KR101140627B1 - Construction method of concrete building - Google Patents

Abstract

The present invention relates to a construction method of a concrete building, the lower layer is built on the lower slab when building a lower floor of the vertical form connecting column formed with a plurality of upper and lower connection pipes fixed to face each other in a plurality of vertical steel. Part of the upper portion of the wall is buried, the vertical foam connecting column is installed with a plurality of lower connection pipes embedded in the upper portion of the lower wall, the plurality of upper connection pipes protrude to a certain height from the top of the lower wall. A horizontal foam support member installation step of fixing and installing a plurality of horizontal foam support members to have the same height on both upper sides of the lower wall, including a lower wall construction step of constructing a lower wall to be in a state; Slab that fixes and installs horizontal form for building slabs using plural clubs Horizontal form installation step for shaft, vertical form installation step for wall construction fixedly installed on both sides of vertical foam connection column, fixed form for installing lower part of vertical foam connection pillar in the state inserted between upper ends of vertical foam construction for both wall construction The installation phase of vertical foam connecting column, the slab construction step of building slab by placing concrete mortar with the set thickness on the horizontal form upper surface of slab construction, and the wall construction step of building wall by pouring concrete mortar between vertical forms for building both walls. The invention is made.

Description

Construction method of concrete building

The present invention relates to a construction method of a concrete building, and more specifically, a concrete building by installing a slab and a wall of each floor by installing a concrete mortar by installing a horizontal form for building a slab and a vertical form for building a wall together. It is about construction method to be able to build.

In general, the construction method of concrete building is to build a slab that is the bottom of the lower floor, and then install the inner and outer wall formwork for building the inner and outer walls on the lower slab, and then cast concrete mortar on the inner and outer walls. Next, the slab formwork for building the slab to be the upper floor is installed at the upper end of the inner and outer walls, and the slab is formed by pouring concrete mortar on the formed slab formwork. After building the slab, the concrete building is constructed by repeating the procedure of building the slab on the inner and outer walls of the lower floor and the upper part of the inner and outer walls described above.

However, the construction method of the concrete building of the prior art as described above a lot of time to transport the inner and outer wall formwork used when building the inner and outer walls of the lower floor when building the slab to be the upper floor above the slab to become the upper floor. The problem is that labor costs are high and construction air is long because labor and labor are required.

If you build a slab that becomes the upper floor before the concrete mortar placed on the inner and outer wall formwork of the lower floor is completely cured, the formwork used to build the inner and outer walls of the lower floor is transported to the upper slab. In order to construct the inner and outer walls of the lower floor, the material transport work such as formwork is carried out only through the material lifting tool specially made in the slab that is the upper floor. The outside wall formwork and various accessories must be transported to the specific place where the material lifting equipment is formed, and the material transportation inside the building under construction is all dependent on the worker's manpower, which requires a large number of workers. It must take a lot of time because heavy formwork must be transported.

In addition, the conventional construction method uses a gangform installed to surround the outer wall of the building to be built and a Euroform or aluminum foam that is manufactured in a prefabricated manner and installed in a prefabricated manner, in the case of the gangform can be moved up and down using the tower crane For example, Eurofoam or aluminum foam has to be transported by manpower, so there are problems as described above. Also, Eurofoam or aluminum foam for building an inner wall has to be formed in a formwork gap retaining structure to withstand the pouring pressure of concrete mortar. For example, since it is necessary to install a plurality of fret ties, Alfom ties, etc. at regular intervals, it takes much time and manpower to install the above-described spacing retaining zones. A certain length of stone on the outside of the euroform or aluminum foam Since the concrete mortar that is poured between Eurofoam or aluminum foam is hardened and then the Eurofoam or aluminum foam is dismantled, both ends of the gap retaining zone are protruded on both sides of the constructed wall, so it takes much manpower and time to remove them. Was appearing as a problem.

In addition, there is a problem in that it takes a lot of money to purchase a large number of formwork spacing zones installed in each of up, down, left, and right directions to hold the Euro foam or the aluminum foam at regular intervals.

The present invention has been proposed in order to solve all the problems appearing in the prior art as described above, to build a slab to be the floor of each floor of the concrete building to be built and a wall to be built on the slab together, the wall construction work of the lower floor is After completion, before installing the slab construction horizontal form for building the upper slab, which is the next upper floor, the vertical form used for building the lower wall is the next upper wall using the tower crane. The purpose is to reduce labor costs and shorten construction air by reducing the manpower and time required to move the vertical form for wall construction up and down by increasing the vertical height to the fixed height. It is used to hold the vertical form at regular intervals. Another object of the present invention is to reduce the construction cost of not purchasing consumable materials by reducing the number of installation of consumable materials such as a gap retaining zone. When dismantling the vertical form for wall construction, both sides of the wall can be constructed so that both ends of the mold spacing zones (frettie, alfom tie, etc.) do not protrude and are flat, as in the prior art. It is to make construction air shorter by making it possible to proceed quickly.

The present invention, as a means for realizing the above object,

When a vertical form connecting column having a plurality of upper and lower connecting pipes fixed to be attached to each other in a plurality of vertical steels is formed on the lower floor of the building, a part of the vertical foam connection pillar is formed on the lower wall of the lower wall. Foam connecting column is a lower wall construction step of installing a lower wall so that a plurality of lower connecting pipes are installed in the upper part of the lower wall wall, and the plurality of upper connecting pipes protrude to a certain height from the top of the lower wall. ;

Upper and lower surfaces of the lower part wall by supporting bolts and nuts installed to pass through the pair of connecting pipes embedded at a selected position among a plurality of lower connection pipes embedded in the upper part of the lower part wall constructed in the lower part wall building step. A horizontal foam support member installation step of fixing the plurality of horizontal foam support members to achieve the same height;

In the step of installing the horizontal foam support member, a plurality of slabs are constructed so as to be supported by a plurality of horizontal groups supporting lower ends of the lower slab formed together with the plurality of horizontal foam support members fixed to the upper both sides of the lower wall and the lower slab simultaneously. Horizontal form installation step for building a slab fixed installation horizontal foam;

In the horizontal form installation step of the slab construction, connecting the vertical form for building both sides of the wall to build the wall on the upper both sides of the vertical form connecting pillar protruding higher than the plurality of slab construction horizontal form installed horizontally, The lower end of each vertical wall for building both sides of the wall form a plurality of upper connecting pipes formed on the upper portion of the vertical form connecting column so as to be positioned as high as the thickness of the slab to be built with respect to the slab building horizontal form for building the slab. A wall form vertical foam installation step of fixing both sides of the wall construction vertical foam to the upper both sides of the vertical foam connecting column by using a plurality of assembly bolts and a plurality of nuts screwed to the ends of each assembly bolt;

Insert only the lower part of the vertical foam connecting column between the top of each of the two vertical wall construction vertical foam installed higher than the upper surface of the plurality of slab construction horizontal foam by the thickness of the slab to be built in the vertical construction wall installation step However, the vertical foam connecting column is a vertical form for forming both sides of the wall by using a plurality of assembly bolts and nuts in a state in which only a portion formed with a plurality of lower connecting pipes is inserted between the upper ends of each of the vertical wall for building both walls. A vertical foam connecting column for installing a lower portion of the vertical foam connecting column inserted between the upper ends;

The slab is built in a state in which the vertical foam connecting poles are installed at a predetermined interval while facing each other with the vertical foam connecting pillars inserted between the upper ends of each of the vertical foam building pillars at the vertical foam connecting column installation step. Slab building step of building a slab by pouring concrete mortar with a predetermined thickness to the upper surface of the horizontal form for forming a plurality of slabs horizontally installed in the horizontal foam installation step for the;

When the concrete mortar poured in the slab construction step is hardened to withstand the pressure of the concrete mortar placed between the two vertical wall construction vertical walls for building the walls, the concrete mortar is poured between the vertical foam for both wall construction. A wall building step of building a wall;

.

In addition, after completing the construction of the wall in the wall construction step, the top wall of the completed wall is removed by disassembling and vertically dismantling the vertical form for building both sides of the wall was installed on both sides of the wall to build the wall. It characterized in that it comprises a vertical form rise installation step for building the wall to connect and install the bottom of the vertical form for building both sides on the top of the vertical form connecting pillar protruding from the.

In addition, the slab construction horizontal form used to build the slab in the slab construction step is carried to the open side of the bottom of the slab is completed, and then moved up to the top of the completed slab by using the tower crane of the wall constructed It is characterized in that it further comprises a horizontal foam lifting installation step for installing the slab horizontally installed horizontally on the horizontal foam support member fixed to the upper both sides.

In addition, the vertical form connecting column is formed of four vertical steel in parallel to face each other while forming a cross-section of the square, and connected to the upper and lower of each of the two vertical steel facing each other of the four vertical steel The upper and lower connection pipes, which are welded at the same time and horizontally opposed to each other, are installed at fixed intervals so as to be parallel to each other. Characterized in that it consists of a plurality of connecting flat plate welded to connect two perpendicular angles facing each other in a state perpendicular to the connection pipes.

In addition, the slab construction horizontal form used to build the slab is a 4-4mm thick horizontal steel plate that can withstand the laying pressure of the concrete mortar while allowing the bottom of the slab to be built in a flat horizontal plane when building the slab Characterized in that it consists of a plurality of reinforcing material welded to be formed parallel to the rear surface of the horizontal iron plate at a predetermined interval.

In addition, the vertical form for wall construction used to build the wall is a thick vertical iron plate of about 4 ~ 6mm to ensure that both sides of the wall can be built into a flat vertical surface when constructing the wall and at the same time can withstand the placing pressure of concrete mortar And a plurality of vertical stiffeners welded to be parallel to the rear surface of the vertical steel plate at predetermined intervals, and a plurality of horizontal stiffeners horizontally welded to upper and lower ends of the plurality of vertical stiffeners.

In addition, the vertical wall form used to build the wall has a corner form for building the corners of the wall at right angles, and a partial form connected to one side or both sides of the vertical form for building the wall and The wedge foam, which is detachably assembled between the edge foam and the partial foam, is used to be assembled and assembled.

In addition, the vertical foam connecting column is on the upper part of the wall is formed so that the cross-section in a straight line on each floor of the building in order to be able to install a plurality of horizontal foam support members for supporting a plurality of horizontal foam for slab construction horizontally. Characterized in that it is configured to protrude to a plurality of locations spaced apart by a certain distance.

According to the present invention in order to build a concrete building to be able to build the slab to be the floor of each floor and the wall partitioning the interior of each floor together to shorten the casting time of the concrete mortar for building the slabs and walls of each floor It is effective to shorten the construction air, and the multiple horizontal slab construction horizontal forms used to build the slab to the floor of each floor are transported to the lower side of the slab constructed as the existing construction method to the tower crane. The plurality of wall construction vertical foams that were installed to build the walls on the slab are lifted and lifted by the tower crane at the dismantled position to be separated from the constructed walls, and then assembled to build the next upper wall. As it is thing, number for plural wall construction to build wall of each floor It can provide the effect of reducing the time required for lifting and raising the foam and reducing the manpower at the same time. Also, when building the walls of each floor, it is not necessary to use the mold spacing zone used in the construction method of the prior art. After constructing the wall, it is possible to shorten the construction air by omitting the removal of protrusions on both sides of the wall and to reduce the construction cost and save labor cost. It has the advantage of making it possible.

1 is a cross-sectional view showing a construction state of a concrete building for explaining the present invention,
2 to 6 is a slab and wall construction process showing the construction of the upper slab and the upper wall in order to the top of the lower wall constructed in accordance with the present invention,
FIG. 7 is an enlarged cross-sectional view of portion A of FIG. 2;
8 is a planar cross-sectional view showing an embodiment for constructing a wall to be built on each floor slab of the building by the vertical form, partial form and edge form for building walls of the present invention,
9 is an exploded perspective view of the vertical form for wall construction of the present invention,
10 is a perspective view of a horizontal form for building a slab of the present invention,
Figure 11 is an exploded perspective view of the edge foam and partial foam and wedge foam of the present invention,
12 is a front view and a plan view of a vertical form connecting column for connecting a vertical form for wall construction of the present invention,
Figure 13 is a top perspective view and a bottom perspective view of a horizontal foam support member for supporting a horizontal form slab construction of the present invention.

Specific embodiments of the construction method of the concrete building according to the present invention will be described in detail according to the accompanying drawings.

The present invention relates to a construction method for building a multi-storey concrete building (1) as shown in Figure 1, the slab (1a) and each floor to be the floor of each floor when building each floor of the concrete building (1) It is characterized in that it is possible to build the slab (1a) and the wall (1b) for partitioning the room together, and also the formwork for building the slab (1a) and wall (1b) of each floor together, for example, Supporting the vertical form connecting column (4) connecting the horizontal form (2) for building the slab, the vertical form (3) for building the wall and the vertical form (3) for building the wall upward and the horizontal form for building the slab There is also a feature in the configuration for connecting and assembling the horizontal foam support member (5).

In order to build the concrete building (1) will be described for each building process according to the building method by building the slab (1a) and the wall (1b) of each floor together.

<Lower wall construction stage>

This step is to install the vertical form connecting column (4) on the top of the vertical form (3) for building both sides in the vertical form connecting column installation step to be described later, the vertical form for building both sides of the wall as in the wall building step (3) Placing concrete mortar in between to construct upper wall (1b: '1b-2' for convenience) and lower wall (1b: '1b for convenience') Described as -1 ').

The lower layer wall (1b-1) is to be built in a state where the lower portion of the vertical foam connecting column (4) is buried and the upper portion protrudes to a certain height, the vertical foam connecting column (4) is As shown in the figure, four vertical steels 41 are formed in parallel with each other while forming a rectangular cross-sectional shape and four vertical steels 41 and two vertical steels facing each other among the four vertical steels. And a plurality of upper and lower connection pipes 42 and 43 that are welded to connect the upper and lower portions of each of them and fixedly spaced at regular intervals such that those facing each other horizontally are parallel to each other. It is composed of a plurality of connecting plate 44 (45) welded to connect two vertical steel facing each other in a state orthogonal to the plurality of upper and lower connecting pipes in a state located between the lower connecting pipes The.

The vertical form connecting column 4 configured as described above is embedded at the upper end of the lower wall 1b-1 until the lower formed portion, that is, the plurality of lower connecting pipes 43 and the lower connecting flat plate 45 is formed. That is, from the top of the lower connecting flat plate 45 to the top of the four vertical steel 41 is a state protruding from the top of the lower wall (1b-1) to a certain height.

Four vertical steels 41 in the vertical form connecting column 4 are orthogonal to each of the plurality of upper and lower connecting pipes 42 and 43 and the plurality of upper and lower connecting flat plates 44 and 45, respectively. The steel angle of the cross section is used to make it easy to weld in the direction.

<Horizontal Foam Support Member Installation Steps>

This step is a pair of connection pipes of a plurality of lower connection pipes 43 formed in the lower portion of the vertical form connecting column 4 embedded in the upper portion of the lower layer wall 1b-1 in the lower wall construction step. The horizontal foam support member 5 is fixed to each of both upper ends of the lower wall 1b-1 by a support bolt 51 inserted into the through hole and a nut 52 screwed to the male screw end of the support bolt. This step is to install (see Figure 2).

As shown in FIG. 13, the horizontal foam support member 5 has a plurality of assembly holes 54 through which the support body 53 formed in a L-shape and the support bolt 51 pass therethrough. The plurality of assembly holes 54 are formed to have the same width (width) as a pair of lower connection pipes 43 welded to face each other at a lower portion of the vertical foam connection column 4. Therefore, the horizontal foam support member 5 can be fixedly installed on both sides of the upper end of the lower wall (1b-1) to be able to stably support the horizontal foam (2) for building the slab.

<Horizontal Form Installation Steps for Slab Construction>

This step is a step of constructing a slab 1a for constituting the bottom of the upper layer portion horizontally installed on the upper end of the lower layer wall 1b-1.

When the slab 1a is to be constructed, first, as shown in FIG. 2, the horizontal foam for slab construction is formed on the plurality of horizontal foam support members 5 fixedly installed at both sides of the upper end of the lower wall 1b-1. ) To horizontally install a plurality of slab construction horizontal form (2) by placing the two ends over, wherein the plurality of slab construction horizontal form (2) using a plurality of horizontal foam support member (5) It is a structure supported by a plurality of copper wheels 6 which are vertically installed at a predetermined interval in a horizontally installed state and is installed stably and firmly (see FIG. 2).

The horizontal steel plate 21 of the horizontal form (2) for building the slab is a thickness that can sufficiently withstand the weight and placing pressure of the concrete mortar to be cast in the thickness of the slab (1a) to be built, for example, about 4 ~ 6mm Is formed of a flat iron plate having a thick thickness, and the horizontal form (2) for building the slab is provided with a plurality of reinforcement 22 in parallel at regular intervals on the rear surface of the horizontal iron plate 21, the plurality of The reinforcing material 22 is obtained by bending a thin iron plate of about 1.0 to 2.0 mm.

In addition, although not shown in the drawings, a plurality of bolt assembling holes are drilled in the reinforcing material 22 formed at both ends of the plurality of slab construction horizontal forms 2. Therefore, when assembling the plurality of slab construction horizontal foam (2) in the horizontal direction, a plurality of slabs as a means for screwing the nut and close the assembly bolts with a plurality of bolt assembly holes formed on each end of the neighboring reinforcement (22). It is possible to connect and assemble the horizontal form (2) for building continuously in a horizontal direction, and if the horizontal form (2) for building a plurality of slabs connected in a horizontal connection are supported by a plurality of clubs (6) It is to be able to install a horizontal form (2) for building a plurality of slabs firmly and stably.

<Vertical Form Installation Steps for Building Walls>

This step is a step of installing the vertical form (3) for building the wall on the slab construction horizontal form (2) installed to build the slab (1a) to be built in the slab shrinkage horizontal foam installation step.

The wall form vertical foam (3) is connected to the upper portion of the vertical form connecting column (4), the lower end of which is installed so as to protrude to the upper end of the lower wall (1b-1) built in the lower wall construction step described above. (See Figure 2).

The vertical form 3 for the wall construction is a vertical iron plate 31 formed of a thick thickness of about 4 ~ 6mm having a strength capable of withstanding the pressure of placing the concrete mortar to be poured to build the wall (1b), and the vertical It consists of a plurality of vertical stiffeners 32 which are installed on the rear surface of the iron plate 31 at a predetermined interval and a plurality of horizontal stiffeners 33 which are horizontally supported at the upper and lower ends of the plurality of vertical stiffeners, and also the vertical steel plate On one side or both sides of the 31, a plurality of upper and lower assembly holes 34 and 35 for connecting to each of the plurality of upper connection pipes 42 formed on the upper and lower portions of the vertical foam connecting column 4 are formed. .

In addition, the vertical form (3) for the construction of the wall to form the wall (1b) of each layer in the L-shaped or C-shaped or c-shaped, etc., the sub-form (3a) and the corner form (3b) and the wedge (3c) This connection is assembled to build the wall 1b.

As shown in FIG. 11, the partial foam 3a is formed to have the same length as the vertical iron plate 31 of the vertical form 3 for wall construction, and the left and right widths are the vertical iron plate 31 as described above. Partial vertical steel plate 310 formed smaller, a plurality of vertical reinforcement 311 and the horizontal reinforcement 312 horizontally welded to the upper and lower ends of the plurality of vertical reinforcing material on the rear surface of the partial vertical steel plate, and the part Each of the vertical steel plate 310 and the vertical reinforcing material 311 is composed of an inclined assembly surface 313 is formed as an inclined surface, the inclined assembly surface 313 is formed with a plurality of assembling holes 314 The assembly protrusion 315 is formed to protrude.

In addition, the edge form (3b) is bent vertical steel plate 320 is formed to form a right angle as shown in Figure 11, both sides of the vertical reinforcement formed to form a right angle on both sides of the back of the vertical plate (321) ( 322, and both side assembly protrusions 326 provided with both side inclined assembly surfaces 323 and 324 formed in an inclined shape on each of the two vertical reinforcement members, and a plurality of assembly holes 325 protruding from each of the both side inclined assembly surfaces. 327 is formed.

In addition, as shown in FIG. 11, the wedge foam 3c also includes a plurality of both side inclined surfaces 331 and 332 and a plurality of side assembled protrusions 333 and 334 extending from one end of each of these two inclined surfaces. The assembling hole 335 is formed.

Therefore, each of the parts 3a, the edge foam 3b, and the wedge foam 3c are each formed when the wall 1b is formed on the top surface of the slab 1a so as to form a c-shape on the basis of the cross section as shown in FIG. 8. As long and short length of the left and right directions of (1b), the partial foam (3a) is assembled and connected to one or both ends of one or more vertical form (3) for building walls, respectively, the left and right corners of the wall (1b) It is installed so that the edge foam (3b) is located, between the one end and the corner foam (3b) of the vertical form (3) for building the wall and the wedge foam (3c) between each of the subform (3a) and the corner form (3b) ) Is interposed, wherein one end of the vertical form (3) for building the wall is formed with an inclined assembly surface 36 which is tightly assembled to one side inclined surface (331) or (332) of the wedge foam (3c).

Each of the parts 3a, the edge foam 3b, and the wedge foam 3c constituted as described above are connected and assembled in a U-shape as shown in FIG. 8 together with the vertical foam 3 for wall construction, and the wall 1b. Will be built.

On the other hand, in order to build the wall (1b) between the vertical form (3) and the corner form (3b) for building the wall and the wedge foam (3c) interposed between each of the partial form (3a) and the corner form (3b) is a wall (1b) In the construction, vertical forms for wall construction are assembled in a U-shape by means of screwing with a nut by passing a fastening bolt (not shown) through each of the assembling holes connected to each other to be assembled with each other. 3), the partial foam (3a), the corner foam (3b), the wedge foam (3c) is to be installed in a rigidly assembled state, and after completing the construction of the wall (1b) assembling the connection as described above When dismantling each of the foamed form, first, by unscrewing and separating the fastening bolt connecting the wedge foam (3c) between the vertical form (3) and the corner form (3b) for building the wall and the partial foam (3a) Space between the wedge foam 3c and the edge foam 3b It will be built in the wall built perpendicular to the form (3), etc. can easily continue to work on the completion of the separation wall (1b).

In addition, the upper and lower assembly holes (38a) for screwing the upper and lower portions of the vertical reinforcement (32) formed at one end or both ends of the vertical form (3) for building the wall with a connecting bolt 37 and a nut (37a) Each of the plurality of 38b is formed, the vertical reinforcement 32 is made of a thin iron plate of about 1 ~ 2mm, so that the upper and lower assembly holes (38a) (38b) is formed to reinforce the vertical reinforcement Each of the inner surfaces of the 32 is welded with a reinforcing steel plate 39 having a thickness of about 3 to 5 mm, and the reinforcing steel plate 39 is connected to upper and lower assembly holes 38a and 38b. This is pierced. Therefore, when connecting the vertical form (3) for building the wall in the left and right length direction of the wall (1b) to be built and the connecting bolt when connecting the partial form (3a) to one side of the vertical form (3) for building the wall ( 37) can be firmly assembled.

In addition, the vertical form 3 for wall construction installed above the slab construction horizontal form 2 in order to build the wall 1b has a vertical form connection, the lower end of which protrudes from the upper end of the lower wall 1b-1. It is installed in a structure that is connected and assembled at the top of the column (4).

That is, the lower part of the wall form vertical form (3) is connected to the upper both sides of the vertical form connecting column (4) protruding from the upper end of the lower wall (1b-1), in which case the vertical wall for building both sides The lower assembly holes 35 formed on the lower side of each of the foams 3 coincide with both ends of each of the plurality of upper connecting pipes 42 formed on the vertical foam connecting column 4, and then the vertical wall construction vertical on one side is formed. The lower end of the assembly bolt 46 for inserting the upper connection pipe 42 through the lower assembly hole 35 on the back side of the vertical iron plate 31 of the foam 3 to the lower form of the vertical foam 3 for building another wall ( When the nut 47 is screwed into the male threaded end of the protruding assembly bolt 46 after penetrating through the outside 35, the vertical foam 3 for building the wall 1b is slabed. It is possible to install vertically above the construction horizontal form 2 (see Fig. 2).

And as described above, the lower end of the vertical form (3) for building walls connected to the upper portion of the vertical form connecting column (4) is installed vertically on the slab (1a) to be built on the upper surface of the horizontal form (2) It is installed so as to be spaced apart by the height of the thickness, and the vertical form (3) for building the wall connected to the upper portion of the vertical form connecting column (4) installed vertically by a horizontal support member (7) Supported.

<Vertical foam connecting column installation step>

This step is between the top of each of the two vertical wall construction vertical form (3) that is connected to the upper part of the vertical form connecting column (4) protruding from the top of the lower wall (1b-1) to build the wall (1b) It is a step of installing the vertical foam connecting column (4) to be interposed.

The vertical foam connecting column 4 interposed between the upper ends of each of the two vertical wall construction vertical foams 3 secures the upper ends of each of the two vertical wall construction vertical frames 3 to be maintained at a predetermined interval. It is to enable the installation of horizontal foam for slab construction and vertical foam for wall construction for building slabs and walls on the upper floor.

The vertical form connecting column 4 installed to be interposed on the upper end of each of the two vertical wall construction vertical foam (3) is a plurality of lower connections as embedded in the upper portion of the lower wall (1b-1) of the lower wall construction step described above Only the pipe 43 and the lower connecting flat plate 45 are installed in the state of being inserted into the upper end of the vertical form (3) for building both walls, and at this time, the vertical form (3) of the vertical building (3) for building walls Inserted into the lower connection pipe 43 through the upper assembly hole 34 on the back side of the iron plate 31 and protrudes through the upper assembly hole 34 formed on the vertical iron plate 31 of the vertical form 3 for building walls on the other side. The vertical foam connecting column 4 is fixed between the assembly bolt 46 and the upper end of the vertical foam 3 for wall construction by screwing the nut 47 at the end thereof. See Figure 2)

On the other hand, the vertical form connecting column (4) installed to build the wall (1b) as described above is installed in at least two places with respect to the straight longitudinal direction of the wall (1b) to be built to partition the interior of each floor of the building. Therefore, it is possible to stably support the horizontal foam (2) for building the slab by allowing the plurality of horizontal foam support members (5) to be fixedly attached to the upper portion of the wall (1b) by using the vertical foam connecting column (4) installed in two or more places. It becomes possible.

<Slave construction phase>

This step consists of a horizontal form (2) for building slabs, a vertical form (3) for building walls, and a vertical form connecting column (4) on top of the vertical form (3) for building walls above the lower wall (1b-1). After completing the assembly installation of the slab to build a slab (1a) by pouring concrete mortar on the horizontal form (2) for building.

The placing height (thickness) of the concrete mortar which is poured on the horizontal form 2 for building the slab is concrete based on the lower end of the vertical form 3 for wall construction installed so as to be spaced apart by the height of the slab 1a. This is to adjust the amount of mortar to be poured (see Fig. 3).

After completing the work of pouring the concrete mortar up to the bottom height of the vertical form (3) for the wall construction as described above, both of the sides to build a state of hardened to some extent, for example, the wall (1b) Wait until it hardens enough to withstand the casting pressure and load of the concrete mortar that is poured between the vertical foams 3 for wall construction. While waiting for the concrete mortar to harden, prepare for the next work.

<Wall Building Phase>

This step is the vertical form for building both walls when the concrete mortar placed on the horizontal form for slab construction (2) is hardened to withstand the placing pressure of the concrete mortar, which is placed between the vertical form for building the walls on both sides (3). In this step, the concrete mortar is poured between to build the upper wall 1b-2.

The concrete mortar that is poured between the two vertical wall construction vertical foam (3) is to be poured up to the top height of each of the vertical wall (3) for building both walls, accordingly, the lower portion of the vertical form connecting column (4), The lower connection pipe 43 and the lower connection flat plate 45 are buried in the upper end of the upper wall 1b-2 (see FIG. 4).

On the other hand, the part protruding from the upper end of each of the vertical wall (3) for building the two side wall is to protrude from the upper end of the upper wall (1b-2) is completed, as described above the upper end of the upper wall (1b-2) The vertical foam connecting column (4) protruded from the slab construction horizontal foam (2) for building the slabs and walls in the next upper layer and the vertical foam (3) for building the walls, as described in the lower wall construction step described above It is.

<Vertical form rising installation stage for wall construction>

In this step, after the construction of the upper wall 1b-2 is completed in the wall building step, the vertical wall 3 for building both walls used to build the upper wall 1b-2 is formed on the upper wall. 1b-2) while the upper part of the lower part is embedded in the upper portion of the vertical form connecting pillar (4) which is installed in a protruding state to move upwardly to install vertically installed above the upper wall (1b-2) Step (see Fig. 5).

After the construction of the upper wall 1b-2 is completed as described above, in order to construct the upper wall 1b-2, both vertical wall construction vertical foams 3 installed on both sides of the upper wall are dismantled. In the wedge form (3c) is first dismantled and then disassembled in order to separate and disassemble the vertical form (3) and sub-form (3a) and the edge form (3b) for building walls.

Subsequently, the vehicle is lifted up using the tower crane installed at the construction site. At this time, there is no obstacle above the upper wall 1b-2. Therefore, the vertical form (3) for building the wall is connected to the vertical form connecting column (4) protruding from the upper part of the upper wall (1b-2) by moving upward from the vertical form (3) for constructing the wall, which has been dismantled by tower crane. In this case, the assembly of the connection is to connect the vertical form (3) for building the wall to the vertical form connecting column (4) protruding from the top of the lower wall (1b-1) in the step of installing the vertical form for building the wall described above. It is the same as the structure.

<Horizontal Form Rising Installation Stage for Slab Construction>

This step is to move the horizontal form (2) of the slab sphere used when constructing the slab (1a) after completing the above-mentioned vertical form rise installation step for building the wall to move horizontally to the top of the upper wall (1b-2) It is a step of assembling and installing to achieve (see Fig. 6).

Before moving the slab construction horizontal foam 2, the horizontal foam support member 5 is fixedly installed on both upper ends of the upper wall 1b-2. At this time, the horizontal foam support member 5 is fixed to the upper wall 1b-2. Support bolt 51 and the support bolt is installed so as to pass through any one of the lower connection pipes 43 selected from the plurality of lower connection pipes 43 formed in the lower portion of the vertical form connecting pillar (4) embedded A plurality of horizontal foam support members 5 are fixedly installed on both upper sides of the upper wall 1b-2 by using nuts 52 screwed to the ends of the 51, and then the slab 1a is constructed. The slab construction horizontal form (2) used at the time is installed by lifting up. At this time, since the upper block is blocked by the constructed slab (1a), the horizontal form (2) for the slab side is opened as in the conventional construction method. To one side of the road and then using the tower crane The slab building horizontal form (2) is carried upwardly and moved upward above the slab (1a), the upper wall (1b) in the same manner as the above-described slab construction horizontal form installation step. A horizontal means is provided as a means for supporting the horizontal foam support member 5 fixedly installed at both sides of the upper end of the upper end of -2), and in this case, a plurality of clubs ( 6) is used.

In the present invention as described above, the slab construction horizontal form 2 and the wall using a plurality of vertical form connecting pillars 4 protruding the upper portion while the lower portion is embedded at the upper end of the wall 1b to be constructed previously Connect and assemble the vertical foam (3) for construction and install concrete mortar by repeating the construction of slabs (1a) and walls (1b) by placing concrete mortars. The building can be constructed, and in particular, the present invention can build the slab 1a and the wall 1b of each floor together, so that the vertical form 3 and the subform (used when constructing the wall 1b) ( 3a), the vertical foam (3) for building walls by allowing the wall (1b) to be constructed by assembling and transporting the corner foam (3b), the wedge foam (3c), and the like upwardly by using a tower crane. Including subform (3a), edge form (3b), wedge (3c) It is possible to reduce the manpower and time required to carry the ascendant, not only to greatly reduce the construction cost of concrete buildings, but also to shorten the construction air.

On the other hand, each floor slab (1a) and the wall (1b) of the concrete building (1) to be built by the building construction method of the present invention as described above is a state in which the rebar is excreted in accordance with the architectural design designed based on the building method as in the existing concrete building Is built.

1: concrete building 2: horizontal foam for slab construction
3: vertical form for wall construction 3a: partial form
3b: edge foam 3c: wedge foam
4: vertical foam connecting column 41: vertical steel
42,43: Upper and lower connecting pipes 44,45: Upper and lower connecting flat plates
46: mounting bolt 5: horizontal foam support member
51: support bolt 6: copper bar

Claims (8)

The plurality of lower connecting pipes formed at the lower portion of the vertical foam connecting column are installed in a state of being embedded in the upper part of the wall, and the plurality of upper connecting pipes formed at the upper part of the wall is formed to protrude to a predetermined height from the top of the wall. Lower wall construction step;
Walls with support bolts respectively penetrating a pair of connection pipes embedded at a selected position among a plurality of lower connection pipes embedded in the upper portion of the wall so as to be horizontal with the upper end of the wall constructed in the lower wall construction step. A horizontal foam support member installation step of fixing the horizontal foam support members on each of both upper sides of the horizontal foam support members;
A slab construction horizontal foam installation step of installing a plurality of slab construction horizontal foams to be supported on a plurality of horizontal foam support members fixed to upper surfaces of the wall in the horizontal foam support member installation step;
In order to build the walls on both sides of the vertical form connecting column protruding higher than the plurality of slab construction horizontal forms horizontally installed in the horizontal form installation step for building the slab, the two vertical wall construction vertical forms for connecting the walls facing each other Each of the plurality of upper connection pipes formed on the upper portion of the vertical form connecting column so that the lower end of each of the vertical wall for building both sides of the wall to be positioned as high as the thickness of the slab to be built with respect to the upper surface of the horizontal form for building the slab. A wall form vertical foam installation step of installing a bottom of the vertical foam for building both walls on the upper portion of the vertical foam connection column with a plurality of assembly bolts penetrating therethrough;
In the vertical form installation step for building the wall, a plurality of lower connection pipes are formed in the lower part of the vertical form connecting column between the upper ends of the vertical wall for building both sides, which are installed higher than the upper surfaces of the plurality of slab building horizontal forms. A vertical foam connecting column for installing a lower portion of the vertical foam connecting column between the upper ends of the vertical foam for building both sides with a plurality of assembly bolts in a state where only a part is inserted;
In the step of installing the horizontal foam for slab construction, the concrete mortar is poured into the upper surface of the plurality of slab construction horizontal foams installed horizontally, and the concrete mortar being poured is placed so as to be horizontal with the bottom of the vertical form for building both walls. Slab building step of building;
When the concrete mortar cast in the slab construction step is hardened to withstand the pressure and load of the concrete mortar placed between the two vertical wall construction vertical walls for building walls, the concrete mortar between the two vertical wall construction walls A wall construction step of building a wall by pouring the concrete mortar to be poured, the lower part of the vertical form connecting column inserted between the vertical foam for building the walls to be embedded;
Construction method of a concrete building, characterized in that consisting of.
The method of claim 1,
After completing the construction of the wall in the wall construction step, after separating the two vertical wall construction vertical foam installed on both sides of the wall to build the wall, the two vertical wall construction vertical foam separated to the tower crane directly upwards It includes a vertical form lifting installation step for building the wall to install the vertical form for building both sides as a means of assembling the lifting and connecting the lower end to the upper portion of the vertical form connecting column protruding from the top of the completed wall. Construction method of concrete building characterized by the above.
The method of claim 1,
After removing the horizontal form used for building the slab in the slab construction stage, transport it to the open one side of the bottom of the completed slab, and then use the tower crane to move upward to the top of the completed slab. The construction method of the concrete building, characterized in that it further comprises a horizontal form ascending installation step for building the slab horizontally installed to be horizontal to the top.
The method of claim 1,
The vertical form connecting column is formed to be connected to the upper and lower portions of each of the four vertical steel which is installed in parallel to face each other while forming a rectangular cross-section, each of the two vertical steel facing each other of the four vertical steel At the same time, a plurality of upper and lower connection pipes fixed at a predetermined interval so as to be parallel to each other in parallel to each other and a plurality of upper and lower connection pipes in a state located between the plurality of upper and lower connection pipes. Construction method of a concrete building, characterized in that consisting of a plurality of connecting flat plate welded to connect two perpendicular angles facing each other in a state perpendicular to the field.
The method of claim 1,
The slab construction horizontal form used to build the slab is a horizontal horizontal plate of 4 to 6mm thick to allow the bottom of the slab to be built in a flat horizontal plane and to withstand the placing pressure of the concrete mortar when the slab is constructed. Construction method of a concrete building, characterized in that consisting of a plurality of reinforcing materials welded to be formed parallel to the back of the iron plate at a predetermined interval.
The method of claim 1,
The wall form vertical foam used to build the wall is a thick vertical iron plate of about 4 ~ 6mm to withstand the placing pressure of the concrete mortar while allowing both sides of the wall to be built into a flat vertical surface when building the wall Construction of a concrete building, characterized in that consisting of a plurality of vertical stiffeners are welded parallel to the rear surface of the vertical steel plate and a plurality of horizontal stiffeners horizontally welded to the upper and lower ends of the plurality of vertical stiffeners are used. Method.
The method of claim 1,
The wall construction vertical form used to build the wall has an edge form to build the corner portion of the wall at right angles, and a partial form and the corners connected to one side or both sides of the vertical form for building the wall and the corner Construction method of the concrete building, characterized in that the wedge form that is detachably assembled and installed between the foam and the sub-form is used.
The method of claim 1,
The vertical foam connecting column has a predetermined distance to the upper part of the wall that is formed so that the cross-section is formed in a straight line on each floor in order to install a plurality of horizontal foam support members that can support a plurality of horizontal foam for slab construction horizontally. Construction method of a concrete building, characterized in that used to be formed to protrude in a plurality of locations spaced apart.

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