KR101398688B1 - Pressurized enhanced bearing micro file and and method of construction thereof - Google Patents

Abstract

The present invention relates to a method of manufacturing a steel pipe, which comprises a step of inserting a corrugated pipe and a reinforcing material into a casing installed in a perforation hole and a perforated hole, gravity injection of a primary grout material, The connecting member is closed and the space between the corrugated pipe and the perforation hole is closed by expanding the packer installed at the upper end of the corrugated pipe and the connecting member and then the secondary grout material is additionally injected through the grout injection hole provided in the cap, The present invention relates to a microfibre pressurized type microfiber having enhanced bearing capacity for maximizing frictional force between a ground and a microwave by allowing the grout material injected with tea to be impregnated into the ground, and a method of constructing the same.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pressurized microfiber with enhanced bearing capacity,

The present invention relates to a microfiller, and more particularly, to a microfiller in which a corrugated pipe and a stiffener are sequentially inserted into a casing provided in a perforation hole and a perforation hole, a primary grout material is gravity injected, And a packing member provided at an upper end of the corrugated pipe and the connecting member is expanded to seal a space between the corrugated pipe and the perforation hole. The present invention relates to a pressurized microfiber having enhanced supporting force for maximizing frictional force between a ground and a microwave by injecting a first grout material into the ground by further injecting a carrots material under pressure.

Generally, when constructing a structure where the ground condition is not good, the pile foundation method is used for the purpose of preventing the settlement of the structure by transferring the load of the structure to the support layer having a large supporting force. Especially, Or vibration occurring during construction is a problem, a micro pile method is used, which is smaller in diameter than a PHC file or a steel pipe file, as one of the pile foundation methods.

As shown in FIG. 1, the micro-pile method includes the steps of forming a perforation hole 1 and inserting a casing 2 in the soil layer to prevent the perforation hole 1 from collapsing, assembling the reinforcing material 3, ), Gravity grouting and anchor plate installation using grouting hose, and foundation concrete curing. In addition, since the support force is exerted by the frictional force of the main surface rather than the supporting force of the end, the construction effect is excellent in the sandy soil having higher frictional resistance than the clayey soil .

However, in the micro pile method, when forming the perforation hole 1, a casing should be installed in the perforation hole of the soil layer section in order to prevent the air wall from collapsing in the soil layer. This casing can be reused So that the construction cost is excessively increased.

In addition, since the friction between the casing and the soil is small, the frictional force between the ground and the grout is small, so that the frictional force between the ground and the ground is very small. As a result, There is a problem in that the support force of the support member is deteriorated.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional deficiencies, and it is an object of the present invention to provide a method of manufacturing a steel pipe, in which a primary grout material is gravity injected into a perforation hole provided with a corrugated pipe and a reinforcing material, A grout material firstly injected by a secondary grout material injected under pressure in a state in which the space between the corrugated pipe and the perforated hole is expanded by expanding the packer member coupled to the upper end portion of the corrugated pipe, The present invention provides a microfibre which is reinforced with a bearing force to maximize the frictional force between the grout material and the ground by permeating into the ground through the through holes and permeating back to the ground at the upper end of the corrugated pipe while being backwashed between the corrugated pipe and the perforated hole, .

It is a further object of the present invention to provide a pneumatic trough structure in which a corrugated pipe having a diameter smaller than that of the casing is provided in the perforation hole of the toe layer section in which the casing is inserted, The microfiles can be more stably installed, and the casing can be reused, thereby reducing the construction cost, and a method of constructing the microfiles.

According to the present invention,

A corrugated pipe inserted into a perforation hole drilled in the ground;

A reinforcing member which is inserted into the bellows pipe and the perforation hole to be seated on the rock layer;

A packing member mounted on the connecting member fixed to the corrugated pipe and the corrugated pipe to seal a space between the corrugated pipe and the perforated hole;

And a cap which is connected to the reinforcing member and closes the corrugated pipe and the connecting member, then injects the expanding injection material into the packing unit, and supplies the grout material to the corrugated pipe in a pressure manner.

According to another aspect of the present invention,

Inserting a casing into the perforation hole by drilling the ground where the microfiles are to be installed with a drilling rig;

A supporting member which is seated on the ground so that the packer portion is positioned at the upper end of the perforation hole is inserted into the corrugated pipe and the projection of the connecting member fixed to the corrugated pipe while inserting the corrugated pipe to which the connecting member having the packer- ;

Inserting a reinforcing member into the connecting member and the corrugated pipe and the perforation hole supported by the supporting member so that the front end of the reinforcing member is seated on the bottom layer under the perforation hole;

Injecting a primary grout material gravity into the connecting member, the corrugated pipe and the perforation hole using an injection hose;

Closing the corrugated pipe and the connecting member while coupling the cap to the upper end of the reinforcing member;

Withdrawing the casing inserted into the perforation hole after releasing the support member from the projections of the corrugated pipe and the connecting member;

Injecting an expanding injection material into the packer part through the cap to expand the packer member to seal the space between the corrugated pipe and the perforation hole;

The second grout material is pressure-injected into the corrugated pipe through the cap by pressure so that the grout material injected first penetrates into the rock layer beneath the perforation hole or flows backward through the corrugated pipe and the perforation hole, ;

And separating the cap from the corrugated pipe and the connecting member after the grout material is solidified and forming the base concrete by placing the reinforcing steel reinforcement and the concrete in a state where the anchor nut and the anchor plate are joined to the reinforcing material .

According to the present invention, a primary grout material is gravity injected into a perforation hole in which a corrugated pipe and a reinforcing material are arranged in order, a cap is fastened to the upper end of the reinforcing material to close the corrugated pipe, The grout material firstly injected by the second grout material injected by the pressure type in a state where the space between the hole and the perforation hole is closed is penetrated into the ground through a plurality of through holes formed radially in the corrugated pipe, Thereby maximizing the frictional force between the grout material and the ground. Thus, it is possible to improve the supporting force of the micro pile and to make the construction more stable and stable, thereby enhancing the reliability of the micro pile .

According to the present invention, a corrugated pipe having a diameter smaller than that of the casing is provided in the perforation hole into which the casing is inserted, so that even though the primary grout material is gravity injected into the corrugated pipe and then the casing is recovered, It is possible to prevent the collapse of the microfiles, so that the microfiles can be installed more stably and the construction cost can be reduced by recycling the drawn casing.

According to the present invention, in order to prevent the pore holes of the perforated hole from being collapsed in the soil layer, instead of a casing having a smooth outer periphery, protrusions are formed on the outer circumferential surface to use a corrugated pipe having a large roughness. And the grout material is filled between the ground and the corrugated pipe, the adhesion force between the grout material and the corrugated pipe is increased, so that it is possible to have an advantage that the supporting force of the micro pile can be improved more than when the casing is used.

Fig. 1 is a view showing a construction process of a general micro-
2 is a perspective view of a first embodiment of the present invention.
Figure 3 is a cross-
4 is a perspective view of a second embodiment of the present invention.
5 is a cross-
6 is a perspective view of a third embodiment of the present invention.
Figure 7 is a cross-
8 is a perspective view of the fourth embodiment of the present invention
Figure 9 is a cross-
10 to 16 are diagrams showing the construction and extent of the present invention,
14A shows the construction and the degree of construction of the first embodiment,
Fig. 14B shows the degree of construction of the second embodiment,
FIG. 14C shows the construction and extent of the third embodiment,
FIG. 14D shows the construction and degree of the fourth embodiment.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 2 is a perspective view of a first embodiment of the present invention, Fig. 3 is a sectional view of Fig. 2, Fig. 4 is a perspective view of a second embodiment of the present invention, Fig. 5 is a sectional view of Fig. Fig. 7 is a cross-sectional view of Fig. 6, Fig. 8 is a perspective view of the fourth embodiment of the present invention, and Fig. 9 is a cross-sectional view of Fig.

The present invention provides a pressurized micro pile 100 with enhanced bearing capacity which comprises a corrugated pipe 120 to be inserted into a perforated hole 110 formed in a ground 10, A reinforcing member 130 that is seated on the rock layer while being inserted into the hole 120 and is installed on the connection member 120 'fixed to the bellows pipe 120 and the bellows pipe 120, The packing member 140 and the packing member 140 are connected to the reinforcing member 130 to close the corrugated pipe 120 and the connecting member 120 ' And a cap 150 for injecting the grout material into the bellows pipe 120 by pressure, and will be described in more detail as follows.

The packer unit 140 includes a through hole 141 penetrating the upper end of the bell pipe 120 and a packer member 142 mounted on the bell pipe 120 to receive the through hole 141, And a fixing member 143 for fixing the packer member 142 to the corrugated pipe 120.

The packing member 140 'includes a through hole 144 penetrating through the connecting member 120' and a packer member 142 mounted on the connecting member 120 'to receive the through hole 144' And a fixing member 143 for fixing the packer member 142 to the connecting member 143. [

The cap 150 has a protrusion 151 'fixed to the corrugated pipe 120 and the protrusions 122 and 122' of the connecting member 120 'while fastening holes 152 are fastened to the stiffener 130 A packer supply hole 153 penetrating the upper surface of the fastening cap body 151 to supply the expanding injection material 142 'to the packer member 142 of the packer unit 140, And a wrinkle supply hole 154 penetrating the upper surface of the fastening cap body 151 to supply a secondary grout material to the corrugated pipe 120.

The cap 150 'has protrusions 155' which are fixed to the corrugated pipe 120 and the protrusions 122 and 122 'of the connecting member 120' while the engaging holes 156 are coupled to the stiffener 130. And a packer supply hole 153 for passing the expanding injection material 142 'through the packing member 142 of the packer unit 140 on the upper surface of the finishing cap body 155 And a wrinkle supply hole 154 penetrating the upper surface of the finishing cap body 155 to supply a secondary grout material to the corrugated pipe 120.

The fastening cap member 155 may further include a fastening finishing member 157 fastened to the stiffener 130 to fasten the finishing cap body 155 to the stiffener 130 and fastened to the threads formed on the outer circumferential surface of the fastening hole 156.

The grout material is permeated into the ground layer 10 outside the corrugated pipe 120 while being permeated into the rock layer below the perforation hole 110 or flowing backward between the perforation hole 110 and the corrugated pipe 120.

And further includes a plurality of through holes 121 radially penetrating the outer circumferential surface of the corrugated pipe 120 while being spaced apart from the outer circumferential surface of the corrugated pipe 120 so that the grout material can be easily penetrated into the ground 10.

Hereinafter, a construction process of the present invention will be described.

The packing member 140 is formed at the upper end of the corrugated pipe 120 inserted into the perforation hole 110 for the installation of the microfilm 100. The packing member 140 is inserted into the upper end of the corrugated pipe 120 The packing member 142 is fixed by the fixing member 143 while being mounted on the outer peripheral surface of the bellows pipe 120 so as to receive the through-

The packing member 140 'formed at the upper end of the corrugated pipe 120 is mounted on the outer circumferential surface of the connecting member 120' so as to receive the through hole 144 penetrating through the connecting member 120 ' And the end of the connecting member 120 'is tightly fixed to the upper end of the bellows pipe 120. The connecting member 120' may be in close contact with the outer circumferential surface of the bellows pipe 120, , It is preferable that the connecting member 120 'and the bellows pipe 120 are attached by an adhesive member so that they are not opened by the grout material which is closely contacted to the inner circumferential surface and injected by pressure.

Here, the packer member 142 is folded or formed of elastic material so as to be expanded by the expandable injection material 142 'such as air and liquid or mortar.

When the packing member 120 formed with the packer unit 140 at the upper end of the bellows pipe 120 or the packer unit 140 'is fixed to the bellows pipe 120, The perforation hole 110 is drilled in the ground 10 to be installed on the ground 100 and the casing 111 is inserted into the perforation hole 110. The casing 111 is preferably inserted only in the soil layer section Do.

As shown in FIG. 11, when the casing 111 is inserted into the perforation hole 110, a connecting member 120 'having a corrugated pipe 120 and a packer part 140' formed with a packer part 140 The corrugated pipe 120 is inserted into the casing 111 until the packing parts 140 and 140 'are positioned at the upper end of the perforation hole 110. The corrugated pipe 120 is inserted into the casing 111,

When the packer units 140 and 140 'are positioned at the upper end of the perforation hole 110, the upper ends of the corrugated pipe 120 and the connecting member 120' at the upper end of the packer units 140 and 140 ' The supporting member 123 is coupled to the protrusions 122 and 122 'and the supporting member 123 is mounted on the ground 10 and the corrugated pipe 120 and the connecting member 120' Is fixed in a fixed position without moving into the casing 110. [

12, the stiffener 130 is inserted into the bellows pipe 120 so that the front end of the stiffener 130 is seated on the rock layer beneath the bore hole 110, It may be installed so as to be penetrated into the rock bed.

Here, the casing 111 and the stiffener 130 may be connected by a coupling (not shown), which is a conventional method, according to the depth of the perforation hole 110.

When the tip of the stiffener 130 is seated on the rock layer below the perforation hole 110, the injection hose H is positioned at the lower end of the perforation hole 110 through the corrugated pipe 120 as shown in FIG. The grout material is filled from the lower end of the perforation hole 110 to the upper end of the perforation hole 120 in the upper end direction Thereafter, the injection hose H is recovered from the corrugated pipe 120 and released.

14A to 14B, when the injection hose H is separated from the bellows pipe 120, the fastening hole 152 is fastened to the stiffener 130 and the cap 150 is fastened to the stiffener 130 The protrusions 151 'of the fastening cap body 151 are fixed to the protrusions 122 and 122' protruding from the corrugated pipe 120 and the connecting member 120 ' ) Close the inside of the corrugated pipe 120 and the connecting member 120 '.

At this time, the protrusions 151 'of the fastening cap body 151 and the protrusions 122 and 122' of the bellows pipe 120 and the connecting member 120 'may be formed into a streamlined thread and a hook type And fastened and fixed according to the formed shape.

14C to 14D, when the coupling hole 156 is coupled to the stiffener 130 and the cap 150 'descends along the outer peripheral surface of the stiffener 130, The projection 155 'is fixed to the corrugated pipe 120 and the protrusions 122 and 122' protruding from the connecting member 120 'so that the finishing cap body 155 is connected to the corrugated pipe 120 and the connecting member 120' Lt; / RTI >

At this time, the protrusions 155 'of the finishing cap body 155, the corrugated pipes 120 and the protrusions 122' of the connecting member 120 'may be formed of hook type and streamlined threads, And is fixed and fastened according to the shape.

The fastening member 157 is fastened to the stiffener 130 to fasten the cap 150 'that closes the bellows pipe 120 and the connecting member 120' to the stiffener 130, The cap 150 'is fixed to the stiffener 130 by being fastened to the threaded portion formed on the outer circumferential surface of the fastening hole 156 while descending along the outer circumferential surface of the stiffener 130.

The movement guide members 150 and 150 'coupled to the through holes 141 and 144 of the packer units 140 and 140' before closing the corrugated pipe 120 and the connecting member 120 ' 141 'must be coupled to the packer supply holes 153 of the caps 150 and 150', and the movement guide members 141 'coupled to the packer supply holes 153 of the caps 150 are connected to the stiffeners 130 The cap 150 is rotated in the opposite direction to the rotation of the cap 150 and then the cap 150 is rotated in the stiffener 130 so that the rotated movement guide member 141 ' The kink of the member 141 'should be minimized.

When the caps 150 and 150 'are coupled to the stiffener 130 in the above-described manner, the supporting members supporting the corrugated pipe 120 and the protrusions 122 and 122' of the connecting member 120 ' 123 are removed from the protrusions 122 and 122 'and then the casing 111 inserted into the perforation hole 110 is pulled out by using hydraulic equipment (not shown).

The connection member 120 (120) fixed to the bellows pipe 120 and the bellows pipe 120 may be connected to the bellows pipe 120 even though the supporting member 123 is separated from the bellows pipe 120 and the protrusions 122 and 122 ' 'Are connected to the reinforcing member 130 through the caps 150 and 150' so that the corrugated pipe 120 and the connecting member 120 'do not move under the perforation hole 110 due to their own weight.

When the casing 111 is pulled out from the perforation hole 110, the packer member 142 is extended through the packer supply hole 153 of the cap 150 (150 ') coupled with the movement guide member 141' The space between the corrugated pipe 120 and the perforation hole 110 and the space between the connection member 120 'and the perforation hole 142' are formed by the expanded packer member 142 by allowing the packing member 142 ' And the secondary grout material is supplied to the corrugated pipe 120 through the corrugated supply holes 154 of the caps 150 and 150 'under the pressure.

The grout material injected into the wrinkle supply hole 154 is injected at a high pressure of 15 kg / cm 2 or more so that the primary grout material first injected into the wrinkle pipe 120 is infiltrated into the ground 10 of the wall portion of the perforation hole 110.

The grout material flows back into the corrugated pipe 120 and the perforation hole 110 as well as penetrates into the perforation hole 110 and the ground 10 at the upper end. A plurality of through holes 121 may be radially formed at a predetermined distance from the outer circumferential surface of the bellows pipe 120 so as to facilitate penetration.

The grout material flowing backward between the corrugated pipe 120 and the perforation hole 110 is inserted into the packing member 120 of the packing member 140 or 140 'which is hermetically sealed between the corrugated pipe 120 and the connecting member 120' The backflow of the ground 10 is suppressed and the grout material penetrates into the gap of the ground 10 and the frictional force of the soil 10 constituting the microfiber 100 and the soil 10 can be improved .

When the grout material injected into the bellows pipe 120 is solidified, the bellows 120 and the connecting member 120 'are separated from the cap 150 and 150', as shown in FIG. The anchor nut 20 and the anchor plate 30 are coupled to the stiffener 130 so that the upper end of the stiffener 130 can be received in the ground 10 as shown in FIG. After the mold is installed and reinforced steel is laid, concrete can be laid and cured to form the foundation concrete 40.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting in any ordinary or prejudicial sense. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100: Micro file 110: Perforation hole
120: corrugated pipe 130: stiffener
140,140 ': Packer part 150,150': Cap

Claims (15)

A corrugated pipe inserted into a perforation hole drilled in the ground;
A reinforcing member which is inserted into the bellows pipe and the perforation hole to be seated on the rock layer;
A packing member mounted on the connecting member fixed to the corrugated pipe and the corrugated pipe to seal a space between the corrugated pipe and the perforated hole;
A packing cap body having protrusions fixed to protrusions of the corrugated pipe and the connecting member while being fastened to the reinforcing member, and a packer supply hole penetrating the packing cap body to supply the expanding packing material to the packing member of the packing unit, And a cap having a wrinkle supply hole penetrating the upper surface of the fastening cap body to supply a secondary grout material to the wrinkle pipe.
A corrugated pipe inserted into a perforation hole drilled in the ground;
A reinforcing member which is inserted into the bellows pipe and the perforation hole to be seated on the rock layer;
A packing member mounted on the connecting member fixed to the corrugated pipe and the corrugated pipe to seal a space between the corrugated pipe and the perforated hole;
A finishing cap body having protrusions fixed to protrusions of the corrugated pipe and the connecting member while the engaging holes are coupled to the reinforcing member, and a packer supply hole penetrating the upper surface of the finishing cap body to supply the expanding injection material to the packer member of the packer unit is provided And a wrinkle supply hole penetrating the upper surface of the finishing cap body to supply a secondary grout material to the corrugated pipe. The finishing cap body is fastened to the stiffener by fastening a fastening member And a cap provided on the cap.
The packer according to claim 1 or 2,
A through hole penetrating the upper end of the bellows;
A packer member mounted to the corrugated pipe to receive the through hole;
And a fixing member for fixing the packer member to the corrugated pipe.
The packer according to claim 1 or 2,
A through hole penetrating the connecting member;
A packer member mounted on the connecting member to receive the through hole;
And a fixing member for fixing the packer member to the connecting member.
delete delete The method according to claim 1 or 2,
Wherein the grout material penetrates into the rock layer below the perforation hole or flows into the ground outside the corrugated pipe while flowing backward between the perforation hole and the corrugated pipe.
The method according to claim 1 or 2,
Further comprising a plurality of through holes formed in the outer circumferential surface of the corrugated pipe so as to be radially penetrated while spaced apart from the outer circumferential surface of the corrugated pipe at a predetermined distance so that the grout material can be easily penetrated into the ground.
Inserting a casing into the perforation hole by drilling the ground where the microfiles are to be installed with a drilling rig;
A supporting member which is seated on the ground so that the packer portion is located at the upper end of the perforation hole is inserted into the corrugated pipe and the projection of the connecting member fixed to the corrugated pipe while inserting the corrugated pipe to which the connecting member, ;
Inserting a reinforcing member into the connecting member and the corrugated pipe and the perforation hole supported by the supporting member so that the front end of the reinforcing member is seated on the bottom layer under the perforation hole;
Injecting a primary grout material gravity into the connecting member, the corrugated pipe and the perforation hole using an injection hose;
Closing the corrugated pipe and the connecting member while coupling the cap to the upper end of the reinforcing member;
Withdrawing the casing inserted into the perforation hole after releasing the support member from the projections of the corrugated pipe and the connecting member;
Injecting expanding injection material into the packer part through the cap to seal the space between the corrugated pipe and the perforation hole while expanding the packer member;
The second grout material is pressure-injected into the corrugated pipe through the cap by pressure so that the grout material injected first penetrates into the rock layer beneath the perforation hole or flows backward through the corrugated pipe and the perforation hole, ;
And separating the cap from the corrugated pipe and the connecting member after the grout material is solidified, and forming the base concrete by placing the reinforcing steel reinforcement and the concrete in a state where the anchor nut and the anchor plate are joined to the reinforcing material. A method of constructing the reinforced micro pile.
[12] The apparatus of claim 9,
A through hole penetrating the upper end of the bellows;
A packer member surrounding the outer circumferential surface of the corrugated tube to receive the through-hole;
And a fixing member for fixing the packer member to the corrugated pipe.
[12] The apparatus of claim 9,
A connecting member fixedly mounted on an upper end of the bellows pipe and having a through hole penetrated therethrough;
A packing member surrounding the outer circumferential surface of the connecting member to receive the through hole of the connecting member;
And a fixing member for fixing the packer member to the connecting member.
10. The cap according to claim 9,
A fastening cap body having a boss and a protrusion fixed to the boss of the connecting member while the fastening hole is fastened to the stiffener;
A packer supply hole penetrating the upper surface of the fastening cap body to supply the expanding injection material to the packer member of the packer portion;
And a wrinkle supply hole penetrating the upper surface of the fastening cap body to supply the grout material with a corrugated pipe.
10. The cap according to claim 9,
A finishing cap body having protrusions fixed to the protrusions of the corrugated pipe and the connecting member while being coupled to the reinforcing member;
A packer supply hole penetrating the upper surface of the finishing cap body to supply the expanding injection material to the packer member of the packer unit;
And a wrinkle supply hole penetrating the upper surface of the finishing cap body to supply the grout material with a corrugated pipe.
14. The method of claim 13,
Further comprising: a fastening finishing member fastened to the stiffener to fasten the finishing cap body to the stiffener and fastened to a thread formed on an outer circumferential surface of the fastening cap.
The method of claim 9,
Further comprising a plurality of penetrating holes radially penetrating the outer circumferential surface of the corrugated tube to allow the grout material to be easily penetrated into the ground.

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