KR101965703B1 - Concrete pile driven in field using geo tube and construction method thereof - Google Patents

Abstract

The present invention relates to a cast-in-place concrete pile using a geotube with a lifting prevention structure, in which a pile extraction type method is stably performed, and a construction method thereof. According to the present invention, the cast-in-place concrete pile using a geotube with a lifting prevention structure comprises: a tubular steel pipe casing (40) vertically inserted into a soil layer (5) in a pile type; a rebar net body (10) vertically inserted to be spaced apart from the inner surface of the steel pipe casing (40); the geotube (30) inserted between the steel pipe casing (40) and the rebar net body (10) to be close to the inner surface of the steel pipe casing (40) while receiving the rebar net body (10) therein; and a spacer (20) connecting and fixing a support rod (23) between a circular strap rebar (12a, 12b, 12c) and the spacing ring (21).

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a pile of a concrete pile using a geotube having an anti-

Field of the Invention The present invention relates to a field-borne concrete pile using a geotube having an anti-flap structure and a method of constructing the same. More particularly, the present invention relates to a geotechnical pile installed in a steel pipe casing The present invention also relates to a method of constructing a pile of a cast-in-place using a geotube having a flotation-preventing structure for allowing a pile-pulling method to be stably performed.

When a structure such as a building is constructed on the ground, a plurality of piles are installed on the ground so as to support the structure. There are many kinds of such piles, but in general, field drilled piles are widely used.

The ground drilled pile may be prepared by first drilling the ground where the structure is to be constructed downward to form a perforation hole, inserting the support into the perforation hole, and then filling the perforation hole into which the support is inserted with a filler such as a stressor or a compression material Such as mortar or concrete, and curing the filler. As the support, a reinforcing net unit is generally used.

The reinforcing net unit includes a plurality of reinforcing bars inserted at equal depths in the perforation holes and arranged such that the reinforcing bars are equally spaced apart from each other in the circumferential direction of the perforation hole, The reinforcing bars are equally spaced in the circumferential direction of the perforation hole and are fixed to each other by fixing reinforcing bars (wire or the like) so as to maintain the same depth at which the reinforcing bars are inserted into the perforation holes.

In addition, when the perforation hole is perforated, the perforation and the casing are inserted at the same time so that the perforation hole is not collapsed. The casing is inserted to prevent the collapse of the perforation hole, but also serves as a mold for filling the filling material without being drawn out of the perforation hole when the filling material is filled.

Generally, in-situ concrete pile method is a method in which a steel pipe casing is hammered up to the depth of the ground, and then excavated in the casing. Then, the reinforcing net is inserted and concrete is poured using a trem- The steel pipe casing is used as a permanent member, and the steel pipe casing is seated up to the top of the rock layer. Then, the inside of the casing is excavated, the reinforcing net is inserted, and concrete is poured using the trem canal, A mold method is known.

Here, the latter type of conventional buried-type cast-in-place concrete piling method is problematic in construction because the steel pipe casing satisfies only the role of a cast concrete pile in the field and is buried in the ground. Even if this type of reclamation type concrete piling method is used, the one side of the large diameter pipe casing is not inserted into the rock layer in the sloping rock layer of the water or sea, and concrete is lost due to the gap, happened.

As a conventional technique of a pull-out method in which such a casing is used for pneumatic protection and pulled out, a method of press-inserting a casing into a soil layer as a pneumatic wall protecting means during excavation, And the hammer bit was inserted into the steel pipe casing seated on the surface of the weathered rock layer to excavate it to the inside of the rock layer. Subsequently, a steel cage was inserted into the inside of the steel pipe casing to pour the concrete, The steel pipe casing is pulled out gradually in response to the filling of the steel pipe casing in order.

The bottom pile of concrete pile is completely embedded in the weathered rock layer by the pull - out method, but there is a disadvantage that the pile of concrete is collapsed and the pile wall collapses. In addition, by drawing the steel pipe casing before the concrete is hardened, in the passage portion of the underground aquifer through which the ground water flows, the groundwater flows from the portion where the groundwater and the concrete directly contact with each other and the concrete is lost before being hardened. And there is a problem of securing quality such as occurrence of excessive slime due to scratching of the wall when inserting the reinforcing net.

Another disadvantage is that a separate pore wall protection process using slurry is required to prevent such pore wall collapse. In addition, the pore wall protection process not only causes water pollution due to outflow of bentonite, but also causes a lot of detailed processes and inconveniences in construction. In addition, when applied to a marine bridge or a substructure of an offshore structure, there is a possibility that the reinforcing steel may be corroded by salting, thereby posing a problem of quality assurance.

Published Patent No. 10-2009-0099937

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a geotechnical system in which a pile pulling type construction method can be stably performed by providing a geotube provided in a steel pipe casing for pile- And a method for constructing the pile. The present invention has been accomplished on the basis of these technical problems.

According to an aspect of the present invention, there is provided a pile-up concrete pile in which a geotube having a floating structure is installed in a soil layer (5) A steel pipe casing 40; A reinforcing bar 10 connected to a plurality of circular reinforcing bars 12 and a plurality of longitudinal supporting reinforcing bars 14 for installing the concrete pile and vertically inserted into the steel casing 40 so as to be spaced apart from the inner surface of the steel casing 40; Is inserted between the steel pipe casing 40 and the reinforcing bar 10 so as to be adjacent to the inner surface of the steel pipe casing 40 while accommodating the reinforcing bar 10 and is made of any one of PET, PP, PVC and FRP A geotube 30 provided; And a plurality of circular band bars 12b and 12c located at equal distances from the bottom-most circular band bar 12a of the plurality of circular band bars 12, 12b and 12c so as to maintain a gap between the ring-shaped band reinforcing bars 12a, 12b and 12c and the gap retaining ring 21, A gap holding member 20 to which a support rod 23 is fixedly connected between the gap retaining rings 21; The lower end edge portion 32 of the geotube 30 is fixed to the lower end gap retaining ring 21a spaced apart from the outer side of the lowermost circular band reinforcing bar 12a to prevent the geotube 30 from being injured And a plurality of spacing rings 21b and 21c spaced at equal distances from the lower end spacing ring 21a are brought into close contact with the inner surface of the geotube 30 so that the reinforcing bar 10 is received And the concrete tube 50 placed in the geot tube 30 closely contacts the inner surface of the steel pipe casing 40. The circular band bar 12 and the circular band bar 12 And the support rods 23 are inserted and fixed in the facing engagement grooves 13 and 22 so that the user can feel the hope And a spacer ring (21) can be selectively installed on the ring-shaped reinforcing bars (12) A male screw portion is formed in the grooves 13 and 22 and a bi-direction male screw portion is formed at both ends of a support rod 23 inserted and fixed into the engaging grooves 13 and 22, When the retaining ring 21 is spaced apart and the engaging grooves 13 and 22 face each other and then the bi-directional male threaded portion of the support rod 23 is inserted into the female threaded portions on both sides and then rotated in one direction, (13, 22).

delete

In order to prevent the lower spacing rings 21b and 21c located at a certain distance from the lower end spacing ring 21a from the lower spacing ring 21, ) Are further connected and fixed.

In addition, coupling grooves are formed on opposite surfaces of the adjacent spacing ring 21, and a vertical connection support rod 72 is inserted and fixed in the corresponding coupling grooves, a female screw portion is formed in the coupling grooves, A bi-directional male threaded portion is formed at both ends of a vertically connecting support bar 72 inserted and fixed in the coupling groove, and when the bi-directional male threaded portion of the vertical connecting rod 72 is inserted into the female threaded portions and then rotated in one direction, Are simultaneously inserted and fixed in the both coupling grooves.

The lower end edge portion 32 of the geotube 30 is fixedly attached and fixed along the outer circumference of the lower end gap retaining ring 21a.

The operation inner diameter d2 of the weathered rock layer 6 and the soft rock layer 7 when the cast pile is penetrated to the weathered rock layer 6 and the soft rock layer 7 under the soil layer 5 is the same as that of the soil layer 5 So that the lower end of the steel pipe casing 40 is frictionally supported on the upper surface of the weatherproofing layer 6. The reinforcing net 10 is formed of the weatherproof layer 6 and the soft layer 7, And the geotube 30 extends along the inner surface of the weatherproof layer 6 and the soft rock layer 7 and extends to the bottom end spacing ring And the inclined portion 92 is formed at the boundary between the soil layer 5 and the weatherproofing layer 6 so that the geotube 30 can be flexibly lowered downward.

The lower end of the geotube 30 is formed with a finishing cap made of the same material as the geotube 30, so that the concrete to be laid is prevented from flowing out to the lower side of the ground.

In another aspect of the present invention, there is provided a method of constructing a method for constructing a pile of cast concrete using a geotube having a flotation-preventing structure in a soil layer (5), the method comprising the steps of: And a plurality of longitudinal reinforcing bars 14 connected to a plurality of longitudinal strip reinforcing bars 14 for the concrete pile installation to connect the reinforcing bar 10 to the steel pipe casing 40 PP, PVC, and FRP are disposed between the steel pipe casing 40 and the reinforcing bar 10 so as to be adjacent to the inner surface of the steel pipe casing 40 while accommodating the reinforcing bar 10 inside. (12a) of the plurality of circular band bars (12) and a plurality of circular tubular ribs (12b) of the uppermost circular band bar The outer circumference of the plurality of circular band reinforcing bars 12b and 12c, 12b and 12c so as to maintain a gap between the ring-shaped reinforcing bars 12a, 12b and 12c and the gap retaining ring 21 so as to be spaced apart from the ring-shaped reinforcing bars 12a, 12b and 12c, A spacing retainer 20 is provided between the retaining ring 21 and the support bar 23 to which the support bar 23 is fixedly connected. The retaining ring 21 is spaced apart from the outer circumference of the bottom ring- The lower edge portion 32 of the tube 30 is fixed to prevent lifting of the geotube 30 and a plurality of gap holding rings 21a, The geotube 30 is brought into contact with the inner surface of the steel tube casing 30 by the concrete layer 50 which is in close contact with the inner surface of the geotube 30 and is placed in the geotube 30 accommodating the steel wire net 10, The ring-shaped reinforcing bars 12 and the spacing rings 21 spaced apart from the ring-shaped reinforcing bars 12 are joined to the opposite surfaces of the ring- And the support rods 23 are inserted and fixed in the facing engagement grooves 13 and 22 so that the spacing ring 21 is selectively provided on the circular band reinforcing rib 12 desired by the user And a bi-directional male threaded portion is formed at both ends of a support rod (23) inserted and fixed into the coupling grooves (13, 22), so that the circular band reinforcing bars (12 When the bidirectional male threaded portion of the support rod 23 is inserted into the female threaded portions on both sides and then rotated in one direction, (23) is simultaneously inserted into and fixed to both the side engaging grooves (13, 22). The present invention also provides a method of constructing a cast pit using a geotube having an injury preventive structure.

In order to prevent the lower spacing rings 21b and 21c located at the same distance from the lower spacing ring 21a from the lower spacing ring 21, ) Is further connected and fixed.

In addition, coupling grooves are formed on opposite surfaces of the adjacent spacing ring 21, and a vertical connection support rod 72 is inserted and fixed in the corresponding coupling grooves, a female screw portion is formed in the coupling grooves, A bi-directional male threaded portion is formed at both ends of a vertically connecting support bar 72 inserted and fixed in the coupling groove, and when the bi-directional male threaded portion of the vertical connecting rod 72 is inserted into the female threaded portions and then rotated in one direction, Are simultaneously inserted and fixed in the both coupling grooves.

The lower end portion 32 of the geotube 30 may be fixedly attached and fixed along the outer circumference of the lower end gap retaining ring 21 or the lower end portion of the geotube 30 may be fixed to the geotube 30, And the concrete is prevented from flowing out to the lower side of the ground.

The operation inner diameter d2 of the weathered rock layer 6 and the soft rock layer 7 when the cast piles are penetrated to the weathered rock layer 6 and the soft rock layer 7 at the lower portion of the soil layer 5, So that the lower end of the steel pipe casing 40 is frictionally supported on the upper surface of the weatherproofing layer 6. The reinforcing net 10 is formed of the weatherproof layer 6 and the soft layer 7, And the geotube 30 extends along the inner surface of the weatherproof layer 6 and the soft rock layer 7 and extends to the bottom end spacing ring And the inclined portion 92 is formed at the boundary between the soil layer 5 and the weatherproofing layer 6 so that the geotube 30 can be flexibly lowered downward.

According to the present invention, there is an effect that the construction of the pile pulling type method can be stably performed by having the float prevention structure in the geotube provided in the steel pipe casing for the construction of the pile for placing the ground for the ground.

FIG. 1 is a perspective view of a reinforcing steel net used in a cast-in-place concrete pile using a geotube having an injury preventive structure according to the present invention. FIG.
FIG. 2 is a perspective view showing a state in which a gap retaining ring and a geotube are disposed outside of a reinforcing bar of the present invention; FIG.
3 is a cross-sectional side view of a first use state pile of a cast-in-place concrete pile using a geotube having an injury preventive structure according to the present invention
4 is an enlarged cross-sectional view of a main part of Fig. 3
FIG. 5 is a cross-sectional side view of a second use state of a cast-in-place concrete pile using a geotube having an injury preventive structure according to the present invention
Fig. 6 is a plan view of a state in which a band bar and a gap retaining ring according to the present invention are coupled by a support bar; Fig.
Fig. 7 is a view showing another embodiment of the coupling state of the support rods in Fig. 6
8 is a perspective view of another embodiment according to the present invention
9 and 10 are cross-sectional illustrations of still another embodiment of the present invention

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

The present invention relates to a geotube having an anti-float structure for preventing the pile pulling type construction from being installed on a geotube provided inside a steel pipe casing for constructing a pile for on-site casting of a ground, 1 to 10, a steel pipe casing 40, a reinforcing bar 10, a geotube 30, a gap retainer 20, a concrete layer 50, .

In order to realize the present invention constituting a cast-in-place concrete pile using a geotube having a flotation-preventing structure, first, as shown in FIG. 3, the soil pile is vertically excavated to the lower side of the ground 2, A steel pipe casing 40 in the form of a tube is provided. At this time, the steel pipe casing 40 is used in a pull-out method, and is inserted into the soil layer 5, and is then pulled out when concrete is poured to be reused.

As shown in FIGS. 1 and 3, in order to install a concrete pile, a plurality of longitudinal bars 12 and a plurality of longitudinal supporting bars 14 connected to each other are connected to the steel pipe casing 10 Is vertically inserted so as to be spaced apart from the inner surface of the steel pipe casing (40).

3, a geotube 30 is inserted between the steel pipe casing 40 and the reinforcing bar 10 to perform a function of forming a concrete pile. At this time, the geotube 30 is made of any one of PET, PP, PVC, and FRP, and the upper end side may be formed to be open to pour concrete and the lower end side to be opened or closed. The closed cap (30) may have a finishing cap made of the same material as that of the geotube (30), so that the concrete to be laid can be prevented from flowing out to the lower side of the ground.

As shown in FIGS. 2 and 6, the bottom-most circular band reinforcing bars 12a of the plurality of circular band reinforcing bars 12 constituting the reinforcing bar 10 and the bottom- 12b and 12c and the gap retaining ring 21 are spaced apart from the outer circumferences of the plurality of circular band bars 12b and 12c located at a predetermined distance from each other, And a gap holding member 20 to which the support rods 23 are connected and fixed between the ring-shaped reinforcing bars 12a, 12b, 12c and the gap retaining ring 21 so as to maintain a gap therebetween.

The lower end edge portion 32 of the geotube 30 is fixed to the lower end gap retaining ring 21a spaced apart from the outer side of the lowermost circular band reinforcing bar 12a, A plurality of spacing rings 21b and 21c spaced equidistantly from each other at the lower end spacing ring 21a are brought into close contact with the inner surface of the geotube 30 so as to prevent the reinforcing bar 10, The geotube 30 can be closely attached to the inner surface of the steel pipe casing 40 by the concrete layer 50 placed in the geotube 30 accommodating the geotube 30 to implement a concrete formwork function of the geotube .

7, coupling grooves 13 and 22 are formed on opposite surfaces of the ring-shaped reinforcing bar 12 and the ring-shaped spacing ring 21 spaced from the ring-shaped reinforcing bar 12, The support rods 23 are inserted and fixed in the facing engagement grooves 13 and 22 so that the spacing ring 21 can be selectively installed on the circular band reinforcing rib 12 desired by the user. In this case, although not shown, a female thread is formed in the coupling grooves 13 and 22, and a bi-directional male threaded portion is formed at both ends of a support rod 23 inserted and fixed into the coupling grooves 13 and 22, 12, the spacing rings 21 are spaced apart from each other and the engaging grooves 13, 22 are made to face each other. Then, the bidirectional male thread portion of the support rod 23 is inserted into both female thread portions and then rotated in one direction The support rod 23 can be inserted and fixed to both the coupling grooves 13 and 22 at the same time.

With such a structure, it is easy to keep the spacing between the ring-shaped strip reinforcement 12 and the gap retaining ring 21 constant, and the worker can easily join without any special tool, thereby improving the working efficiency.

As shown in FIG. 8, in order to prevent the lower spacing rings 21b and 21c located at the same distance from each other at the same interval in the lower end spacing ring 21a, The vertical connection support bar 72 may be further connected and fixed. At this time as well, coupling grooves are formed on opposite surfaces of the adjacent gap retaining ring 21, Directional male screw portion is formed at both ends of a vertical connection support bar 72 inserted and fixed in the coupling groove so that the bidirectional male screw portion of the vertical connection support bar 72 is inserted into both the side The vertical connection support bar 72 can be inserted and fixed to both the coupling grooves at the same time by rotating the vertical coupling bar 72 in one direction after being inserted into the female screw portion.

In addition, when the upper and lower spacers 21a and 21b are coupled and fixed by such a structure, it is easy to maintain a constant interval between the spacing rings 21b and 21c, which are positioned at equal distances from the bottom spacer ring 21a, Can be easily combined without any special tool, thereby improving the working efficiency.

The lower end edge portion 32 of the geotube 30 may be tightly bonded and fixed along the outer circumference of the lower end gap retaining ring 21a as shown in FIG. And the concrete is prevented from flowing out to the lower side of the ground.

3 and 5, the concrete pile is installed in the soil layer 5. However, as shown in FIGS. 9 and 10, the weathered rock layer (lower layer) in the lower part of the soil layer 5 The working inner diameter d2 of the weathered rock layer 6 and the soft rock layer 7 is formed to be narrower than the working inner diameter d1 of the soil layer 5 at the time of installing the pouring concrete piles up to the soft rock layer 7 and the soft rock layer 7 The lower end of the steel pipe casing 40 is frictionally supported on the upper surface of the weatherproofing layer 6 and the reinforcing net 10 is sandwiched between the weatherproofing layer 6 and the softened rock layer 7, And the geotube 30 is formed to extend along the inner surface of the weatherable layer 6 and the soft rock layer 7 and to be fixed to the bottom end spacing ring 21a.

At this time, the boundary between the soil layer 5 and the weathering layer 6 may be formed at right angles to the boundary, but the inclined portion 92 may be formed as shown in FIG. 9 to guide the geotube 30 down .

A method of constructing a field-pierced concrete pile using the geotube having the flotation-preventing structure according to the present invention as described above is characterized in that a steel pipe casing (40) in the form of a pile is vertically inserted into the soil layer (5) The steel reinforced concrete pipe 10 is inserted vertically so as to be spaced apart from the inner surface of the steel pipe casing 40 by connecting a plurality of ring-shaped reinforcing bars 12 and a plurality of longitudinal supporting reinforcing bars 14 for reinforcing concrete piles, PP, PVC, or FRP between the steel pipe casing 40 and the reinforcing bar 10 so as to be adjacent to the inner surface of the steel pipe casing 40 while accommodating the reinforcing bar 10 in the inside thereof. A plurality of circular band bars 12a of the plurality of circular band barrels 12 and a plurality of circular band barrels 12a located at equal distances from the lowermost circular band bar 12 The spacing ring 21 is spaced apart from the outer periphery of the ring-shaped reinforcing bars 12b and 12c, 12b, 12c and the gap retaining ring 21 so as to maintain a gap between the ring-shaped band reinforcement 12a, 12b, 12c and the gap retaining ring 21, And the lower edge portion 32a of the geotube 30 is fixed to the lower end spacing ring 21a spaced apart from and fixed to the outer side of the lower end circular band bar 12a, A plurality of spacing rings 21b and 21c spaced equidistantly from each other at the bottom end spacing ring 21a are provided to prevent the geotube 30 from floating, So that the geotube 30 is brought into close contact with the inner surface of the steel pipe casing 40 by the concrete layer 50 placed in the geotube 30 in which the steel bar 10 is accommodated, The ring grooves 12 and the ring grooves 21 are spaced apart from each other and the ring grooves 13 and 22 are formed on opposite sides of the ring groove 21, The support rods 23 are inserted and fixed in the coupling grooves 13 and 22 so that the spacing ring 21 can be selectively installed on the circular band reinforcing rib 12 desired by the user, And a bi-directional externally threaded portion is formed at both ends of a support bar 23 inserted and fixed into the engaging grooves 13 and 22. The bi-directional externally threaded portion is formed around the outer periphery of the circular band bar 12, When the bi-directional male threaded portion of the support rod 23 is inserted into the female threaded portions on both sides and then rotated in one direction, the support rod 23 is engaged with the both side engagement grooves 13 and 22 To be fixed at the same time.

In order to prevent the lower spacing rings 21b and 21c located at the same distance from the lower spacing ring 21a from the lower spacing ring 21, And a vertical connecting rod 72 is inserted and fixed in the corresponding coupling groove, and the vertical connecting rod 72 is inserted and fixed in the corresponding coupling groove, And a bi-directional male threaded portion is formed at both ends of a vertically connecting support bar 72 inserted and fixed in the coupling groove, and a bidirectional male threaded portion of the vertically connecting support bar 72 is inserted into both female threaded portions The vertical connection support bar 72 can be inserted and fixed to both the coupling grooves at the same time.

The lower end portion 32 of the geotube 30 may be fixedly attached and fixed along the outer circumference of the lower end gap retaining ring 21 or the lower end portion of the geotube 30 may be fixed to the geotube 30, And the concrete is prevented from flowing out to the lower side of the ground.

The operation inner diameter d2 of the weathered rock layer 6 and the soft rock layer 7 when the cast pile is penetrated to the weathered rock layer 6 and the soft rock layer 7 at the lower part of the tol ground layer 5, So that the lower end of the steel pipe casing 40 is frictionally supported on the upper surface of the weatherproofing layer 6. The reinforcing net 10 is formed of the weatherproof layer 6 and the soft layer 7, And the geotube 30 extends along the inner surface of the weatherproof layer 6 and the soft rock layer 7 and extends to the bottom end spacing ring And the inclined portion 92 is formed at the boundary between the soil layer 5 and the weathering-resistant layer 6 so that the geotube 30 can be flexibly lowered downward.

In accordance with the present invention, there is provided a method for constructing a pile of a cast-in-place concrete using a geotube having a flameproof structure according to the present invention, So that the construction of the pile drawing method can be stably performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

2: ground 10: reinforcing bar
12: Circular strip reinforcement 13,22: Coupling groove
14: vertical support reinforcing bar 20:
21: spacing ring 23:
30: Geotube 40: Steel pipe casing
50: Concrete layer

Claims (12)

In constructing a field-inserted concrete pile using a geotube having a floating structure in the soil layer 5,
A steel pipe casing (40) in the form of a pipe which is vertically inserted into the soil layer (5) in the form of a pile;
A reinforcing bar 10 connected to a plurality of circular reinforcing bars 12 and a plurality of longitudinal supporting reinforcing bars 14 for installing the concrete pile and vertically inserted into the steel casing 40 so as to be spaced apart from the inner surface of the steel casing 40;
Is inserted between the steel pipe casing 40 and the reinforcing bar 10 so as to be adjacent to the inner surface of the steel pipe casing 40 while accommodating the reinforcing bar 10 and is made of any one of PET, PP, PVC and FRP A geotube 30 provided;
And a plurality of circular band bars 12b and 12c located at equal distances from the bottom-most circular band bar 12a of the plurality of circular band bars 12, 12b and 12c so as to maintain a gap between the ring-shaped band reinforcing bars 12a, 12b and 12c and the gap retaining ring 21, A gap holding member 20 to which a support rod 23 is fixedly connected between the gap retaining rings 21;
The lower end edge portion 32 of the geotube 30 is fixed to the lower end gap retaining ring 21a spaced apart from the outer side of the lowermost circular band reinforcing bar 12a to prevent the geotube 30 from being injured And a plurality of spacing rings 21b and 21c spaced at equal distances from the lower end spacing ring 21a are brought into close contact with the inner surface of the geotube 30 so that the reinforcing bar 10 is received The geotube 30 is closely attached to the inner surface of the steel pipe casing 40 by the concrete layer 50 placed in the geotube 30,
The ring groove 12 and the ring groove 21 spaced apart from the ring bar 12 are provided with engaging grooves 13 and 22 on opposite sides of the ring groove 12. The engaging grooves 13, (22) to be inserted and fixed so that the spacing ring (21) can be selectively installed on the circular band bar (12) desired by the user,
A male screw portion is formed in each of the engaging grooves 13 and 22 and a bi-direction male screw portion is formed at both ends of a support rod 23 inserted and fixed into the engaging grooves 13 and 22, When the biasing screw 23 of the support rod 23 is inserted into the female threaded portion of both sides and then rotated in one direction, the support rod 23 is inserted into both sides Is inserted and fixed in the joint grooves (13, 22) at the same time.
delete The method according to claim 1,
A vertically connecting support bar 72 is provided between the adjacent spacing rings 21 to prevent the lower spacing rings 21b and 21c located at equal distances from the lower spacing ring 21a Wherein the reinforcing member is fixedly connected to the reinforced concrete pile.
The method of claim 3,
And a vertical connecting rod (72) is inserted and fixed in the facing coupling groove, wherein a female threaded portion is formed in the both coupling grooves, When the bidirectional male threaded portion is formed at both ends of the vertically connecting support rod 72 to be inserted and fixed in the groove so that the bidirectional male threaded portion of the vertical connecting rod 72 is inserted into the female threaded portions and then rotated in one direction, Wherein the first and second joints are inserted and fixed in the joint groove at the same time.
5. The method of claim 4,
Wherein the lower edge portion (32) of the geotube (30) is tightly bonded and fixed along the outer periphery of the lower end gap retaining ring (21a). Concrete piles.
6. The method of claim 5,
The work inner diameter d2 of the weathered rock layer 6 and the soft rock layer 7 when the cast pile is penetrated to the weathered rock layer 6 and the soft rock layer 7 under the soil layer 5, The lower end of the steel pipe casing 40 is frictionally supported on the upper end surface of the weatherproofing layer 6 by making the lower end of the steel pipe casing 40 frictionally supported by the inner surface of the weatherproofing layer 6 and the inner surface of the soft- And the geotube 30 extends along the inner surface of the weatherable layer 6 and the soft rock layer 7 to form a bottom end spacing ring 21a, And an inclined portion 92 is formed at the boundary between the soil layer 5 and the weathering layer 6 so that the geotube 30 can be flexibly lowered downward. Field - cast concrete pile using geotube.
The method according to claim 5 or 6,
The lower end of the geotube 30 is formed with a finishing cap made of the same material as that of the geotube 30 to prevent the concrete being poured from flowing out to the lower side of the ground. Used in-situ concrete piles.
In constructing a method for constructing a site-cast concrete pile using a geotube having an injury-preventing structure in the soil layer 5,
A pipe-shaped steel pipe casing 40 is vertically inserted into the soil layer 5 in the form of a pile and a plurality of circular band bars 12 and a plurality of longitudinal supporting bars 14 are connected The steel pipe casing 10 is vertically inserted into the steel pipe casing 40 so as to be spaced apart from the inner surface of the steel pipe casing 40. The steel pipe casing 10 is inserted into the steel pipe casing 40 A geotube 30 made of any one of PET, PP, PVC and FRP is inserted between the reinforcing bar 10 and the reinforcing bar 10, A spacing ring 21 is provided spaced apart from the outer circumferences of a plurality of circular band bars 12b and 12c positioned at equal distances from the bottom circular band bar 12, (12a, 12b, 12 (12a, 12b, 12c) so that the gap is held between the band reinforcing bars (12a, 12b, 12c) and a space retaining member 20 to which the support rods 23 are connected and fixed between the upper and lower ring-shaped reinforcing ribs 12a, 12b, 12c, c and the spacing ring 21, The lower end edge portion 32 of the geotube 30 is fixed to the upper end portion 21a of the upper end portion 21a so as to prevent the lifting of the geotube 30 and a plurality of The gap retaining rings 21b and 21c of the geotube 30 are closely contacted with the inner surface of the geotube 30 and the concrete layer 50 placed in the geotube 30 housing the reinforcing net 10 (12) and spacing rings (21) spaced apart from the circular band bar (12) are provided on the opposite sides of the ring grooves (12) And the support rods 23 are inserted and fixed in the engaging grooves 13 and 22 so that the user can selectively place the desired circular band ribs 12 A female thread portion is formed in the coupling grooves 13 and 22 and a bi-direction male threaded portion is formed at both ends of a support rod 23 inserted and fixed into the coupling grooves 13 and 22 , The spacing ring 21 is spaced around the outer periphery of the circular band reinforcing bars 12 and the engaging grooves 13 and 22 are opposed to each other. Then, the bidirectional male threaded portion of the support rod 23 is inserted into the female threaded portions And then the support rods 23 are simultaneously inserted into the coupling grooves 13 and 22 to be fixed to each other when the rods are rotated in one direction. .
9. The method of claim 8,
A vertically connecting support bar 72 is provided between the adjacent spacing rings 21 to prevent the lower spacing rings 21b and 21c located at equal distances from the lower spacing ring 21a Wherein the method further comprises the steps of: (a) inserting the pile into the pile;
10. The method of claim 9,
And a vertical connecting rod (72) is inserted and fixed in the facing coupling groove, wherein a female threaded portion is formed in the both coupling grooves, When the bidirectional male threaded portion is formed at both ends of the vertically connecting support rod 72 to be inserted and fixed in the groove so that the bidirectional male threaded portion of the vertical connecting rod 72 is inserted into the female threaded portions and then rotated in one direction, Wherein the joint is inserted and fixed in the joint groove at the same time.
11. The method of claim 10,
The lower end portion 32 of the geotube 30 is fixedly attached and fixed along the outer circumference of the lower end gap retaining ring 21a or the lower end portion of the geotube 30 is fixed Wherein a concrete finishing cap made of a material is formed to prevent the concrete being poured from flowing out to the lower side of the ground.
12. The method of claim 11,
The work inner diameter d2 of the weathered rock layer 6 and the soft rock layer 7 when the cast pile is penetrated to the weathered rock layer 6 and the soft rock layer 7 under the soil layer 5, The lower end of the steel pipe casing 40 is frictionally supported on the upper end surface of the weatherproofing layer 6 by making the lower end of the steel pipe casing 40 frictionally supported by the inner surface of the weatherproofing layer 6 and the inner surface of the soft- And the geotube 30 extends along the inner surface of the weatherable layer 6 and the soft rock layer 7 to form a bottom end spacing ring 21a, And an inclined portion (92) is formed at a boundary between the soil layer (5) and the weatherproofing layer (6) so that the geotube (30) can be flexibly lowered downward. Construction method of cast - in - place concrete pile using geotube.

Images