KR101954752B1 - Precast concrete structure and construction method with the same - Google Patents

Abstract

The present invention provides a precast concrete structure and a method of constructing the same that can improve the speed and convenience of construction. To this end, a precast concrete structure according to the present invention comprises: a PC column member having a column portion provided on a bottom surface, and a bracket portion formed integrally on an upper portion of the column portion, the PC column member having a wider transverse sectional area than the column portion; And a PC drop panel installed on the upper surface of the bracket portion and having a plurality of seating portions on which a PC beam member can be seated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a precast concrete structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a precast concrete structure and a method of constructing the precast concrete structure, and more particularly, to providing convenience in fixing a PC drop panel to a PC column member and constructing a PC block member and a PC slab member .

In the conventional building construction method, reinforced concrete (RC) method is used in which concrete is poured to form a mold around reinforcing bars. However, recently, when the existing RC method is applied, problems such as securing the quality of concrete, safety, and labor cost have been raised due to the rise of the building and the enlargement of the building.

Recently, precast concrete (hereinafter referred to as PC) method has attracted attention as a method capable of overcoming such shortcomings of RC method. Unlike the conventional method of pouring concrete directly on site, it is a method of constructing members of pillars, walls, beams, floor, The concrete curing time is shortened and the effect of shortening the air can be seen. By using the standardized material, the construction error can be reduced and the cost reduction effect can be expected. However, in Korea, the PC method is partially used because of lack of technology and understanding.

In the conventional construction, when the beam or slab is directly connected to the center or the side of the column by RC method, the effective length of the beam or slab becomes long and sagging occurs in the beam or slab. Therefore, a drop panel is additionally formed on the column, and the beam is connected to the four sides of the drop panel, thereby enlarging the area of the column to solve this problem. However, when the drop panel is constructed by a general PC construction method, there arises a problem in fixing the drop panel and constructing the beam at a point where the cross section of the drop panel is wider than the cross section of the column.

Also, when the beam or slab is connected to the center or the side of the column and is constructed by the PC method, problems such as leakage, soundproofing, and insulation may occur in joining joint portions.

Patent Registration No. 10-1034399

The present invention provides a precast concrete structure capable of quickly and easily assembling and fixing a PC drop panel having a larger area than a cross sectional area of a PC column member to an upper portion of a PC column member, and a method of constructing the same. There is.

Another object of the present invention is to provide a precast concrete structure capable of fastening and securing a PC beam member on a PC drop panel assembled on an upper part of a PC column member and a construction method thereof .

According to an aspect of the present invention, there is provided a precast concrete structure comprising: a columnar portion provided on a bottom surface; and a PC column member having a bracket portion integrally formed on an upper portion of the columnar portion, ; And a PC drop panel installed on the upper surface of the bracket portion and having a plurality of seating portions on which a PC beam member can be seated.

In this case, a stepped portion having a stepped shape is formed between the adjacent seating portions so that the PC slab member can be seated, and the PC shoe member seated on the seating portion and the PC slab member seated on the step portion They may be formed to have the same height.

The bracket portion may be provided with a plurality of anchor bolts protruding upward to fix the PC drop panel, and the PC drop panel may have a plurality of through holes through which the anchor bolts are inserted.

A center hole corresponding to a lower end shape of the PC column member may be formed at the center of the PC drop panel so that the lower end of another PC column member can be inserted and coupled from above.

At this time, the plurality of through holes may be arranged symmetrically with each other around the center hole.

A plurality of the PC column members may be arranged in a lattice form.

According to another aspect of the present invention, there is provided a method of constructing a precast concrete structure, the method comprising: arranging a plurality of PC columns having a column portion and a bracket portion having a wider transverse sectional area than the column portion, ; A plurality of anchor bolts are provided in the bracket portion, and through holes formed in the PC drop panel are passed through the respective anchor bolts, thereby coupling and fixing the PC drop panel to the upper surface of the bracket portion of the PC column member; Installing a PC beam member on a seating portion formed in the adjacent PC drop panel; Installing a PC slab between the adjacent PC drop panel and the PC beam member; And placing additional reinforcing bars on the top surface of the PC drop panel and the PC slab and pouring concrete.

According to the pre-cast concrete structure of the present invention having the above-described construction and the method of constructing the same, a bracket portion having a cross-sectional area larger than that of the column portion is formed on the upper side of the PC column member to support the PC drop panel, The PC drop panel can be quickly and easily assembled and fixed to the upper side of the PC column member with a stable structure by a simple operation of fixing the PC drop panel with the anchor bolt while the PC drop panel is seated, There is an effect that convenience can be provided in construction.

In addition, since the PC drop panel is provided with a seating portion on which the end portion of the PC beam member can be seated, both ends of the PC beam member can be stably mounted on the seating portion of the PC drop panel adjacent to each other.

In addition, since the PC drop panel is formed with a stepped portion in which a PC slab member can be seated between adjacent seating portions, a PC slab member can be mounted and rested on the stepped portion, The PC slab member seated on the step portion and the PC beam member seated on the seating portion are formed to have the same height as each other, And the upper surfaces of the PC slab members can be positioned on the same plane to improve the quality of the construction and also to improve the quality of the concrete after installation of the PC drop panels, There is an effect that the work can be easily performed.

In addition, a plurality of anchor bolts protruding upwardly are provided on the bracket portion of the PC column member, and a plurality of through holes through which the anchor bolts pass are formed on the PC drop panel, The PC drop panel can be assembled quickly and easily on the correct position of the PC column member by a simple operation in which the anchor bolt is passed through and seated on the bracket portion.

The center hole of the PC column member is formed with a center hole having a shape corresponding to the outer shape of the PC column member. The hole area of the center hole is smaller than the area surrounded by the plurality of anchor bolts, The reinforcing bars exposed to the upper side are placed in the inner space of the center hole and concrete can be installed in the center hole to firmly couple the PC drop panel and the PC column member to each other. The cross-sectional area of the bracket portion of another PC column member connected to the upper side is made smaller than the hole area of the center hole, so that the PC drop panel on the upper side of the upper PC column member connected to the lower PC column member Passes through the center hole downward, is placed on the upper surface of the lower PC column member, The PC drop panel and the upper and lower PC column members can be improved in the bonding force between the PC drop members and the center hole, thereby providing a more robust and stable construction.

The plurality of through holes formed in the PC drop panel are arranged symmetrically with respect to each other so as to surround the center hole. A plurality of anchor bolts coupled to the through holes are formed around the lower end of the upper PC column member It is possible to increase the structural safety while enhancing the bonding force between the upper and lower PC column members. In addition, there is no need for an additional laying work for reinforcement between the upper and lower PC column members, thereby reducing the construction cost and shortening the construction period.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a view showing a PC column member installed in a method of constructing a precast concrete structure according to an embodiment of the present invention.
2 is a view illustrating a PC drop panel structure according to the first and second embodiments of the present invention.
3 is a view showing a PC drop panel fixed on a PC column member in a method of constructing a precast concrete structure according to an embodiment of the present invention.
FIG. 4 is a view illustrating a method of installing a PC beam member in a PC drop panel adjacent to the column direction in a method of constructing a precast concrete structure according to an embodiment of the present invention.
5 is a view showing a PC slab member installed between a PC beam member and a PC beam member and between a PC drop panel and a PC drop panel in a method of constructing a precast concrete structure according to an embodiment of the present invention .
6 is a view illustrating a PC column member installed on an upper side of a PC drop panel in a method of constructing a precast concrete structure according to another embodiment of the present invention.
7 is a side view showing a side view in which two PC column members are vertically installed in a precast concrete structure construction method according to an embodiment of the present invention.
FIG. 8 is a view illustrating a method of installing a precast concrete structure according to another embodiment of the present invention, in which two PC columns, a PC drop panel, and a PC beam member are installed.
FIG. 9 is a view illustrating a method of installing a precast concrete structure according to another embodiment of the present invention, in which two PC columns, a PC drop panel, a PC beam member, and a PC slab member are installed.
10 is a flowchart illustrating a method of constructing a precast concrete structure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. It is to be noted that the accompanying drawings are only for the purpose of facilitating understanding of the present invention, and should not be construed as limiting the scope of the present invention with reference to the accompanying drawings.

Hereinafter, a precast concrete structure and a construction method thereof according to an embodiment of the present invention will be described with reference to FIGS. 1 to 10. FIG.

1 to 9, a precast concrete structure according to an embodiment of the present invention includes a PC column member 10, a PC drop panel 20, a PC beam member 30, and a PC slab member 40 .

The PC column member 10, the PC drop panel 20, the PC beam member 30 and the PC slab member 40 are precast concrete (PC) members molded in a mold in a factory or the like, It can be produced in the factory in the form of each concrete structure required and assembled in the field.

First, the PC column member 10 is composed of a bracket portion 11 forming an upper structure and a column portion 13 forming a lower structure as shown in FIG. 1, and the column portion 13 is formed on the bottom surface And installed. A plurality of such PC column members 10 are arranged in rows and columns to form a lattice-like arrangement structure.

The bracket portion 11 has a shape in which the upper side of the column portion 13 is extended in the horizontal direction and the cross sectional area thereof is formed to be larger than the cross sectional area of the column portion 13.

The upper surface of the bracket part 11 is formed in a flat plane shape so as to stably support the PC drop panel 20 from the bottom. A PC drop panel 20 is formed on the upper surface of the bracket part 11, And a plurality of anchor bolts 15 for fixing operation of the anchor bolts 15 are embedded and protruded upward.

That is, the plurality of anchor bolts 15 are disposed on the four corners of the upper surface of the bracket portion 11 having a rectangular transverse cross-sectional shape, and the inside of the PC drop panel 20 which is seated on the upper surface of the bracket portion 11 So that the PC column member 10 and the PC drop panel 20 are fixed to each other.

The plurality of anchor bolts 15 are disposed at the four corners of the bracket portion 11 farthest from the center of the bracket portion 11 so as to have a maximum spacing distance that can be disposed on the upper surface of the bracket portion 11. [ And are disposed symmetrically with respect to each other with respect to the longitudinal center axis (not shown) of the PC column member 10, so that the PC drop panel 20 can be structurally supported more stably do.

The cross section area of the bracket section 11 disposed on the upper side of the column section 13 is larger than the cross section area of the column section 13 so that the PC drop panel So that it is possible to stably and effectively support the base 20.

A plurality of PC column members 10 having such a configuration are arranged at the intersections of rows and columns, and are formed in a lattice-like arrangement as a whole, and between the PC column members 10, A beam member 30 and a PC slab member 40 are provided.

2 shows a PC drop panel structure according to the first and second embodiments of the present invention. Fig. 3 is a cross-sectional view of the PC drop panel shown in Fig. 2 (b) As shown in FIG.

Referring to FIGS. 2 and 3, the PC drop panel 20 according to the first and second embodiments of the present invention is formed in a rectangular plate shape as a whole. As the PC drop panel 20 is formed into a rectangular plate structure, it is possible to provide convenience in standardizing and manufacturing the structure of the PC drop panel 20, and it is possible to provide convenience for each corner portion of the PC drop panel 20, The PC beam member 30 and the PC slab member 40 can be easily mounted on the sides of the pre-cast concrete structure, so that the precast concrete structure can be easily and quickly constructed.

The shape of the PC drop panel 20 is not limited to the rectangular plate shape described above, but may be embodied in various forms such as a circular plate and a polygonal plate.

2, the PC drop panel 20 includes a center hole 25 formed in a central portion of the PC drop panel 20 so as to pass through the center of the PC drop panel 20, A plurality of through holes 27 arranged around the hole 25 and a seating portion 29 disposed at four corners remote from the center hole 25.

The center hole 25 is buried in the center of the upper surface of the bracket part 11 of the PC column member 10 and protrudes upward so that the PC drop panel 20, and is formed to have a rectangular shape corresponding to the cross-sectional shape of the PC column member 10.

In this case, the hole area of the center hole 25 is formed to be smaller than the internal area formed by the plurality of anchor bolts 15 provided at the edge of the bracket part 11, A reinforcing member (not shown) protruding to the upper center of the upper surface is positioned in the inner space of the center hole 25, and then concrete is cured by placing the concrete in the inner space of the center hole 25 in which the reinforcing member is located The PC drop panel 20 and the PC column member 10 can be firmly coupled.

7 to 9, when the precast concrete structure according to the present invention is constructed as a plurality of layers, the cross sectional area of the bracket portion 11a of the PC column member 10a connected to the upper side Is formed on the upper side of the upper PC column member 10a connected to the upper side of the lower PC column member 10 through the plurality of columnar reinforcing members 50 so as to be smaller than the hole area of the center hole 25, The drop panel 20 is downwardly passed through the center hole 25 to be placed on the upper surface of the bracket portion 11 of the lower PC column member 10, Concrete can be installed in a space formed between the outer surfaces of the PC drop panel 20 and the upper and lower PC column members 10 and 10a to greatly increase the coupling force between the PC drop panel 20 and the upper and lower PC column members 10 and 10a, Construction of the structure may be possible

9, after the PC beam member 30 and the PC slab 40 are seated and mounted on the PC drop panel 20, the upper PC column (not shown) located in the center hole 25, The upper PC column member 10a is placed on the lower PC column member 10 by further placing the concrete in a space formed between the lower end outer surface of the column 13a of the member 10a and the inner surface of the center hole 25, And on the PC drop panel 20.

The shape of the center hole 25 of the PC drop panel 20 also corresponds to the outer shape of the PC column member 10 because the cross section of the PC column member 10 is generally circular or angular And may be formed to have a circular or square shape.

The plurality of through holes 27 formed in the PC drop panel 20 are disposed at positions corresponding to the anchor bolts 15 provided on the upper surface of the bracket portion 11. The plurality of through holes 27 are formed in the center Are arranged symmetrically with each other in the vicinity of the hole (25).

3, a plurality of anchor bolts 15 protruding from the upper surface of the bracket portion 11 of the PC column member 10 are inserted into the through holes 27, The drop panel 20 is firmly fixed to the upper portion of the PC column member 10.

A funnel-shaped extension 27a is formed in the lower portion of the through-hole 27 so that the anchor bolt 15 can be easily inserted into the anchor bolt 15, Since the bolt 15 is easily inserted at the initial stage, convenience in construction can be provided.

The seat portion 29 is formed at each of the four corners of the PC drop panel 20 having a rectangular plate shape and the end portion of the PC board member 30 is seated on the respective seat portions 29 Is mounted.

In this case, the seating part 29 is formed in a hexahedron-like space shape so that the end portion of the PC board member 30 can be smoothly seated as shown in FIG. 2 (a) 30 are inserted through an open side of the seating portion 29 having the hexahedron shape and are mounted thereon.

At this time, both ends of the PC board member 30 are provided with a tail portion 31 having a size smaller than the space size of the seating portion 29 having a hexahedron shape. The upper and lower reinforcing bars 31 and 32 are formed at the opposite ends of the PC beam member 30. The upper reinforcing bars and the lower reinforcing bars are bent at 90 degrees to close each other. In a state in which the shoulder portions 31 are seated in the seat portion 29, an empty space of a certain size is formed therebetween.

In this case, the hexahedral space having a predetermined size formed by the three side surfaces of the seating portion 29 and the edge portion 31 is used as a lower reinforcing joint space of the PC beam member 30, Concrete can be filled and cured in the hexahedron space between the PC drop panel 20 and the PC board member 30 so that a firm bonding force can be maintained between the PC drop panel 20 and the PC board member 30. [

The upper surface of the PC beam member 30 in the state of being mounted on the mounting portion 29 is positioned on the same plane as the upper surface of the PC drop panel 20, The upper surface of the PC drop panel 20 and the upper surface of the PC beam member 30 may form a flat bottom surface of the precast concrete structure to be installed at the upper part thereof.

2 (a) shows a structure in which the PC drop panel 20 is formed with only the seating portion 29 for seating the PC beam member 30, and FIG. 2 (b) And a step portion 22 for mounting the slab member 40 are formed together.

2 (b), the step portion 22 on which the PC slab member 40 is mounted refers to a portion where four edge portions of the upper surface of the PC drop panel 20 are formed in a stepped jaw shape . The four stepped portions 22 are formed to have a horizontal width and a vertical width of sufficient size that the end portion of the PC slab member 40 can be easily and stably mounted. The upper surfaces of the PC slab members 40 are formed to have the same height so that the upper surfaces of the PC slab members 40 are positioned on the same plane as the upper surfaces of the PC drop panels 20. [ 5, the PC slab member 40 is mounted on the step portion 22 formed between the adjacent seating portions 29 and is disposed between the pair of PC beam members 30 And a second PC slab member 42 disposed between the first PC slab member 41 and the second PC slab member 30 disposed opposite to each other, In the vertical direction.

As a result, the PC drop panel 20, the PC beam member 30, and the PC slab member 40 assembled at the upper part of the PC column member 10 are positioned on the same plane with each other, The flat bottom surface of the precast concrete structure to be installed can be formed.

When the pre-cast concrete structure is to be constructed using the PC drop panel 20 having a plurality of stepped portions 22 formed at the edges thereof as described above, the PC drop panel 20 assembled at the upper portion of the PC launch member 10, The PC bracket member 30 is first installed on the seat 29 of the seat 20 and then the PC slab member 40 is mounted on the step 22 to be installed.

In this case, the height of the top surface of the PC beam member 30 and the PC slab member 40 in the state of being seated on the seating portion 29 and the stepped portion 22 is equal to the height of the top surface of the PC drop panel 20 The top surfaces provided with the PC beam member 30 and the PC slab member 40 are maintained in a planar state flattened to each other to provide convenience due to the topping concrete pouring.

4 shows a PC frame member 30 installed on both side PC drop panels 20 adjacent to each other in the column direction in the construction of the precast concrete structure according to the present invention.

Referring to FIG. 4, a PC beam member 30 is connected between two PC drop panels 20 adjacent to each other in the column direction.

The PC bracket member 30 is a horizontal member capable of distributing a load applied to the PC slab member 40 and supporting a load due to bending, The PC drop panel 20 and the PC drop panel 20 are separated from each other through the space formed between the seating part 29 and the tail part 31. In this case, After the lower reinforcing steel joint is completed as described above, concrete is placed in the jointed space to connect the PC drop panel 20 and the PC beam member 30 to each other, Can be constructed with a rigid structure.

5 is a diagram showing the relationship between the PC beam member 30 and the PC beam member 30 and the distance between the PC drop panel 20 and the PC drop panel 20 after the installation of the PC beam member 30 shown in Fig. In which the PC slab member 40 is installed.

5, after the installation work of the PC beam member 30 is completed between the adjacent PC drop panels 20, the connection between the PC beam member 30 and the PC beam member 30, And a PC slab member 40 is installed between the PC drop panel 20 and the PC drop panel 20.

The PC slab member 40 is a plate-like member that receives a vertical load, and mounts both ends of the PC slab member 40 on four stepped portions 22 formed at the edges of the both PC drop panels 20 And the adjacent PC column members 10 are connected to each other, thereby completing the upper structure of the one-layer precast concrete structure. In this case, the PC slab member 40 serves to improve the structural strength and reduce the load.

Hereinafter, a method of constructing a precast concrete structure according to the present invention will be described in detail with reference to FIGS. 1 to 10. FIG.

A method of constructing a precast concrete structure according to the present invention includes a PC column member 10 having a column 13 and a bracket 11 having a larger cross sectional area than the column 13, A plurality of the light emitting diodes are arranged in a lattice form at a position where the rows and the columns cross each other as shown in Fig. 1 (S10).

A plurality of anchor bolts 15 are provided on the upper surface of the bracket portion 11 of the PC column member 10 and through holes 27 formed in the PC drop panel 20 are attached to the respective anchor bolts 15, The PC drop panel 20 is fixed to the upper surface of the bracket portion 11 of the PC column member 10 as shown in FIG.

At this time, when a plurality of anchor bolts 15 are to be installed on the upper surface of the bracket part 11, a drilling operation is performed by marking the drilling position on the upper surface of the bracket part 11, After the drilling operation is completed, the anchor bolts 11 are installed after the impurities in the drilled holes are removed.

The PC drop panel 20 through which the anchor bolts 15 are inserted is formed with a through hole 27 at a position corresponding to the anchor bolts 11 so that the anchor bolts 11 are inserted into the PC drop panel The PC drop panel 20 is inserted into the through hole 27 formed in the PC column member 20 after the nut is fastened to the portion of the anchor bolt 11 projected to the upper side of the through hole 27, 10).

Since the funnel-shaped enlarged portion 27a is formed at the lower portion of the through hole 27 so that the diameter of the anchor bolt 15 gradually increases downward to facilitate the insertion of the anchor bolt 15, The initial insertion of the anchor bolt 15 can be facilitated.

Next, a PC beam member 30 is provided on a seating portion 29 formed on both side PC drop panels 20 adjacent to each other to interconnect the PC side drop panels 20 with the PC beam member 30 do. (S30)

At this time, in the state where the tail portions 31 formed on the end portions of the PC beam member 30 are seated and mounted on the respective seat portions 29 formed at the four corners of the PC drop panel 20, 31 of the PC drop member 30 and the inner surface of the PC drop panel 20 are formed through the spacing space between the both ends of the PC drop member 31 and the inner side surfaces of the PC drop panel 20 29). After completion of the lower reinforcing steel joint as described above, concrete is placed in the joint site space to firmly connect the connection portion between the PC drop panel 20 and the PC beam member 30 Can be fixed.

After the installation of the PC beam member 30 is completed in this manner, the PC slab member 40 is installed on the stepped portion 22 formed on the both side PC drop panels 20 adjacent to each other, And between the members 30 and adjacent PC drop panels 20 are connected to each other through the PC slab member 40. In operation S40,

In this case, after the upper reinforcing bar of the PC slab member 40, the upper reinforcing bar of the PC beam member 30, and the upper reinforcing bar of the PC drop panel 20 are respectively disposed, finally, The construction work of the precast concrete structure is completed by placing and curing the topping concrete on the upper surfaces of the panel 20, the PC beam member 30 and the PC slab member 40. (S50)

In the conventional PC construction method, when the beam member is mounted on the four corners of the upper surface of the column member, the upper surface area of the column member is larger than the area of the mounted beam member, However, when the PC drop member 30 is installed using the PC drop panel 20 of the present invention as shown in FIG. 2, The void space is not generated between the connection part of the PC drop panel 20 and the PC beam member 30 as in the construction completed form, so that the construction quality can be improved and the work for installing the additional formwork becomes unnecessary, It is possible to expect a cost saving effect.

On the other hand, in the construction of the multi-layered building, the construction of the multi-layered building can be accomplished through the construction of one layer using the above-described precast concrete structure construction method and the construction of the upper layer in the same manner. However, The construction work of the multi-storey building can be performed through another type of construction method shown in FIG.

6 to 9, the lower PC column member 10 and the upper PC column member 10a are interconnected through the columnar reinforcing member 50 to be integrally formed, The PC drop panel 20 is fitted on the upper surface of the bracket portion 11 of the lower PC column member 10 by inserting the PC drop panel 20 into the outer peripheral portion of the upper PC column member 10a.

In this case, the horizontal maximum width 1 of the bracket portion 11a formed on the upper side of the upper PC column member 10a is formed to be smaller than the maximum width L of the center hole 25 of the lower PC drop panel 20 The PC drop panel 20 can be easily fitted on the upper side of the upper PC column member 10a through the center hole 25 and the upper part of the PC drop panel 20 can be easily fitted on the upper surface of the bracket portion 11 of the lower PC column member 10. [ The mounted PC drop panel 20 can be easily fixed through a plurality of anchor bolts 15 inserted through a plurality of through holes 27.

After the PC drop panel 20 is seated on the upper surface of the bracket portion 11 of the lower PC column member 10 and joined by the anchor bolts 15, the inner surface of the center hole 25 and the upper surface of the upper PC column member 10a The PC drop panel 20 and the upper and lower PC column members 10 and 10a can be firmly coupled to each other.

After the connection between the upper and lower PC column members 10 and 10a and the PC drop panel 20 as described above, the same construction method as that of the above-described embodiment as shown in FIGS. 8 and 9, Layer PC panel member 20 is installed on both sides of the PC drop panel 20 and the PC slab member 40 is installed to complete the first layer construction. Then, in the same manner as the one-layer construction method described above, The beam member 30 and the PC slab member 40 are sequentially installed, so that the construction work of the multi-story building can be performed quickly and conveniently.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not intended to limit the scope of the present invention but to limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. It should be interpreted.

10: PC column member
11: Bracket part
13:
15: Anchor bolt
20: PC drop panel
25: center hole
27: Through hole
30: PC board member
31:
40: PC slab member

Claims (7)

A PC column member having a column portion provided on a bottom surface and a bracket portion formed integrally on an upper portion of the column portion, the PC column member having a wider transverse sectional area than the column portion;
A PC drop panel installed on an upper surface of the bracket part;
A pair of PC board members seated on a plurality of seating portions formed on the PC drop panel; And
A PC slab member disposed between the PC drop panels and between a pair of the PC board members;
/ RTI >
Wherein the PC slab member comprises:
A first PC slab member seated on a step formed between the adjacent seating portions and disposed between a pair of the PC board members; And
A second PC slab member disposed between the PC beam members disposed opposite to each other;
, ≪ / RTI &
Wherein the second PC slab member is disposed in a direction perpendicular to an arrangement direction of the PC beam members,
Wherein the pair of PC beam members and the first PC slab member have the same height.
delete The method according to claim 1,
And a plurality of anchor bolts protruded upward to fix the PC drop panel to the bracket portion,
Wherein the PC drop panel has a plurality of through holes through which the anchor bolts pass.
The method of claim 3,
And a center hole having a shape corresponding to an outer shape of the PC column member is formed at a central portion of the PC drop panel.
5. The method of claim 4,
Wherein the plurality of through holes are formed in a funnel shape at the bottom and are arranged symmetrically with respect to each other around the center hole.
The method according to claim 1,
And a plurality of PC column members are arranged in a lattice form.
delete

Images