KR102109900B1 - Reinforced Concrete Method and Reinforced Concrete Structure - Google Patents

Abstract

Regarding the formless concrete construction method and reinforced concrete structure, it is possible to construct the wall or floor of the building in a double structure, as well as to construct the exterior or interior materials of the building in advance on the concrete structure and to construct the concrete structure without the formwork. The concrete structure has a plurality of horizontal angles spaced at regular intervals, a plurality of vertical angles spaced apart between the horizontal angles, and a first reinforcing bar spaced at regular intervals on one side of the horizontal angle and the vertical angle. , A first concrete structure having a plurality of lifting rings installed in the angle, the binding frame is installed connected to the first reinforcing bar and the angle so that the first reinforcing bar is fixed; A plurality of horizontal angles spaced at regular intervals, a plurality of vertical angles spaced apart between the horizontal angles, and a plurality of space maintenance frames installed at the angles to be spaced apart from the first concrete structure by a predetermined distance; A second concrete structure having a second reinforcing bar installed at a predetermined interval on one side of the horizontal angle and the vertical angle; By providing an external finishing material installed on one surface of the first concrete structure, it is possible to easily and quickly construct a wall or floor of a building without installing a formwork or a formwork, and construct a wall or floor of a building in a double structure By doing so, as well as by constructing the exterior or interior materials of the building in advance on the concrete structure, the effect that interior materials and the like can be constructed more quickly and easily is obtained.

Description

Reinforced Concrete Method and Reinforced Concrete Structure

The present invention relates to a formless concrete construction method and a reinforced concrete structure, and more particularly, to a formless concrete construction method and a reinforced concrete structure that enables construction of a reinforced concrete structure without using a formwork or a formwork. .

In general, reinforced concrete structures are not suitable for small houses, and are the most common method for constructing large-scale multi-story apartments with three or more stories.

This reinforced concrete structure is ground-worked, and after the reinforcement structure is installed on the ground, the mold is installed at a position spaced apart from the reinforcing structure, and concrete is placed in the mold to remove the mold and solidify it. To complete.

Here, the reinforcing bar structure is inserted as a reinforcing material of a building constructed with a reinforced concrete structure, and the worker manually binds and reinforces each one at a position where a wall or a column of the building is to be installed.

Therefore, the installation work of the reinforcing bar structure was performed at the site where the building is being constructed, and the process of rebar processing, lifting, and installation depended on manpower.

The reinforced concrete structure, which is completed in the process of manufacturing formwork, reinforcing bars, curing concrete, and dismantling the formwork in the field, has low construction costs, is easy to maintain, and has excellent durability, fire resistance, earthquake resistance, and wind resistance. As it has the advantages of, it can be said to be the most commonly used structural system in building construction.

Currently, the formwork of reinforced concrete beams is a conventional formwork using plywood and wood, a Euroform made of plywood and a steel frame, and a steel form made of a steel plate and a steel frame.

In addition, with the development and dissemination of flat deck plates, in many fields, the lower surface of the reinforced concrete base plate is used as a deck plate to replace ordinary formwork, but a bone deck plate is required to use the long span.

In the prior art, a system in which the bone deck plate is a reinforced concrete beam and a precast beam is used, and in order to apply the bone deck plate to the reinforced concrete, an end closure made of galvanized steel to prevent the gap between the bone and the bone of the deck plate. Was welded or screwed to the deck plate.

As described above, the installation work of the reinforcing bar structure by manpower in the conventional construction site has a long construction period, and the precision of rebar assembly and installation depends largely on the skill of the skilled worker.

In addition, in the case of high-rise buildings, a separate temporary workbench is installed, and the worker climbs on a cramped workbench to perform difficult reinforcing work for a long time, which causes a risk of safety accidents and deteriorates the accuracy of rebar reinforcement.

For example, Patent Document 1 below discloses a 'reinforcing bar network construction method of a reinforced concrete structure'.

The method of assembling and constructing a reinforcing bar network of a reinforced concrete structure according to Patent Document 1, in assembling and installing a reinforcing bar at a construction site of the structure, installing a wall assembly frame, assembling a wall reinforcing bar network to the wall assembly frame, Lifting the wall reinforcing bar assembled with a crane to a reference vertical rebar adjacent to the construction site, installing the lifted wall reinforcing bar to the reference vertical rebar in the construction site, installing a slab assembly frame, and the slab Assembling a slab rebar network on an assembly frame, lifting the slab rebar network assembled with a crane to the top of the wall rebar network installed at a construction site, (h) lifting the slab rebar network to the wall of a construction site It includes the step of installing on the upper portion of the rebar.

Patent Document 2 below discloses a 'wall construction method of a building to which an exposed concrete construction method is applied'.

The construction method of the wall of a building to which the exposed concrete construction method according to the following patent document 2 is applied is a step of installing a reinforcing bar foundation in which a reinforcing bar foundation located inside the wall is installed using a plurality of reinforcing bars at a position where the wall is formed, The plate-shaped formwork bodies are continuously installed to correspond to the area, and then the cross-shaped (+) structure line bar fixing members are installed on the front surface of the formwork body to correspond to the intersection points of the joints formed on the exposed concrete wall, and then horizontal and horizontal. It includes the steps of manufacturing the formwork for the joint to produce the formwork for the joint by inserting and coupling both ends of the bar to the adjacent bar-bar fixing members in the same line for each vertical direction.

A joint form arrangement step for arranging the joints formed in the joint form for joints to face each other with a reinforcing bar interposed therebetween, and a separation space securing a separation distance between the joints for the joints by using a sepa bolt Step of securing distance, D-cone coupling step of coupling the D-cone forming the place of the cone hole formed in the exposed concrete wall to both ends of the sepa-bolt, and after passing the body bolts through the dice for jointing, the main body bolt It includes a main body bolt coupling step for coupling to the D cone.

A casting square washer fastening step of fastening a casting square washer to be fitted to the body bolt from the outside of the joints for the joint, a casting nut fastening step of fastening the casting nut so that the casting square washer does not deviate, and concrete between the joints for the joints The step of curing the concrete by putting it in, and removing the parts for removing the molds for the joint, the D cone, the body bolt, the casting square washer and the casting nut before the concrete is completely hardened.

Republic of Korea Patent Publication No. 10-2006-0039656 Republic of Korea Patent Publication No. 10-2012-0091934 Republic of Korea Patent Publication No. 10-1900689

The object of the present invention is to solve the problems as described above, without the formwork or formwork for pouring concrete separately without using a concrete structure to form the walls and floors of buildings, etc. It is to provide a construction method and a reinforced concrete structure.

Another object of the present invention is to provide a frameless concrete construction method and a reinforced concrete structure that allow concrete and wall structures of concrete structures to be constructed more quickly and economically by a concrete structure manufactured in a predetermined size.

In order to achieve the object as described above, the reinforced concrete structure according to the present invention is a plurality of horizontal angles spaced at regular intervals, a plurality of vertical angles are installed spaced between the horizontal angle, the horizontal angle and the vertical angle of The first rebar is spaced apart at regular intervals on one side, one end is fixed to the horizontal and vertical angles so that the first rebar is fixed, and the other end is installed in the binding frame and the angle to be connected to the first rebar. A plurality of lifting rings, the first concrete structure having an external finishing material installed on one surface of the horizontal and vertical angles;
A plurality of horizontal angles spaced at regular intervals, a plurality of vertical angles spaced apart between the horizontal angles, and a plurality of space maintenance frames installed at the angles to be spaced apart from the first concrete structure by a predetermined distance; A second reinforcing bar installed at a predetermined interval on one side of the horizontal angle and the vertical angle, a plurality of slide fixtures installed on the horizontal and vertical angles, and a second concrete structure provided with an internal finishing material installed between the slide fixtures It characterized in that it contains a.

The binding frame has one end fixed to the horizontal and vertical angles,

The other end of the binding frame is characterized in that it is coupled to a plurality of slide fixtures coupled to the first concrete structure.

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The reinforced concrete structure is composed of a lower concrete structure made of the first concrete structure and the second concrete structure, and an upper concrete structure made of the first concrete structure and the second concrete structure,

The lower concrete structure and the upper concrete structure are spaced apart by a predetermined height interval,

The lower concrete structure is characterized in that a shock absorbing member is installed to block shock or noise transmitted from the upper concrete structure.

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In addition, in order to achieve the above object, the formless concrete construction method according to the present invention is a double-structure reinforced concrete by combining the first concrete structure 100 and the second concrete structure 200 with a gap maintaining frame 230 Forming a structure (1);
Forming a lower concrete structure (1a) and an upper concrete structure (1b) using the double structure reinforced concrete structure (1);
It characterized in that it comprises the step of forming a floor (1c) of the double structure by installing the upper concrete structure (1b) to be spaced apart from the protrusion height of the buffer member (5) installed on the lower concrete structure (1a).

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As described above, according to the formless concrete construction method and the reinforced concrete structure according to the present invention, the walls and floors of a building can be constructed quickly and easily without installing a formwork or a formwork, and a wall or floor of a building 2 In addition to allowing the construction to be performed in a medium structure, the effect of being able to construct interior materials and the like more quickly and easily is obtained by previously constructing the exterior or interior materials of a building on a concrete structure.

According to the formless concrete construction method and the reinforced concrete structure according to the present invention, a buffer made of soft rubber or synthetic resin material is installed to counteract the shock transmitted from the upper concrete structure 1b, so that it is not transmitted to the lower concrete structure, By forming a space by separating the lower concrete structure and the upper concrete structure by a predetermined height, an effect of blocking noise applied from the upper concrete structure is obtained.

1 is an exploded perspective view showing a reinforced concrete structure according to a preferred embodiment of the present invention,
Figure 2 is an exploded three-dimensional view showing a reinforced concrete structure according to a preferred embodiment of the present invention,
Figure 3 is an exploded three-dimensional view showing a reinforced concrete structure according to a preferred embodiment of the present invention,
Figure 4 is an exploded three-dimensional view showing a reinforced concrete structure according to a preferred embodiment of the present invention,
Figure 5 is an exploded perspective view showing a first concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention,
6 is an exploded bottom view of a first concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention,
7 is an exploded perspective view showing a second concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention,
8 is an exploded bottom view of a second concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention,
Figure 9 is a process diagram showing the construction process of the concrete structure without a mold according to a preferred embodiment of the present invention,
10 is a three-dimensional view showing a state in which the reinforced concrete structure according to a preferred embodiment of the present invention is erected vertically,
11 is a plan view showing a reinforced concrete structure according to a preferred embodiment of the present invention,
12 is a three-dimensional view schematically showing the construction state of the reinforced concrete structure and the pillar according to a preferred embodiment of the present invention,
13 is a cross-sectional view schematically showing a construction state of a double-reinforced concrete structure and a floor according to a preferred embodiment of the present invention,
14 is a cross-sectional view schematically showing a reinforced concrete structure according to another preferred embodiment of the present invention,
15 is a cross-sectional view schematically showing a construction state of a reinforced concrete structure and a floor according to another preferred embodiment of the present invention,
16 is a cross-sectional view of one concrete wall by multi-pouring concrete with different components according to another preferred embodiment of the present invention.

Hereinafter, a concrete construction method and a reinforced concrete structure without a mold according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The reinforced concrete structure according to the preferred embodiment of the present invention includes a plurality of horizontal angles 110 spaced at regular intervals, a plurality of vertical angles 120 installed between the horizontal angles 110, and the horizontal angles 110. ) And the first reinforcing bar 130 which is installed to be spaced apart at regular intervals on one side of the vertical angle 120, and the binding frame installed to be connected to the first reinforcing bar 130 and the angle so that the first reinforcing bar 130 is fixed. (140), the first concrete structure 100 provided with a plurality of lifting rings 150 installed in the angle (110, 120), a plurality of horizontal angles 210 spaced apart at regular intervals, the horizontal angle (210) ) A plurality of vertical angles 220 installed spaced apart, a plurality of space maintenance frames 230 installed in the angles 210 and 220 so as to be spaced apart by a predetermined distance from the first concrete structure 100; One side of the second concrete structure 200 and the first concrete structure 100 provided with a second reinforcing bar 240 which are installed to be spaced apart at regular intervals on one side of the horizontal angle 210 and the vertical angle 220. It includes an external finishing material 160 that is installed on.

The reinforced concrete structure according to the embodiment of the present invention allows the construction of the walls and floors of a building easily and quickly without installing a formwork or a formwork, etc. to construct walls and floors of the building.

In addition, it is possible to construct the wall or floor of the building in a double structure, as well as to construct the exterior or interior materials of the building in advance on the concrete structure, so that the interior materials and the like can be constructed more quickly and easily.
In other words, when the same reinforced concrete structure is manufactured in the factory, the outer concrete 160 is combined to become the first concrete structure 100, and the inner finishing material 260 is combined to become the second concrete structure 200, and the ceiling frame 10 When combined, it becomes the lower floor 1a, and when the floor finishing material is combined, it becomes the upper floor 1b.
When the first concrete structure 100 and the second concrete structure 200 are combined at a predetermined distance with a gap maintaining frame 230, a double wall surface 1 is formed, and the upper floor 1b and the lower floor 1a are formed. When the buffer member 5 for preventing noise is interposed and spaced at a predetermined distance therebetween, the double floor 1c is formed.

Figure 1 is an exploded three-dimensional view showing a reinforced concrete structure according to a preferred embodiment of the present invention, Figure 2 is an exploded three-dimensional view showing a reinforced concrete structure according to a preferred embodiment of the present invention, Figure 3 is the present invention It is an exploded perspective view showing a reinforced concrete structure according to a preferred embodiment, and FIG. 4 is an exploded perspective view showing a reinforced concrete structure according to a preferred embodiment of the present invention.

1 to 4, the reinforced concrete structure according to the embodiment of the present invention is spaced apart by a predetermined distance from the first concrete structure 100 and the first concrete structure 100 formed in a predetermined thickness. It is made of a second concrete structure 200 is formed to a predetermined thickness.

The first concrete structure 100 is a plurality of horizontal angles 110 formed of a predetermined length, a vertical angle 120 installed between the plurality of horizontal angles 110, these angles (110, 120) on one surface The first reinforcing bar 130 installed, the binding frame 140 for fixing the first reinforcing bar 130 to the angles 110 and 120, the angle to lift the first concrete structure 100 with a crane, etc. It consists of a lifting hook 150 installed at 110 and 120 and an external finishing material 160 installed at the other surface of the first concrete structure 100.

The second concrete structure 200 has a plurality of horizontal angles 210 formed in a predetermined length, a vertical angle 220 installed between the plurality of horizontal angles 210, the horizontal angle 210 and the vertical angle ( Second reinforcing bar 240 which is installed to be spaced apart at a predetermined interval on one side of 220), and maintaining a plurality of spacings installed on one surface of the angles 210 and 220 so as to be spaced apart from the first concrete structure 100 by a predetermined distance. It consists of a frame 230.

Figure 5 is an exploded three-dimensional view showing a first concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention, Figure 6 is a bottom view showing a first concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention It is an exploded perspective view.

As illustrated in FIGS. 1 to 6, a plurality of horizontal angles 110 are installed at regular intervals, and these horizontal angles 110 may be increased or decreased in an appropriate number according to the size of a wall or floor to be constructed. .

The horizontal angle 110 includes a first horizontal angle 111 installed on one side, a second horizontal angle 112 installed at a predetermined distance from the first horizontal angle 111, and the second horizontal angle 112 ) Is made of a third horizontal angle 113, which is installed to be spaced apart by a predetermined distance from the third horizontal angle 113, and a fourth horizontal angle 114, which is installed to be spaced apart from the third horizontal angle 113, and these horizontal angles 110 It is made of a large number depending on the size of the silver wall.

A vertical angle 120 is installed between the horizontal angles 110, and the vertical angle 120 is a pair of first vertical angles 121 and first vertical angles installed at both ends of the horizontal angle 110. It is made of a second vertical angle 122 that is spaced apart by a predetermined distance between (121).

The second vertical angle 122 is formed in the shape of an 'a' in cross section, and the second vertical angle 122 is integrally formed with an extension plate 123 extending to maintain rigidity when pouring concrete.

A first reinforcing bar 130 is installed on one surface of the angles 110 and 120, and the first reinforcing bar 130 is installed to cross the horizontal reinforcing bar 131 and the horizontal reinforcing bar 131 installed in the horizontal direction. It is made of a vertical rebar (132).

That is, these transverse reinforcing bars 131 and longitudinal reinforcing bars 132 are arranged in a cross shape, and of course, the crossing portion of the first reinforcing bar 130 may be bound by a binding line (not shown).

Along with this, the first reinforcing bar 130 is provided with a binding frame 140 to be firmly fixed to the first concrete structure 100.

The binding frame 140 has one end fixed to the first reinforcing bar 130, and the other end of the binding frame 140 is fitted into the fixing hole 115 formed in the horizontal angle 110 to be coupled.

One end of the binding frame 140 is coupled to the angle (110, 120). The fixing holes 115 are formed in the angles 110 and 120 so that the binding frame 140 is fixed.

In addition, the binding frame 140 is made of a metal material having rigidity so that the angles 110 and 120 are fixed securely, and one end of the binding frame 140 is first inserted into the fixing hole 115 and then the first reinforcing bar 130 And fixed by welding.

1 to 6, the binding frame 140 is installed on the horizontal angle 110, unlike this, the binding frame 140 can be installed on the vertical angle 120, of course.

In addition, the binding frame 140 is installed on each of the left and right sides of the first reinforcing bar 130 to prevent the first reinforcing bar 130 from being moved by concrete and to maintain the tensile strength of the concrete building.

The angles 110 and 120 are provided with lifting rings 150 to lift and move the concrete structure, and a plurality of lifting rings 150 are installed to stably lift the crane.

That is, at least three or four lifting hooks 150 may be installed.

An outer finishing material 160 is installed on one surface of the first concrete structure 100, and the outer finishing material 160 is attached to the angles 110 and 120. The external finishing material 160 is attached in various ways according to the type of the external finishing material 160 by using molten fiber-reinforced plastic (FRP), and the external finishing material 160 is made of metal, synthetic resin, It may be made of wood.

7 is an exploded perspective view showing a second concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention, and FIG. 8 is a bottom surface showing a second concrete structure of a reinforced concrete structure according to a preferred embodiment of the present invention It is an exploded perspective view.

1 to 8, the second concrete structure 200 has a plurality of horizontal angles 210 formed of a predetermined length, and a plurality of vertical angles 220 installed between the horizontal angles 210 ), The second reinforcing bar 240 installed between the horizontal angle 210 and the vertical angle 220, a plurality of angles 210, 220 to be spaced apart from the first concrete structure 100 by a predetermined distance It includes an interval maintaining frame 230.

In addition, the second concrete structure 200 further includes a slide fixture 250 installed to install the interior finishing material 260 and an interior finishing material 260 installed between the slide fixtures 250.

The horizontal angle 210 of the second concrete structure 200 is a first horizontal angle 211 installed on one side, and a second horizontal angle 212 installed spaced a predetermined distance from the first horizontal angle 211. ), A third horizontal angle 213 installed to be spaced a predetermined distance from the second horizontal angle 222 and a fourth horizontal angle 214 to be spaced apart from the third horizontal angle 213. ).

The vertical angle 220 is a plurality of second vertical angles installed between the pair of first vertical angles 221 and the pair of first vertical angles 221 installed at both ends of the horizontal angle 210 ( 222).

The first vertical angle 221 is formed in a substantially 'a' shape in cross section, and the second vertical angle 222 is formed with an extension plate 223 integrally with an 'a' shape angle.

The extension plate 223 is installed to maintain rigidity when pouring concrete.

In addition, the second concrete structure 200 is provided with a space maintaining frame 230 so as to be spaced apart from the first concrete structure 100 by a predetermined distance.

The spacing frames 230 are respectively installed in the first horizontal angle 211 to the fourth horizontal angle 214, and the spacing maintenance frame 230 is a length to be spaced apart from the first concrete structure 100. Is formed.

A second reinforcing bar 240 which is installed to be spaced apart at regular intervals is installed on one side of the horizontal angle 210 and the vertical angle 220, and the second reinforcing bar 240 is a horizontal reinforcing bar 241 installed in a horizontal direction. And a longitudinal reinforcing bar 242 intersecting the transverse reinforcing bar 241.

The second concrete structure 200 is provided with a plurality of slide fixtures 250 installed in the angles 210 and 220, and an interior finishing material 260 installed between the slide fixtures 250.

In the second concrete structure 200, a plurality of slide fixtures 250 are installed at regular intervals in the horizontal angle 210, and the slide fixture 250 has a 'T' or 'to insert the interior finishing material 260. It is formed in the shape of an a '.

Next, with reference to FIG. 4, a concrete construction method without a mold according to a preferred embodiment of the present invention will be described.

The concrete-less concrete construction method according to an embodiment of the present invention includes (a) a plurality of horizontal angles 110 and 210 and a plurality of vertical angles 120 and 220, and the first rebar 130 and the lifting ring 150 in the angle. Step (S10), (b) the first concrete structure (100) and a plurality of horizontal angles 210 and a plurality of vertical angles (220) consisting of a second concrete structure 200 integrally produced (S10), (b) the first The step of pouring concrete by the height of the concrete structure 100 and the second concrete structure 200 (S20), (c) to install the (100, 200) of the concrete structure using the lifting hook 150 Step (S30), lifting and moving to a position (d) to install the inclined support 270 on one surface of the slide fixture 250 coupled to the second concrete structure 200, the first concrete structure 100 and The second concrete structure 200 includes a step (S40) of forming a building by integrally combining with a predetermined distance apart by a gap maintaining frame 230.

As shown in Figure 10, the formless reinforced concrete construction method according to an embodiment of the present invention is a double structure reinforced concrete having a space in the middle by integrally combining the first concrete structure 100 and the second concrete structure 200 The structure 1 is formed.

That is, the first concrete structure 100 and the second concrete structure 200 are integrally formed in a state spaced apart by a predetermined distance by the gap maintaining frame 230 (S40).

An outer finishing material 160 is attached to one surface of the first concrete structure 100 by fiber reinforced plastic or the like.

Concrete is poured into the first concrete structure 100 and the second concrete structure 200 by a predetermined thickness before being integrally combined in a state spaced apart by a predetermined distance by a space keeping frame 230 (S20). .

That is, the concrete structure 1 is placed horizontally by a crane or the like, and the external finishing material 160 is placed in a state located on the bottom surface.

As described above, the concrete is poured in a state where the first concrete structure 100 and the second concrete structure 200 are placed horizontally. That is, the concrete is filled in the interior of the external finishing material 160 and angles 110 and 120.

At this time, the concrete that is poured into the first concrete structure 100 is poured at the same height as the first reinforcing bar 130 or lower than the first reinforcing bar 130.

Accordingly, the lifting hook 150 installed on the first concrete structure 100 maintains the exposed state.

In this way, the concrete structure 1 in which the concrete is poured can be lifted and moved, and a hook (not shown) is installed on a crane or the like. The lifting structure 150 is a double structure reinforced concrete structure 1 is lifted as the hook is operated to operate the crane (S30).

The double-structured reinforced concrete structure 1 lifted in this way is moved to a location where the concrete structure is to be installed, and when the double-structured reinforced concrete structure 1 is installed as a wall, the double-structured reinforced concrete structure 1 is vertical Will be built.

The dual structure reinforced concrete structure 1 is provided with an inclined support 270 so as not to fall in a vertically standing state.

The inclined support 270 is installed on one surface of the sliding fixture 250 of the second concrete structure 200 coupled to the double structure reinforced concrete structure 1 to stand vertically.

That is, concrete is poured into the first concrete 100 with a predetermined thickness, and concrete is also poured into the second concrete structure 200.

11 is a plan view showing a reinforced concrete structure according to a preferred embodiment of the present invention.

FIG. 11 (a) is a plan view showing a state constructed as a wall by a concrete structure 1, and FIG. 11 (b) shows a state constructed as a wall or a floor by two concrete structures 1a, 1b. One side view.

As illustrated in FIG. 11, when constructing a wall or floor, a wall or floor may be formed of one double structure reinforced concrete structure 1, and if necessary, a double structure reinforced concrete structure 1 or double floor 1c ) May be formed of two concrete structures 1a and 1b spaced apart by a predetermined interval.

12 is a three-dimensional view schematically showing a construction state of a reinforced concrete structure and a column according to a preferred embodiment of the present invention.

FIG. 12 shows that a pillar is constructed on one surface of the double-structured reinforced concrete structure 1, and the pillar 2 is an upper reinforcement reinforced in the lower reinforcement 3 and the pillar 2 extending from the lower floor. (4) is bound. Concrete is poured into the lower reinforcing bar 3 and the upper reinforcing bar 4 to form a pillar 2.

13 is a cross-sectional view schematically showing a construction state of a double-structure reinforced concrete structure and a floor according to a preferred embodiment of the present invention.

13 schematically shows a state in which the floor 1c of the double structure is constructed with the lower concrete structure 1a and the upper concrete structure 1b, and the floor is not only formed between the layers and layers of the building, but also the slab It should be understood to include the roof.

As shown in FIG. 13, the floor or slab roof is provided with a buffer member 5 to prevent interlayer noise.

That is, the double floor (1c) is made of a lower concrete structure (1a) and an upper concrete structure (1b), the lower concrete structure (1a) and the upper concrete structure (1b) is the first concrete without an external finishing material (160) It is made of a concrete wall (11) made of a structure (100), the lower concrete structure (1a) is a ceiling frame (10) and a buffer member (5) are combined, the upper concrete structure (1b) is a buffer member (5) It is mounted on the inside of the second concrete structure 200 of the double wall 1 to form one double floor 1c, and the lower concrete structure 1a is buffered in the opposite direction of the ceiling frame 10 The support 6 of the member 5 is provided.

The support 6 is installed to protrude to the upper portion of the lower concrete structure (1a), it is made of a metal material so that the buffer 7 of the buffer member 5 is stably supported.

A buffer 7 made of a soft rubber or synthetic resin material is installed on the upper surface of the support 6, and the buffer 7 compensates for the impact transmitted from the upper concrete structure 1b to lower the concrete structure ( 1a).

In addition, the buffer member 5 forms a space by separating the lower concrete structure 1a and the upper concrete structure 1b by a predetermined height, thereby blocking the noise applied from the upper concrete structure 1b.

14 is a cross-sectional view schematically showing a reinforced concrete structure according to another preferred embodiment of the present invention, and FIG. 15 is a cross-sectional view schematically showing a construction state of a reinforced concrete structure and a floor according to another preferred embodiment of the present invention. .

14 and 15 show another embodiment of the present invention, the lower concrete structure (1a) made of the first concrete structure 100 without the external finishing material 160 is constructed as a floor of a building Is done.

That is, since the building is made of a wall and a floor, the dual structure concrete structure 1 is not only constructed as a wall, but also as a double floor 1c.

As shown in Figure 14, the lower concrete structure (1a) is constructed as a floor is a ceiling steel frame 10 is integrally formed on the lower portion.

The ceiling steel frame 10 is made of an angle, and the ceiling steel frame 10 is formed of a plurality of angles spaced at predetermined intervals, and a detachable ceiling finishing material is combined.

As shown in Figure 15, the double-structured concrete structure (1) is vertically constructed, the vertically built double-structured concrete structure (1), the upper steel frame (10) is installed lower concrete structure (1a) is installed on the top It is constructed.

In addition, of course, the ceiling steel frame 10 may be stably installed with wires, pipes, etc. installed on the ceiling.

On the other hand, of course, the lower concrete structure 1a is provided with a buffer member 5 so that interlayer noise is not transmitted.

16 is a cross-sectional view schematically showing a reinforced concrete structure according to another preferred embodiment of the present invention.

FIG. 16 shows another embodiment of the present invention, and the concrete structure 1d for each use made of the first concrete structure 100 is constructed as a bathroom wall of the building.

The concrete structure (1d) for each use is made of a first concrete structure (100). The concrete structure (1d) for each use has a concrete wall (11) having a predetermined thickness in the first concrete structure (100) without an external finishing material (160). ) Is formed.

That is, the concrete wall 11 is formed in the first concrete structure 100 to correspond to the wall of the building.

On one surface of the concrete wall 11, a waterproof concrete layer 12 is formed to have a predetermined thickness so as to be waterproof. The waterproof concrete layer 12 is formed to prevent water from penetrating the wall of the bathroom that frequently uses water.

In addition, a waterproof layer 13 made of a material such as epoxy or asphalt is formed on one surface of the waterproof concrete layer 12, and a tile 14 forming an inner wall surface of the bathroom is constructed on one surface of the waterproof layer 13.

In addition, the concrete structure (1d) is constructed as a bathroom wall can be formed of a concrete structure (1a, 1b) consisting of two as shown in FIG.

Although the invention made by the present inventors has been described in detail according to the above-described embodiments, the present invention is not limited to the above-described embodiments and can be variously changed within a range not departing from the gist thereof.

100: first concrete structure 110: horizontal angle
111: first horizontal angle 112: second horizontal angle
113: third horizontal angle 114: fourth horizontal angle
115: fixing hole 120: vertical angle
121: first vertical angle 122: second vertical angle
123: extension 130: first reinforcing bar
131: transverse rebar 132: longitudinal rebar
140: binding frame 150: lifting hook
160: external finishing material
200: second concrete structure 210: horizontal angle
211: 1st horizontal angle 212: 2nd horizontal angle
213: third horizontal angle 214: fourth horizontal angle
220: vertical angle 221: first vertical angle
222: second vertical angle 230: spacing maintenance frame
240: second reinforcing bar 241: transverse rebar
242: longitudinal reinforcement 250: slide fixture
260: interior finishing material 270: inclined support
1: Double structure concrete structure
1c: Double floor 1d: Concrete structure by application
2: Column 3: Lower rebar
4: Upper rebar 12: Concrete with different uses

Claims (6)

A plurality of horizontal angles 110 spaced at regular intervals, a plurality of vertical angles 120 installed to be spaced apart between the horizontal angles 110, the horizontal angle 110 and the vertical angle 120 are fixed to one side The first reinforcing bar 130, which is installed to be spaced apart at an interval, is fixed to the horizontal angle 110 and the vertical angle 120 so that the first reinforcing bar 130 is fixed, and the other end is the first reinforcing bar 130. And a binding frame 140 connected to the plurality of lifting rings 150 installed in the angles 110 and 120; A first concrete structure 100 having an external finishing material 160 installed on one surface of the horizontal angle 110 and the vertical angle 120;
A plurality of horizontal angles 210 spaced apart at regular intervals, a plurality of vertical angles 220 installed spaced apart between the horizontal angles 210, and the first concrete structure 100 to be spaced apart by a predetermined distance A plurality of spacing maintaining frames 230 installed in the angle 210 and the vertical angle 220, and the second reinforcing bars 240 spaced apart at regular intervals on one side of the horizontal angle 210 and the vertical angle 220 , The second concrete structure 200 having a plurality of slide fixtures 250 installed on the horizontal angle 210 and the vertical angle 220, and an internal finishing material 260 installed between the slide fixtures 250; Including,
Reinforced concrete structure, characterized in that the construction of the exterior finishing material 160 or the interior finishing material 260 of the building on the first concrete structure 100 and the second concrete structure 200.
According to claim 1,
The first concrete structure 100 and the second concrete structure 200 are combined with a gap maintaining frame 230 to form a double-structured reinforced concrete structure 1,
Reinforced concrete structure characterized in that to form a floor (1c) of the double structure by installing the upper concrete structure (1b) to be spaced apart from the protrusion height of the buffer member (5) installed in the lower concrete structure (1a).
According to claim 1,
The first concrete structure 100 to which the external finishing material 160 is not coupled is a lower concrete structure (1a) coupled to the buffer member (5) at the top of the concrete wall (11), and the ceiling steel frame (10) at the bottom. And an upper concrete structure (1b), and a buffer member (5) in the lower concrete structure (1a) to be spaced apart by a predetermined height interval between the upper concrete structure (1b) placed on the lower concrete structure (1a). Including,
The buffer member 5
A support 6 which is installed to protrude to the upper part of the lower concrete structure 1b with a metal material;
Containing a shock absorbed from the upper concrete structure (1b) to prevent the transmission to the lower concrete structure (1a) made of a soft rubber or synthetic resin material comprising a buffer (7) installed on the upper surface of the support (6) Reinforced concrete structure, characterized in that.
The method according to claim 2, wherein the double structure reinforced concrete structure (1) is vertically constructed, the vertically constructed double structure reinforced concrete structure (1) and the lower concrete structure coupled to the upper portion of the double structure reinforced concrete structure (1). (1a) is a reinforced concrete characterized in that the buffer member (7) of the buffer member (5) is projected to the upper part at the top, and the ceiling steel frame (10) is provided with electricity, facilities, and ceiling finishing material at the lower part. Structure.
According to claim 1,
It is a concrete structure that does not combine the external finishing material 160 to the first concrete structure 100 to form a concrete wall 11 to correspond to the wall of the building, and is waterproof to one side of the concrete wall 11 for waterproofing. A concrete layer 12 is formed, a waterproof layer 13 made of a material such as epoxy or asphalt is formed on one surface of the waterproof concrete layer 12, and one surface of the waterproof layer 13 is constructed to form an inner wall surface. Reinforced concrete structure, characterized in that it comprises a tile (14).
Forming a double structure reinforced concrete structure (1) by combining the first concrete structure (100) and the second concrete structure (200) of claim 1 with a gap maintaining frame (230);
Forming a lower concrete structure (1a) and an upper concrete structure (1b) using the first concrete structure (100) without the external finishing material (160);
And forming a floor (1c) of a double structure by installing the upper concrete structure (1b) to be spaced apart from the protruding height of the buffer member (5) installed in the lower concrete structure (1a). Concrete method

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