KR20090028025A - Micro-pile method - Google Patents

Abstract

A micro-pile construction method is provided to shorten the length of micro-pile as the grout material is injected into the micro-pile pipe and core is established. A micro-pile construction method comprises following steps: a step of excavating the ground(100) by the excavating apparatus and forming a perforation hole(102); a step of spraying the high pressure grout material in the perforation hole neighboring underground and setting up the underground pile(110); a step of setting up the micro-pile pipe(120) in the perforation hole; a step of injecting the grout material and setting up the core after a beam(130) is inserted inside the micro-pile pipe.

Description

Micro File Method {MICRO-PILE METHOD}

The present invention relates to a method for constructing a foundation structure in the field of civil engineering, and more particularly, to a micro file method using a small diameter micropile and high pressure spray grouting.

The micro pile method means a small-diameter pile (generally 300 mm in diameter or less), and a conventional micro pile secures a supporting force as a foundation structure by a main surface friction force rather than a tip bearing force of the pile body. The micro pile according to this method has the advantage that the pile body can support a relatively large load, while taking up less space during construction, it is mainly applied to the conditions that can not enter large equipment due to space constraints.

1 is a configuration diagram for explaining a conventional micro pile method.

As shown, the micro pile pipe 10 is basically installed in the drilling hole 1 of the foundation ground, and the pile chain rod 20 is inserted into the micro pile pipe 10 and the grout material ( By curing 30), the micro pile MP is constructed.

The foundation ground can be divided into a soil layer (2) composed of clay, sand, etc., and a rock layer (3) composed of rock. If the micro pile pipe (10) is not present, the perforation hole (1) is collapsed and the rod ( 20) is difficult to insert, and the grout material 30 may be difficult to be injected. In this case, the adhesion force with the rock layer 3 to determine the bearing capacity of the pile is reduced. Therefore, the micro pile pipe 10 has a configuration in which only the soil layer 2 is located.

The section in which the micropile 20 enters the soil layer 2 (the section from the ground surface to the line aa) is called a free field on the premise that it cannot exert strength, and the section (under the line aa) entered the rock layer 3 It is called anchorage under the premise of exerting its actual strength as a basic structure.

Since it is the rock layer 3 that has the strength that can withstand the load of the upper part, in order to ensure the stability of the structure as a whole, it is required that the lower end of the micro pile MP is recessed to a predetermined depth of the rock layer 3.

By the way, when the depth of the soil layer 2 is excessive according to the property of the foundation ground, the depth depth of the micro pile MP becomes excessive in order to ensure the depth of the fixing field. This requires precise scrutiny of structural stability such as thin equipment and buckling, and there is an urgent need for a solution to solve this problem.

The present invention has been made to solve the above problems, the object of the present invention is to provide a micro pile method capable of shortening the depth depth of the micro pile while retaining sufficient strength as a basic structure.

The present invention is an excavation step of forming a drilling hole by excavating the ground by the excavation device to achieve the object as described above; An underground pile building step of constructing an underground pile by spraying grout material at high pressure in the ground around the perforation hole; A micro pile tube installation step of installing a micro pile tube in the drilling hole; The micro pile method includes inserting a rod into the inside of the micro pile tube and injecting grout material to construct a shim.

The underground pile building step may proceed simultaneously with the excavation step.

The grout material injection pressure in the underground pile construction step is preferably higher than the grout material injection pressure in the shim construction step.

The excavation step is made by an excavation device equipped with an excavation bit at the tip; The underground pile building step may be performed by injecting the grout material from the grout material injection nozzle formed in the periphery of the drilling device.

The micro pile pipe installation step may be performed simultaneously with the underground pile building step.

The length of the rod may be approximately equal to the depth of the perforation hole.

The perforation hole may be formed deeper than the length of the micro pile tube.

The perforation hole is formed over the soil layer to the rock layer, the underground pile may be built up to the soil layer.

The method may further include a high pressure water injection step which is performed before the excavation step and injects the high pressure water toward the drilling direction.

The excavation step is made by an excavation device equipped with an excavation bit at the tip; The high pressure water spraying step may be performed by spraying high pressure water from a high pressure water spray nozzle formed in the core portion of the drilling bit.

The excavation step is made by an excavation device equipped with an excavation bit at the tip; The high pressure water spraying step may be performed by spraying high pressure water from a high pressure water spray nozzle formed in the periphery of the drilling bit.

The present invention provides a micro pile method capable of shortening the length of a micro pile while maintaining sufficient strength as a foundation structure.

In addition, the present invention provides a micro pile method that can ensure the structural stability by making the uniformity of the underground pile constant.

2 is a configuration diagram for explaining the micro pile method according to the present invention, Figures 3 to 5 are schematic diagrams for explaining the micro pile method according to the present invention.

As shown, the micro pile method according to the present invention basically, excavating the ground (100) by the excavation device 150 to form a drilling hole 102 (Figs. 3 and 4); Ground pile construction step of constructing the ground pile 110 by spraying the grout material (a) (hereinafter referred to as ground pile grout material for convenience of understanding) to the ground around the drilling hole 102 (FIGS. 3 and 4). ); A micro pile tube installation step of installing the micro pile tube 120 in the drilling hole 102 (FIG. 4); Inserting the rod 130 into the micro pile tube 120, the seam building step of building the seam by injecting grout material (b) (hereinafter referred to as seam building grout material for convenience of understanding).

Therefore, the underground pile 110 is constructed in close contact with the micro pile tube 120 and the micro pile MP, which is a core structure, so that the underground pile 110 can play a role as a rock. It is possible not only to secure the basic support force due to the main surface frictional force of MP), but also to the front support force of the underground pile 110 as the basic support force.

Since the strength of the construction depth length of the micro pile MP is strengthened than before, the depth depth of the micro pile MP can be made shorter than before, and the structural stability can be secured.

Hereinafter, with reference to the accompanying drawings will be described a specific embodiment of the micro pile method according to the present invention.

The excavation step may be used in any manner, but it is preferable to be made by the excavation device 150 is equipped with the excavation bit 152 on the tip in terms of the efficiency of the work.

The drilling bit 152 may use a rotary bit, a blow bit, or any other method.

The drilling bit 152 may be configured to pass through the micro pile tube 120 so that it is easy to retreat from the drilling hole 102 through the micro pile tube 120 after completion of the drilling hole 102 formation. Of course, if the drilling bit 152 retreats from the drilling hole 102 and proceeds with the micro pile pipe installation step, the drilling bit 152 may be configured regardless of the size and structure of the micro pile pipe 120. Do.

The drilling hole 102 may be formed only in the soil layer 100A in consideration of the characteristics of the ground, the depth of the soil layer, the size of the soil pile 110, etc., because the ground pile 110 plays a role of rock. It may be formed up to the rock layer (100B). If the perforation hole 102 is formed up to the rock layer 100B, the micro pile MP may be constructed more firmly and may be preferable in terms of bearing capacity.

The underground pile construction step is preferably to take the method of spraying the underground pile grout material (a) toward the wall surface of the drilling hole 102 formed by the above excavation step. Then, the underground pile 110 can be constructed around the drilling hole 102 while maintaining the drilling hole 102, and does not interfere with the excavation work by the drilling bit 152.

Underground pile construction step may also be made by a separate device from the above excavation device 150, a grout material injection nozzle 154 formed on the periphery of the excavation device 150, from the high pressure underground pile grout material In the case where (a) is to be sprayed, it is preferable in view of the fact that the above excavation step and the underground pile construction step can be substantially at the same time.

The injection pressure of the ground pile grout material (a) may be appropriately determined in consideration of the ground characteristics, the depth of the soil layer, the size of the ground pile 110, and the like. The ground pile grout material (a) is required for the ground around the perforation hole 102. It is sufficient to form in diameter.

The underground pile 110 may be built up to the rock layer 100B together with the perforation hole 102, but since the rock layer 100B is hard, it is difficult to build the underground pile 110 up to the rock layer 100B and the support characteristic effect is large. Since it is not improved, it is preferable to construct only the soil layer 100A having weak ground.

The micro pile pipe installation step may proceed after the completion of the excavation step and the underground file construction step, but it is possible to maintain the underground file 110 until the underground file 110 is firm, underground file 110 And the micro pile (MP) behaves as an integral structure to increase the structural stability, and the overall construction time can be shortened, it is desirable to be substantially at the same time as the above underground pile construction step.

Although the length of the micro pile pipe 120 and the depth of the drilling hole 102 may be substantially the same, since the micro pile pipe 120 may be provided only up to the soil layer 100A, the drilling hole 102 is the rock layer 100B. If formed up to, the drill hole 102 is preferably formed deeper than the length of the micro pile tube (120).

In order to more easily discharge the slime generated by the insertion and excavation of the micro pile tube 120, the micro pile tube 120 may be inserted while being rotated. However, when the drilling bit 152 is a rotary bit, if the rotary bit and the rotation direction of the micro pile pipe 120 are the same, a zamming may occur in the perforation part to reduce the excavation speed. Can be. Therefore, it is preferable that the direction of rotation of the drilling bit 152 and the direction of rotation of the micro pile pipe 120 be opposite to each other.

The seam construction step, after the above excavation step, underground pile construction step, and the micro pile pipe installation step is completed, the drilling apparatus 150 is retracted from the drilling hole 102 to empty the inside of the micro pile pipe 120 Proceed from the state.

The length of the rod 130 may be shorter than the depth of the drilling hole 102, but in that the installation of the rod 130 is easy, the micro pile MP may be further strengthened, so that the drilling hole 102 may be further strengthened. It is preferred to be approximately equal to the depth of.

If the seam building grout material (b) is injected before the rod 130 is inserted, or if the seam building grout material (b) is injected at the same time as the rod 130 is inserted, it is difficult to insert the rod 130 and the rod 130 is removed. Since it is difficult to accurately position, the injection of the seam building grout material (b) is preferably carried out after the rod 130 is inserted.

Unlike the above pile pile construction step, since the shim construction grout member (b) only needs to be cured in the micro pile tube 120, the injection pressure of the shim construction grout member (b) is the ground pile grout member (a) injection pressure. Can be smaller than.

On the other hand, before the excavation step, the high-pressure water injection step of spraying the high pressure water (w) toward the drilling direction may be performed.

Then, before the excavation and spraying of the ground pile grout material (a), the high pressure water (w) is sprayed on the ground 100 in advance to weaken the cohesive force of the ground 100 or perform preliminary excavation. The rate of excavation can be kept constant.

This allows the spraying of the ground pile grout material (a) to be uniformly spread over all areas of the drilling hole 102 during the spraying operation of the ground pile grout material (a), thereby improving the uniformity of the ground pile 110 formed by grouting. It can be made constant, and eventually to obtain the effect of ensuring the structural stability of the underground pile 110 and the structure constructed on the basis.

The high pressure water spraying step may be performed by a separate device from the above drilling device 150, but the high pressure water spray nozzle 156 is formed in the core (or peripheral portion) of the drilling bit 152, from the high pressure In the case of taking the configuration in which the water w is injected, it is preferable in view of the fact that preliminary excavation by the high pressure water w injection and the main excavation by the excavation bit 152 can be performed at the same time.

On the other hand, in order to take the configuration in which the high-pressure water injection nozzle 156 is formed in the core of the drilling bit 152, it is more preferable in view of the ease of equipment implementation that the drilling bit 152 takes the configuration of the rotary bit.

Since the above is only described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known is not to be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1 is a configuration diagram for explaining a conventional micro pile method.

2 is a configuration diagram for explaining the micro pile method according to the present invention.

3 to 5 are schematic views for explaining the micro pile method according to the present invention.

** Description of the symbols on the main parts of the drawings **

a: underground pile grout b: shim construction grout

w: high pressure water 100: ground

100A: Soil layer 100B: Rock layer

102: drilled hole 110: underground file

120: micro file tube 130: rod

150: drilling device 152: drilling bit

154: nozzle for spraying grout material 156: nozzle for spraying high pressure water

Claims (11)

An excavation step of excavating the ground by an excavation device to form a drill hole; An underground pile building step of constructing an underground pile by spraying grout material at high pressure in the ground around the perforation hole; A micro pile tube installation step of installing a micro pile tube in the drilling hole; And a seam construction step of inserting a rod into the inside of the micro pile pipe and injecting grout material to build a seam. The method according to claim 1, The underground pile construction step is performed at the same time as the excavation step. The method according to claim 1 or 2, The grout material injection pressure in the underground pile construction step is higher than the grout material injection pressure in the shim construction step. The method according to claim 1 or 2, The excavation step is made by an excavation device equipped with an excavation bit at the tip; And the underground pile construction step is performed by spraying grout material from a grout material spray nozzle formed on the periphery of the drilling device. The method according to claim 1 or 2, The micro file tube installation step is performed simultaneously with the underground file construction step. The method according to claim 1 or 2, The length of the rod is approximately equal to the depth of the perforation hole. The method according to claim 1 or 2, And the drilling hole is formed deeper than the length of the micro pile tube. The method according to claim 1 or 2, The perforation hole is formed over the soil layer to the rock layer, the underground pile is a micro pile method that is built up to the soil layer. The method according to claim 1 or 2, Before the excavation step, the micro pile method further comprises a high-pressure water injection step for injecting high-pressure water toward the drilling direction. The method according to claim 9, The excavation step is made by an excavation device equipped with an excavation bit at the tip; Wherein the high-pressure water spraying step is a micro-pile method formed by spraying high-pressure water from the high-pressure water jet nozzle formed in the core of the drilling bit. The method according to claim 9, The excavation step is made by an excavation device equipped with an excavation bit at the tip; The high pressure water spraying step is a micro-pile method made by injecting high pressure water from the high pressure water spray nozzle formed in the periphery of the drilling bit.

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