KR20140132640A - Auger drill with arm crushing means - Google Patents

Abstract

The present invention relates to an auger drill used during a continuous wall pilling work (also called PIP method) for such a water cut-off construction and, more specifically, to an auger drill with an arm crushing means which enables vertical punching while easily crushing the overlapped part on the edges of two neighboring pillars constructed earlier to expect reduction of construction period of the continuous wall piling work and reduction of the construction costs. In other words, the auger drill used for ground drilling of the present invention has an arm crushing means on the edge of the lower side of the auger drill to easily crush the overlapped part of the edge of two neighboring pillars, wherein multiple air hammers or a core barrel are(is) mounted as an arm crushing means.

Description

[0001] The present invention relates to an Auger drill with arm crushing means,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an auger drill for use in a continuous wall pile construction (also referred to as PIP method) for watertight construction, and more particularly, to an auger drill The present invention provides an auger drill equipped with an arm crushing means that can be vertically pierced while being easily crushed, thereby reducing the construction time of the continuous wall pile work and reducing the construction cost.

In general, the following methods have been used for the anchorage wall construction method that is used to construct the retaining wall around the underground construction site.

So far, we have been using construction methods for many subterranean terrains such as retention method using ordinary H-beam and soil board, on-site CIP method, MIP method, PIP method, SCW method, etc. However, It has had strengths and weaknesses. The existing CIP method has the advantage that it can be installed close to the existing structure, minimizes the width of the trench, and reduces the risk of accidents because it is unnecessary to construct the soil plate. However, the connection between the columns is not good, There is a disadvantage in that the water pollution is bad and the possibility of soil loss is large and a separate auxiliary method for leakage between the hole and the hole is needed.

In the case of the SCW method, water repellency is good, and the possibility of soil loss is small. In addition, it has the advantage that the wall and the strength are larger than the sheet pile, it can be applied to the soft ground with high water content, there is a small amount of residual soil after construction, and there is little concern about water pollution, but construction is possible only in the soil region, Layer and weathered rocks, it is not possible to construct them, and large equipment is required. Therefore, the work space must be wide, the construction cost is relatively high, and the durability is poor compared with the other methods. As a foundation work for construction of waterwall at the construction site, continuous wall pile construction will be carried out and then the subterranean construction will proceed.

As a method for solving such problems, there is proposed a method in which a watertight cladding method of Korean Patent Registration No. B1-01066003 (November 21, 2003) and Patent Application Publication (A) 10-2006-0002291 (2006.01.09) This is a method of constructing a retaining wall for a subterranean erection work; The mortar is poured into the hole 1 at the same time as the auger machine is pulled out, and the honeycomb casing having the recessed portion inside the hole 1 The second material is inserted into the second hole continuously adjacent to the construction line L so that the second material is inserted into the second mortar, The same procedure as that of the No. 1 hole in which the filling of the cement mortar and the meniscus type casing are carried out is performed in the same manner as the No. 1 hole, and the No. 3 hole is carried in the auger machine in the same manner as the No. 1 and No. 2 holes, And a process of pulling out the meniscus type casing joined on the first hole is continuously performed along the construction line L so that a retaining wall can be constructed.

Another example is a method of constructing an underground waterwall construction of Korean Patent Application Publication No. 10-2011-0070188 (June 24, 2011), which comprises a plurality of main casings and a groove portion for engagement with the main casing, The method comprising the steps of: drilling an auxiliary piercing hole to form an auxiliary piercing hole by drilling the ground to which the auxiliary casing is to be installed; Installing an auxiliary casing in the auxiliary perforation hole; Placing an auxiliary wall concrete (20) by pouring concrete into the auxiliary casing; The auxiliary casing removing step of removing the auxiliary casing before the auxiliary wall concrete is hardened; Drilling a main perforation hole to form a main perforation hole in which the main casing is to be formed by perforating an area between the plurality of auxiliary walls; A main casing installing step of installing the main casing in the main perforation hole; A main wall concrete casting step of casting concrete into the main casing to form a main wall; And a main casing removing step of removing the main casing before the main wall concrete is hardened.

However, in the case of the above-mentioned conventional watertight cladding method, the continuous connection with neighboring columns can be performed by using the casing. Since it takes a long time to insert and pull out the casing, it is difficult to improve the working time, There has been a lot of difficulties such as a rise in construction cost and the like. In the industry, a new technique which can solve the above-mentioned problems has been demanded.

KR 100406693 B1 Nov. 21, 2003. KR 1020060002291 A 2006.01.09. KR 1020110070188 A Jun 24, 2011.

Accordingly, the present inventor has researched and developed the present invention in the light of the foregoing problems. In the present invention, vertical overlapping can be performed while easily shredding the overlapped edge portions of the adjacent two pillars by the crushing means The present invention has been accomplished on the basis of the technical problem of providing an auger drill equipped with a rock breaking means that can reduce the construction cost of the continuous wall pile work together with the reduction of the construction cost.

The present invention provides a auger drill for use in ground drilling, comprising: When the continuous rock pile work (PIP) is carried out by further adding the rock breaking means to the lower edge of the auger drill, the overlapping portions of the adjacent two column edge sides constructed can be easily broken.

Further comprising a plurality of air hammers as said shredding means; The air hammer is fixedly coupled to the screw so that the hammer is vertically installed in parallel with the screw arm so that the hammer coupled to the hammer housing protrudes downward from the lower end of the screw; An air hose was piped into the screw arm of the auger drill, and the air hose was drawn out through a connecting hole formed at a position close to the upper portion of the air hammer to be interconnected with the air hammer.

In the case of using the auger drill provided with the rock breaking means provided in the present invention, when the ground is drilled between two adjacent pillars, the portion where the air hammer installed at the edge of the auger drill overlaps the neighboring pillar side It is possible to make a natural perforator using an auger drill.

In such a piercing operation, the continuous wall pile construction (PIP) for water cladding can be performed in a short time in a state where the pillar is fully cured in a state where it is completely cured, so that the working time can be shortened, And provide functionality that can be saved.

1 is a front view showing an example of using an auger drill to which the present invention is applied
2 is an enlarged perspective view of the tip of the auger drill to which the present invention is applied.
Figure 3 is a cross-
Fig. 4 is a bottom view of Fig.
FIG. 5 is a plan view showing an example of continuous-wall pile construction according to the present invention.

Hereinafter, an embodiment of the auger drill provided with the rock breaking means provided in the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a front view showing an example of using an auger drill to which the present invention is applied, FIG. 2 is an enlarged perspective view of an end portion of an auger drill to which the present invention is applied, FIG. 3 is a sectional view of FIG. 2, 2, respectively.

The auger drill 1 used for ground milling is connected to a kelly bar driver 120 which moves up and down along a support 110 installed on a self-propelled crane 100, And is a well-known technique that is widely used in various diameters.

In the present invention, when the continuous rock pile work (PIP) 200 is performed by further adding the rock breaking means A to the lower edge of the auger drill 1 used for drilling the ground as described above, The vertical punching can be performed while easily breaking the overlap portion 211 on the edge side of the two pillars 210.

In the present invention, the air hammer 10 is applied to the rock breaking means (A).

In order to apply the air hammer 10 to the shredding means A, the air hammer 10 is provided on the edge side of the screw 3 of the auger drill 1.

The hammer 12 is coupled to the hammer housing 11. The hammer 12 is fixed to the screw 3 by a hammer housing 11. The hammer 12 is coupled to the hammer housing 11, And protrudes downward from the lower end of the screw (3), and the bits (13) for crushing the arm are coupled to the bottom surface of the hammer (12).

The auger drill 1 is provided with an air hose 14 for supplying high-pressure compressed air to the air hammer 10.

The air hose 14 is piped through the inside of the screw arm 2 of the auger drill 1 and connected to the air hose 14 through a connection hole 2a formed at a position close to the upper portion of the air hammer 10. [ And interconnects with the air hammer 10.

The number of the air hammer 10 to be installed may be varied according to the diameter of the auger drill 1 and two air hammer 10 are installed in the present invention. More than four may be installed.

The hammer 12 constituting the air hammer 10 is configured to have a diameter corresponding to the overlap portion 211 on the edge side of the column 210.

In this configuration, when the drilling operation is performed, the bit 13 coupled to the hammer 12 is first hit, crushed, and torn off by the overlapped portion 211 on the edge side of the adjacent two pillars 210, So that the auger drill 1 hits the overlapping portion 211 of the column 210 and is damaged.

The auger drill 1 equipped with the rock breaking means A of the present invention constructed as described above can be used mainly for the continuous pile piling work 200. Hereinafter, An example in which a continuous wall is formed using the above-described substrate 1 will be described with reference to Fig.

In order to perform the continuous wall pile construction (PIP) 200, an odd numbered hole is drilled along the center line as shown in the figure, and concrete is injected into the hole to cure the column 210.

At this time, the space between adjacent odd-numbered holes is 70 to 80% of the hole diameter.

When drilling the odd numbered holes, it is possible to work with an auger drill 1 which is generally widely used.

Numbered holes are pierced, concrete is cured and cured to form the pillars 210, and the even numbered holes 211 are formed so that the overlapped portions 211 are broken toward the edges of the pillars 210 formed in the odd- And pillar 220 is formed by pouring and curing concrete, thereby forming a continuous wall.

In this case, when the general auger drill 1 is used, the auger drill 1 is broken because the pillar 210 in the curing state overlaps the odd numbered holes.

However, when the auger drill 1 equipped with the rock breaking means provided in the present invention is used, the overlap portion 211 which is the edge portion of the pillar 210 in the curing state is formed in the odd number holes by the air hammer 10 The screw 3 is moved downward in the state where the air hammer 10 is first crushed and the ground between the adjacent pillars 210 is punctured so that the ground drilling is possible without damaging the auger drill 1.

In the present invention, an example applied to a ground drilling auger drill 1 is shown, and if necessary, it is installed in a kelly bar, a BG perforator using a rotary, an IMTAUGER dedicated machine, a pile driver dedicated machine It is natural that you can use it.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of protection of the present invention should not be limited to the described embodiment, but should be determined by the equivalents as well as the claims that follow.

1: auger drill 2: screw arm
2a: connecting hole 3: screw
A: Rock breaking means
10: air hammer 11: hammer housing
12: Hammer 13: Bit
14: Air hose 20: Core barrel
21: barrel body 22: crushing roller
100: Crane 110: Support
120: kelly bar driver 200: continuous wall pile construction (PIP)
210: column 211: overlap portion

Claims (2)

1. An auger drill (1) used for ground drilling;
When the continuous rock pile work (PIP) 200 is performed by further adding the rock breaking means A to the lower edge of the auger drill 1, the overlapped edge portions 211 of the adjacent two pillars 210, ) Of the auger drill (10) is easily broken.
The method of claim 1,
A plurality of air hammers (10) are installed in the rock breaking means (A);
The air hammer 10 is fixed to the screw 3 by a hammer housing 11 so as to be installed vertically in parallel with the screw arm 2. A hammer 12 coupled to the hammer housing 11 Projecting downward from the lower end of the screw (3);
The air hose 14 is piped into the screw arm 2 of the auger drill 1 and the air hose 14 is drawn out through the connection hole 2a formed at a position close to the upper portion of the air hammer 10 And the air hammer (10) is connected to the air hammer (10).

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