KR101398687B1 - Micro pile with improved end bearing capacity and its construction methods thereof - Google Patents

Abstract

In the present invention, a stiffener in which an insertion tube is coupled to a front end of a microfiber is inserted into a perforation hole, a grout material is injected, and an insertion tube coupled to the stiffener by a foot and vibration is inserted into a slime And a method of constructing the microfiles. The microfiles have improved end bearing capacity for enhancing the tip end holding force of the microfiles by allowing the microfiles to penetrate through the loosened strata at the bottom thereof so as not to be relaxed at all.

Description

Technical Field [0001] The present invention relates to a micro pile having improved end bearing capacity and an improved end bearing capacity and its construction methods,

The present invention relates to a microfiller, and more particularly, to a microfiller, in which a reinforcing member having an insertion tube coupled to a leading end thereof is inserted into a perforation hole to inject a grout material, The insertion tube penetrates the slime formed in the lower portion of the perforation hole and the loosened support layer at the lower portion thereof so as to be penetrated into the rocky layer which is not relaxed at all, thereby improving the tip end supporting force of the micropile, ≪ / RTI >

In general, when constructing a structure on a small bearing capacity, the pile foundation method is used to prevent the settlement of the structure and to transfer the load of the structure to the supporting layer having a large bearing capacity, which is located deep from the ground surface. (micro pile) method.

In the micro pile method, a stiffener having a diameter of 50 to 75 mm is inserted into a perforation hole having a diameter of 300 mm or less in the form of a pile having a relatively small diameter as compared with a PHC pile or a steel pipe piling method, and the periphery of the reinforcing material is filled with grout material, This method is applied to a limited area or a narrow place where the entry of large equipment is impossible.

As shown in Fig. 1, the micro pile method is a method of inserting a casing 2 for perforating a perforation hole 1 and for preventing a perforation hole 1 of a soil layer from collapsing, assembling the perforation hole 3, Gravity grouting in the perforation hole 10 using the grouting hose, installing the anchor plate on the stiffener 3, and placing the foundation concrete in this order.

In the conventional micro pile installed by the above method, not only the sectional area of the reinforcing material is small but also the slime remains on the bottom of the perforation hole while the perforation hole is excavated by the excavation equipment, and the ground under the perforation hole is also loosened due to stress relaxation, The tip supporting force is small, so that most of the supporting force is exerted by frictional force at the main surface.

As a result, even if the microfiles are installed on the sand or rock layer where compression force acts on the microfiles or the microfiles can exhibit a large bearing capacity of the microfiles, the supporting force of the microfiles is determined by frictional forces, There is a problem that the construction cost is excessively increased due to the increase in the number.

In order to solve such a conventional problem, a micro pile having a leading end supporting round plate is registered in Korean Patent Registration No. 0666678 in order to strengthen a leading end supporting force of a micropile receiving a compressive force by joining a circular expansion plate to the tip of a reinforcing member.

However, even if the extension plate is attached to the end of the reinforcing material due to the slenderness of the bottom hole of the perforation hole caused by the drilling of the perforated hole and the strength of the lower ground caused by the loosening of the lower ground caused by the registered patent, the extension plate is placed on the slime, It is a problem that can not be strengthened.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a stiffener having a smaller diameter than a perforation hole inserted into a perforation hole of the stiffener, The insertion tube coupled to the tip penetrates the slime at the bottom of the perforation hole and the relaxed support layer at the lower portion thereof so as to be intruded into the large rock layer not relaxed at all so that the tip supporting force, And a method of constructing the same.

According to the present invention,

A stiffener;

A connecting member mounted on the end of the reinforcing member;

And an insertion tube which is fixed to the connecting member and penetrates a slender remaining on the bottom of the perforation hole and a relaxed support layer under the perforation hole to intrude into a rock layer having a large strength which is not relaxed at all, .

Further, according to the present invention,

Forming a micropile to which a connecting member is mounted on the end of the reinforcing member and to which the insertion tube is fixed to the connecting member;

Inserting a casing into the soil layer in order to prevent the collapse of the perforation hole in the soil layer;

Inserting a microfiber into the casing and the perforation hole;

Injecting the grout material in a gravity direction from the lower end to the upper end of the perforation hole;

A step of inserting an insertion tube fixed to a reinforcing member by applying a putter and vibration to a head of the microfilm so as to penetrate into an unstressed rock layer having a large unstrained lower portion under the perforation hole;

And a step of assembling anchor nut and anchor plate on the head of the micropile reinforcement and forming a foundation concrete by placing reinforcing steel reinforcement and concrete thereon.

According to the present invention, a stiffener having a diameter smaller than that of the perforation hole is inserted into the perforation hole, and then the insertion tube coupled to the end of the stiffener by the putter and vibration is inserted into the slime at the bottom of the perforation hole, It is possible to enhance the tip end supporting force of the micro pile by penetrating through the relaxed support layer and to penetrate into the large rock layer which is not relaxed at all. In addition, since the micro pile pulling due to the main surface friction acting on the insertion tube penetrated into the high- It is possible to have a stable and stable construction which improves the bearing capacity, and thus the construction cost can be reduced.

Fig. 1 is a view showing a construction process of a general micro-
2 is a perspective view of a microfilm of the present invention
FIG. 3 is a perspective view of another embodiment of the micro-
4 is a perspective view of another embodiment of the microfile according to the present invention.
5 is a cross-
Figure 6 is a cross-
Figure 7 is a cross-
Figs. 8 to 14 show the construction process of the present invention

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is a perspective view of a microfile of the present invention, FIG. 3 is a perspective view of another embodiment of the microfile of the present invention, and FIG. 4 is a perspective view of still another embodiment of the microfile of the present invention.

The microfiles 100, 100 'and 100' 'having enhanced tip end supporting force according to the present invention comprise a stiffener 110 and a connecting member 120 to be attached to an end of the stiffener 110, The slurry remaining on the bottom of the perforation hole 11 is penetrated through the relaxed support layer in the lower part of the perforation hole 11 and penetrated into the rock layer 11b having a high strength which is not relaxed at all, 130 ', 130' ', which will be described in more detail as follows.

The insertion tube 130 is formed with a diameter equal to or smaller than the diameter of the connecting member 120.

The insertion tube 130 'is formed to have a diameter larger than the diameter of the connecting member 120 and smaller than the diameter of the perforation hole 11 so as to receive the connecting member 120, The inner circumferential surface of the insertion tube 130 'is radially fixed by a plurality of stiffeners 131.

The insertion tube 130 is formed with a diameter larger than the diameter of the connection member 120 and smaller than the diameter of the perforation hole 11 while the connection plate 140 is fixed to the head, Is fixed to the bottom surface of the member (120).

The upper surface of the connecting plate 140 and the outer circumferential surface of the connecting member 120 are radially fixed by a plurality of stiffeners 150.

It is preferable that the insertion tube 130, 130 ', 130 "is formed to have a length of 0.5 to 3 times the diameter of the perforation hole 11.

Hereinafter, the construction and construction of the microfiles according to the present invention will be described.

5, a connecting member 120 is mounted on an end of a stiffener 110 formed to have a predetermined length. The connecting member 120 is fastened and fixed along a thread formed on the outer peripheral surface of the stiffener 110, Or the connecting member 120 mounted on the stiffener 110 and the stiffener 110 may be fixed by welding.

The micro pile 100 can be manufactured by fixing the insertion tube 130 having a diameter equal to or smaller than the diameter of the connecting member 120 to the connecting member 120. [

6, after the insertion tube 130 'having a diameter larger than the diameter of the connection member 120 and smaller than the diameter of the perforation hole 11 is coupled to the connection member 120, The micro pile 100 'can be manufactured by radially fixing the inner circumferential surface of the connecting member 130' and the outer circumferential surface of the connecting member 120 with the stiffener 131.

7, the diameter of the insertion tube 130 "and the diameter of the insertion tube 130 " are set at the head portion of the insertion tube 130 " which is larger than the diameter of the connecting member 120 and smaller than the diameter of the perforation hole 11. [ The microfiber 100 '' can be manufactured by fixing the connection plate 140 having the same diameter and fixing the connection plate 140 to the bottom surface of the connection member 120.

The upper surface of the connecting plate 140 and the outer circumferential surface of the connecting member 120 may be further fixed radially with a plurality of stiffeners 150. [

The stiffeners 131 and 150 may be formed to have a length equal to or shorter than the height of the connecting member 120 but may be formed to have a length greater than the height of the connecting member 120, Of the insertion tube 130 ''''''' by the intracavitary soil, So as to increase the clogging effect.

In order to embed the microfiles 100, 100 ', 100' 'fabricated in the above process into the ground 10, the microfiles 100, 100', 100 " The perforation hole 11 is formed by passing through the soil layer 11a of the ground 10 and penetrating to the rock layer 11b by drilling the ground 10 to be inserted with a drilling rig The casing 20 is inserted through the soil layer 11a to the upper end of the rock layer 11b to prevent the perforation hole 11 from collapsing from the soil layer 11a.

A slim is formed at the bottom of the perforation hole 11. The thickness of the slime is thicker as the depth of the perforation hole 11 is greater and the strength of the ground 10 is smaller, The area of weakened strength in the lower ground of the perforation hole 11 also varies depending on the type of supporting layer and becomes weak from the bottom of the perforated hole 11 to the area of three times the diameter of the perforated hole 11 in the weathered rock, The length of the insertion tube 130 (130 ') 130' 'of the micro pile 100 (100') 100 '' is longer than that of the perforation hole 11 ' ) Is 0.5 to 3 times as large as the diameter.

When the length of the insertion tube 130, 130 'or 130' 'is too short, the insertion tube 130, 130' or 130 '' is not loosened at all under the perforation hole 11, The insertion tube 130, 130 ', 130 (or 130') may not be pressurized by the insertion hole 11b and penetrate into the slime remaining in the perforation hole 11 or the loosened support layer therebelow, ) Is too long, the insertion tube 130 (130 ') 130' 'is inserted into the rock layer 11b having a large unexpanded strength under the perforation hole 11, 100 '' 100 '' are not adhered to the bottom of the perforation hole 11 and float in the perforation hole 11, so that the tip end supporting force can be reduced, which is uneconomical.

9, the micro piles 100, 100 'and 100' 'in which the stiffener 110 is connected to the perforation hole 11 and the casing 20 by a coupling (not shown) The insertion tubes 130, 130 ', 130 "of the microfiles 100, 100', 100" are placed at the bottom of the slime or perforation hole 11.

When the microfiles 100, 100 'and 100' 'are inserted into the perforation hole 11, an injection hose (not shown) is inserted into the perforation hole 11 through the casing 20, The grout material is gravity injected such that the grout material discharged into the injection hose is charged in the upper end direction from the lower end of the perforation hole 11, Quot;) 100 "to the space between the perforation hole 11 and the inner circumferential surface of the casing 20 to be filled.

11 to 12, when the staple and vibration are applied to the head of the stiffener 110 of the microfiles 100, 100 'and 100' ', the microfiles 100 and 100' The insertion tube 130, 130 ', 130 ' ' of the hole 100 "penetrates the loosened support beneath the perforation hole 11 and the slime remaining on the bottom of the perforation hole 11, It is intruded into the large rock layer 11b.

The stiffener 131 connecting the inner circumferential surface of the insertion tube 130 'and the outer circumferential surface of the connection member 120 and the stiffener 150 connecting the upper surface of the insertion tube 130 "and the outer circumferential surface of the connection member 120, 130 '' due to the deformation of the insertion tubes 130 'and 130' 'due to the increase of the effective friction area due to the frictional force between the insertion tubes 130' and 130 " The degree of compaction between the distal end of the insertion tube 130, 130 'and 130' and the surrounding ground becomes greater as the occlusion effect of the microfibers 100, 100 'and 100' The frictional force can be further increased.

When the grout material injected into the perforation hole 11 is cured, the anchor nut 30 (see FIG. 13) is attached to the head of the reinforcing material 110 of the micro pile 100 (100 ' The reinforcing bars are disposed on the ground 10 so as to accommodate the upper end of the micro pile 100, 100 ', 100' 'in a state where the anchor plate 31 and the anchor plate 31 are coupled to each other, So that the foundation concrete 40 can be formed.

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.

100,100 ', 100 ": Micro file
110: stiffener 120: connecting member
130,130 ': insertion tube 140: connection plate

Claims (12)

delete delete delete delete delete delete delete delete A connecting member is attached to the end of the reinforcing member and the connecting pipe is coupled to the connecting member with a diameter larger than the diameter of the connecting member and smaller than the diameter of the perforation hole and 0.5 to 3 times the diameter of the perforation hole, Forming a microfiber by radially fixing the outer circumferential surface of the connecting member with a stiffener;
Inserting a casing into the soil layer in order to prevent the collapse of the perforation hole in the soil layer;
Inserting a microfiber into the casing and the perforation hole;
Injecting the grout material in a gravity direction from the lower end to the upper end of the perforation hole;
A step of inserting an insertion tube fixed to a reinforcing member by applying a putter and vibration to a head of the microfilm so as to penetrate into an unstressed rock layer having a large unstrained lower portion under the perforation hole;
And forming a foundation concrete by joining an anchor nut and an anchor plate to a head portion of the micropile reinforcing member and casting reinforcing steel and concrete to form a foundation concrete.
A connecting member is attached to the end of the reinforcing member, and the insertion tube having a diameter larger than the diameter of the connecting member and smaller than the diameter of the perforation hole and 0.5 to 3 times the diameter of the perforation hole is formed, And fixing the connecting plate to the connecting member and radially fixing the upper surface of the connecting plate and the outer circumferential surface of the connecting member to the plurality of stiffeners to form a microfilm;
Inserting a casing into the soil layer in order to prevent the collapse of the perforation hole in the soil layer;
Inserting a microfiber into the casing and the perforation hole;
Injecting the grout material in a gravity direction from the lower end to the upper end of the perforation hole;
A step of inserting an insertion tube fixed to a reinforcing member by applying a putter and vibration to a head of the microfilm so as to penetrate into an unstressed rock layer having a large unstrained lower portion under the perforation hole;
And forming a foundation concrete by joining an anchor nut and an anchor plate to a head portion of the micropile reinforcing member and casting reinforcing steel and concrete to form a foundation concrete.
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