KR102130000B1 - Construction method of PC structure using Precast Concrete Column Space Reinforce - Google Patents

Abstract

The present invention relates to a PC structure construction method capable of continuously stacking PC columns, in constructing a PC structure using precast concrete (PC) regardless of pouring and curing of concrete and, more specifically, to a method for constructing a PC structure having a space reinforcement structure between upper and lower PC columns to enable simultaneous construction of two floors. The method provides a reinforcing bar, capable of supporting a load of a PC column constructed on an upper floor, on an upper portion regardless of whether or not concrete is hardened when manufacturing the PC column, so that the upper floor PC column is constructed immediately after a basic PC column is constructed, regardless of whether concrete is poured or hardened, thereby shortening a construction period and thus reducing construction costs. A method for constructing a PC structure having a space reinforcement structure between upper and lower PC columns to enable simultaneous construction of two floors, according to an embodiment of the present invention, provides a plurality of reinforcing pipes (120), extending upward by a predetermined length, on an upper end surface of a lower floor PC column (100), so that an upper floor PC column (100) can be placed on the reinforcing pipe (120) for connection construction regardless of the state of curing of the concrete poured in the concrete pouring step (S40).

Description

Construction method of PC structure using Precast Concrete Column Space Reinforce} to enable simultaneous construction of two floors

The present invention relates to installing a reinforcing pipe between the connecting portions between the upper and lower PC pillars at the pillar installation stage (allowing the construction to proceed even if the joint between the lower pillars and the PC pillar is not installed), season (especially during the winter season) Regardless of ), it is possible to proceed with construction as well as simultaneous construction on two floors, and it is possible to easily adjust the schedule and quantity of pouring concrete on site, as well as other constructions that frequently occur during construction. It is possible to reduce friction with (RC pouring, etc.) and to minimize the downtime of expensive equipment, which is characterized by significantly reducing the overall construction period and thus significantly reducing construction costs.

That is, the present invention relates to a PC structure construction method capable of continuously stacking and constructing PC pillars in constructing a PC structure using PC (Precast Concrete) regardless of the pouring and curing of concrete. When manufacturing a PC pillar, the upper part of the PC pillar is installed immediately after the foundation PC pillar is installed, regardless of whether concrete is poured or hardened, because the upper part is equipped with a reinforcing rod capable of supporting the load of the PC pillar installed on the upper layer regardless of whether the concrete is hardened. It relates to a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two floors that can shorten the air by construction and reduce construction costs.

In general, in constructing a building, a girder and a slab are sequentially applied on a PC column manufactured by a construction method unit using a PC structure, concrete is poured on top of it to form a single layer, and then the PC structure is again in the same order. Buildings are constructed sequentially.

The construction method of the PC structure is possible by using the PC structure as a prefabricated construction in the field, it is possible to quickly and easily construct.

However, in order to construct the upper-layer structure, it is possible to construct after the lower layer is completed, so it is necessary to construct the layer and the floor continuously, so the time required for construction by external environment such as weather or temperature This delayed problem occurs.

In relation to the prior document 1 (registration patent 10-0644745 PC column-beam connection structure and construction method thereof), a PC column manufactured by one layer unit and having a fixed rod threaded at the end is projected, and an end portion of the PC column It is inserted into the fixing rod and is spread over the PC pillar in the longitudinal direction of the beam and at the right angle to the beam. On the lower surface, the wide PC beam with the block-out part for inserting the pillar and the pillar-beam joint are placed to secure the integrity and continuity of the joint. A method comprising concrete is disclosed.

However, in the prior art document 1, when the pillar is to be installed on the pillar again, the concrete must be sufficiently cured before construction, so if it affects the concrete curing during winter or rainy weather, it may be difficult to continuously construct it, resulting in a problem of extending the air. do.

Prior Literature 1 (Registered Patent 10-0644745 PC column-beam connection structure and construction method)

The present invention has been devised to solve the above-mentioned problems, and when constructing layers and layers in a multi-layered building, when constructing an upper layer on the upper portion after constructing a lower layer, a girder and a slab are applied after constructing a lower layer. Before installing and constructing the upper floor, it is not necessary to pour concrete on the top of the slab to wait for curing, and reinforcement pipes are provided between the pillars and the pillars. The space reinforcement structure between the upper and lower PC pillars is possible so that the upper layer can be immediately constructed without waiting for the curing to be completed, and the construction period can be shortened and the cost can be reduced. An object of the present invention is to provide a method for constructing a PC structure.

A method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention for solving the above problems, is directed to the upper surface of the upper surface of the lower PC pillar 100 A plurality of reinforcing pipes 120 extending to a predetermined length; is provided so that the upper layer PC pillar 100 can be connected to the reinforcing pipe 120 regardless of the concrete curing in the concrete pouring step (S40). It is characterized by being.

Here, the reinforcing pipe 120 is coupled with a finishing plate 121 that prevents mortar from entering the interior, and an upper and a lower level of the PC pillar 100 installed on the upper layer on the upper side of the finishing plate 121. It is characterized by having a level liner 122 in the form of a stackable plate that can be precisely fitted and constructed.

In addition, the reinforcing pipe 120 is not integrally molded, and can be constructed by integrally molding the insert fastening hardware 130 on the top of the PC column 100 and then fastening the porcelain insert fastening hardware 130 during construction. It is characterized by being.

A method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention has the following effects.

First, in constructing the lower and upper layers using a PC structure, there is an effect that the lower and upper pillars can be directly connected regardless of concrete curing.

Second, since the lower pillars can support the upper pillars by a plurality of reinforcing pipes, there is an effect that the workability can be improved at a low cost.

Third, a level liner can be precisely set by installing a level liner on the reinforcing pipe, thereby enabling more stable construction.

1 is a perspective view showing the configuration of a PC pillar in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention
2 is a perspective view showing a structure constructed by a PC structure construction method having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention
Figure 3 is a cross-sectional view taken along the line Ⅰ-Ⅰ showing a PC pillar in detail in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.
4 is a cross-sectional view showing a state in which the lower layer PC pillar and the upper layer PC pillar are combined in a method of constructing a PC structure having a space-reinforced structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.
5 is a perspective view showing in detail the construction of the finishing plate and the level liner in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.
Figure 6 is a perspective view showing another embodiment of the finish plate and the level liner in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention
7 is an exemplary view showing a state in which a reinforcement pipe is provided as a separate installation structure in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention
8 is an exemplary view showing a state in which a reinforcing pipe is welded to a reinforcing bar for a frame in a method for constructing a PC structure having a space-reinforcing structure between upper and lower PC columns to enable simultaneous construction of two layers according to an embodiment of the present invention.
9 is an exemplary view showing various arrangements of reinforcement pipes in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.
10 is an exemplary view showing various types of reinforcement pipes in a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.
11 is a process diagram showing a PC structure construction method having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention

In the present invention, when constructing a PC structure, the PC pillar 100 is provided with a reinforcement pipe 120 extending a certain length, and the lower PC pillar 100 and the upper PC pillar 100 are fixed by the reinforcement pipe 120. By allowing the construction to be carried out in a spaced-out state, it is possible to install immediately without having to wait until it is cured by pouring concrete to construct the upper layer, so that the PC structure can be installed regardless of the time required for curing concrete due to weather and climate, such as winter. It is characterized by being capable of construction.

Hereinafter, a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the configuration of a PC pillar in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention, and FIG. 2 is one embodiment of the present invention It is a perspective view showing a structure constructed by a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an example, and FIG. 3 shows simultaneous construction of two layers according to an embodiment of the present invention. It is a cross-sectional view taken along the line I-I of a PC pillar in a method of constructing a PC structure having a space-reinforced structure between the upper and lower PC pillars, and FIG. 4 is an upper and lower PC for simultaneous construction of two layers according to an embodiment of the present invention. This is a cross-sectional view showing a state in which the lower layer PC pillar and the upper layer PC pillar are combined in the method of constructing a PC structure having a space-reinforced structure between columns.

1 is a perspective view showing the configuration of a PC pillar in a method of constructing a PC structure having a space reinforcement structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention. Referring to FIGS. 2 to 4, FIG. In constructing a PC structure, the PC structure stands on the ground and supports the PC structure 100, and the PC column 100 is assembled on the top of the PC column 100 to load the PC structure (PC column ( It is configured to include a PC girder (200) supported while dispersing into 100) and a PC slab (300) that is assembled and installed on the PC girder (200) to form the bottom of the upper structure.

The PC pillar 100 is formed by pre-forming concrete in the form of a column and moving to the construction site, and the reinforcing bars 110 and upper portions of the PC pillar 100 are molded together to form a skeleton of the PC pillar 100. It is configured to include a reinforcing pipe 120 which is provided to be extended to support the PC pillar 100 installed on the upper layer from the top of the PC pillar 100.

Here, the reinforcing bar for the frame is to be insert-molded together when the PC column 100 is molded, and is arranged in a number inward along the shape of the PC column 100 to be molded together to reinforce the strength of the PC column 100 while the PC column is reinforced. (100) during construction, the anchor bar 111 connected to the rebar of the ground or another PC column 100 and the lower end of the anchor bar 111, that is, the other column of the PC is inserted into the lower end of the PC column 100 It is configured to include a connection sleeve 112 that is fitted on the upper portion of the (100).

At this time, a mortar injection hole 112a through which a non-shrinking mortar is injected and filled to prevent flow while reinforcing strength in a state of being coupled with the lower PC pillar 100 on one side of the connection sleeve 112 is penetrated. Formed, the lower portion of the packing is fitted and coupled to prevent the mortar from leaking when the mortar is filled.

The packing (112b) is a hole of a size corresponding to the outer periphery of the anchor bar (111) is formed through the center is fitted to the outside of the anchor bar (111), the outer periphery and the inner periphery of the connecting sleeve (112) It is made of a corresponding size and shape to hermetically seal the inside of the connection sleeve 112 to prevent the mortar from leaking when filling the mortar.

For this reason, while constructing and constructing the PC pillar 100, and assembling and constructing the PC girder 200 and the PC slab 300 thereon, pouring concrete into the upper portion of the PC slab 300 to form the bottom surface of the concrete Regardless of pour or curing, the PC pillar 100 can be continuously stacked using the reinforcement pipe 120.

5 is a perspective view showing in detail the configuration of the finish plate and the level liner in a method of constructing a PC structure having a space-reinforced structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.

Referring to FIG. 5, the reinforcing pipe 120 is made of a pipe shape with an empty interior, and a finishing plate 121 for preventing concrete or mortar from flowing into the reinforcing pipe 120 during a concrete pouring process or a mortar filling process. Is installed.

The finishing plate 121 may be installed by welding on the upper end of the reinforcement pipe 120.

In addition, in the construction of the upper PC column 100 on the upper portion of the closing plate 121, a level liner 122 for leveling is further provided.

The level liner 122 is made of a thin plate, and when the horizontality between the lower PC pillar 100 and the upper PC pillar 100 does not match in the process of constructing the PC pillar 100, multiple levels As the liners 122 are stacked, the upper and lower PC pillars 100 are constructed by adjusting the horizontality as they are added and subtracted.

6 is a perspective view showing another embodiment of the finish plate and the level liner in a method of constructing a PC structure having a space-reinforced structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.

Referring to Figure 6, the closing plate 121 may be further provided with a coupling piece (121a) to facilitate the coupling.

The coupling piece 121a is provided to correspond to the inner surface of the reinforcing pipe 120 so that it can be installed only by fitting from the top.

At this time, for a more rigid fixing, the finishing plate 121 may be welded to the top of the reinforcement pipe 120.

And the level liner 122, the level liner 122, the operator directly adjusts and adjusts the horizontal level, the guide groove 122a is formed on the upper surface so as to be easily stacked to a more accurate position, the lower surface A guide protrusion 122b having a size and shape corresponding to the guide groove 122a is protruded.

Due to this, it is possible to stack to the correct position by using the guide grooves 122a and the guide protrusions 122b when setting the horizontality using the level liner 122, and the operator can more easily install and install the level liner 122, It is possible to easily set the horizontal level by minimizing the fatigue of the worker, saving time required for the horizontal setting, and setting the level more accurately to quickly install the upper PC column 100.

7 is an exemplary view showing a state in which a reinforcing pipe is provided as a separate installation structure in a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.

Referring to FIG. 7, the reinforcing pipe 120 is not integrally formed when forming a PC, and may be individually combined and used in the construction process.

At this time, the reinforcing pipe 120 is individually manufactured, and the PC pillar 100 is integrally molded with an insert fastening hardware 130 to which the reinforcing pipe 120 is fastened.

The reinforcement pipe 120 and the insert fastening hardware 130 may be combined with a screw fastening structure.

To this end, a lower portion of the reinforcing pipe 120 is provided with a bolt-shaped insert fastening portion 123, and the insert fastening hardware 130 has a reinforcing pipe fastening portion 131 to which the insert fastening portion 123 is screwed. It is further provided.

Accordingly, according to the specifications of the PC structure to be constructed, it is possible to efficiently apply and construct the PC girder 200 and the PC slab 300 considering the thickness and interlayer height.

8 is an exemplary view showing a state in which a reinforcing pipe is welded to a reinforcing bar for a frame in a method for constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention. .

8, the reinforcement pipe 120 may be constructed by welding to the reinforcing bar 110 for a frame.

More specifically, the reinforcing pipe 120 is a reinforcement pipe 120 so as to be in contact with the anchor bar 111 from the reinforcing bar for the frame at the top of the PC column 100 at the construction site without the need to pre-form the insert fastening hardware 130. After installing ), the reinforced pipe 120 and the anchor reinforcement 111 are welded to install the upper PC pillar 100 on the upper side.

For this reason, the PC pillar 100 is not manufactured separately, and the existing PC pillar 100 is applied with only the reinforcing pipe 120 so as to weld the lower PC pillar 100 and the upper PC pillar 100, thereby supporting the welding. It is possible to laminate the upper PC column 100 regardless of concrete curing.

9 is an exemplary view showing various arrangements of reinforcing pipes in a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.

Referring to FIG. 9, the reinforcing pipe 120 may be applied and arranged in various forms according to the construction structure.

According to the arrangement type, it is fixed to the placement position by using the reinforcing bars 110 and stirrup bars (S), and by pouring concrete in such a state, it is integrally molded to apply variously according to the construction structure or shape of the PC structure. Construction becomes possible.

10 is an exemplary view showing various types of reinforcement pipes in a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.

10, the reinforcement pipe 120 may be manufactured in various forms.

For example, it can be applied in various forms according to the construction conditions or structure, such as a circular pipe, a square pipe, and an octagonal pipe.

11 is a process diagram illustrating a method of constructing a PC structure having a space-reinforcing structure between upper and lower PC pillars to enable simultaneous construction of two layers according to an embodiment of the present invention.

Referring to FIG. 11, the present invention provides a PC pillar construction step (S10) of providing a foundation for constructing a building and erecting and installing a PC pillar 100 on the prepared foundation, and a PC girder on the PC pillar 100 (200) PC girder assembling step to assemble (S20), PC slab assembly step (S30) to assemble the PC slab 300 on top of the PC girder (200), and the PC slab (300) Including a concrete pouring step (S40) for pouring concrete on the top and a PC column (S50) for constructing a PC column (100) of the upper layer to be installed on the upper side of the PC pillar (100), the PC pillar ( The upper part of 100) is provided with a plurality of reinforcing pipes 120 extending to a certain length to the upper part, the upper PC column 100 in the reinforcing pipe 120 regardless of the curing of the concrete poured in the concrete pouring step (S40) It is characterized in that it is possible to immediately install the upper PC column (100) according to the connection construction by raising.

Due to this, regardless of the curing of concrete, it is possible to construct the upper floor immediately after the lower floor.

The present invention made as described above in the construction of the PC structure, when constructing the lower layer and when constructing the upper layer, before pouring or pouring concrete to the top of the slab forming the lower layer, or after pouring the concrete, before curing is completed It is possible to shorten the air by directly constructing the upper column by the supporting force, and accordingly, it is possible to reduce the cost required for the construction.

100: PC pillar 110: frame reinforcement
111: anchor bar 112: connecting sleeve
112a: mortar injection hole 112b: packing
120: reinforcement pipe 121: finishing plate
121a: Combination piece 122: Level liner
122a: guide groove 122b: guide projection
123: insert fastening part 130: insert fastening hardware
131: Reinforcement pipe fastening part 200: PC girder
300: PC slab S: Reinforcement bar

Claims (3)

A plurality of reinforcing pipes 120 extending in a predetermined length upward to the upper surface of the lower PC pillar 100 is provided, and the upper PC PC 100 is provided regardless of the curing of the concrete poured in the concrete pouring step (S40). In the connection construction by placing on the reinforcement pipe 120,
The PC pillar 100 is pre-formed in the form of concrete to move to the construction site, and includes a reinforcement 110 for a frame that is molded together to form a frame of the PC pillar 100,
The reinforcing bar 110 for the frame, the insert is molded to the bottom of the PC pillar 100, and is fitted to the upper portion of the other PC pillar 100, and includes a connecting sleeve 112 that is coupled,
On one side of the connection sleeve 112, a mortar injection hole 112a is formed through which a non-shrinking mortar is injected and filled from the outside to prevent flow while reinforcing strength while being coupled with the lower PC pillar 100. , The packing (112b) that prevents the mortar from leaking when the mortar is filled is fitted in the opened lower part,
The reinforcing pipe 120 is coupled with a finishing plate 121 that prevents mortar from entering into the inside, and an upper and a horizontal level of the PC pillar 100 installed on the upper layer is precisely disposed on the upper portion of the finishing plate 121. A level liner 122 in the form of a stackable plate that can be constructed accordingly is provided.
The reinforcing pipe 120 is not integrally molded, and can be constructed by integrally molding the insert fastening hardware 130 on the top of the PC column 100 and then fastening the insert fastening hardware 130 during construction. A method of constructing a PC structure having a space-reinforcing structure between upper and lower PC columns to enable simultaneous construction of two layers.
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