KR101458409B1 - The precast concrete girder structure for a building - Google Patents

Abstract

The present invention relates to a PC beam structure for a building, formed of a base body vertically laid out and made from concrete into a beam shape, with multiple horizontal rebars installed in parallel while being horizontally embedded in the base body in a longitudinal direction and having a tip protrude toward an outer side of the base body at a predetermined length, a connecting socket having a pipe shape with a female screw part formed on an inner surface, welded to or connected by screws to the other tip of each horizontal rebar, and having the other tip exposed to the other outer side of the base body while being embedded in the other side of the base body, and a connection screw rod having a male screw part formed on an outer surface of a tip to combine the male screw part with the female screw part of each connecting socket and connected to protrude toward the outer side of the base body. In a state in which a tip of the base body is placed in an outer part of an upper surface of a vertically stood PC pillar structure separately from the other tip of another base body, each horizontal rebar protruding from a side of the base body and each connection screw rod combined with the connecting socket of the other base body by screws are closely overlapped with each other while being welded or connected through a coupler.

Description

[0001] The present invention relates to a PC structure for a building,

The present invention relates to a concrete PC beam structure used in a construction PC (Precast Concrete) method, and more particularly, to a concrete PC beam structure used in a construction PC (Precast Concrete) A horizontal reinforcing bar provided in parallel with the horizontal reinforcement in a state of being embedded in a horizontal direction and having one end protruding from the one side surface of the base body by a predetermined length and a tubular shape having a female screw in the inner circumferential surface, And a connection socket provided at the other end of the base body so as to be exposed to the outside of the other side of the base body while being embedded in the other side of the base body, So that the female screw portion is screwed to the female threaded portion of each connecting socket, and the other side The PC column structure is vertically installed at the outer periphery of the PC column structure and has one end of the base body spaced apart from the other end of the other base body by a predetermined distance, Wherein the connecting bars of the horizontal reinforcing bars projecting from one side of the horizontal reinforcing bar and the connecting bars of the other base body are connected to each other via a coupler or welded while being adjacently overlapped with each other.

In general, the Precast Concrete (PC) method is a method of constructing parts of a building such as pillars, beams, slabs, and walls in a separate place and assembling them in a construction site. It is easy to work with concrete, It can be produced in a place where it is less, thus it is possible to economically obtain a good quality member, and it is possible to mechanically work concrete, thereby reducing the overall construction cost, excellent workability, and greatly shortening the construction period.

However, in the PC method, it is difficult to jointly connect the respective members firmly. Therefore, technical treatment of the joint part is required, and in particular, when the beam of the building is constructed by using the PC beam structure, A conventional PC beam structure is required to have a structure in which a PC beam structure is mounted between vertically erected PC column structures at regular intervals and a PC frame structure is mounted on the outer periphery of the PC column structure, In the state where the ends of the beam structures are stationary, the horizontal reinforcing bars projected outward at both sides of the outer side of each PC beam structure are welded adjacent to each other and fixed or fixed by a normal coupler, and concrete is inserted The PC beam structure is integrally joined to the PC column structure. However, If PC beam structures are mounted horizontally on both sides of the upper part of the PC column structure and other PC beam structures are mounted on both sides of the upper part of the PC column structure in the horizontal and vertical directions, It is difficult for other PC beam structures to be placed on both sides of the top surface of the PC column structure and thus the horizontal reinforcing bars of the other PC beam structure are bent There is an inconvenience that the end portions of the PC beam structures are placed on the front and rear sides of the top surface of the PC column structure and the horizontal reinforcing bars bent and bent are straightly extended to connect and connect the horizontal reinforcing bars. The position of the horizontal reinforcing bars is displaced or shifted from each other, so that the durability and strength of the connecting joint portion are lowered, The junction not be connected firmly to adhere to each other there is a problem in that the various let occurring contraction, expansion and so on according to the freezing of any moisture permeates the condensation and the gap according to the summer and the winter temperature change.

As a conventional technique for connecting PC beam structures to a PC column structure, Korean Registered Patent Application No. 10-1098693 discloses a U-shaped concrete beam having U-shaped end portions on both sides of a column, In the pre-cast concrete beam having a shape of a cross-section, after the reinforcing bars provided with the end plates at both ends are simply disposed, the concrete is laid to form the beams and to form the beam-column joints. The joints are reinforced by the reinforced reinforcing bars arranged simply across the inside of the precast concrete beams mounted on both sides of the column, so that the overall strength of the connecting portions between the two precast concrete beams is weak and the durability is significantly lowered there was.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for manufacturing the same, in which a plurality of horizontal reinforcing bars embedded in a base body are provided so as to protrude outside only one side of a base body, And the other end of the connection socket is exposed to the outside of the other side of the base body while the connection socket is integrally connected by welding or screwing, so that one end of the base body is fixed to the upper portion of the vertically erected PC column structure, And the male screw portion of the connecting screw is screwed into each connecting socket of the other base body through a space between the base bodies which are mounted on both sides of the base body while being spaced apart from the other end of the other base body. Each horizontal reinforcement and each of the other base bodies are connected As to the connection via the coupler or welding attachment in the overlapped state to simply and firmly connected to each other construction without interference between the PC on PC Beam pillar structures it is an object.

In order to achieve the above object, the present invention provides a base body comprising: a base body having a shape of a beam of concrete laid down in a horizontal direction; a plurality of parallel- A horizontal reinforcing bar protruding from the one side of the base body at a predetermined length and a tubular shape having an internal thread formed on the inner circumferential surface of the reinforcing bar and welded or screwed to the other end of each horizontal reinforcing bar, And a male screw portion is formed on the outer circumferential surface of the one end portion so that the male screw portion is screwed to the female screw portion of each connecting socket and the screw portion of the base body And a connecting rod or a connecting rod projecting outwardly from the side surface, And the other end of the base body is spaced apart from the other end of the other base body by a predetermined distance. The horizontal reinforcing bars protruded from one side of the base body and the connecting socket of the other base body And the connecting screw rods are connected to each other via a coupler or welded while being adjacently overlapped with each other.

As described above, according to the present invention, a plurality of horizontal reinforcing bars to be embedded in the base body are installed to protrude only a predetermined length outside one side of the base body, and a connecting socket having a female threaded portion formed at the other end of each horizontal reinforcing bar is welded And the other end of the connection socket is buried so as to be exposed to the outside of the other side of the base body, so that one end of the base body is connected to the outer side of the upper part of the vertically installed PC pillar structure, The male thread of the connecting screw is engaged with the connecting socket of the other base body through a space between the base bodies which are mounted on both sides while being spaced apart from the other end by a predetermined distance, When the connecting screw rods of the base body are stacked adjacent to each other, It is to be connected or attached via welding there is an effect that can be easily and firmly connected to each other construction without interference between the PC on PC Beam pillar structure.

1 is a perspective view of a PC building structure for construction according to the present invention;
FIG. 2 is a perspective view of a PC building structure according to the present invention,
3 is a perspective view of a PC building structure according to the present invention in a state where it is mounted on both sides of the upper portion of the PC column structure,
FIG. 4 is a perspective view of a PC beam structure according to the present invention, which is mounted on both sides of a top portion of a PC column structure, and is connected to a connection socket of a PC beam structure and a horizontal reinforcing bar of a PC beam structure, Schematic diagram of the state of construction
FIG. 5 is a perspective view showing a state in which a sub-PC beam structure is connected to an intermediate portion of a PC building structure for construction according to the present invention.
FIG. 6 is a perspective view of a strap in a state in which a stiffening piece of a sub PC structure is mounted on a support piece protruding from both sides of a middle portion of a construction PC frame structure according to the present invention.
FIG. 7 is a schematic cross-sectional view of a PC PC according to the present invention,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 to 7, the construction PC beam structure 1 of the present invention relates to a concrete PC beam structure used in a construction PC (Precast Concrete) construction method. The concrete structure is made of concrete A base body 2 and a base body 2 in parallel with one another in a state of being embedded horizontally along the longitudinal direction in the base body 2 and having one end protruding a certain length outside the one side of the base body 2 And the other end of the horizontal reinforcing bars 6 is welded or screwed to the other end of the horizontal reinforcing bars 6 so as to be connected to the other side of the base body 2 A connection socket 8 provided at one end of the base body 2 so as to be exposed to the outside of the other side of the base body 2 in a state of being embedded in the base body 2 and a male screw part 11 formed at the outer peripheral surface of one end, 8) And a connecting screw rod 10 connected to the male screw part 11 so as to be projected outwardly from the other side of the base body 2 while being screwed thereto. In the outer part of the upper face part of the vertically erected PC column structure 3 The horizontal reinforcement 6 protruded from one side of the base body 2 in a state where one end of the base body 2 is mounted at a predetermined distance from the other end of the other base body 2, The connecting rods 10 to be screwed to the connecting socket 8 are connected to each other via the coupler 7a so as to be welded together.

As shown in FIGS. 1 to 4, the base body 2 is a rectangular beam shape made of a concrete material that is laid horizontally, and is vertically erected according to a PC method. The PC column structure 3 is formed with a length corresponding to the length of the PC column structures 3 of the building to be installed and the end portion of the base body 2 is mounted on one side of the upper portion of the PC column structure 3, And is connected to another base body 2 mounted on the other side of the upper part of the upper surface of the PC column structure 3 and is integrally connected to the PC column structure 3 through a concrete composition laid therebetween.

As shown in FIGS. 1 to 4, the base body 2 has a plurality of reinforcing bars 4 vertically erected at right and left predetermined intervals, (Not shown) and an upper portion of the steel reinforcing bar 4 are embedded in the upper portion of the PC body structure 1 so as to protrude outward from the upper surface of the base body 2, (Not shown) that is installed on the upper portion of the PC beam structure 1 while being connected.

One or a plurality of tensile stress bars 5 are embedded in the base body 2 as shown in FIG. 1, and the tensile stress bars 5 are formed on the inner side of the base body 2 The tensile stressed reinforcing bars 5 are bent at the upper and lower ends of the tensile stressed reinforcing bars 5 and are bent outward from the upper surface of the base body 2, And the other end portion is bent in the other horizontal direction and is positioned at the same length as the other end of the base body 2 so that the PC column It is possible to prevent interference with the tensile stressed reinforcement 5 provided on the base body 2 of another PC structure 1 when the structure 3 is mounted on the base body 2, (5) of the tensile stress steel The other end portion of the tensile stressed reinforcing bar 5 of the other base body 2 which is mounted together at the end portion of the upper end portion of the PC column structure 3 and the other end portion of the upper end portion of the PC column structure 3 are connected to each other via the coupler 7b, .

As shown in FIGS. 1 to 4, the horizontal reinforcing bars 6 are horizontally embedded along the longitudinal direction of the base body 2, and a plurality of the reinforcing bars 6 are installed in parallel with each other. The length of one end of the horizontal reinforcing bars 6 protruding outside the one side surface of the base body 2 is shorter than the length of the upper surface of the PC pillar structure 3 As shown in FIGS. 3 and 4, one end of the horizontal reinforcing bar 6 of the base body 2 is connected to the other side of the other base body 2, which is mounted on the outside of the upper surface portion of the PC column structure 3, And one end portion of the horizontal reinforcing bar 6 overlaps the connecting bar 10 provided on the other side of the other base body 2 so as to be coupled to the coupler 7a through the coupler 7a Connected or welded.

As shown in FIGS. 1 to 4, the connection socket 8 has a tubular shape of a predetermined length made of a metal material, and a female screw 9 is formed on an inner circumferential surface of the connection socket 8. The connection socket 8 is connected to the connection socket 8 are integrally connected in a state where they are welded or screwed together with one end of the socket body 8 being in contact with each other and the connection socket 8 is integrally embedded in the other side of the base body 2, (10) is screwed into the female screw portion (9) which is exposed to the outside of the other side of the body (2) and exposed to the outside.

As shown in FIGS. 1 to 4, the connecting screw rod 10 has a rod shape of a predetermined length and is formed with a male screw portion 11 on the outer circumferential surface of one end portion, (10) is threadedly coupled to the base body (2) and projected outwardly from the other side of the base body (2) while the male thread (10) Is formed so as to be shorter than the length of the top surface of the PC column structure 3 so that the other base end of the base body 2 is fixed to the outer side of the top surface of the PC column structure 3, Are easily inserted into the PC column structure 3 without interfering with each other at the outer periphery of the upper surface portion of the PC column structure 3 and are connected to each other through the space between the two side base bodies 2, Connect the socket (8) so that the screw (10) is screwed And each of the horizontal reinforcing bars 6 of the base body 2 and each of the connecting rods 10 of the other base body 2 are positioned so as to be adjacent to each other and connected or welded via the coupler 7a Even when a plurality of PC beam structures 1 are provided on the outer periphery of the upper surface portion of the PC column structure 3 so as to intersect with each other in a "T" shape or a "+" shape, And the other PC beam structure 1 installed together with the protruding horizontal reinforcing bars 6 is easily and firmly connected without any interference phenomenon.

As described above, the PC beam structures 1 are connected to the upper part of the PC column structure 3 and the vertical reinforcing bars (not shown) projecting outside the upper surface of the PC column structure 3 12 and the horizontal reinforcing bars 6 of the PC beam structures 1 and the connecting and detaching rods 10 are buried together and integrally secured to each other.

As another embodiment of the present invention, as shown in FIGS. 5 and 6, the base body 2 may be provided on both sides of the front and rear sides of the PC beam structure 1, A plurality of support pieces 13 are buried in a manner protruding outwardly so that one or a plurality of sub PC beam structures 14 crossing in the front and back horizontal direction between the PC beam structures 1 spaced apart from each other The sub-PC beam structure 14 is a rectangular beam shape made of a concrete material that is laid horizontally, and the center portion of the front and rear surfaces And one or a plurality of hooking pieces 16 are embedded in the connecting groove 15 so as to protrude outwardly at a portion where the connecting groove 15 is formed so that the receiving piece 13 of the PC beam structure 1 is inserted, Sub PC As shown in FIG. 7, a conventional concrete composition is placed on the inner side of the connecting groove 15 so that the PC beam structure (refer to FIG. 7) 1 and the sub PC beam structure 14 are integrally and solidly connected and constructed.

7, the support pieces 13 are provided on both sides of the front and rear sides of the base body 2 so as to face each other, and each support piece 13 is arranged on the inner side of the base body 2 One or a plurality of grooves 17a are formed in the portion embedded in the base body 2 and the groove 17a of the receiving piece 13 provided at the front of the base body 2 and the groove 17a of the receiving piece 13 provided at the rear side, The connecting rod reinforcing bars 18 are interposed in a horizontal direction between the front and rear supporting bars 13 and the front and rear supporting bars 13, Are rigidly fixed to both the front and rear sides of the base body 2.

5 and 6, the catching pieces 16 are disposed on opposite sides of the front and rear sides of the sub PC structure 14, One or a plurality of recesses 17b are formed in the portion embedded in the inside of the structure 14 and the groove 17b of the hook piece 16 provided in front of the sub PC bracket structure 14 and the hook 17b of the hook piece 16, Shaped connecting reinforcing bars 19 are interposed between the grooves 17b of the connecting rods 16 in the horizontal direction so that both ends of the connecting rods 19 are inserted into the grooves 17b, So that the front and rear catching pieces 16 are welded so that they are securely fixed to both the front and rear sides of the sub PC structure 14.

Hereinafter, the construction method of the present invention will be described in detail.

2, when the PC beam structure 1 is mounted on the PC column structure 3 of the vertically installed building using the PC beam structure 1 according to the present invention, One end of the base body 2 of the PC beam structure 1 laid horizontally is placed on the other side of the upper part of the upper surface of the PC column structure 3 and the other end of the upper part of the PC column structure 3 is placed As shown in FIG. 3, the other end of the base body 2 of the other PC structure 1 lying down in the horizontal direction is placed, and then the other side of the base body 2, which is spaced apart from the base body 2, The base body 2 includes a base body 2 and a base body 2. The base body 2 includes a base body 2 and a base body 2. The base body 2 includes a base body 2 and a connection socket 8, And the other end of the reinforcing bars 6, The horizontal bars 6 and the connecting rods 10 are connected to each other or welded to each other to connect the PC columns 1 and 2 to each other via the coupler 7a, Even when a plurality of PC beam structures 1 are provided on the outer side of the upper surface portion of the PC beam structure 1 so as to intersect with each other in a "T" shape or a "+" shape, So that it can be connected and constructed easily without any interference phenomenon such as the other PC beam structure 1 being installed on the other side.

As described above, the PC beam structures 1 are connected to the upper part of the PC column structure 3 and the vertical reinforcing bars (not shown) projecting outside the upper surface of the PC column structure 3 12 and the horizontal reinforcing bars 6 of the PC beam structures 1 and the connecting rods 10 are buried together and integrally secured to each other.

1. PC beam structure 2. Base body
3. PC column structure 4. Stroke bar
5. Tensile Stress Reinforcement 6. Horizontal Reinforcement
7a, 7b. Coupler 8. Connection socket
9. Female threads 10. Connection thread
11. Male threads 12. Vertical bars
13. Fittings 14. Sub-PC beam structures
15. Connection groove 16.
17a, 17b. Groove 18. Connecting Rod Reinforcement
19. Reinforced connecting bars

Claims (4)

A base body 2 in the form of a beam of concrete laid down in a horizontal direction; a plurality of parallel installed in the base body 2 in a state of being horizontally embedded along the longitudinal direction; A horizontal reinforcing bar 6 protruding from the one side of the body 2 at a predetermined length and a tubular shape having an internal thread 9 formed on the inner circumferential surface of the reinforcing bar 6 are welded or screwed to the other end of each horizontal reinforcing bar 6 A connection socket 8 installed in the state of being embedded in the other side of the base body 2 so that the other end of the connection socket 8 is exposed outside the other side of the base body 2, And the connecting screw bar 10 is formed so that the male screw part 11 is screwed to the female screw part 9 of each connecting socket 8 and is projected outside the other side of the base body 2 ), Vertically standing The PC column structure 3 is installed on one side of the base body 2 in a state where one end of the base body 2 is mounted on the outer periphery of the upper surface of the PC column structure 3 while being spaced apart from the other end of the other base body 2 Each of the connecting bars or rods 10 screwed to the connecting sockets 8 of the horizontal reinforcing bars 6 and the other base body 2 are connected to each other via the coupler 7a so as to overlap each other, Construction PC beam structure.
[3] The method of claim 1, wherein one or more tensile stress bars (5) are embedded in the base body (2), the tensile stress bars (5) One end of the tensile stressed reinforcing bars 5 protruding outward from the upper surface portion of the base body 2 in a state in which both sides of the tensile stressed reinforcing bars 5 are bent upwardly and the other end portions of the tensile stressed reinforcing bars 5 projecting outward, And the other end is bent to the other side in the horizontal direction and positioned at the same length as the other end of the base body 2, and the other end of the base body 2 is bent The other end portions of the tensile stress reinforcing bars 5 of the other base body 2 which are mounted together at one end portion of the tensile stress reinforcing bar 5 and the upper portion of the upper surface portion of the PC column structure 3 are overlapped with each other, ) Or welded Construction PC beam structure, characterized in that which is to be tinted.
And a horizontal reinforcing bar 6 embedded in parallel in the horizontal direction along the longitudinal direction inside the base body 2. The base body 2 is made of a concrete shape of a concrete material laid down horizontally, In the beam structure (1), the base body (2) is provided with one or a plurality of support pieces (13) projected outward at both sides of the front and back sides at predetermined intervals, One or a plurality of sub PC beam structures 14 are crossed and connected between the structures 1 in a front-back horizontal direction. The sub PC beam structure 14 is made of a concrete material laid horizontally And one or a plurality of hooking pieces 16 are embedded in the connecting groove 15 so as to protrude outwardly from the connecting groove 15 And is welded to each other in a state where the hook piece 16 of the sub PC beam structure 14 is placed on the support piece 13 of the PC beam structure 1 and a concrete composition is placed inside the connection groove 15 Wherein the PC beam structure (1) and the sub PC beam structure (14) are integrally connected to each other.
The base body (2) according to claim 3, wherein the support pieces (13) are provided on opposite sides of the front and back sides of the base body (2), and each support piece (13) A plurality of grooves 17a are formed and are provided between the groove 17a of the receiving piece 13 provided at the front of the base body 2 and the groove 17a of the receiving piece 13 provided at the rear of the base body 2, The front and rear support pieces 13 are fixed to both the front and rear sides of the base body 2 by welding while both side ends of the support pieces connecting reinforcing bar 18 are inserted into the groove 17a with the single- And the catching pieces 16 are installed on both sides of the front and rear sides of the sub PC beam structure 14 so as to be opposed to each other and each of the catching pieces 16 is disposed in a portion buried in the sub PC beam structure 14 Or a plurality of grooves 17b are formed in the front side of the sub PC brace structure 14 and the groove 17b of the hook piece 16 provided in front of the sub PC brace structure 14, The connecting hooks 19 are inserted in the horizontal direction between the recesses 17b of the hook piece 16 to be installed and the hooks 17b are inserted into the recesses 17b with both ends of the hook elements 19 inserted into the recesses 17b, And the forward and backward hook pieces (16) are fixedly installed on both sides of the front and rear sides of the sub PC beam structure (14).

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