KR102018767B1 - Precast concrete wall using cast in place concrete and concrete construction include this same - Google Patents

Abstract

The present invention relates to a concrete construction including a precast concrete wall using cast-in-place concrete together. The concrete construction is a rigid-frame bridge including: onsite pouring-combined precast concrete walls installed at regular intervals in a transverse direction; and slabs constructed on the onsite pouring-combined precast concrete walls. The onsite pouring-combined precast concrete walls include: at least two-unit walls made by concrete precasting and arranged in a longitudinal direction; and a concrete combining part poured on the site into a connection portion between the unit walls continuously arranged in the longitudinal direction to integrate the unit walls continuously arranged in the longitudinal direction. According to the present invention, since the precast concrete products (the walls) can secure a space for pouring concrete on the site, a separate form is not required, and the efficiency of construction can be improved.

Description

Precast Concrete Walls with Precast Concrete Walls {PRECAST CONCRETE WALL USING CAST IN PLACE CONCRETE AND CONCRETE CONSTRUCTION INCLUDE THIS SAME}

The present invention relates to a precast concrete structure in parallel with in-site casting, and more particularly, by combining precast concrete and in-site pouring concrete to improve workability, watertightness, structural bonding, and precast concrete products (walls) to secure a place in place. The present invention relates to a concrete structure including parallel cast precast concrete walls, which improves workability by reducing input materials and work types by reducing the number of precast concrete products and the installation process of precast concrete products without using a separate formwork.

This section provides background information related to the present application but is not necessarily prior art.

Concrete structures (underground roads, passage boxes, retaining walls, underground parking lots, storage tanks, ramen bridges, etc.) are constructed by installing formwork at the site to create a casting space and casting and curing concrete in this casting space.

However, when constructing concrete in the field, plywood formwork, copper bar, formwork, scaffolding are installed and concrete is laid inside to form the structure through a long curing period. There is a social loss, and a huge national budget is wasted for maintenance due to the deterioration of quality due to absence of skilled workers as well as construction costs.

In order to solve such a problem, a precast concrete construction method for manufacturing a whole structure in a factory and transporting and then installing the plant has been proceeded with a prior patent.

Precast concrete method has advantages such as quality, air, transportation, installation efficiency, safety accident, waste material generation compared to site casting, but it is applied to site due to high difference between designer and operator (manufacturing, transportation, steel mold, large crane, etc.) This difficult disadvantage, and therefore, to compensate for the disadvantages of the prior patent, such as workability, overweight, economic efficiency, and the installation defects such as quality weakness, air, safety accidents, waste materials, watertightness, structural weakness by skilled workers in the field casting This is required.

The patent document uses the anti-PC wall and the sash formwork to secure on-site casting space, and the two PC materials, namely the anti-PC wall and the sash formwork, are required components, and each support is required to erect these two materials. In addition, there is a disadvantage in that the construction is complicated and the air is long, and the construction cost is expensive because it requires a gap retaining material for maintaining the gap of these materials.

Patent Publication No. 10-2018-0082374

The present invention is to solve the problems as described above, to improve the workability by merging the precast concrete and the cast-in-place concrete, and precast concrete products (walls) to secure the site casting space without using a separate formwork free The objective is to provide concrete structures that include precast concrete walls in parallel with on-site casting, which reduces the quantity of cast concrete products and the materials for installing the precast products, thereby improving workability, watertightness, and structural rigidity.

In-situ parallel precast concrete wall according to the present invention comprises: at least two unit walls made of precast concrete and arranged along a longitudinal direction; Among the unit walls include a concrete composite unit which is in situ poured in the connecting portion of the unit wall continuous along the longitudinal direction and integrally synthesize the unit walls continuous along the longitudinal direction, wherein the unit wall, the inner wall portion, the outer wall portion, the inner wall Connected to the inner and outer wall portions of the unit wall continuous in the longitudinal direction and the one side opening portion which is open in the vertical direction and the longitudinal direction on both sides in the longitudinal direction by the connecting portion of the outer wall portion, the inner wall portion and the outer wall portion and the connecting portion, respectively Including the inner wall side joint and the outer wall side joint, characterized in that the concrete composite portion is placed in the pouring space formed so that the periphery is blocked by one opening of the two unit walls continuous in the longitudinal direction, storage tank, retaining wall It is constructed with underground roads, building walls, and large passage culverts.

According to the concrete structure including the parallel cast precast concrete wall according to the present invention, since the unit walls of the precast concrete, which is a monolithic body, the site can be cast by securing only the unit wall to secure the space for placing the conventional two materials (pre Unlike using cast concrete wall and formwork), only one unit wall is used, so construction is very easy and the subsidiary materials are also reduced, resulting in shortening of construction period, cost reduction, safety accident prevention, structural rigidity, watertightness, etc. have.

In addition, there is an effect of improving the workability of the slab by using a deck plate (deck portion, stud, slab side rebar, concrete).

1 is a plan view of a site-casting parallel precast concrete wall according to the present invention;
Figure 2 is a perspective view of a unit wall applied to the in-situ parallel precast concrete wall according to the present invention.
Figure 3 is a perspective view showing a joint applied to the site-pouring parallel precast concrete wall according to the present invention.
4 to 6 are a perspective view, a side view, and an installation state front view showing another example of a site-casting parallel precast concrete wall according to the present invention, respectively.
7 is a construction process diagram of a concrete structure including a site-casting parallel precast concrete wall according to the present invention.
8 and 9 are a perspective view and a front view of the deck plate included in the concrete structure, each including a parallel casting precast concrete wall according to the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

As shown in FIG. 1, the site-pouring parallel precast concrete wall 100 according to the present invention includes two or more unit walls 10 that are made of precast concrete, and unit walls continuous along the longitudinal direction through the site-pouring concrete. Consists of a concrete composite unit 20 for synthesizing the 10, it is constructed as a retaining wall, box structure (storage tank, underground driveway, etc.).

The unit wall 10 is a precast concrete product manufactured in a factory as a reinforced concrete product, and as shown in FIG. 2, the inner wall part 11, the outer wall part 12, and the connecting part 13 have a basic configuration, and the inner wall part ( 11) and the outer wall portion 12 has the same length (lengthwise width), while the connecting portion 13 has a length shorter than the inner wall portion 11 and the outer wall portion 12, one side open portion 14 on both sides in the longitudinal direction. ) Are formed respectively. Of course, at the beginning and end of the concrete structure, one side opening 14 is required only on one side, so the wall 10 includes one side opening formed only on one side of both sides in the longitudinal direction.

In one side open portion 14, one side refers to only one side opened on the basis of the longitudinal direction, one side open portion 14 is the top is opened for pouring concrete and the bottom is opened for the bottom and the synthesis.

Although not shown in the drawing, the unit wall 10 may include reinforcing bars protruding toward the one side opening portion 14 for synthesis with the concrete composite portion 20.

According to the structure and arrangement of the unit wall 10, one pour space is formed with two circumferential neighboring unit walls 10 and the circumferential portion is blocked. Is completed.

Concrete composite portion 20 is preferably reinforced concrete, the wall side reinforcement 60 (shown in Figure 7) is placed in the placing space. The wall side reinforcement 60 is bent to have a vertical portion and a horizontal portion, and the vertical portion is disposed in the pouring space while the horizontal portion passes through the inner wall portion 11 and then protrudes inside the inner wall portion 11 to the bottom portion. Is placed.

Reinforcing bars protruding from the inside of the legs 16 to the wall side reinforcing bars may also be included.

The reinforcement member 30 is included to increase the combined force of the unit wall 10 and the concrete composite portion 20.

Reinforcing member 30 is preferably a mesh of porous (perforated form, lattice form, etc.) in which the concrete is accommodated and has excellent tensile strength material.

The reinforcing member 30 may be installed at two opposite surfaces of the inner wall part 11 and the outer wall part 12, and of course, may be installed at only one side thereof. For example, the inner wall part 11 and the outer wall part ( It is inserted and fixed through the guide bars 15 respectively fixed to 12).

The guide reinforcing bar 15 is arranged in the vertical direction in which the reinforcing member 30 is inserted, and is fixed at a predetermined distance from the inner surface of the inner wall portion 11 and the outer wall portion 12 (the interval at which the reinforcing member 30 is inserted). For example, it is fixed via a two-stage bent fixing piece 15a (which can be fixed by inserting the unit wall 10), and two or more fixing pieces 15a are installed along the vertical direction. do.

The guide reinforcing bars 15 are configured to be fixed to the unit walls 10 each of which is continuous in both directions in the longitudinal direction.

In the continuous unit walls 10, the inner wall portion 11 and the outer wall portion 12 are connected to each other through a joint, and FIG. 3 shows an example of the joints 40 and 50, for example, the unit wall 10. The first and second joints 40 and 50 are fixed to one side of both sides of the longitudinal direction of each side) (there are buried during the concrete manufacturing of the unit wall 10), and the first and second joints 40 and 50 are inserted and connected to the other side. The first and second joint grooves 41 and 51 are formed, that is, the first and second joints 40 and 50 have a first and second joint grooves 41 and 51. Are connected to each other through the insertion.

Preferably, the first joint 40 for connecting the inner wall parts 11 is made of a material (elastic material) and a structure (including an exponent wing) for securing watertightness, and a second joint for connecting the outer wall parts 12. 50 is made of a material (metal) and the structure (type I) to increase the strength of the connection.

Preferably, the first and second joint grooves 41 and 51 are filled with a filler (eg, mortar) after the first and second joints 40 and 50 are inserted.

The wall 100 according to the present invention further includes a configuration as follows in addition to the basic configuration described so far.

As described above, when the unit wall 10 has the inner wall portion 11, the outer wall portion 12, and the connecting portion 13 having the same height, the concrete composite portions 20 may not be synthesized with each other through the connecting portion 13, In order to compensate for this, as shown in FIGS. 4 and 5, the outer wall portion 12 is supported on the ground, but the inner wall portion 11 and the connecting portion 13 are spaced apart from the ground so that a space is formed between the ground surface. Two legs 16 are preferably formed at the bottom of the inner wall 11 so that the unit wall 10 can be stably erected.

Therefore, since the connecting portion 13 is the bottom portion of the empty space, on the basis of FIG. 6, one side opening portion 14 on both the left and right sides is connected to each other through the bottom space of the bottom portion, thus, after assembling all the unit walls 10. When the concrete is poured, one concrete composite unit 20 is constructed as a whole, and the concrete structure is constructed as a single unit that behaves as a whole.

In addition, since the empty space is formed at the bottom of the inner wall portion 11 except for the legs 16, concrete is poured together with the placing space of the unit wall 10 and the bottom portion to synthesize the wall 100 and the bottom portion integrally. do.

On the other hand, the outer wall portion 12 includes a slab support portion 17 protruding higher than the inner wall portion 11 and the connecting portion 13 at the top.

The slab support 17 is integrally formed on the upper portion of the outer wall portion 12 and functions as a formwork for directly supporting the slab or placing the slab.

Concrete structure construction method including a parallel casting precast concrete wall according to the present invention is as follows.

1.Installation of unit walls of parallel cast precast concrete walls.

Unit walls 10 are installed on both sides of the left and right sides for the construction of walls, and both the left and right sides connect the plurality of unit walls 10 along the longitudinal direction (connection by the first and second joints 40 and 50). } Install The unit wall 10 may be supported by the bottom of the leg 16 and the outer wall portion 12 so as to stand on the ground, and may be installed on the outer side of the unit wall 10 so that the unit wall 10 does not fall as needed.

In this process, the pillars 200 may be installed between the left and right unit walls 10. The pillar 200 is selected according to the left and right width of the concrete structure to support the slab.

The pillar 200 may be both a precast concrete product and an in-situ casting product, and the pillar-side reinforcing bars 210 synthesized at the slab and the bottom may protrude from the upper and lower parts.

2. Bottom reinforcement.

The reinforcing bar is reinforced between the left and right unit walls 10, and for example, the reinforcing bar 60 is placed in the placing space of the unit wall 10, and the bottom reinforcing bar 400 is disposed at the bottom. The bottom side rebar 410 is connected to the wall side reinforcement 60 and the column side reinforcement 210 (coupled connection, overlapping, etc.).

The wall side reinforcement 60 may be reinforced when the unit wall 10 is installed.

3. Placing floor and wall concrete.

Concrete is poured into the flooring and the space in the unit wall 10 to construct the floor and the wall 100.

For example, cast concrete to a certain height at the bottom. At this time, concrete is poured together in the placing space of the unit wall 10 through the bottom of the inner wall portion 11 of the unit wall 10, that is, the bottom 400 and the wall 100 are synthesized integrally.

The wall 100 is completed by pouring concrete in the upper part of the placing space of the unit wall 10.

4. Slab construction.

The slab 300 is constructed on the left and right walls 100 and the pillars 200 therebetween.

The slab 300 is composed of the deck plate 310, the slab side reinforcement 320, the concrete slab 330 and the beam 340, the deck plate 310 and the beam 340 on the column (200) Optionally used as needed) Mounting-deck plate 310 and beams 340 on the top of the slab side reinforcement (320) reinforcement-concrete slab 330 construction of the process.

end. Deck plates and beam mounts.

The deck plate 310 is arranged in the transverse direction and mounted on the top of the wall 100 and the pillar 200, and based on FIG. 7, the wall 100 and the pillar 200 and two pillars 200 on the left side. ), And mount the deck plate 310 on the column 200 and the wall 100 on the right.

Deck plate 310 is supported at one end of the slab support 17 of the wall (110).

Deck plate 310 is mounted on both sides are mounted on the top of the wall 100 or the pillar 200, respectively.

Deck plate 310, as shown in Figure 8 and 9, the deck portion 311 of the concrete, a plurality of studs embedded in the deck portion 311 so that a portion of the upper portion protrudes above the deck portion 311 ( 312, a shear connection portion 313 is configured for connection with the deck portion 311 and the concrete slab 330.

Deck portion 311 is a precast concrete product is produced in the form of a plate, preferably a reinforced concrete product that is reinforced in the interior.

The stud 312 is a rod (rebar, general rod, etc.) of a larger area than the bottom of the head portion, and a plurality of studs 312 are provided along the longitudinal and transverse directions. In this case, in order to more easily install the plurality of studs 312, the plurality of studs 312 arranged along the transverse direction (or the longitudinal direction) are fixed to one connecting plate 314 and installed through a single operation.

The stud 312 is provided with a rebar seating groove 312a on which the slab reinforcement 320 is seated on an upper surface of the head to facilitate reinforcement of the slab reinforcement 320.

Reinforcing seating groove 312a is in the form of a groove that is open toward the top, and can be a variety of shapes, such as straight (one direction), cross-shaped.

The shear connection part 313 is integrally formed on the deck part 311 and protrudes from the upper part of the deck part 311 and has a circumferential surface consisting of a surface in which recesses and convex parts are continuous.

Shear connector 313 is formed in the form of a projection on the top of the deck portion 311, the deck portion 311 is a form in which the protrusion (shear connection portion 313) and the groove portion (between the shear connection portion 313) is alternately repeated. Therefore, the stud 312 is preferably installed in the shear connection 313 to increase the binding force.

The shear connector 313 may be formed in a plurality of rows (linear) arranged side by side on the deck portion 311, of course, is not limited to a straight line, but also in the form of a point.

Beams 340 are arranged along the longitudinal direction and mounted on top of neighboring pillars 200.

I. Slab reinforcement.

The slab reinforcement 320 is placed on top of the deck plate 310 and the beam 340.

Reinforcement is easy by inserting the slab reinforcement 320 into the reinforcing seat groove 312a of the stud 312.

All. Concrete slab construction.

The concrete slab 330 is constructed by pouring concrete on the deck plate 310 and the beam 340.

10: unit wall, 11: inner wall part
12: outer wall portion, 13: connecting portion
14: one side opening, 15: guide reinforcing bar
16: leg, 17: slab support
20: concrete composite part, 21: column side rebar
30: reinforcing member, 100: concrete wall
200: pillar, 300: slab
310: deck plate, 311: deck portion
312 stud, 312a rebar seating groove
313: shear connection, 320: slab side rebar
330: concrete slab,
:

Claims (6)

A precast concrete wall in parallel with on-site placing at a predetermined distance from each other along the transverse direction;
Ramen bridge including a slab is constructed on the in-site parallel parallel precast concrete walls,
The cast-in-place parallel precast concrete wall includes two or more unit walls, which are made of precast concrete and arranged along the longitudinal direction, and are cast in the connection part of the unit walls continuous along the longitudinal direction among the unit walls and continuous along the longitudinal direction. It includes a concrete composite unit for integrally synthesizing the unit walls, wherein the unit wall, the inner wall portion, the outer wall portion, the connecting portion of the inner wall portion and the outer wall portion, the inner wall portion and the upper and lower portions on both sides in the longitudinal direction, respectively by the connecting portion and the connecting portion And an inner wall side joint and an outer wall side joint connected to the inner side wall portion and the outer wall portions of the unit wall continuous in the longitudinal direction and the one side opening portion opened in the longitudinal direction, respectively, wherein the concrete composite portion includes two continuous portions in the longitudinal direction. Is placed in a pour space formed so that the periphery is blocked by one openings of the unit walls,
The slab includes a deck plate of precast concrete, a slab side reinforcement is disposed on the deck plate, a concrete slab made of the concrete cast on the deck plate, the deck plate is a plate-shaped deck portion made of precast concrete, Containing a plurality of studs protruding to the top of the deck portion, the stud concrete structure comprising a parallel cast pre-cast concrete wall, characterized in that it comprises a reinforcing bar receiving groove on which the slab side reinforcing bar is seated. delete delete delete A precast concrete wall in parallel with on-site placing at a predetermined distance from each other along the transverse direction;
A bottom portion integrally synthesized with the site-pouring parallel precast concrete wall between the site-pouring parallel precast concrete wall;
It is a box structure including a slab constructed on the in-site parallel parallel precast concrete walls,
The cast-in-place parallel precast concrete wall includes two or more unit walls, which are made of precast concrete and arranged along the longitudinal direction, and are cast in the connection part of the unit walls continuous along the longitudinal direction among the unit walls and continuous along the longitudinal direction. It includes a concrete composite unit for integrally synthesizing the unit walls, wherein the unit wall, the inner wall portion, the outer wall portion, the connecting portion of the inner wall portion and the outer wall portion, the inner wall portion and the upper and lower portions on both sides in the longitudinal direction, respectively by the connecting portion and the connecting portion And an inner wall side joint and an outer wall side joint connected to the inner side wall portion and the outer wall portions of the unit wall continuous in the longitudinal direction and the one side opening portion opened in the longitudinal direction, respectively, wherein the concrete composite portion includes two continuous portions in the longitudinal direction. Is placed in a pour space formed so that the periphery is blocked by one openings of the unit walls,
The slab includes a deck plate of precast concrete, a slab side reinforcement is disposed on the deck plate, a concrete slab made of the concrete cast on the deck plate, the deck plate is a plate-shaped deck portion made of precast concrete, Containing a plurality of studs protruding to the top of the deck portion, the stud concrete structure comprising a parallel cast pre-cast concrete wall, characterized in that it comprises a reinforcing bar receiving groove on which the slab side reinforcing bar is seated. delete

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