KR20100024861A - Boring casings pipe for micro-pile with connector - Google Patents

Abstract

PURPOSE: A micro-pile hole casing pipe with a connector is provided to reduce construction costs by making a pressing and drawing processes smooth. CONSTITUTION: A micro-pile hole casing pipe with a connector comprises a casing pipe(100), a joint pin(200), and a connector(300). The casing pipe is inserted in a boring hole in the micro pile construction. The joint pin is projected from the one side of the casing pipe to outside. The connector is integrally formed on the upper end of the casing pipe. The joint pin of the casing pipe is inserted to the connector.

Description

Boring casings pipe for micro-pile with connector

The present invention relates to a micro-pile perforated casing pipe with a connector, and more particularly, to prevent the collapse of the ground when forming the perforated hole according to the construction of the micro-pile for ground reinforcement, soft ground reinforcement, order effect Fastening pins are formed at one end of the casing pipe to allow high quality micro pile construction, and when the casing pipes inserted into the drilling holes are extended, the fastening pins formed at the bottom of the casing pipe can be easily fitted without welding. By forming the connector integrally with the casing pipe, the present invention relates to a micro-pile perforated casing pipe provided with a connector that has a shorter construction time and excellent workability.

In general, MICRO-PILE was developed in Italy in the 1950's for building foundation reinforcement and was named PALI RADICE. Since then, methods similar to Paliradis have been disclosed.

These various methods for reinforcing the foundation of the building are collectively named as micro piles, and are difficult to enter large equipment due to their high bearing capacity with a small diameter, and are often used for damaged foundation reinforcement and bridging of soft ground. It is being constructed. In addition, the micro pile is a friction pile (FRICTION-PILE) that is secured by the adhesion between the ground and the pile can be advantageously applied when the ground conditions are disadvantageous.

Therefore, these micro piles are drilled to a certain depth required in the ground using a small drill, etc., and then assembled with a pipe and a thread bar, and then a low pressure (7) is used using a grouting pump. It is a method of forming small-caliber cast-in-place piles by grouting at ~ 21 BAR).

At this time, in order to increase the compressive strength by inserting a pre-assembled threaded bar to transmit the self-weight acting on the ground. In addition, by using small-scale drilling equipments, when the large-diameter equipment can not be entered and built, existing trains can be used in narrow spaces such as new foundations and reinforcement, and private trains such as private historical constructions. It is possible to construct it as an alternative method to solve the fear of overturning cranes that cannot enter large equipment or have high installation height.

Here, the construction order of the micro pile is briefly described as follows: drilling work (CRAWLER DRILL)-drilling work (casing pipe penetration)-casing pipe penetration (water boring during penetration of silt ground)-casing pipe connection (welding)-foundation soft ground casing Pipe treatment-Rock bed drilling (AIR HAMMER)-Rock drilling (dust collection box to prevent scattering during drilling)-Pyro pile assembly site-Micro pile insertion-Micro pile connection-Tightening after connecting micro pile-Micro pile insertion completed -Micro-pile grouting-Sufficient overflow (FLOW) to secure loads-Micro-pile curing-Foundation excavation-Micro-pile tofu cleaning-Micro-pile tofu cleaning-Fixture installation (NUT)-Fixture installation (chiropractor and nut installation) It is constructed in the order of cast-based concrete laying-based reinforcement.

On the other hand, the casing pipe that is introduced into the drilling hole in the construction of the micro pile is used to form the site-cast concrete foundation pile of the structure, the length of the casing pipe is standardized according to its diameter.

Therefore, a plurality of casing pipes of a single length should be connected and used according to the penetration depth of the drilling hole. In order to connect the casing pipes to each other, as shown in FIG. 1, the casing pipe 10 and the casing pipe 10 are conventionally used. Connect the joint plate 20 with the bolt 30 by connecting it to the connection portion between them, or as shown in FIG. 2 and the construction procedure of the micro pile as described above, the end of the casing pipe 10 is welded on site. Is connected to the casing pipe by welding.

However, the method of fastening the joint plate to the connection portion of the casing pipe with bolts as described above has a problem in that the bolt is loosened due to the vibration of the vibration driving when the casing pipe is pressed into the ground using the vibration driving. In addition, as described above, the method of connecting the casing pipe through welding is possible only by the operator welding a plurality of casing pipes as much as the penetration depth of the drilling hole in the field, resulting in poor workability, increasing construction time and the center of the casing pipe in the field. It is difficult to precisely weld to match the axis, resulting in deterioration of construction quality, and when drawing and processing the casing pipes later, it causes the trouble of the work of cutting the casing pipes to a certain length and waste of manpower and resources. There is a problem that the cut portion of the casing pipe causes a weakening of strength due to heat deformation due to corrosion and welding.

Therefore, the present invention has been created to solve the problems described above, when the micro pile construction, the connection of a plurality of casing pipes with a length suitable for the penetration depth of the drilling hole is not connected by welding, the connector is provided integrally The casing pipe is connected with a simpler and more powerful casing pipe with stronger casing pipes, resulting in excellent workability, shorter micropile construction period, and excellent application to large-diameter casing pipes. The purpose of the present invention is to provide a micro-pile perforated casing pipe equipped with a connector that exhibits a fastening force, and can be smoothly pressed and drawn out by rotating the casing pipe even in a large depth of the perforated hole.

In addition, the present invention, even if each casing pipe is not separately located on the central axis, each casing pipe is positioned on the central axis by simply coupling through the fitting pins to the connector formed integrally with each casing pipe. When constructing piles, the straightness of the ground is excellent, and therefore the construction quality is excellent.Each casing pipe is easily dismantled even when the casing pipe is pulled out. It is yet another object to provide a micro pile perforated casing pipe with increased connectors.

Micro-filed perforated casing pipe with a connector according to the present invention for solving the object as described above and the casing pipe 100 is inserted into the depth of the drilling hole when the micro-file construction; A fastening pin 200 protruding outward from an outer peripheral surface of the bottom of the casing pipe 100 to form at least one; It includes; the casing pipe 100 is formed integrally with the upper end, the connector 300 is provided so that the fastening pins of the casing pipe having the same configuration so as to extend to a depth corresponding to the penetration depth of the drilling hole; Fastening pins formed at the bottom of the casing pipe of the same configuration are fitted to the connector 300 formed at the top of the casing pipe 100 inserted into the depth of penetration of the drilling hole for constructing the micro pile with a plurality of pipes 100. It is characterized in that formed to extend to the depth of penetration of the drilled hole.

Here, the connector 300 is connected to the casing pipe 100 is formed integrally in a cylindrical ring shape along the outer periphery of the upper end 310; A fitting guide part 320 which is vertically open toward the upper side toward one side of the upper edge of the connection body 310, and the fastening pin 200 is guided and fitted; Characterized in that the inclined fastening portion 330 is formed through the inclined horizontally inclined horizontally along the outer periphery of the connecting body 310 directly below the fitting guide 320.

On the other hand, the inclined fastening portion 330 is an inclined surface 332 formed to be inclined through the outer periphery of the connection body 310 directly below the fitting guide 320; The fastening pin 200 of the casing pipe 100, which is formed to be inclined downward toward one side of the inclined surface 332 directly below the fitting guide part 320, is guided along the fitting guide part 320, and the casing pipe 100. A fastening part 334 formed to be inclined downward to be moved downward along the inclined surface 332 in the direction of gravity due to its own weight; It is formed to be inclined upwardly to the other side of the inclined surface 332 directly below the fitting guide 320, the fastening pin 200 coupled to the fastening portion 334 by the rotational vibration of the casing pipe 100 by the inclined fastening portion Characterized in that formed; departure prevention portion 336 is formed to be prevented from being separated from the (330).

The present invention is a length that is suitable for the penetration depth of the drilling hole when the micro pile construction, the connection of a plurality of casing pipes are not connected by welding, simply by fitting the casing pipes integrally provided with a connector, more robust, strong The casing pipe is connected and coupled with the clamping force, which is excellent in workability, shortens the micro pile construction period, and shows the excellent clamping force when applied to large-diameter casing pipes as well as small-diameters. Since the indentation and drawing operations can be performed smoothly, there is an advantage that can bring down the construction cost and production cost.

In addition, in the present invention, even if each casing pipe is not separately located on the central axis, each casing pipe is positioned on the central axis by simply connecting the coupling pins to the connector formed integrally with each casing pipe. When constructing micro piles, the straightness of the ground is excellent, and thus the construction quality is excellent.Each casing pipe can be easily dismantled even when the casing pipe is pulled out. There is also the effect of increasing.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the micro pile perforated casing pipe with a connector according to the present invention.

Figure 3 is an overall perspective view showing the connection of the micro pile perforated casing pipe with a connector according to the present invention, Figure 4 is an exploded perspective view of the micro pile perforated casing pipe with a connector according to the present invention, Figure 5 It is a side cross-sectional view of a micro pile perforated casing pipe with a connector according to the invention, Figure 6 is a side view of the operating state at the time of penetration hole penetration of the micro pile perforated casing pipe with a connector according to the present invention.

As shown in Figures 3 to 5, the micro-pile perforated casing pipe with a connector according to the present invention, when forming the micro-pile, the formation of the perforation holes in the ground, the micro In order to prevent an increase in the construction time of the pile, the casing pipe inserted into the drilling hole is formed to be disassembled and assembled to be excellent in workability and workability. The casing pipe 100 and the fastening pin 200 ), And the connector 300.

The casing pipe 100 is provided with a pipe formed in a cylindrical shape is formed long to penetrate within the depth of the drilling hole when the micro pile is constructed. Here, the upper and lower ends of the casing pipe 100 are formed integrally with the fastening pin 200 and the connector 300, which will be described later.

The fastening pin 200 is fitted to the connector 300 to be described later, and is formed to protrude outward on the outer peripheral surface of the lower end of the casing pipe 100 described above. Here, the fastening pin 200 is formed integrally with the casing pipe, it is preferable that at least one or more is formed on the outer peripheral surface of the bottom of the casing pipe (100).

The connector 300 is integrally formed on the upper end of the casing pipe 100 to be easily coupled to the upper end side of the plurality of casing pipes inserted into the penetration depth of the drilling hole when the micro pile is installed. Here, the connector 300 is composed of a connection body 310, the fitting guide portion 320, the inclined fastening portion 330.

The connecting body 310 is formed in a cylindrical ring shape along the outer circumference of the upper end of the casing pipe 100 described above and is integrally formed with the casing pipe 100. On the other hand, the fitting guide 320 is vertically open toward the upper side toward one side of the upper edge of the connecting body 310 so that the above-mentioned fastening pin 200 is fitted.

That is, one casing pipe 100 with a connector according to the present invention is provided with casing pipes with another connector for extending in a state that is inserted into the drilling hole to the upper side of the casing pipe 100 inserted into the drilling hole. In order to extend, the operator corresponds to the connector 300 integrally formed on the upper end of the casing pipe 100 inserted into the drilling hole provided with a connector for simply extending. At this time, the fitting guide 320 is provided so that the fastening pins formed on the lower edge of the casing pipe extending to the inclined fastening portion 330 to be described later.

As described above, the inclined fastening portion 330 extends with a casing pipe 100 which is fastened by a fitting guide 320 formed at a lower outer periphery of the casing pipe connector to be extended and inserted into the drilling hole. The casing pipe is formed to be firmly coupled. Here, the inclined fastening portion 330 is the fastening pin 200 of the casing pipe to be formed to extend through the inclined horizontally along the outer periphery of the connecting body 310 directly below the fitting guide portion 320 described above. It is formed to be combined.

The inclined fastening portion 330 as described above is composed of the inclined surface 332, fastening portion 334, the departure prevention portion 336. Here, the inclined surface 332 is formed through the inclined through the outer periphery of the connection body 310 directly below the fitting guide 320, the fastening pin 200 is guided through the fitting guide 320, It is formed to be easy to move in the direction of gravity by the weight of the casing pipe extending.

The fastening part 334 is formed to be inclined downward toward one side of the inclined surface 332 directly below the fitting guide 320. Then, the coupling pins 300 of the casing pipe 100 extending along the fitting guide part 320 along the inclined surface 332 in the direction of gravity due to the weight of the casing pipe 100, the connector 300 It is formed to be inclined downward so that the outer circumference of the pivot pivots downward.

The departure preventing part 336 is formed to be inclined upward toward the other side of the inclined surface 332 directly below the fitting guide 320. Here, the departure prevention part 336 is the casing pipe 100 is inserted into the depth of the drilling hole is a fastening pin 200 is coupled to the above-mentioned fastening portion 334 by the weight of the casing pipe (100). The casing pipe 100 extending through the fitting guide 320 of the inclined fastening portion 330 is prevented from being separated by the rotation vibration of the.

As described above, the micro pile perforated casing pipe provided with the connector according to the present invention is as described below, and an embodiment according to the use state will be described below.

As shown in FIG. 4, another casing of the present invention for extending upwardly of a cylindrical ring-shaped connector 300 integrally formed on the upper end of the casing pipe 100 according to the present invention penetrated within the depth of the initial drilling hole. Position the pipe 100.

Next, the connector 300 of the casing pipe 100 of the present invention is inserted into the drilling hole depth of at least one fastening pin 200 formed in the lower outer periphery of another casing pipe 100 of the present invention for extending Position the fastening pins 200 of the casing pipe 100 extending to the fitting guide 320 formed in the connection body 310.

Thereafter, the fastening pins 200 of the casing pipe 100 extending are fitted to the fitting guide part 320 of the casing pipe 100 inserted into the drilling hole depth and guided to the inclined fastening part 330.

Next, the fastening pin 200 of the casing pipe 100 extending to the inclined surface 332 of the inclined fastening portion 330 is in contact with, and then, the fastening pin 200 of the extending casing pipe 100 is casing pipe While moving along the inclined surface 332 by its own weight, it is pivoted by the turning radius of the outer circumference of the connection body 310 to move to the fastening part 334 and fastened as shown in FIG. 5 to extend the casing pipe.

Next, as shown in FIG. 6, the casing pipe 100 and the casing pipe 100 extending into the depth of the drilling hole are firmly coupled by the connector 300, and then the micro pile is inserted into the depth of the drilling hole. Do construction. At this time, when penetrating into the depth of the drilling hole, the casing pipe 100 is rotated, vibration, etc. of the drill bit of the drilling equipment (not shown), and the fastening pin 200 of the casing pipe 100 extended by this is inclined surface ( Position change due to vibration along the position 332 is inserted along the insertion guide 320 side by the escape prevention portion 336 formed to be inclined upwardly escaped from the fastening pins 200, the change in position is buffered and the separation It is obvious that the workability is excellent when constructing the micro pile, and the construction time can be shortened, thereby reducing the construction cost and enabling high quality micro pile construction.

In other words, when the casing pipe, which is a problem of the method of extending the casing pipe according to the conventional welding, is drawn out from the drilling hole, the connector 300 is simply connected to the connector 300 without the troublesome work of cutting and reusing the casing pipe. It is possible to reuse the casing pipe 100 only by disassembling the fitted fastening pin 200, and, without the hassle of having to weld by matching the casing pipe on the center axis of the casing pipe, which is simply welded. The casing pipe 100 is extended on the same center axis line by fitting only to the connector 300 by the 200, so that the construction of the micro pile of higher quality is possible due to excellent straightness of the ground.

On the other hand, in the detailed description of the present invention has been described with respect to specific embodiments, to those skilled in the art that various modifications are possible without departing from the scope of the invention, such modifications are claimed It is in the range of a base material.

1 and 2 are views showing a conventional casing pipe.

Figure 3 is an overall perspective view showing the connection of the micro pile perforated casing pipe with a connector according to the present invention.

Figure 4 is an exploded perspective view of a micro pile perforated casing pipe with a connector according to the present invention.

Figure 5 is a side cross-sectional view of a micro pile perforated casing pipe with a connector according to the present invention.

Figure 6 is a side view of the operating state at the time of penetration hole penetration of the micro pile punched casing pipe with a connector according to the present invention.

* Description of the major symbols in the drawings *

100: casing pipe 200: fastening pin

300: connector 310: connection body

320: fitting guide 330: inclined fastening

332: slope 334: fastening portion

336: departure prevention unit

Claims (3)

A casing pipe 100 inserted into the depth of the drilling hole when the micro pile is constructed; A fastening pin 200 protruding outward from an outer peripheral surface of the bottom of the casing pipe 100 to form at least one; The connector 300 is formed integrally with the upper end of the casing pipe 100, the connector 300 is provided so that the fastening pins of the casing pipe are provided in the same configuration to extend to a depth corresponding to the penetration depth of the drilling hole; The casing pipe 100 is provided with a plurality of fastening pins formed at the lower end of the casing pipe of the same configuration to the connector 300 formed on the upper end of the casing pipe 100 inserted in the penetration depth of the drilling hole for the construction of the micro pile The fitting is provided with a micro-perforated casing pipe with a connector, characterized in that formed to extend to the depth of penetration depth of the drilling hole. The method of claim 1, The connector 300 includes a connection body 310 integrally formed in a cylindrical ring shape along the outer circumference of the upper end of the casing pipe 100; A fitting guide part 320 which is vertically open toward the upper side toward one side of the upper edge of the connection body 310, and the fastening pin 200 is guided and fitted; The inclined fastening portion 330 is formed to be inclined horizontally along the outer periphery of the connecting body 310 directly below the fitting guide 320, the fastening pin 200 is coupled; With micro pile perforated casing pipe. The method of claim 2, The inclined fastening part 330 has an inclined surface 332 formed to be inclined along the outer periphery of the connection body 310 directly below the fitting guide 320; The fastening pin 200 of the casing pipe 100, which is formed to be inclined downward toward one side of the inclined surface 332 directly below the fitting guide part 320, is guided along the fitting guide part 320, and the casing pipe 100. A fastening part 334 formed to be inclined downward to be moved downward along the inclined surface 332 in the direction of gravity due to its own weight; It is formed to be inclined upwardly to the other side of the inclined surface 332 directly below the fitting guide 320, the fastening pin 200 coupled to the fastening portion 334 by the rotational vibration of the casing pipe 100 by the inclined fastening portion Micro-predrilled casing pipe with a connector, characterized in that formed; separation prevention portion 336 is formed to be prevented from being separated from the (330).

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