KR101549938B1 - Concrete timbering and installation structure - Google Patents

Abstract

In the present invention, a combination of a thumb pile (100) and a concrete soil plate (30) provided at regular intervals on the entire surface of a turbulent wall is formed, and another set of thumb piles (100) In the earth retaining structure constructed by constructing the thumb pile 100 and the concrete soil plate 30,
A support beam 200 supported in the longitudinal direction is connected to the strut 400 on the front surface of the one thumb pile 100 and the other thumb pile 100 is connected to the other thumb pile 100 on the opposite side. A support beam 200 'formed by connecting one row of connection beams 300 or two rows of connection beams 300 connected in the horizontal direction and connected to the support beams 200 fixedly connected in a transverse direction, 400 is fixed to the connection beam 300 or the connection supporting beam 200 'to constitute a transverse connection. [0002] The present invention relates to a retention structure using a concrete soil plate and an H beam.

Description

{Concrete timbering and installation structure using concrete plate and H beam}

The present invention relates to a new constructional structure used in a retaining structure and a retention structure using a concrete soil plate and an H beam to enable the reuse of a conventional concrete soil board even if it is installed using a concrete soil board after it is demolished.

A ground, a tunnel, a tunnel, a subway, a power source, a communication port, a sewage pipe, and the like are extended in a predetermined depth and longitudinal direction and excavated, and a structure is installed in the excavated ground.

That is, in the underground construction of the construction site, the earthwork is temporarily installed in order to prevent the surrounding soil from collapsing after the earth is dug. The earth retaining structure is a structure installed for the earth retaining work such as a temporary earth retaining structure, .

Generally, in order to prevent the collapse or outflow of the earth, the H-beam is fixed at a predetermined depth on the ground at the edge of the ground excavation section at the time of construction of the underground foundation of the building or the incision at the construction work, Beams are disposed on both sides of the H-beam so that spacing is maintained between the H-beam and the H-beam, and a soil plate is sandwiched between the H-beams. In this case, RC structure or steel plate.

Accordingly, after putting the H-beam on the ground, the soil is excavated to a certain depth, and then the soil plate is sandwiched between the H-beams, so that the surrounding soil does not flow into the construction site.

In this case, the earth plate should have a bending strength (compressive strength) capable of supporting the earth pressure acting on the undercut surface. If the bending strength is insufficient in comparison with the earth pressure, shear fracture of the earth plate occurs, And it leads to the collapse of the gravel.

Therefore, in order to achieve the purpose of the retaining structure, the earth plate should have the bending strength corresponding to the earth pressure, that is, the compressive strength and the tensile strength at the same time, and the H-beam serves as a support for supporting such soil plates from being pushed backward.

However, since the bending strength of the soil plate has the characteristic that the specific gravity or density of the material increases as the thickness of the material increases, the volume or weight of the soil plate must be increased when soil plate is applied to the soil- there was.

When the length of the soil plate is increased, it is bent by the earth pressure, so that the soil plate can not be formed over a certain length of time.

In addition, in the case of a wooden plate, the span, which is the interval between the H beams, is measured one by one, and each wooden plate is cut with a saw to insert the material, And the installation time and installation cost are excessive, and it is almost impossible to dismantle due to the earth pressure.

In addition, although they must be dismantled, it is difficult to be recycled due to erosion during the standard and construction period, which is cut off, and the dismantling cost should be added. Therefore, The president is worried about the settlement of the ground due to the corrosion of the soil slab in the future.

In the case of a conventional plate made of steel or synthetic resin, since it is generally manufactured by a generally known method, it is applicable at a relatively shallow excavation depth of 6.0 m. However, it is not applicable at a depth required for further depths, There is a problem that it can not be used other than a method of putting downward from the ground downward.

Generally, in order to prevent the collapse of gravel in terra cotta construction work or embankment construction, it is provided by laminating a thick material such as long wood having a rectangular cross section. In the terra incidence construction, H beams are installed at regular intervals, The construction material is sequentially stacked to prevent the soil from leaking from the excavated underground wall to the internal space of the construction site.

However, the cost is increased due to the use of expensive wood, and the wood is corroded under groundwater, resulting in a durability and a risk of collapse. To solve this problem, Korean Utility Model Registration No. 20-297584 The proposed soil decay prevention plate is an FRP material in which an engaging portion for protruding vertically to both upper and lower ends is protruded and formed, and a plurality of longitudinally extending engaging portions are provided on the body between the engaging portions at both ends So as to interpose the H beams between the H beams so as to reduce the number of workings due to the construction of the anti-decay walls and to prevent the deformation from being generated by dispersing the stresses generated in the anti- And the construction period can be reduced by this. However, when the FRP compression molding is performed, It takes a long time to cool down to harden the product, resulting in a low productivity and expansion and contraction due to a difference in cooling temperature inside and outside of the hollow part, resulting in warping of the panel.

In addition, since it is assembled without introducing the prepreg in advance to the panel, it is not able to control the effective member force according to the earth pressure, so that the thickness of the flesh of the panel is thickened so that the cost of the raw material is increased, This is not easy.

In order to solve the above-mentioned problems, the present invention has been made in view of the above-mentioned Korean Patent Application No. 10-2011-0101828, which discloses a method of manufacturing a steel plate for supporting a soil wall between vertical beams provided at regular intervals on the entire surface of a to- And a plurality of vertical beams are formed on the front surface of each of the vertical beams, and a support beam bent in an arc shape is fixed on the front surface of each of the vertical beams, It is possible to expect the effect that the generation of the force of the vertical beams is canceled by the support beam formed in a gentle circular arc shape on the entire surface of the vertical beams to efficiently support the earth wall, It is not necessary to install the wrist straps that are necessary in general earth walls, and the amount of steel can be reduced by increasing the vertical and horizontal spacing of the strut. In particular, since the interval of the vertical beam can be expanded by about 1.5 to 2 times as much as the conventional one, the construction cost can be drastically reduced. In addition to the effect of sandwiching the earth wall in the vertical beam and dismantling the earth wall However, it is necessary to maintain the symmetry of each vertical beam and the limiting factors that can be applied only in the field of non-aerial work, and the supporting beam flows downward from the upward direction. It has the requirement that it should be reduced.

According to this prior art, the above-mentioned problems can be solved, but the installed soil plate should be lifted up to the vertical phase after the completion of the construction, and the resistance of the earth pressure and the earth wall are not exactly vertically aligned in the removal process There is a disadvantage in that it is difficult to collect the soil plate itself or the work is extremely difficult and the soil plates may be connected to each other and may not flow downward from the upward direction and that the back plate can not be back- There are problems such as difficulty in handling and an increase in the cost of manufacturing an arc-shaped bending support beam.

In order to solve such a problem, there is a domestic patent application No. 10-2012-0108910 filed by the present applicant. In the prior art, the H-beam is used as the thumb pile 100, but the front part is partially cut However, in the case of the above-described structure, the above-described problems can be solved, but there is an economical burden that the cost of installation and construction increases.

In addition, as disclosed in Patent Application No. 10-2013-16815 filed in the domestic market due to the above-mentioned cause, in the above-described prior art, as a material of the earth plate, a corrugated steel plate is partially or wholly utilized to facilitate installation and recovery However, there is also a difficulty in increasing the installation cost.

Domestic Utility Model Registration No. 20-297584 (November 28, 2002) Korean Patent Application No. 10-2011-0101828 Korean Patent Application No. 10-2012-0108910 Korean Patent Application No. 10-2013-16815

Accordingly, it is an object of the present invention to solve the above-mentioned problems, and to provide a method of recovering the waste water from the waste water by using various methods The use of concrete slab allows the use of the thumb pile to reduce the amount of use of the thumb pile and the connection beam to be placed along with the T-type strut. The purpose of the project is to reduce the construction cost of the whole building.

According to an aspect of the present invention,
A combination of the thumb pile 100 and the concrete soil plate 30 which are provided at regular intervals on the entire surface of the turbulence wall and the other is composed of a pair of thumb piles 100 separated from each other in the widthwise direction and a pair of thumb piles 100 and a concrete soil plate 30 and a support beam 200 supported in the longitudinal direction on the front surface of the thumb pile 100 is connected to a strut pile 400. The other side of the thumb pile 100 Is formed with a connecting beam 300 'connecting one side of the other thumb pile 100 in the transverse direction or a connecting supporting beam 200' connecting two connecting beams 300 ' The earth retaining structure using an H-beam and a concrete soil plate including a strut beam (400) connected to a beam (200) to a connecting beam (300) or a connection supporting beam (200 ') to form a transverse connection,
The concrete soil plate 30 is manufactured by a mold making process (C-10), a concrete placing process (C-20), and a cutting process (C-30) A plurality of PC stranded wires 40 which are tensioned by pretensioning in the longitudinal direction of the concrete strand board 30 are embedded in the side plate 20 so that the fixing grooves 21 are formed at regular intervals in the current plate 30, The PC stranded wire 40 is exposed and fixed to the step portion 33 formed in the "L" shape of the fixing groove 21 when the cutting portion 31 is set so as to have a predetermined length The present invention provides an earth retaining structure using a concrete soil plate and an H beam.
Further, according to the present invention,
The thumb pile is an H-beam thumb pile 100-1, a concrete PC pile 100-2, an H-beam thumb pile 100-1 or an H-beam thumb pile 100-1, 100-1 and 100-2, which are repeatedly installed in the order of the pile 100-1 and the H-beam thumb pile 100-1, in order to install the concrete soil plate 30 between the thumb piles 100-1 and 100-2,
The PC strand 40 (see FIG. 1) installed at each of the fixing grooves 21 in the H-beam thumb pile 100-1 so that one end of the concrete strand plate 30 is inserted into the H-beam thumb pile 100-1. Of the concrete soil plate 30, which is in the form of an "L" -shaped form, is exposed, and is rotated with respect to one end of the concrete soil plate 30, The side surface of the PC pile 100-2,
And a cover plate (50) for covering a side end of each concrete soil plate (30) adjoining from both sides of the concrete PC pile (100-2) so as to be separably fastened with an anchor bolt It provides the earth retaining structure using soil plate and H beam.
Further, according to the present invention,
The thumb pile is a thumb pile (100; 100-1) which is repeatedly installed in the order of an H-beam thumb pile 100-1, a T-type thumb pile 100-11 and an H- , 100-11) in order to install the concrete soil plate 30,
A turntable is installed between the H-beam thumb pile 100-1 and the T-type thumb pile 100-11 and between the T-type thumb pile 100-11 and the H-beam thumb pile 100-1. ,
The PC strand 40 (see FIG. 1) installed at each of the fixing grooves 21 in the H-beam thumb pile 100-1 so that one end of the concrete strand plate 30 is inserted into the H-beam thumb pile 100-1. ) Of the concrete run-in plate 30, which is in the form of an "L" -shaped form for the purpose of being exposed and fixed, is pivoted on the basis of one end of the concrete run- Is disposed adjacent to the abdominal surface of the T-shaped thumb pile (100-11)
After the reinforcing bars 100-114 are passed through the holes formed in the cover plate 50 for covering the side ends of the adjacent concrete soil plates 30 from both sides of the T-type pile 100-11 Wherein the securing structure is detachably fastened using a nut.
Further, according to the present invention,
The T-shaped thumb pile 100-11 has reinforcing plates 100-112 formed on both side surfaces of the inner plates 100-111 and has a through hole 100-111 extending through the front end of the inner plate 100-111, 113 and the reinforcing bars 100-114 fitted to the through holes 100-113 are alternately fixed so as to be separable and fastenable and the end portions of the reinforcing bars 100-114 are fixed to the cover plate 50 and nuts so as to be covered in a state in which the one end side of the concrete soil plate 30 is located and then detachably fastened to the concrete soil plate 30 by using the nut and the nut.
Further, according to the present invention,
The thumb piles are installed so as to be equally spaced from each other by H-beam thumb piles 100-1. The distance between the H-beam thumb piles 100-1 is longer than the length of the concrete soil plate 30, The connecting member 60 for connecting the side end of the H-beam thumb pile 100-1 and the side end of the concrete top plate 30 is formed inside the one flange of the H-beam thumb pile 100-1, And the other end side is divided into a detachable connecting member 620 and a concrete soil plate 30 is installed,
The fixed connection member 610 includes a vertical bracket 612 vertically fixed to the upper surface of the iron plate 611 and a circular fixing rod 613 spaced apart from the lower surface of the iron plate 611 by a plurality of The rotation center bar 614 is vertically fixed from the outer surface of the circular fixing bar 613 and the water expansive index material 615 is applied along one side of the lower end of the iron plate 611 to form an H- 100-1,
The detachable connecting member 620 is formed with a vertical bracket 622 vertically fixed to the upper surface of the iron plate 621 and a circular fixing rod 623 spaced apart from the lower surface of the iron plate 621 Beam index pile 100-1 so as to be in contact with the inner surface of the H-beam thumb pile 100-1 along the one side surface of the lower plate of the steel plate 621, The present invention provides an earth retaining structure using a concrete soil plate and an H beam, which comprises installing a concrete soil plate (30) so as to be equally spaced apart from an incision part (624) opened to the other side of an iron plate (621) do.
Further, according to the present invention,
The connecting member 60 rotates the latch 635 passing through the iron plate 631 from the outside to the inside by 90 degrees so as to contact the stud 632 and the one side flange 100-1 of the H- Type connecting member 630 that hung on the base plate 630 and the hook member type connecting member 630 that hooks the H-beam.

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According to the present invention, there is provided a structure for supporting thumb piles, particularly opposed thumb piles, which is one of the means for supporting the toothed wall, connected to a support beam and a screw jack for supporting one end of the strut, The supporting beams and the connecting beams fixing the screw jacks are alternately repeated and fixed so that the soil pressure acting on the soil plate is maintained at a relatively constant distance along the thumb pile, It is possible to achieve a very effective control and support effect and to reduce the installation amount of the connecting beam by 50%. In addition, even when the construction error of the opposing thumb pile is deviated from the 90 ° position facing each other, As well as the effect of being able to stand at right angles, It is possible to expect the effect that the operation of loading and dismounting the soil plate can be performed easily.

According to the present invention, it is possible to relatively simplify the installation structure between the concrete soil plate and the thumb pile, thereby improving work efficiency and stability, as well as reducing the installation cost and greatly reducing installation air .

In addition, according to the present invention, it is possible to perform a recovery operation in a state where the recovery operation is relatively easy and safety is ensured in the process of collecting for reuse after installing the concrete soil plate, and the recovered concrete soil plate The same installation structure can be used and the reuse ratio can be remarkably increased.

According to the present invention, since the concrete plate has a greater stiffness than the wood plate, the width of the plate can be increased, and the distance between the thumb piles can be increased more widely in the conventional 2 m interval, Therefore, it is expected that the effect of construction can be reduced.

In addition, according to the present invention, the concrete slurry plate can be usefully used for installing a wall structure, and since the thumb pile can be recovered, it is expected that the concrete slurry plate can be used in a cramped private land.

1 and 2 are perspective views showing an example of a retaining structure provided by the present invention.
Figs. 3 to 4 are perspective views schematically showing the coupling relationship between the thumb pile and the support beam, the strut, and the connecting beam in Figs. 1 to 2. Fig.
FIGS. 5 to 6 illustrate one end portion of the thumb pile or incisal thumb pile and the strut bracket in the present invention, and show a connection between the screw jacks provided at one end of the strut and the support beams connected to each other.
Figs. 7 to 8 are schematic front views of the retaining structure provided by Figs. 1 to 2
9 is a view showing a process for producing a concrete soil plate according to the present invention in the order of flow
Fig. 10 is a front view of the concrete soil board produced by Fig. 9
11 is a view showing an example for installing a concrete soil plate when a thumb pile is installed with a concrete PC pile
12 is an exploded perspective view showing the separation state before coupling between the concrete PC pile and the concrete soil plate.
13 shows a second embodiment of a structure in which a concrete soil plate is installed on a thumb pile
Fig. 14 is a view showing a facility process of a T-shaped thumb pile carried out by Fig. 13
Fig. 15 is an exploded perspective view for fixing the concrete soil plate to the T-shaped thumb pile,
FIG. 16 shows a third embodiment in which a concrete soil plate is installed on a cemented pile
FIG. 17 is an enlarged view of the coupling state between the concrete soil plate and the H-beam thumb pile according to FIG. 16
FIG. 18 is a perspective view showing a state in which a concrete soil plate and an H-beam thumb pile are fixedly connected by using a fixed connecting member and a connecting member as a separable connecting member,
FIG. 19 is a view showing an example in which the concrete soil plate and the H-beam thumb pile can be fixedly coupled by the modification of the third embodiment shown in FIG. 16
Figs. 20 to 21 are views showing a coupling process between a concrete soil plate and an H-beam thumb pile using an engagement member type connecting member adopted by Fig. 16
FIG. 22 is a perspective view of an alternative embodiment of FIGS.
23 to 25 are views showing an example of a low-depth earth retaining structure using a concrete soil plate of the present invention

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The present invention provides a soil plate, and provides a concrete soil plate as a basic structure, and provides a concrete soil plate and an H-beam permanent structure to make it possible to reuse even after collection after installation.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of the term in order to describe its invention in the best way Accordingly, the present invention should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the specification of the present invention and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. It should be understood that various equivalents and modifications are possible or possible.

First, a concrete soil plate 30 for supporting a soil wall is provided between the thumb piles 100 provided at regular intervals on the entire surface of the earth wall. The combination of the thumb pile 100 and the concrete soil plate 30 constitutes one set , And a concrete soil plate (30) constituting another set of thumb piles (100) spaced apart in the width direction,

A support beam 200 supported in the longitudinal direction is connected to the strut 400 on the front surface of the one thumb pile 100 and the other thumb pile 100 is connected to the other thumb pile 100 on the opposite side. A connecting beam 300 connected in the horizontal direction is formed as a connecting supporting beam 200 'connecting a connecting beam 300 of one row or a connecting beam 300 of two columns, (400) is fixed to the connection beam (300) or the connection supporting beam (200 ') so as to constitute a transverse connection and alternately repeatedly arranged.

Since the thumb pile 100 has a large stiffness of the concrete soil plate 30, the spacing between the thumb piles 100 can be widened. Therefore, a special structural feature of reducing the amount of the thumb pile 100 by 30 to 50% And the vertical distance between the support beams 200 attached to one side of the strut 400 and the alternatingly repeated connection beams 300 is small so that the member force generated in the thumb pile 100 can be reduced, It is helping things.

2), the amount of the connecting beam 300 can be reduced to about 50%, because the supporting beam 200 is alternately repeatedly installed (zigzag arrangement; see FIG. 2) And provides a hypothetical structure.

On the other hand, the concrete soil plate 100 can be manufactured in a large amount and the length in the longitudinal direction can be made longer by a length corresponding to about 4 m at a length of about 2.5 to 3 m, However, it has disadvantages that it is difficult to handle because it is difficult to install and recover, or the weight is too heavy, or it can not reduce the amount of the thumb pile by increasing the distance between the thumb piles.

Accordingly, the present invention intends to manufacture a concrete soil plate (100) in order to solve the above problems.

First, in order to manufacture the concrete soil plate 100,

A mold panel manufacturing process (C-10)

Concrete casting process (C-20),

And a cutting step (C-30) for cutting and cutting the poured concrete into a predetermined length.

The mold panel manufacturing process (C-10) is a process of manufacturing a mold plate (10) and a side mold (20) for manufacturing a concrete soil plate (30) .

In order to perform such a process, firstly, the fabricating mold plate 10 is longly provided on the lower side, and the side mold 20 is installed on the upper surface of the fabricating mold plate 10, And the side mold 20 is installed so that the equidistant fixing grooves 21 are formed in the lower side.

The fixing grooves 21 are formed for cutting along the cutting portion 31 when the concrete soil plate 30 is obtained by the cutting process C-30 after the concrete placing process C-20, In order to secure the settlement position of the user.

A process of inserting a plurality of PC stranded wires 40 through the lower end of the side mold 20 and the fixing grooves 21 in a state where the fabricated mold plate 10 and the side molds 20 are completed, .

The concrete pouring step (C-20) is a step for providing a pre-tension after pouring and curing the concrete into the mold obtained by the above-described mold panel producing step (C-10).

In order to provide pretension to the cured concrete, the PC strand 40, which is long inside the side mold 20, is tensed. After the PC strand 40 exposed to the fixing grooves 21 is cut Settle and strain.

In this state, pre-tensioning can be provided when concrete is poured and cured.

The cutting process (C-30) is for cutting the concrete cured by the above-described concrete placing process (C-20) to obtain the concrete soil plate 30 and cutting the same along the cutting portion 31 described above.

As shown in the figure, the concrete soil plate 30 subjected to the cutting process is in a state in which stress is generated due to the unilateral compressive force and the tensile force of the PC stranded wire 40 and is bent. In this state, .

It is preferable to form the ring 32 in order to efficiently lift the concrete form plate 30 of the finished form shown in Fig. 10 and by the mold plate 10, the side mold 20 and the fixation grooves 21 2, so that the step portion 33 is formed on both ends.

The concrete soil plate 30, which is obtained in a relatively long state by the above-described process, can be installed and constructed by applying it to the earth retaining structure.

The concrete piles (30) are installed in multiple stages between the piles (100) spaced apart at regular intervals for securing the padding and installed on the ground to form a wall, so that the piles can withstand the earth pressure.

The thumb pile 100 can be divided into two types: an H-beam thumb pile consisting of an H-beam and a concrete PC pile between an H-beam thumb pile.

11 shows an example in which a concrete soil plate 30 is installed by using a H-beam thumb pile and a concrete PC pile together. The H-beam thumb pile is denoted by reference numeral 100-1 and the concrete PC pile is denoted by a reference numeral 100-2 "

As shown in FIG. 11, the H-beam thumb pile 100-1 is installed at a wide interval in the region where the soil retaining facility is to be installed, and the H-beam thumb pile 100-1 and the H- 100-1, the concrete PC pile 100-2 is installed in the middle of the concrete pile 100-1.

One concrete soil plate 30 having a unit length is provided between the H-beam thumb pile 100-1 and the adjacent concrete PC pile 100-2 and the concrete PC soil pile 30 is separated from the concrete PC pile 100-2 Another concrete soil plate 30 is installed between the other H-beam thumb piles 100-1 and can be installed as shown in FIG.

Therefore, the thumb pile 100 (100-100, 100-1), which is installed in the order of the H-beam thumb pile 100-1, the concrete PC pile 100-2, and the H- -2) of the concrete soil plate 30 will be described.

- concrete Soil plate  First of the structure to install on the thumb pile Example  -

First, a process of installing the concrete soil plate 30 between the H-beam thumb pile 100-1 and the concrete PC pile 100-2 will be described.

Beam thumb pile 100-1 in a state of lifting using a heavy equipment such as a crane by using a ring 32 provided on the front surface side of the concrete soil plate 30, So that the step 33 of the concrete soil plate 30 is positioned on the H-beam thumb pile 100-1.

In this state, the concrete soil plate 30 is pivoted on the basis of one end of the H-beam thumb pile 100-1, which is previously fitted, to the side of the concrete PC pile 100-2 .

11, the other side of the concrete soil plate 30 is released to the outside by the fixing means such as anchor bolts using the cover plate 50 covering the front side of the concrete soil plate 30 in the above- .

This operation state is repeated to complete the soil wall formed by the soil plate in the order of H-beam thumb pile (100-1) - concrete PC pile (100-2) - H-beam thumb pile So that the earth pressure by the soil provided from the back surface can be effectively provided.

12, by using the supporting force and the centrifugal force supported by both side ends of the concrete soil plate 30 at the center with the center of the concrete soil plate 30 as described above, the end portion of the concrete soil plate 30 and the concrete PC The cover plate 50 covering the entirety of the end portions of the pile 100-2 and the other concrete soil plate 30 in contact with the pile 100-2 is placed on the front surface of the concrete pile plate 100. By using a fixing means such as an anchor bolt, (30).

The stepped portion 33 formed on the end portion of the concrete soil plate 30 is positioned such that the cover plate 50 covered with the front surface of the concrete PC pile 100-2 is positioned and the H- It would be desirable to form a relatively smooth surface in contact with the thickness portion of the beam thumb pile 100-1 (here the thickness means the thickness of the steel plate forming the H-beam).

- concrete Soil plate  The second of the structures installed on the thumb pile Example  -

On the other hand, a concrete soil plate can be installed by the structure as shown in FIG. 13 to FIG.

For example, as shown in FIGS. 13 to 15, a concrete soil plate 30 can be installed by adopting a thumb pile as an H-beam thumb pile 100-1. As in the first embodiment, a concrete PC pile 100- Beam thumb pile, but with a relatively deformed H-beam thumb pile (in the present invention, such as a thumb in this embodiment) with one plate being cut between the full H-beam thumb piles 100-1, The pile will be referred to as a T-type thumb pile, and the reference numeral 100-11 will be used), the concrete soil plate 30 can be installed using the T-type thumb pile 100-11.

As shown in the figure, one side of the H-beam is cut to obtain a T-shaped thumb pile, and the cover plate 50 is fixed to the H- Which is obtained by dissecting the incision.

Accordingly, as in the first embodiment, the T-type thumb pile 100-11 is installed at a midpoint between the full H-beam thumb pile 100-1 and the full H- Beam thumb pile 100-1, a T-type thumb pile 100-11, and an H-beam thumb pile 100-1. The H-beam thumb pile 100-1 and the H- The concrete soil plate 30 is installed between the T-type thumb piles 100-11 and the concrete soil plate 30 is installed between the T-type thumb pile 100-11 and the H-beam thumb pile 100-1 The construction process can be repeated to form the earth wall.

The T-shaped thumb pile 100-11 has reinforcing plates 100-112 formed on both side surfaces of the inner plates 100-111 and has a through hole 100-111 extending through the front end of the inner plate 100-111, 113 and the reinforcing bars 100-114 fitted to the through holes 100-113 are alternately fixed so as to be separable and fastenable and the cover plates 50 And the nut is used to cover the concrete soil plate 30 in a state in which the one end side of the concrete soil plate 30 is positioned and then the reinforcing steel catches 100-114 penetrate through holes formed in the cover plate 50 And fastened using a coupling means such as a nut.

FIG. 14 schematically shows a process for installing the T-type thumb pile 100-11 on the ground. First, when the casing 110 is inserted into the ground, the T-type thumb pile 100- 11 is inserted into the casing 110 and then the casing 110 is filled with the gravel and then the casing 110 is pulled out, the concrete soil plate 30 is installed along with the ter- minator, .

- concrete Soil plate  The third of the structures installed on the thumb pile Example  -

FIGS. 16 to 18 show another embodiment in which a concrete soil plate is installed on a cemented pile. After inserting the H-beam thumb pile 100-1 into the casing 110 and inserting the casing 110 into the casing 110 The concrete soil plate 30 is installed in a state in which the front surface of the H-beam thumb pile 100-1 is exposed to the outside through the trenching operation after the casing 110 is pulled out.

The distance between the H-beam thumb piles 100-1 and the concrete soil plate 30 is set to be somewhat longer than the length of the concrete soil plate 30 when the concrete soil plate 30 is installed between the H-beam thumb piles 100-1, The connecting member 60 for connecting the side end of the H-beam thumb pile 100-1 and the side end of the concrete top plate 30 is formed inside the one flange of the H-beam thumb pile 100-1, And the soil plate 30 was installed.

As shown in FIG. 18, the connecting member 60 connects the ends of the concrete soil plate 30 disposed on the left and right sides of the H-beam thumb pile 100-1 to form the H-beam thumb pile 100-1 To be connected and fixed inward.

The connection member 60 is divided into a fixed connection member 610 and a detachable connection member 620. The fixed connection member 610 is connected to one side of the concrete web plate 30 and the fixed connection member 610 is connected to the other side Type connecting member 620 is connected to be coupled with the H-beam thumb pile 100-1.

As shown in FIG. 18, the fixed connection member 610 is fixed to one side of the concrete dust guide plate 30, and includes a vertical bracket 601 vertically fixed to the upper surface of the steel plate 611, And a rotary center bar 614 which is vertically fixed from the outer surface of the circular fixing bar 613 is formed in the upper portion of the circular fixing bar 613, And the water expansive index material 615 is applied along one side surface of the lower end of the iron plate 611 to contact the inner surface of the H-beam thumb pile 100-1.

A plurality of holes 616 penetrating through the iron plate 611 are pierced so that an anchor screws 34 projected and embedded in the step portion 33 of the concrete plate 30 penetrate therethrough, .

18, the detachable connecting member 620 is fixed to the other side of the concrete dust guide plate 30 and is vertically fixed to the upper surface of the steel plate plate 621 A vertical bracket 622 and a circular fixing bar 623 spaced apart from and fixed to the lower surface of the steel plate 621 in the transverse direction are formed on the upper surface of the steel plate 621, Beam stub 100-1 so as to be in contact with the inner surface of the H-beam thumb pile 1001 and open to the other side of the iron plate 621 in the opposite direction of application of the water expandable index material 625, Respectively.

The concrete soil plate 30 is fixedly installed between the H-beam thumb piles 100-1 by using the connecting member 60 having such a structure. First, the concrete connecting member 610 is used to fix the concrete And is fixed to one end of the current plate 30.

In this state, the connection side of the stationary connecting member 610, which is fixed to one side of the concrete soil plate 30, is fitted inside the H-beam thumb pile 100-1. In this process, Beam thumb pile 100-1 so that the vertical bracket 612 of the stationary connecting member 610 abuts the end of the H-beam thumb pile 100-1 and is no longer in contact with the H- The side end of the H-beam thumb pile 100-1 is held in contact with the rotation center bar 614 of the fixed connecting member 610 so as not to enter the inside of the thumb pile 100-1.

The rotation center bar 614 serves as a reference point for allowing the concrete soil plate 30 to rotate and to flow into the H-beam thumb pile 100-1 existing on the other side.

When the fixed connecting member 610 fixed to one end of the concrete soil plate 30 is fixed to the inside of the H-beam thumb pile 100-1 as described above, Beam thumb pile 100-1 existing at the other end of the concrete soil plate 30 by rotating the pivot shaft 614 with respect to the H-beam thumb pile 100-1.

16, when the concrete soil plate 30 and the H-beam thumb pile 100-1 are finally connected to each other by using the detachable connecting member 620, The connection is fixed.

This state is the same as the drawing in the third sequence in Fig.

FIG. 17 is an enlarged view showing the coupling state between the end portion of the concrete soil plate 30 and the H-beam thumb pile 100-1, respectively, about the H-beam thumb pile 100-1.

19, the iron plate 621 of the detachable connecting member 620 is configured to cover the entire surface between the step portion 33 of the concrete soil plate 30 and the H-beam thumb pile 100-1 The anchor screw 34 inserted into the step 33 protrudes from the side surface of the detachable connecting member 620 by a plurality of equally spaced and cut incisions 624, And is fastened with a nut (N) in a state.

The upper surface side vertical bracket 622 of the iron plate 621 of the detachable connection member 620 plays the same role as the vertical bracket 612 of the fixed connection member 610 described above, Thereby supporting the side ends of the concrete soil plate 30.

In addition, the cut-away portion 624 of the detachable connecting member 620 may not be designed with a certain distance between the length of the concrete soil plate 30 and the H-beam thumb pile 100-1. In this case, It is possible to fix the position within the position of the incision part 624 according to the position of the anchor screw 34 of the concrete dust guide plate 30 by using the part 624.

FIG. 19 corresponds to a modification of the third embodiment. For example, when the soil wall is to be constructed as a combined wall, the concrete soil plate 30 and the H-beam thumb pile 100-1 are connected As shown in FIG. 19, the front surface of the H-beam thumb pile 100-1 is coated with a vinyl laminate in contact with a flange on one side of the H-beam thumb pile 100-1 by a space formed by the step portion 33 of the concrete soil plate 30, The mortar can be injected to form a soil wall.

This is to facilitate drawing of the H-beam thumb pile 100-1

The connecting member 60 is connected to the concrete soil plate 30 and the H-beam thumb pile 100-1 by using the coupling member type connecting member 630 in the form shown in FIGS. 20 to 21, unlike the above- ) To form a toe wall and to install it.

That is, as shown in FIG. 16, the latch member type connecting member 630, which is a structure for connecting and installing the concrete soil plate 30 between the H-beam thumb piles 100-1, A stud 632 fixed in the vertical direction and a water expansive index material 634 are applied to one side of the lower surface of the iron plate 631 so as to penetrate through the iron plate 631 so as to be rotatable. A latch 635 which is rotated by the stud 632 and whose other end is fixed by a nut through an iron plate 631 and a hole 633 formed in the iron plate 631 So that the anchor screw 34 of the concrete dust guide plate 30 passes through and is fastened with a nut.

Beam thumb pile 100-1 using a hook member type connecting member 630 having such a structure. The H-beam thumb pile 100- Type stiffener 30 is connected to both ends of the concrete run-in plate 30 with the hinged bucket-type connecting member 630. The stud 632 and the H-beam thumb pile 308 are connected to the side of the concrete run- The latch 635 is rotated in a state in which the side surface of the main body 100-1 abuts and is fixed.

At this time, the latch 635 is maintained in a loosely fastened state so that the nut can rotate, and when the latch 635 is rotated in the direction of 90 degrees until the latch 635 is in contact with the stud 632, And the end of the clasp 635 passing through the iron plate 631 is tightly fastened by using a nut or the like. This operation is repeatedly carried out on both ends of the concrete plate plate 30 to form the concrete plate plate 30, And the H-beam thumb pile 100-1, as shown in FIG.

22 is a modification of this embodiment. For example, in the case of constructing the inner wall by a combined wall type, the concrete soil plate 30 and the H-beam thumb pile 100-1 are connected as described above, The mortar can be injected into the space defined by the step 33 of the concrete dust guide plate 30 as shown in FIG. 22, and then the inner wall can be formed.

Meanwhile, although the embodiments of the present invention have been described with reference to the case of a high-strength earth retaining structure, the present invention can be applied to a low-strength earth retaining structure as shown in FIGS. 23 to 25.

23 to 25, the pivoting unit 80 is formed on the front surface of the concrete pivot plate 30 on either side in order to support the concrete pivoting plate 30, The first connecting member 90 connected to the pipe 70 by one end of the pipe 70 is connected to one end of the pipe 70 to prevent the pipe 70 from pivoting by the pivoting portion 80, An extended steel pipe 71 is connected and fixed to a second connecting member 91 connected by a pin P so as to be pulled along a guide groove 35 formed on the entire surface of the other concrete soil guide plate 30, It can be configured to support the liver.

The concrete soil plate 30 opposed to the concrete soil plate 30 is supported in the form of a stranded tube with the steel pipe 70 and the connecting steel pipe 71 as a row and then the steel pipe 70 or connection It is preferable that the steel pipe 71 is clamped and fixed by using a connecting rod 72 and supported.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and changes may be made.

Accordingly, it is to be understood that the technical idea of the present invention is to be understood by the following claims, and all of its equivalents or equivalents fall within the technical scope of the present invention.

C-10; Mold panel manufacturing process
C-20; Concrete casting process
C-30; Cutting process
10; Manufactured mold plate
20; Side mold
21; Settlement groove
30; Concrete soil board
31; Cutting portion 32; ring
33; A step portion 34; Anchor screw
35; Guide groove
40; PC Strand
50; Cover plate
100; Thumb pile
100-1; H-beam thumb peg
100-11; T type thumb pile
100-111; Inner plates 100-112; Reinforcing plate
100-113; Through holes 100-114; Rebar clasp
100-2; Concrete PC piles
200; Support beam
200 '; Connecting supporting beam
300; Connecting beam
400; Strap
60; Connecting member
610; Fixed connection member
611; Steel plate 612; Vertical bracket
613; A circular fixing rod 614; Rotation center bar
615; A water expandable index material 616; hole
620; Detachable connecting member
621; Steel plate 622; Vertical bracket
623; A circular fixing rod 624; Incision
625; Water Expansive Index Material
630; Clasp member type connecting member
631; Steel plate 632; Stud
633; Hole 634; Water Expansive Index Material
70; Steel pipe
71; A connecting steel pipe 72; Connecting rod
80; The turning part

Claims (8)

delete A combination of the thumb pile 100 and the concrete soil plate 30 which are provided at regular intervals on the entire surface of the turbulence wall and the other is composed of a pair of thumb piles 100 separated from each other in the widthwise direction and a pair of thumb piles 100 and a concrete soil plate 30 and a support beam 200 supported in the longitudinal direction on the front surface of the thumb pile 100 is connected to a strut pile 400. The other side of the thumb pile 100 Is formed with a connecting beam 300 'connecting one side of the other thumb pile 100 in the transverse direction or a connecting supporting beam 200' connecting two connecting beams 300 ' The earth retaining structure using an H-beam and a concrete soil plate including a strut beam (400) connected to a beam (200) to a connecting beam (300) or a connection supporting beam (200 ') to form a transverse connection,
The concrete soil plate 30 is manufactured by a mold making process (C-10), a concrete placing process (C-20), and a cutting process (C-30) A plurality of PC stranded wires 40 which are tensioned by pretensioning in the longitudinal direction of the concrete strand board 30 are embedded in the side plate 20 so that the fixing grooves 21 are formed at regular intervals in the current plate 30, The PC stranded wire 40 is exposed and fixed to the step portion 33 formed in the "L" shape of the fixing groove 21 when the cutting portion 31 is set so as to have a predetermined length Retaining structure using concrete slab and H beam.
3. The method of claim 2,
The thumb pile is an H-beam thumb pile 100-1, a concrete PC pile 100-2, an H-beam thumb pile 100-1 or an H-beam thumb pile 100-1, 100-1 and 100-2, which are repeatedly installed in the order of the pile 100-1 and the H-beam thumb pile 100-1, in order to install the concrete soil plate 30 between the thumb piles 100-1 and 100-2,
The PC strand 40 (see FIG. 1) installed at each of the fixing grooves 21 in the H-beam thumb pile 100-1 so that one end of the concrete strand plate 30 is inserted into the H-beam thumb pile 100-1. Of the concrete soil plate 30, which is in the form of an "L" -shaped form, is exposed, and is rotated with respect to one end of the concrete soil plate 30, The side surface of the PC pile 100-2,
And a cover plate (50) for covering a side end of each concrete soil plate (30) adjoining from both sides of the concrete PC pile (100-2) so as to be separably fastened with an anchor bolt Retaining structure using soil plate and H beam.
3. The method of claim 2,
The thumb pile is a thumb pile (100; 100-1) which is repeatedly installed in the order of an H-beam thumb pile 100-1, a T-type thumb pile 100-11 and an H- , 100-11) in order to install the concrete soil plate 30,
A turntable is installed between the H-beam thumb pile 100-1 and the T-type thumb pile 100-11 and between the T-type thumb pile 100-11 and the H-beam thumb pile 100-1.
The PC strand 40 (see FIG. 1) installed at each of the fixing grooves 21 in the H-beam thumb pile 100-1 so that one end of the concrete strand plate 30 is inserted into the H-beam thumb pile 100-1. ) Of the concrete run-in plate 30, which is in the form of an "L" -shaped form for the purpose of being exposed and fixed, is pivoted on the basis of one end of the concrete run- Is disposed adjacent to the abdominal surface of the T-shaped thumb pile (100-11)
After the reinforcing bars 100-114 are passed through the holes formed in the cover plate 50 for covering the side ends of the adjacent concrete soil plates 30 from both sides of the T-type pile 100-11 Wherein the reinforcing member is detachably fastened using a nut.
5. The method of claim 4,
The T-shaped thumb pile 100-11 has reinforcing plates 100-112 formed on both side surfaces of the inner plates 100-111 and has a through hole 100-111 extending through the front end of the inner plate 100-111, 113 and the reinforcing bars 100-114 fitted to the through holes 100-113 are alternately fixed so as to be separable and fastenable and the end portions of the reinforcing bars 100-114 are fixed to the cover plate 50 and nuts so as to be covered in a state in which the one end side of the concrete soil plate 30 is positioned and then detachably fastened to the concrete soil plate 30 using the H beam.
3. The method of claim 2,
The thumb piles are installed so as to be equally spaced from each other by H-beam thumb piles 100-1. The distance between the H-beam thumb piles 100-1 is longer than the length of the concrete soil plate 30, The connecting member 60 for connecting the side end of the H-beam thumb pile 100-1 and the side end of the concrete top plate 30 is formed inside the one flange of the H-beam thumb pile 100-1, And the other end side is divided into a detachable connecting member 620 and a concrete soil plate 30 is installed,
The fixed connection member 610 includes a vertical bracket 612 vertically fixed to the upper surface of the iron plate 611 and a circular fixing rod 613 spaced apart from the lower surface of the iron plate 611 by a plurality of The rotation center bar 614 is vertically fixed from the outer surface of the circular fixing bar 613 and the water expansive index material 615 is applied along one side of the lower end of the iron plate 611 to form an H- 100-1,
The detachable connecting member 620 is formed with a vertical bracket 622 vertically fixed to the upper surface of the iron plate 621 and a circular fixing rod 623 spaced apart from the lower surface of the iron plate 621 Beam index pile 100-1 so as to be in contact with the inner surface of the H-beam thumb pile 100-1 along the one side surface of the lower plate of the steel plate 621, An earth retaining structure using a concrete soil plate and an H beam, the planar plate including an incision portion (624) opened to the other side of an iron plate (621) and spaced equidistantly from each other.
The method according to claim 6,
The connecting member 60 rotates the latch 635 passing through the iron plate 631 from the outside to the inside by 90 degrees so as to contact the stud 632 and the one side flange 100-1 of the H- Type connecting member (630) that hung on the concrete slab plate and the H-beam.
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