KR20120019152A - Prestressed precast concrete composite beam and manufacture methode for there of and construction methode for there of - Google Patents

Abstract

PURPOSE: A prestressed precast concrete composite beam, a manufacturing method thereof, and a construction method thereof are provided to reduce positive moment exerted on the center portion of a prestressed precast concrete composite beam and to reduce vertical sagging of the center portion and the horizontal deformation of both ends of the composite beam caused by a load in a gravity direction. CONSTITUTION: A prestressed precast concrete composite beam(100) comprises a plurality of main bars(110), prestressed steel(120) which is installed on the main bars, adhesion prevention members which are installed on both ends of the prestressed steel in order to prevent an adhesion force of concrete, shear reinforcements(140) which are installed around the adhesion prevention members and the main bars, a placing groove(150) which is formed in order to enhance the interfacial friction between a precast concrete composite beam and a cast-in-place slab, reinforcing bars(140') which are installed between the shear reinforcements in order to enhance the interfacial friction between the precast concrete composite beam and a cast-in-place slab, and a steel skeleton reinforcing material.

Description

Prestressed precast concrete composite beam and manufacture methode for there of and construction methode for there of}

The present invention relates to a Ramen-type reinforced concrete structure, and more specifically, a prestressed precast concrete composite beam and a fabrication thereof having improved negative bending moment and positive bending moment load distribution. It relates to a method and a construction method thereof.

Representative structural types used in the construction field, such as the wall structure and ramen structure, structural materials, such as steel structure, reinforced concrete structure and composite structure of steel and reinforced concrete, the ramen structure is a representative method of the reinforced concrete structure Columns, beams, and slabs are structural forms that are the main structural members.

The wall structure is a structure of walls and slabs that are generally used in apartment buildings, and has a merit of increasing the indoor ceiling height and lowering the construction cost without raising the floor height of the building as there is no beam of the ramen structure, but it is more variable than the ramen structure. There are disadvantages and complicated construction.

In addition, the ramen-jo structure is a structure of beams, columns, and slabs that are generally used in buildings such as malls and officetels, which are commercial facilities, and withstands the load acting on the columns and borough buildings.

However, the ramen-jo structure has a problem in that the construction cost is more than about 15% more expensive than the wall structure, and thus the economy is inferior.

In view of the above-described conventional defects, the object of the present invention is to prestress precast by applying prestress to the center of prestressed steel to make the compressive stress act on the concrete under the prestressed precast concrete composite beam. Prestressed precast concrete composite beam and its fabrication method and its method to reduce the static moment acting on the center of concrete composite beam and to reduce the vertical deflection and lateral deformation of both ends by the load applied in the gravity direction To provide a construction method.

In addition, another object of the present invention, when manufacturing the pre-stressed precast concrete composite beam, the tension preventing force is not transmitted to the section where the anti-sticking member is installed by removing the adhesive force with the concrete by mounting the anti-sticking member on both sides of the prestressed steel The present invention provides a prestressed precast concrete composite beam, a method of manufacturing the same, and a method of constructing the same.

In addition, another object of the present invention is to prefabricated precast concrete composite beam prefabricated prefabricated precast concrete beams can be installed on the pillars of the field after the factory, and the concrete is placed to form a slab, thereby significantly reducing the air The present invention provides a composite composite beam, a manufacturing method thereof, and a construction method thereof.

Prestressed precast concrete composite beam of the present invention,

Multiple freckles;

A prestressed steel material installed above the main root;

An attachment preventing member installed at both ends of the prestressed steel to prevent adhesion of concrete from occurring;

Shear reinforcement and installed around the attachment preventing member and the main root;

Curing by pouring concrete so that the upper end of the shear reinforcement,

By applying a tensile force to the prestressed steel is characterized in that to reduce the static moment in the center portion by the compressive stress acting on the lower concrete.

The production method of the prestressed precast concrete composite beam of the present invention,

Forming a formwork for manufacturing prestressed precast concrete composite beams;

Installing a plurality of shear reinforcing bars in the formwork such that an upper end portion protrudes above the formwork;

Installing a plurality of main bars to protrude to both ends of the formwork in the shear reinforcing bars;

Installing a plurality of prestressed steels to protrude to both ends of formwork on the main root;

Coupling an attachment preventing member to both sides of the prestressed steel such that adhesion force of concrete does not occur;

Fixing both sides of the prestressed steel, to which the anti-sticking member is coupled, to tension the tensioner;

After placing and curing concrete in the formwork in the state in which the prestressed steel is tensioned by the tensioner, releasing the fixing of the prestressed steel in the tensioner, removing the formwork to form a prestressed precast concrete composite beam It is characterized by comprising.

According to the present invention, the prestressed precast concrete composite beam is prepared by tensioning the central portion of the prestressed steel to compress the stress on the lower concrete, reducing the static moment acting on the central portion of the prestressed precast concrete composite beam. By reducing the vertical deflection and the lateral deformation of both ends due to the load applied in the direction can not only improve the durability but also have the advantage of reducing the height of the floor by reducing the dancing.

In addition, according to the present invention, when manufacturing the pre-stressed precast concrete composite beam, by attaching the anti-stick member on both sides of the pre-stressed steel to eliminate the adhesive force by the concrete so that the tension is not transmitted to the section where the anti-stick member is installed As a result, it is possible to prevent the increase of the parental moment and to thereby have the advantage of building the building firmly.

In addition, according to the present invention, after manufacturing the pre-stressed precast concrete composite beam factory installed on the pillar of the site easily, by placing the concrete to form a slab to significantly reduce the air due to the reduction in labor costs to improve the economics It can have the advantage.

1 is a perspective view of the present invention
2 is a side cross-sectional view of FIG. 1
3 is a front cross-sectional view of FIG.
4 to 6 is a perspective view showing another embodiment of the friction groove of the present invention prestressed precast concrete composite beam
7 is a perspective view of another embodiment of the present invention
8 is a side cross-sectional view of FIG.
9 to 12 is a construction process diagram of the present invention
Figure 13 is another embodiment installation state of the present invention
14 is a graph showing the application of the present invention and the moment

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention.

The present invention is a prestressed precast concrete composite beam 100, a plurality of the main root 110 is installed, the prestressed steel 120 is installed on the main root 110, both ends of the prestressed steel 120 The attachment preventing member 130 is installed so that the adhesion force of the concrete does not occur, the shear reinforcing bar 140 is installed around the attachment preventing member 130 and the main root 110, the upper end of the shear reinforcing bar 140 protrudes Including the curing to pour concrete, and to apply a tensile force to the prestressed steel 120 to reduce the static moment in the center by the compressive stress acting on the lower concrete, which will be described in more detail as follows same.

The anti-sticking member 130 is preferably any one of grease applied to the sleeve, the sheath tube, the film, and an inner surface thereof.

In order to withstand the weight of the prestressed precast concrete composite beam 100, the main reinforcement 110 and the prestressed steel 120 and the fixing bars 11 and 11 ′ of the column 10 are welded or coupler 200. It is preferable to fix each.

It is preferable to form the pouring groove 150 in the prestressed precast concrete composite beam 100 to improve the interfacial friction force with the in-situ slab S.

The steel reinforcement 160 is further installed on both sides of the prestressed precast concrete composite beam 100 to reinforce the shear force of the prestressed precast concrete composite beam 100, and the steel reinforcement 160 is' T 'or' It is preferable to form in I 'shape.

Fixing the connecting member 12 of the steel frame reinforcement 160 and the column 10 to the fixing fixing part 300 to withstand the weight of the pre-stressed precast concrete composite beam (100 ') installed the steel frame reinforcement (160) , The connection fixing part 300 is a bolt / nut 320, 320 'in a state in which the bonding member 12 of the steel reinforcement 160 and the column 10 is in close contact with the welding or connecting member 310. It is preferable to fasten by fixing.

Next will be described the manufacturing process of the present invention prestressed precast concrete composite beam 100 configured as described above.

First, as shown in Figures 2 to 3, to form a form for manufacturing the prestressed precast concrete composite beam 100, and to install a plurality of delivery reinforcing bars 140 so as to project the upper end in the formwork The shear reinforcing bar 140 is preferably installed at a predetermined interval apart.

After installing a plurality of main bars 110 to be located inside the shear reinforcing bar 140 installed in the formwork, and after installing the prestressed steel 120 on the upper portion, the anti-stick member on both sides of the prestressed steel 120 To install the 130, the attachment preventing member 130 is a sleeve, sheath pipe, film and any one of the grease is applied to the inside of the formwork of the concrete is poured into the form of curing prestressed steel 120 both sides This is to prevent the occurrence of wealth.

The main rod 110 refers to a general reinforcing bar when reinforcing concrete, and the prestressed steel 120 is made of steel rods and steel wire or thin steel wire in the shape of pretzel to increase the tensile force while the prestressed steel 120 By forming a plurality of protrusions on the outer peripheral surface of the central portion of the), when the concrete curing, the tensioned prestressed steel may not be restored more than the prestressed steel 120 without protrusions.

In addition, both sides of the prestressed steel 120 in the state in which the tensioner is located at both ends of the formwork is fixed to the tensioner to tension within 30% of the tensile capacity of the prestressed steel 120, which is prestressed precast concrete composite beam ( This is to improve the load capacity of 100) and to reduce the deflection and cracking in the constant moment section.

The tensioner can apply both the tensioning method by the hydraulic jack and the tensioning method by heating.

The prestressed steel 120 is placed in the form of the concrete in the state in which the curing is cast, the adhesive force of the concrete is generated in the center portion of the tensioned prestressed steel 120, the prestressed steel 120 Since both sides of the attachment preventing member 130 is installed, the adhesion with the concrete does not occur.

In the above process, when the concrete is removed and the mold is removed while the tensioner is fixed to the prestressed steel 120 while being cured in the form, the prestressed steel 120 is gradually contracted while the lower portion of the prestress is curved. Precast concrete composite beam 100 will be produced.

Here, a pour groove 150 is formed in the prestressed precast concrete composite beam 100 in order to improve the interfacial friction force with the in-situ slab S, as shown in FIGS. 4 to 6, the pour groove ( 150, by forming a curved surface on the inner surface, or formed of any one of the square groove or the circular groove spaced apart by a certain interval not only to further improve the shear strength, but also reduce the weight of the prestressed precast concrete composite beam 100 itself It is possible to move smoothly because of this.

In addition, reinforcing bars 140 'between the shear reinforcing bars 140 of the prestressed precast concrete composite beam 100 in order to improve the interfacial friction between the prestressed precast concrete composite beam 100 and the cast-in-place slab S. You can also install more.

In addition, as shown in Figures 7 to 8, before the concrete is poured into the formwork, the steel reinforcement of the 'T' or 'I' shape to reinforce the shear force of the prestressed precast concrete composite beam 100 ) May be installed on both sides of the formwork, the steel reinforcement member 160 is preferably located on the attachment preventing member 130.

The construction method of the prestressed precast concrete composite beam 100 produced by the above process, as shown in Figure 9 to 12, the prestressed precast concrete composite beam 100 is the same as the column 10 of the building To form a line, the fixed reinforcing bar 11 fixed to the main rod 110 and the column 10 of the prestressed precast concrete composite beam 100 and the prestressed steel 120 and the fixed rod 10 fixed to the column 10 11 'can be fixed by welding or coupler 200, respectively.

After fixing the fixing bars 11 of the pillars 10 and the prestressed steels 120 of the prestressed precast concrete composite beam 100 by the welding or coupler 200, the fixing bars of the pillars 10 ( 11) (11 ') and the formwork is installed to accommodate the coupler 200 connecting the main root 110 and the prestressed steel 120 of the prestressed precast concrete composite beam 100, the prestressed precast concrete composite beam (100) Install the slab formwork supported by the copper bar to form the same line as the upper end.

At this time, the slab formwork, the lower position than the shear reinforcing bar 140 and the reinforcing bar 140 'of the prestressed precast concrete composite beam 100, that is, the same line as the upper surface of the prestressed precast concrete composite beam 100 It is preferable to maintain, after placing the upper reinforcement (C) into the shear reinforcement 140 and the reinforcing reinforcement (140 '), the pour groove 150 of the slab formwork and prestressed precast concrete composite beam (100) When the concrete is poured into, and the poured concrete is cured, the slab S and the prestressed precast concrete composite beam 100 are integrally formed.

The surface area is increased while improving the interfacial friction force between the pour groove 150 and the concrete pour in the pour groove 150 to improve the fixing force to be more robust construction.

In addition, before the concrete casting to form the slab (S), as shown in Figure 13, the joint member 12 of the steel frame reinforcement 160 and the pillar 10 of the prestressed precast concrete composite beam (100 ') It can be fixed in the connection fixing part 300, the connection fixing part 300, the steel frame reinforcement 160 and the joining member 12 of the prestressed precast concrete composite beam (100 ') by welding or In the state in which the connection member 310 is in close contact with the steel reinforcement member 160 and the joining member 12, the connection member 310 may be fastened by bolts / nuts 320 and 320 ′.

When the slab S of the building is formed in the above process, as shown in FIG. 14, the lower portion of the prestressed precast concrete composite beam 100 is stretched and stretched to maintain a horizontal line and the prestressed precast. Since both ends of the concrete composite beam 100 is constrained to the column 10, the moment acts in the opposite direction to the positive moment of the prestressed precast concrete composite beam 100, which is applied to the attachment preventing member 130. As a result of the reduction of the parent moment, the deformation of the prestressed precast concrete composite beam 100 can be prevented.

As described above, the present invention, although described by the limited embodiments and drawings, terms or words used in the present specification and claims are not limited to the ordinary or dictionary meanings and should not be interpreted, the technical spirit of the present invention It must be interpreted to mean meanings and concepts. Therefore, the configuration shown in the embodiments and drawings described herein are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, various changes within the scope of the claims of the present invention It should be understood that there may be equivalents and variations.

100: prestressed precast concrete composite beam
110: root 120: prestressed steel
130: attachment preventing member 140,140 ': shear rebar
150: friction groove 160: steel frame reinforcement
200: coupler 300: connection
310: connecting member 320, 320 ': bolt / nut

Claims (14)

Multiple freckles;
A prestressed steel material installed above the main root;
An attachment preventing member installed at both ends of the prestressed steel to prevent adhesion of concrete from occurring;
Shear reinforcement and installed around the attachment preventing member and the main root;
Curing by pouring concrete so that the upper end of the shear reinforcement,
Prestressed precast concrete composite beam characterized in that to apply a tensile force to the prestressed steel to reduce the static moment in the center portion by the compressive stress acting on the lower concrete.
The method according to claim 1,
The anti-sticking member is a prestressed precast concrete composite beam, characterized in that any one of the grease (grease) is applied to the sleeve, sheath tube, the film and the inner surface.
The method according to claim 1,
Prestressed precast concrete composite beam, characterized in that to fix the reinforcing bars of the main and prestressed steel and the column by welding or coupler to withstand the weight of the prestressed precast concrete composite beam respectively.
The method according to claim 1,
A pour groove is formed in the prestressed precast concrete composite beam to enhance the interfacial friction force with the in-situ slab, and the pour groove is formed with a curved surface on an inner surface, or any one of a square groove or a circular groove spaced at a predetermined interval. Prestressed precast concrete composite beam, characterized in that formed.
The method according to claim 1,
Reinforcing bars 140 'are further added between the shear bars 140 of the prestressed precast concrete composite beam 100 to improve the interfacial friction between the prestressed precast concrete composite beam 100 and the cast-in-place slab S. Prestressed precast concrete composite beam, characterized in that the installation.
The method according to claim 1,
Prestressed precast concrete composite beam, characterized in that to further install the 'T' or 'I' shaped steel reinforcement to reinforce the shear force of the prestressed precast concrete composite beam on both sides of the prestressed precast concrete composite beam.
The method of claim 6,
Further comprising a connection fixing part for fastening by fastening with a bolt / nut in a state in which the joint member of the steel reinforcement and the pillar is in close contact with the welding or connecting member to withstand the weight of the prestressed precast concrete composite beam containing the steel reinforcement; Prestressed precast concrete composite beam, characterized in that configured.
Forming a formwork for manufacturing the prestressed precast concrete composite beam formed according to the configuration of claim 1;
Installing a plurality of shear reinforcing bars in the formwork such that an upper end portion protrudes above the formwork;
Installing a plurality of main bars to protrude to both ends of the formwork in the shear reinforcing bars;
Installing a plurality of prestressed steels to protrude to both ends of formwork on the main root;
Coupling an attachment preventing member to both sides of the prestressed steel such that adhesion force of concrete does not occur;
Fixing both sides of the prestressed steel, to which the anti-sticking member is coupled, to tension the tensioner;
After placing and curing concrete in the formwork in the state in which the prestressed steel is tensioned by the tensioner, releasing the fixing of the prestressed steel in the tensioner, removing the formwork to form a prestressed precast concrete composite beam Prestressed precast concrete composite beam manufacturing method comprising a.
The method according to claim 8,
The method of manufacturing the prestressed precast concrete composite beam, characterized in that the attachment preventing member is any one of grease (grease) is applied to the sleeve, sheath tube, film and the inner surface.
The method according to claim 8,
And before the concrete is poured into the formwork, forming a groove formwork to form a friction groove so as to enhance the interfacial friction force with the slab.
The method according to claim 8,
The prestressed precast concrete composite beam manufacturing method characterized in that the reinforcing bar is further installed between the shear reinforcement of the prestressed precast concrete composite beam to enhance the interfacial friction between the prestressed precast concrete composite beam and the cast-in-place slab.
The method according to claim 8,
Before the concrete is poured into the formwork, further comprising the step of installing the steel reinforcement formed in the 'T' or 'I' shape on both sides of the formwork to reinforce the shear force of the prestressed precast concrete composite beam Prestressed precast concrete composite beam manufacturing method.
Moving the prestressed precast concrete composite beam formed according to claim 8 to the upper end of the column of the building to maintain the same line;
Fixing the main rod and the prestressed steel of the prestressed precast concrete composite beam to the fixing bars of the column by welding or couplers, respectively;
Installing a slab formwork to receive the coupler and keep the same line as the upper end of the prestressed precast concrete composite beam;
Reinforcing the upper reinforcing bars in the shear and reinforcing bars of the prestressed precast concrete composite beam;
The method of constructing prestressed precast concrete composite beam comprising the step of forming a slab integrally with the prestressed precast concrete composite beam by pouring concrete in the slab formwork.
The method according to claim 13,
Before the concrete is poured into the slab formwork, further comprising the step of fastening by fastening with a bolt / nut in a state in which the joint member of the steel frame reinforcement and the pillar of the prestressed precast concrete composite beam is in close contact with a welding or connecting member Construction method of prestressed precast concrete composite beam, characterized in that made.

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