforcing bar part, and FIG. 5 is a view showing the state in which the first girder concrete part of the PC double girder is formed according to an embodiment of the present invention, and FIG. 6 is the present invention It is a view showing a state in which the second girder concrete part of the PC double girder is formed according to an embodiment of the It is a view showing a state in which the PC double girder is mounted on the column part of the PC double girder structure according to an embodiment, and FIG. 9 is a PC double girder mounted on the column part of the PC double girder structure according to an embodiment of the present invention. It is a view showing the state, and Fig. 10 is a view showing a state in which a slab is arranged between the PC double girder of the PC double girder structure according to an embodiment of the present invention, and Fig. 11 is a PC double according to an embodiment of the present invention. It is a view showing a state in which the connecting reinforcing bar network part and the reinforcing bar network part are installed on the PC double girder and the slab of the girder structure, and FIGS. 12 and 13 are the upper part of the PC double girder and the slab of the PC double girder structure according to an embodiment of the present invention. It is a view showing a state in which a concrete part is formed, FIG. 14 is a view showing a state in which connecting hardware parts of a PC double girder are welded together according to an embodiment of the present invention, and FIG. 15 is a PC double girder according to an embodiment of the present invention. It is a view showing a state in which the support part of the structure is removed, and FIG. 16 is a view showing a state in which a PC double girder according to an embodiment of the present invention is constructed, and FIGS. 17 and 18 are PC according to an embodiment of the present invention. It is a side view and a plan sectional view showing the supporting part and the coupling part of the double girder structure. , Figure 19 and Figure 20 are a side cross-sectional view and a plan cross-sectional view showing the coupling state of the connecting hardware of the double PC girder according to an embodiment of the present invention.

1 to 6, the PC double girder 2 according to an embodiment of the present invention is a block body 10, a lower wire mesh portion 15, an upper wire mesh portion 16, a double girder It includes a reinforcing bar 20 , a concrete girder 30 .

The block body 10 may be formed of an expanded poly-styrol (EPS) material as an insulator. However, the material of the insulator is not limited to the foamed Styrol, and other heat insulators are also possible.

A plurality of pins (not shown) may be coupled to the block body 10 . Each pin protrudes from the upper and lower surfaces of the block body 10 . One pin penetrates the block body 10 and may be installed to protrude from the upper and lower surfaces, respectively, and different pins may be installed to protrude from the upper and lower surfaces of the block body 10 , respectively.

The lower wire mesh portion 15 and the upper wire mesh portion 16 are formed in a net shape. The lower wire mesh portion 15 and the upper wire mesh portion 16 are arranged so that several wires cross each other and are formed in a lattice shape, that is, a net shape as a whole.

Since the lower wire mesh portion 15 and the upper wire mesh portion 16 are made of metal, tensile performance is imparted to concrete, which is a brittle material. In addition, the lower wire mesh portion 15 and the upper wire mesh portion 16 restrain the concrete to improve the compressive strength of the PC double girder (2).

The lower wire mesh portion 15 is disposed on the lower side of the block body 10 . The lower wire mesh portion 15 may be fixed to a position on the upper surface of the block body 10 while being coupled to a plurality of pins protruding to the lower side of the block body 10 .

The upper wire mesh portion 16 is disposed on the upper side of the block body 10 . The upper wire mesh portion 16 may be fixed to a position on the upper surface of the block body 10 while being coupled to a plurality of pins protruding toward the upper surface of the block body 10 .

In this embodiment, the lower side and the upper side of the block body 10 are covered with one lower wire mesh portion 15 and one upper wire mesh portion 16, respectively, as an example, but in contrast to this, two or more lower wires The lower and upper surfaces of the block body 10 may be covered by the mesh portion 15 and the upper wire mesh portion 16 .

The pin and the lower wire mesh portion 15 and the upper wire mesh portion 16 may be coupled to each other by welding.

The double girder reinforcing bar portion 20 includes a reinforcing wire mesh portion 21 , a reinforcing reinforcing bar portion 22 , a vertical reinforcing bar portion 23 , and an extended reinforcing bar portion 24 .

The reinforcing wire mesh portion 21 is formed in a net shape, and is laminated on the upper side of the lower wire mesh portion 15 .

The reinforcing bars 22 are stacked on the upper side of the lower wire mesh portion 15 , and are disposed on both sides of the block body 10 . The reinforcing bar 22 may be made of reinforcing bars and the like, and a plurality of reinforcing bars may be disposed to be spaced apart from each other at predetermined intervals.

The vertical reinforcing bar 23 is connected to the reinforcing wire mesh unit 21 or the reinforcing reinforcing bar 22 and is installed to be erected upward. The vertical reinforcing bars 23 are disposed on both sides of the block body 10 , and a plurality of them are arranged to be spaced apart from each other in the longitudinal direction of the block body 10 .

The extended reinforcing bar 24 is connected to the vertical reinforcing bar 23 , and is disposed on both sides of the block body 10 in the longitudinal direction of the block body 10 .

The reinforcing bar portion 22, the vertical reinforcing bar portion 23, and the extended reinforcing bar portion 24 are disposed on both sides of the block body 10, and are integrated by the girder concrete portion 30 while being integrated with the PC double girder (2) on both sides. reinforce the strength

The double girder reinforcement part 20 further includes a connecting hardware part 26 .

The connecting hardware part 26 is coupled to both ends of the reinforcing bar part 22 . Specifically, the connecting hardware portion 26 is coupled to both ends of the reinforcing bar portion 22 by welding.

The connection hardware part 26 is formed in an L-shape, and may be manufactured at an angle or the like. The different PC double girder 2 can be integrated by welding the connecting hardware parts 26 to each other in a state where the respective connecting hardware parts 26 are butted to each other.

The concrete girder part 30 is formed to cover the block body 10, the lower wire mesh part 15, and the double girder reinforcement part 20 by pouring concrete on the lower wire mesh part 15.

The concrete girder 30 includes a first concrete girder 31 and a second concrete girder 32 .

The first girder concrete part 31 is a lower wire mesh part 15, concrete is poured on the lower wire mesh part 15, the reinforcing wire mesh part 21, the reinforcing bar part 22, the vertical reinforcing bar part 23 ) is formed to cover At this time, the outer surface of the connection hardware part 26 is not covered with concrete.

The lower wire mesh portion 15 and the reinforcing reinforcing bar portion 22 may be entirely covered by the first girder concrete portion 31 , and the reinforcing wire mesh portion 21 is substantially formed by the first girder concrete portion 31 . Most can be covered. A part of the vertical reinforcement part 23 is covered by the first girder concrete part 31 in the lower part.

Since the first girder concrete part 31 also covers the lower part of the block body 10 , the block body 10 is a lower wire mesh part 15 and a reinforcing wire mesh part 21 by the first girder concrete part 31 . ), the reinforcing bar 22, and the vertical reinforcing bar 23 are integrated.

Simultaneously with the formation of the first girder concrete part 31 or after the first girder concrete part 31 is hardened, the second girder concrete part 32 is formed.

Concrete is poured on the first girder concrete part 31 in the second girder concrete part 32 to cover the vertical reinforcement part 23 and the extended reinforcement part 24 .

The extended reinforcement part 24 may be entirely covered by the second girder concrete part 32, and the vertical reinforcement part 23 may be covered by the first girder concrete part 31 except for the upper side.

Since the second girder concrete part 32 covers the block body 10 except for the upper side of the block body 10 , the block body 10 is a vertical reinforcement part 23 by the second girder concrete part 32 . ), is integrated with the extended reinforcing bar 24.

Since the second girder concrete part 32 is formed on the first girder concrete part 31, it is integrated with the first girder concrete part 31 by hardening of the concrete.

The PC double girder 2 formed up to the girder concrete part 30 is loaded on a transport vehicle and transported to the construction site.

Since the PC double girder 2 according to this embodiment can reduce the amount of concrete compared to the existing PC double girder, it can be lightened.

A method of manufacturing a PC double girder according to an embodiment of the present invention will be described with reference to FIGS. 1 to 6 .

The manufacturing method of the double PC girder according to this embodiment includes a lower wire mesh portion 15 disposed on the lower side of the block body 10 and an upper wire mesh portion disposed on the upper side of the block body 10 ( The step of installing 16) (see FIG. 1), the step of installing the double girder reinforcing bars 20 disposed on both sides of the block body 10 (see FIGS. 2 to 4), the lower wire mesh part 15 on By pouring concrete to the block body 10, the lower wire mesh portion 15, the step of forming the girder concrete portion 30 covering the double girder reinforcing bar portion 20 (see Figs. 5 and 6).

The steps of installing the lower wire mesh portion 15 and the upper wire mesh portion 16 and installing the double girder reinforcing bar 20 may be performed before the block body 10 is put into the formwork (not shown). . The step of forming the girder concrete part 30 may be performed after the block body 10 is put into the mold.

The step of installing the double girder reinforcing bar 20 includes welding the reinforcing bar 22 and the connecting hardware part 26 to each other.

The step of forming the concrete girder part 30 includes the step of forming the first concrete girder part 31 (refer to FIG. 5) and the step of forming the second concrete girder part 32 (refer to FIG. 6).

In the step of forming the first girder concrete part 31, concrete is poured on the lower wire mesh part 15, and the concrete is made of the lower wire mesh part 15, the reinforcing wire mesh part 21, the reinforcing bar part 22. , proceeds to cover the vertical reinforcing bar (23).

The step of forming the second girder concrete part 32 is carried out by pouring concrete on the first girder concrete part 31 so that the concrete covers the vertical reinforcement part 23 and the extended reinforcement part 24 .

The first girder concrete part 31 and the second girder concrete part 32 may be integrally formed by one-time concrete pouring.

The method of manufacturing the double PC girder according to the present embodiment may further include connecting the lower wire mesh portion 15 and the upper wire mesh portion 16 with a plurality of pins coupled to the block body 10, respectively. .

The step of connecting the lower wire mesh part 15 and the upper wire mesh part 16 with the pin is to connect the lower wire mesh part 15 and the upper wire mesh part 16 to the lower side and the upper side of the block body 10. This can be done during the installation phase, or it can be done before or after.

At this time, the lower wire mesh portion 15 and the upper wire mesh portion 16 may be disposed to be spaced apart from the lower side and the upper side of the block body 10 by means of a pin.

A PC double girder structure according to an embodiment of the present invention will be described with reference to FIGS. 7 to 9 , 17 and 18 .

The PC double girder structure includes a PC double girder 2 and a column part 110 .

The pillar part 110 is installed so that the support part 120 is detachable. A mounting hole 121 is formed on the side of the support 120 . The mounting hole 121 may be formed as a long hole in consideration of the construction error of the bolt 132 installed through the support 120 .

The PC double girder 2 is placed on the column 110 while being mounted on the support 120 .

The support part 120 may be made of an angle or a channel. The support part 120 is detachably mounted to the column part 110 by the coupling part 130 .

The coupling part 130 includes a bolt part 132 and a nut part 133 .

The bolt part 132 is installed on the pillar part 110 , penetrates the mounting hole 121 of the support part 120 , and protrudes to the outside of the support part 120 . The bolt part 132 is installed through the pillar part 110 and may be provided in plurality.

The nut part 133 is screw-coupled to the bolt part 132 protruding to the outside of the support part 120 . Since the nut part 133 can press the support part 120 toward the pillar part 110 , the support part 120 can be firmly mounted on the pillar part 110 .

The coupling part 130 may further include a sleeve part 131 installed to pass through the column part 110 .

The sleeve part 131 may be integrated with the column part 110 while concrete is poured and hardened inside the column part 110 in a state in which the sleeve part 131 is installed to penetrate the outer wall of the column part 110 .

When the sleeve part 131 is installed, the bolt part 132 passes through the column part 110 while being disposed inside the sleeve part 131 .

7 to 20, a construction method of a double PC girder according to an embodiment of the present invention will be described.

The construction method of the double PC girder according to this embodiment includes the steps of mounting the PC double girder 2 on the support part 120 installed on the column part 110 (refer to FIG. 8), Placing the slab 210 between the PC double girder 2 mounted on the support 120 (see FIGS. 9 and 10), the slab 210 and the PC double girder 2 on the connecting reinforcing bar network ( 221) or arranging the reinforcing bar network parts 222 and 223 (see Fig. 11), pouring concrete on the slab 210 and the PC double girder 2 to form the upper concrete part 240 (Fig. 12) are included.

According to the present embodiment, as shown in FIG. 9 , one PC double girder 2 is mounted between the two pillar parts 110 by the support part 120 .

That is, one PC double girder 2 is supported at one end by the support part 120 of the column part 110 on one side, and the other end is supported by the support part 120 of the column part 110 on the other side. do.

A slab 210 is disposed between the double PC girder 2 arranged parallel to each other as shown in FIG. 10 . The slab 210 is mounted on the concrete girder 30 of each PC double girder 2 .

When the arrangement of the slab 210 is completed, the connecting reinforcing bar network 221 and/or the reinforcing connecting reinforcing bar 222 are installed.

The connecting reinforcing bar network 221 has one side disposed on the PC double girder 2 and the other side disposed on the slab 210 . Accordingly, when the upper concrete part 240 is formed, the PC double girder 2 and the slab 210 are integrated, and the coupling rigidity between the PC double girder 2 and the slab 210 is improved by the connecting reinforcing bar network part 221 . .

The connecting reinforcing bar network 221 is formed in a net shape. The connecting reinforcing bar network 221 is arranged such that several wires cross each other and is formed in a lattice shape, that is, a net shape as a whole. Since the connecting reinforcing bar network 221 is made of metal, it imparts tensile performance to concrete, which is a brittle material.

In addition, by using the connecting reinforcing bar network 221, the workability can be improved compared to the existing construction method, the construction period can be shortened, and the quality can be improved because the reinforcement interval is constant.

The reinforcing connection reinforcing bar 222 may be disposed on the concrete girder 30 of the PC double girder 2 . Reinforcing connection reinforcing bars 222 may be disposed on both sides of the block body 10 in the longitudinal direction of the block body 10 . The reinforcing connection reinforcing bar 222 may be formed of a reinforcing bar network, reinforcing bar, or the like.

The reinforcing connection reinforcing bar 222 and the block body 10 may be integrated by the upper concrete part 240 , and the strength of both sides of the block body 10 in the PC double girder 2 may be reinforced.

The two PC double girder 2 and the slab 240 spaced apart from each other by the upper concrete part 240 are bundled together. The two PC double girder (2) arranged side by side in this way is integrated by the upper concrete part (240).

As shown in FIG. 13 , the double PC girder 2 may be arranged in a line in the longitudinal direction. Two PC double girder (2) arranged in a line shares one pillar part (110) as shown in FIG.

When the double PC girder 2 on one side is mounted on the support part 120 on one side of the same column part 110 , the PC double girder 2 on the other side is the support part 120 on the other side of the same column part 110 . ) is mounted on

The two PC double girder 2 arranged in a line are arranged so that each end abuts to each other, in this case, the connecting hardware parts 26 located at each end of the PC double girder 2 are opposite to each other, more specifically, to each other placed adjacent to each other.

The operator can bind the two PC double girders 2 arranged in a line by welding the opposite connecting hardware parts 26 to one another.

That is, according to the construction method according to the present embodiment, the PC double girders 2 arranged side by side are integrated by forming the upper concrete part 240 through the slab 210, and the PC double girders 2 are arranged in a line. ) can be integrated by welding the connecting hardware parts 26 in contact with each other. Thereby, the workability of the double PC girder 2 can be improved, and the structural safety of the building structure can be improved.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for explaining the invention, and various modifications or equivalents from the detailed description of the invention to those of ordinary skill in the art to which the present invention pertains It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

2: PC double girder
10: block body
15: lower wire mesh part
16: upper wire mesh part
20: double girder reinforcing bar
21: reinforcing wire mesh part
22: reinforcing bar part
23: vertical reinforcing bar
24: extended reinforcing bar
26: connection hardware part
30: girder concrete part
31: 1st girder concrete part
32: 2nd girder concrete part

Claims (17)

block body;
a lower wire mesh portion disposed on the lower side of the block body;
an upper wire mesh portion disposed on the upper side of the block body;
Double girder reinforcing bars disposed on both sides of the block body; and
Concrete is poured on the lower wire mesh portion and comprising a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion,
The double girder reinforcing bar part,
a reinforcing wire mesh portion stacked on an upper side of the lower wire mesh portion;
Reinforcing bar portions disposed on both sides of the block body and stacked on the upper side of the lower wire mesh portion;
A vertical reinforcing bar connected to the reinforcing wire mesh part or the reinforcing bar part, installed upright on both sides of the block body, and arranged in a plurality of spaced apart from each other in the longitudinal direction of the block body;
an extended reinforcing bar disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bar;
PC double girder, characterized in that it further comprises a connecting hardware portion coupled to the reinforcing bar portion. delete delete According to claim 1,
PC double girder, characterized in that the connecting hardware portion is welded to the reinforcing bar portion. According to claim 1,
The girder concrete part,
a first girder concrete portion in which concrete is poured on the lower wire mesh portion to cover the lower wire mesh portion, the reinforcing wire mesh portion, the reinforcing reinforcing bar portion, and the vertical reinforcing bar portion; and
PC double girder, characterized in that it comprises a second girder concrete part that concrete is poured on the first girder concrete part to cover the vertical reinforcing bar part and the extended reinforcing bar part. delete delete delete delete a pillar part on which the support part is installed; and
Includes a PC double girder mounted on the support,
The PC double girder
block body;
a lower wire mesh portion disposed on the lower side of the block body;
an upper wire mesh portion disposed on the upper side of the block body;
Double girder reinforcing bars disposed on both sides of the block body; and
Concrete is poured on the lower wire mesh portion and comprising a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion,
The double girder reinforcing bar part,
a reinforcing wire mesh portion stacked on an upper side of the lower wire mesh portion;
Reinforcing bar parts stacked on both sides of the block body on the upper side of the lower wire mesh part;
a vertical reinforcing bar connected to the reinforcing wire mesh portion or the reinforcing reinforcing bar portion, installed upright on both sides of the block body, and arranged to be spaced apart in a plurality of pieces in the longitudinal direction of the block body;
extended reinforcing bars disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bars; and
PC double girder structure, characterized in that it comprises a connecting hardware portion coupled to the reinforcing bar portion. delete 11. The method of claim 10,
The support part is detachably mounted to the pillar part by a coupling part,
The coupling part,
a bolt part installed on the pillar part and protruding outside the support part through the support part; and
PC double girder structure, characterized in that it comprises a nut portion screwed to the bolt portion protruding to the outside of the support portion for pressing the support portion toward the pillar portion. 13. The method of claim 12,
The coupling part,
Further comprising a sleeve portion installed to penetrate the pillar portion,
PC double girder structure, characterized in that the bolt part is disposed inside the sleeve part. In the construction method of the PC double girder,
The PC double girder
block body;
a lower wire mesh portion disposed on the lower side of the block body;
an upper wire mesh portion disposed on the upper side of the block body;
Double girder reinforcing bars disposed on both sides of the block body; and
Concrete is poured on the lower wire mesh portion and comprising a girder concrete portion covering the block body, the lower wire mesh portion, and the double girder reinforcing bar portion,
The double girder reinforcing bar part,
a reinforcing wire mesh portion stacked on an upper side of the lower wire mesh portion;
Reinforcing bar parts stacked on both sides of the block body on the upper side of the lower wire mesh part;
a vertical reinforcing bar connected to the reinforcing wire mesh portion or the reinforcing reinforcing bar portion, installed upright on both sides of the block body, and arranged to be spaced apart in a plurality of pieces in the longitudinal direction of the block body;
extended reinforcing bars disposed on both sides of the block body in the longitudinal direction of the block body and connected to the vertical reinforcing bars; and
Including a connecting hardware part coupled to the reinforcing bar part,
Mounting the PC double girder to the support part installed on the pillar;
disposing a slab between the PC double girder mounted on the support part of the adjacent pillar part;
disposing a connecting reinforcing bar network portion or a reinforcing connecting reinforcing bar portion on the slab and the PC double girder; and
and pouring concrete on the slab and the PC double girder to form an upper concrete part. delete delete 15. The method of claim 14,
The PC double girder construction method, characterized in that the adjacent PC double girder mounted on the support part installed on the one pillar part and arranged to be in contact with each other is integrated as each of the connecting hardware parts are welded together.

Images