KR101904692B1 - Method for the final working to the slab hole and mold - Google Patents

Abstract

The present invention relates to a construction method for laying a slab hole formed in a slab for penetrating a beam supporting a retaining wall, and a mold used for such construction. The present invention realizes the construction method for finishing the slab hole using a new mold which is made of a synthetic resin or a metal material at the time of finishing the slab hole and can be repeatedly used several times and is standardized. Therefore, the present invention is economically advantageous because of being able to be used semi-permanently, excludes hole drilling work for reinforcing steel installation, and is excellent in workability such as airlift reduction. Besides, it is possible to cure concrete without use of a supporting post, so that an effect of shortening a construction period as a whole can be expected.

Description

Technical Field [0001] The present invention relates to a slab hole forming method,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a slab hole finishing method and a mold, and more particularly, to a finishing method for finishing a slab hole drilled in a slab for penetrating a beam supporting a retaining wall, .

Generally, the earthworks is constructed as a method to maintain the stability of the adjacent ground through the dismantling, settlement prevention and displacement suppression of the back surface of excavation during the excavation work for construction of concrete structures in civil engineering and construction sites.

In the case of the downtown area where the buildings are recently densely populated, the demand for the settlement or collapse of the ground due to the excavation of the ground and the stability of the surrounding buildings is rising as the close construction with the existing building becomes frequent, have.

This type of wall construction is classified into soil wall construction method and soil wall support method. Among them, the earth wall method which is particularly suitable for the construction work in the urban area prevents the collapse of the ground and the lowering of groundwater level on the excavated back ground, Displacement and settlement of adjacent buildings should be minimized.

In general, when the subterranean wave is performed, the vertical wall receives the horizontal earth pressure, so that the vertical wall collapses unless the vertical wall receiving the horizontal earth pressure is supported.

As an example of a method for supporting such a vertical wall, there is a Strut method, wherein the strut is installed in a horizontal direction with respect to the wall of the retaining wall provided on the vertical wall.

Such a strut is a structural member that supports the horizontal earth pressure transmitted from the vertical wall, and is supported by the vertically installed H-beam.

At this time, the H-beam is divided into a slab hole and a slab hole at the time of constructing the slab in the basement layer, and can be reused after the completion of the slab construction in each basement layer.

The slab hole through which the H-beam penetrates is finished through concrete pouring.

7 is a schematic view showing a conventional slab hole finishing method.

7, the H-beam 120 is taken out from the slab hole 110 after the construction of the slab 100, and then the formwork 130 having a structure made of wood is placed in the slab hole 110 .

The mold 130 at this time is supported using the bottom mold 140 and the bottom mold 150.

Subsequently, concrete is placed and cured on the outer circumference of the mold 130 to construct the outer slab 160. Then, a plurality of reinforcing holes 170 are formed on the inner surface of the outer slab 160 by using a tool such as a drill. Lt; / RTI >

Subsequently, reinforcing bars 180 are disposed in the reinforcing hole 170 of the outer slab 160, and concrete is placed and cured in the inner region of the outer slab 160 to construct the center slab 190, The hole finishing construction is completed.

However, the conventional slab hole finishing method has the following disadvantages.

First, it is disadvantageous in terms of cost because it is difficult to make, it must be manufactured by a skilled worker, and it is discarded after one use because a disposable mold made by piling wood and plywood with nails is used in the field.

Secondly, in order to install reinforcing bars, it is necessary to drill a large number of holes in the outer slab, resulting in a large number of processes, an increase in labor costs, and a disadvantage in terms of workability.

Third, during the concrete pouring and curing for the center slab construction, it is necessary to continuously support the floor formwork and the tiller until the concrete is cured. As a result, the construction of the underground floor can not be started until the concrete is removed, There is a disadvantage that it becomes longer.

Korean Patent Publication No. 10-2008-0005109 Korea public utility model 20-2012-0002868

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a slab hole finishing method using a new mold which is made of synthetic resin or metal material, , It can be used semi-permanently. Therefore, it is advantageous from the economic point of view. It excludes hole drilling work for reinforcing steel installation, excellent workability such as reduction of pore water is excellent, and concrete can be cured without the use of trowel. The present invention provides a slab hole finishing method and a mold.

In order to achieve the above object, the slab hole finishing method provided by the present invention has the following features.

The slab hole finishing method includes the steps of disposing a synthetic resin material or metal material formwork supported by a floor formwork and a shovel in a slab hole of a slab, placing a concrete on an outer periphery of the formwork to form an outer slab, A concrete core is inserted into the inner bottom of the outer slab, a plurality of reinforcing bars are disposed above the concrete core, a concrete is inserted into the inner area of the outer slab, And a second step of curing to form a center slab.

In the first step, a plurality of reinforcing bars are formed on the inner surface of the outer slab simultaneously with the formation of the outer slab by using a mold having a plurality of protruding beads on the outer circumferential surface, And placing the reinforcing bars in such a manner that the reinforcing bars are placed on the reinforcing bars formed in the first step.

In the second step, the concrete core is inserted and installed in the outer slab by using its own weight by using the outer inclined surface of the concrete core formed on the inner inclined surface of the outer slab when the concrete core is inserted and installed can do.

In order to achieve the above object, a mold provided in the present invention has the following features.

The mold is a synthetic resin material or a metal material mold used for finishing a slab hole, and has a mold body having an inclined wall having an upper area smaller than that of the lower area in a rectangular frame shape, And a plurality of protruding beads formed outwardly protruding from the four-sided wall of the main body.

Here, the mold body may be divided into four molds, and then the molds may be assembled into a rectangular mold while being fastened to each other using the respective flanges.

The lower end of the mold body may be integrally formed with a fastening strip that is bent from the wall and extends horizontally inward.

The protruding beads formed on the wall of the mold body include a vertical plate extending vertically from the upper end of the wall and side plates on both sides and a horizontal plate horizontally extending from the lower end of the vertical plate to the side of the wall inclined Triangular shape.

The slab hole finishing method and the mold provided by the present invention have the following effects.

First, it is made of synthetic resin material or metal material and it can be repeatedly used several times. By applying standardized mold, semi-permanent use is possible, which is advantageous in terms of cost and easy to install and handle There is an advantageous effect in terms of sex.

Second, since the outer slab is constructed by using the mold frame and the place for arranging the reinforcing bars is made naturally, it is possible to reduce the number of processes and reduce labor costs.

Third, by installing and curing the concrete using the concrete core at the time of constructing the center slab, it is possible to completely exclude the use of the torsion bar, so that the underground construction can be performed even during the concrete curing. It is effective.

1 is a schematic view showing a slab hole finishing method according to an embodiment of the present invention;
FIGS. 2 to 4 are perspective views showing a placement relationship of a mold, an outer slab, a concrete core, and a reinforcing bar in a slab hole finish construction method according to an embodiment of the present invention.
5 and 6 are perspective views showing a mold used for a slab hole finish construction method according to an embodiment of the present invention.
7 is a schematic view showing a conventional slab hole finishing method

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view showing a slab hole finishing method according to an embodiment of the present invention. FIGS. 2 to 4 are views showing a method of finishing slab hole finishing work according to an embodiment of the present invention, Fig.

As shown in FIGS. 1 to 4, the slab hole finishing method is a method of effectively finishing a slab hole formed in a slab by using a mold which can be used semi-permanently and is standardized.

In order to achieve this, as a first step, a synthetic resin material or a metallic material mold 13 supported by the bottom mold 14 and the bottom mold 15 is disposed in the slab hole 11 of the slab 10, A concrete slab 16 is formed by placing and curing concrete around the outer periphery of the slab 13.

First, the H-beam 12 for supporting the retaining wall, that is, the H-beam 12 located in the slab hole 11 of the slab 10, is pulled out upward after completion of the construction of the slabs 10 in each basement Remove.

Subsequently, a floor formwork 14 is installed on the bottom surface of the slab 10 in which the slab hole 11 is located and the floor formwork 14 is supported by the bottom 15 to form a slab hole 11 ).

Subsequently, the mold 13 is placed in the center portion of the inner side of the slab hole 11 in a vertical posture, for example, in a posture in which the upper portion having a larger area is relatively higher than the lower portion. A nail, a screw or the like is fastened and fixed on the bottom mold 14 through the fastening strap 13d.

Subsequently, after the completion of the disposition and fixing of the mold 14, the mold is formed between the outer circumferential portion of the mold 14, for example, the outer circumferential surface of the mold 14 and the inner circumferential surface of the slab hole 11 The concrete slab 10 is formed by placing and curing the concrete in the space where the slab 10 is formed.

Particularly, in the first step, a process of forming the reinforcing bars 17 together with the formation of the reinforcing bars 18 simultaneously with the formation of the outer slabs 10 is included.

A plurality of protruding beads 13b are formed on the outer peripheral surface of the mold 13 and the mold 13 having the protruding beads 13b is disposed and fixed in the slab hole 11 , And the outer slab 16 is formed by placing and curing concrete on the outer peripheral portion of the mold 13.

A plurality of reinforcement grooves 17 are formed on the inner side surface of the outer slab 16 in the shape and position corresponding to the plurality of protruding beads 13b in the formwork 13. As a result, It is possible to arrange both ends of the reinforcing bars 18 by using the respective reinforcing grooves 17 formed around the inner side surface of the outer slab 16 at the time of disposing the reinforcing bars 18 in the step of arranging the reinforcing bars 18. [

In order to install the reinforcing bars 18 serving as the structural members of the outer slab 16 and the center slab 19 described below, it is necessary to exclude the operation of drilling the holes using a separate tool, At the same time, the reinforcing rib grooves 17 are formed at the same time, so that the workability can be greatly reduced and the overall workability can be improved.

The inner circumferential surface of the outer slab 16 constructed in the first step, that is, the inner four surfaces in the form of a square hole, is composed of an inclined inner surface 22 having an inclined structure gathered inward from the upper end to the lower end .

For example, in the case of the formwork 13 disposed inside the slab hole 11, the upper face of the formwork 13 has a rectangular frame shape relatively narrower than the lower face, The inner circumferential surface of the slab hole 11 can be formed of the inclined inner surface 22 having an inclined structure because the inner surface of the slab hole 11 is formed by the outer surface of the wall of the slab hole 13.

Next, as a second step, the concrete core 20 is inserted into the inner bottom side of the outer slab 16 after the form 14, the bottom 15, and the mold 13 are removed, A plurality of reinforcing bars 18 are disposed above the outer slabs 16 and then the concrete is placed and cured in the inner area of the outer slabs 16 to form the center slab 19. [

First, both the mold 14 and the bottom 15 are removed as well as the mold 13 used for forming the outer slab 16 in the first step.

Subsequently, a concrete core 20 is inserted into the outer slab 16, and the concrete core 20 is inserted into the slab 16 to form a bottom slab 19 for supporting the concrete placed thereon.

At this time, the concrete core 20 can be formed in a rectangular block shape, and the outer circumferential surface of the concrete core 20 is formed of the outer inclined surface 23. [

Accordingly, when the concrete core 20 is inserted, the concrete core 20 is formed on the inner inclined surface 22 of the outer slab 16 having the same gradient through the outer inclined surface 23, It can be inserted and installed in a tight fitting structure.

Two or more knobs 21 are mounted on the upper surface of the concrete core 20 in an insert structure so that the operator can grip the handle 21 at this time and easily insert the concrete core 20 into the outer slab 16 Can be installed.

After the insertion of the concrete core 20, a plurality of reinforcing bars 18 are installed on the inner side of the outer slab 16 above the concrete core 20.

At this time, the reinforcing bars 18 are formed by using a plurality of reinforcing grooves 17 formed on the inner surface of the outer slab 16, that is, reinforcing grooves 17 formed by protruding beads 13b of the mold 13 Can be installed.

For example, a horizontal groove bottom surface formed by the horizontal plate 13b-3 of the protruding bead 13b is formed in the reinforcing groove 17, and the reinforcing bars 18 are formed in the reinforcing groove 17 In which the both end portions thereof are supported and supported on the groove bottom surface of the groove.

The reinforcing rods 18 installed using the reinforcing grooves 17 may be installed in a lattice shape intersecting with each other in the transverse direction and the longitudinal direction, A plurality of layers can be stacked.

After completion of the installation of the reinforcing bar 18, concrete is placed and cured in the inner region of the outer slab 16 to which the reinforcing bar 18 belongs, with the upper surface of the concrete core 20 as a bottom surface, 19 to complete the slab hole finishing work.

Particularly, it is not necessary to use the bottom mold 14 and the bottom mold 15 as in the previous concrete pouring and curing for forming the center slab 19, and thus the bottom mold 14 and the bottom mold 15 It is possible to construct various underground floors without interfering with them. As a result, it is possible to shorten the entire construction period due to work such as basement building, slab construction, and underground floor construction.

5 and 6 are perspective views showing a mold used in a slab hole finishing method according to an embodiment of the present invention.

As shown in Figs. 5 and 6, the structure of the mold 13 used for forming the outer slab 16 in the slab hole finishing construction is shown here.

The mold 13 has a rectangular frame shape having an upper area relatively narrower than a lower area.

Accordingly, the walls of the four sides of the mold 13 can be inclined so as to be narrowed inward from the top to the bottom.

That is, the mold 13 includes a mold main body 13a and a plurality of protruding beads 13b. The mold main body 13a at this time has a rectangular frame shape whose upper area is relatively narrow as compared with the lower area And the protruding beads 13b can be formed to protrude outwardly from the four-sided wall of the mold body 13a.

Since the mold 13 is made of a synthetic resin material, a metal material, etc., and is in a standardized form, it can be reused repeatedly several times, and thus it can be used semi-permanently.

For example, in the past, the worker had to use a mold frame every day, and since each worker has different shapes and specifications, there is a disadvantage in terms of making and the work is broken in the process of disassembly. There is an uneconomic aspect in which the mold can not be reused even at a cost of ten thousand won.

From this point of view, the mold 13 provided in the present invention can be used semi-permanently as well as easy to manufacture by making a mold with a synthetic resin plate or a metal plate and by making it into a mold having a standardized shape conforming to a certain standard And the standardized mold 13 is used, it is advantageous in that an excellent construction quality can be secured.

Particularly, the mold 13, that is, the mold body 13a is separately manufactured into four pieces, and then the flanges 13c of the respective pieces are brought into contact with each other through bolts in the flange 13c So that it can be made into an assembled structure having a rectangular frame shape.

Here, the mold body 13a can be separately manufactured into four pieces including respective corner portions.

In addition, a lower end portion of the frame body 13a is integrally formed with a fastening strap piece 13d extending inwardly and horizontally while being bent from the wall and extending continuously along the lower end periphery, A plurality of holes are formed in the strap 13d.

Accordingly, the mold body 13a is fastened to the bottom plate form 14 through the hole in the state of being brought into contact with the upper face of the bottom form mold 14, 14).

In the case of the projecting beads 13b formed on the wall of the frame body 13a, the vertical plate 13b-1 extending vertically downward from the top of the wall, the side plates 13b-2 on both sides, And a horizontal plate 13b-3 extending horizontally toward the wall side inclined at the lower end of the vertical plate 13b-1 and closing the lower portion of the vertical plate 13b-1 and the side plate 13b-2 .

Thus, the outer slab 16, which is relatively formed by the projecting beads 13b constituted by the vertical plate 13b-1, the side plates 13b-2 on both sides, and the horizontal plate 13b-3, The reinforcing groove 17 on the inner surface can also be formed in the form of a concave groove having a vertical wall that can be formed in the protruding bead 13b, side walls on both sides, and a bottom surface.

As described above, in the present invention, when a slab hole drilled in a slab is closed to penetrate a beam for supporting a retaining wall, a new slab hole made of a standardized product such as a synthetic resin or a metal material is used to finish the slab hole And it can be used semi-permanently, which is advantageous from the economical point of view. In addition, it is possible to reduce the number of processes by eliminating the hole drilling operation for reinforcing steel installation, thereby being advantageous in terms of workability and securing excellent construction quality. It is possible to construct the basement interior also during the period, so that the effect of the shortening of the air as a whole can be expected.

10: Slab
11: Slab hole
12: H-beam
13: mold
13a: a frame body 13b: a projecting bead
13a-1: Vertical plate 13b-2: Side plate
13b-3: Horizontal plate
13c: flange 13d: fastening strap
14: floor mold
15:
16: outer slab
17: Reinforced Concrete Home
18: Reinforcement
19: center slab
20: Concrete core
21: Handle
22: inner inclined surface
23: outer inclined surface

Claims (7)

A synthetic resin material or a metal mold 13 supported by the bottom mold 14 and the bottom mold 15 is disposed in the slab hole 11 of the slab 10 and concrete is placed around the outer periphery of the mold 13 A first step of forming an outer slab 16 by pouring and curing;
The concrete core 20 is inserted into the inner bottom of the outer slab 16 after the bottom mold 14, the bottom 15 and the mold 13 are removed, A plurality of reinforcing bars 18 serving as structural members of the slab 16 and the center slab 19 are disposed and the second slab 19 is formed by placing and curing concrete in the inner region of the outer slab 16, step;
Lt; / RTI >
In the first step, the mold 13 having the plurality of protruding beads 13b on the outer circumferential surface is used to form the outer slab 16, and at the same time, the protruding mold 13 of the mold 13 is provided on the inner surface of the outer slab 16, A method of making a plurality of reinforcing bars 17 formed by the beads 13b and placing the reinforcing bars 18 in the reinforcing grooves 17 formed in the first step at the time of placing the reinforcing bars 18 in the second step A horizontal groove bottom surface formed by the horizontal plate 13b-3 of the protruding beads 13b is formed in the reinforcing groove 17, And a step of allowing the base to be installed in a structure in which both ends of the reinforcing groove 17 are supported on the groove bottom surface of the reinforcing groove 17,
The mold 13 includes a mold body 13a having an inclined rectangular shape having an upper area relatively narrower than a lower area and a protrusion 13c protruding outwardly from the four-sided wall of the mold body 13a The protruding beads 13b formed on the wall of the mold main body 13a are formed of a plurality of protruding beads 13b formed vertically downward from the upper end of the wall, -1 and the side plates 13b-2 on both sides and the lower side of the vertical plate 13b-1 and the lower side of the side plate 13b-2 while horizontally extending toward the wall side inclined at the lower end of the vertical plate 13b- And a horizontal plate 13b-3 for closing the upper plate 13b-1 and the lower plate 13b-2, and a protruding bead 13b composed of the vertical plate 13b-1, the side plates 13b-2 on both sides and the horizontal plate 13b- The reinforcing groove 17 on the inner surface of the outer slab 16, which is relatively molded by the projecting beads 13b, And side walls on both sides of the slab hole, and a bottom surface. delete The method according to claim 1,
In the second step, the concrete core 20 is inserted into the outer slab 16 by using the outer inclined surface 23 of the concrete core 20, which is formed on the inner inclined surface 22 of the outer slab 16 at the time of inserting the concrete core 20, And inserting the slab hole (20) into the slab hole (20) while being tightly fitted under the slab hole (20) by its own weight. A mold 13 made of a synthetic resin material or a metal material to be used for finishing the slab hole and having a rectangular frame shape having an upper area relatively narrower than a lower area and having a sloped wall, And a plurality of protruding beads 13b protruding outwardly from the four-sided wall of the mold body 13a. The protruding beads 13b formed on the wall of the mold body 13a A vertical plate 13b-1 and a side plate 13b-2 extending vertically downward from the upper end of the wall and a side wall 13b-1 extending horizontally toward the wall side inclined at the lower end of the vertical plate 13b- And a horizontal plate 13b-3 for finishing the lower portions of the side plates 13b-1 and 13b-2, respectively. The vertical plate 13b-1, the side plates 13b-2 on both sides, The outer slab 16 (i.e., the outer slab 16), which is relatively formed by the protruding beads 13b constituted by the outer slabs 13b-3 ) Can be made in the form of a concave groove having a vertical wall capable of forming a protruding bead (13b), side walls on both sides, and a bottom surface. The mold. The method of claim 4,
Wherein the mold body (13a) is divided into four parts, and then the parts are assembled to each other by using flanges (13c) while being assembled into a rectangular frame shape. The method of claim 4,
And a fastening strip piece (13d) is formed at the lower end of the mold body (13a) so as to extend horizontally inwardly while being bent from the wall. delete

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