JP2586919B2 - Construction method of continuous drilling hole and underground drilling device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a continuous excavation hole formed in the ground when, for example, constructing an underground continuous wall, particularly a ground in which a lower layer in an excavation depth region is a rock layer. The present invention relates to a method for constructing a continuous excavation hole formed therein, and an underground excavation apparatus suitable for use therein.

[Conventional technology]

When constructing an underground building or the like, a continuous wall made of reinforced concrete, that is, an underground continuous wall may be constructed in the ground. In order to construct this underground continuous wall, first, a continuous excavation hole is to be formed in the ground to be the so-called type of the continuous wall to be constructed. In the case of having a layer, it is necessary to bury the bedrock layer. Therefore, in such a case, excavation by the all-casing method has conventionally been common.

As is well known in the art of the all-casing method, a cylindrical casing tube is penetrated into the ground, and the sediment, such as earth and sand, in the casing tube is gripped by a hammer club or the like moving up and down in the casing tube, and the casing tube is grounded from the top of the casing tube. It is something to be excavated. At that time, it is common practice to inject the muddy water (stable liquid) into the borehole for the purpose of preventing the collapse of the borehole wall surface or the like. The casing generally has a diameter of about 800 to 1500 mm. The length of one casing is several m to 6 m, but it can be extended by refilling. The casing tube positioned at the top at that time is called a top casing, and a cutting edge is provided at the tip of the top casing, so that the casing tube can be easily penetrated into the ground.

That is, in order to form a continuous excavation hole by the all casing method, a plurality of cylindrical excavation holes formed by one excavation are made in the lateral direction (the direction in which the continuous wall extends), and the excavation holes are formed in the diameter direction. To be formed by connecting to

[Problems to be solved by the invention]

By the way, in the above-mentioned conventional all-casing method, even if the lower layer is a bedrock layer, it is possible to insert rocks. Therefore, although there is an advantage that the construction can be performed with one type of apparatus without replacing the apparatus, the inside of the casing tube is reduced. When removing the debris with the hammer club, the hammer club is affected by buoyancy due to the muddy water, so that it takes time to form a single drilling hole. This method, which forms a continuous excavation hole by connecting, takes a long time to construct and has a problem that a long construction period is required.

The present invention has been made in view of the above circumstances, and particularly in forming a continuous excavation hole in a ground having a bedrock layer, a construction method capable of shortening the construction period efficiently and a suitable ground used in that case. The present invention provides an apparatus for medium excavation.

[Means for solving the problem]

In the first invention, when constructing a continuous excavation hole in the ground where the lower layer in the excavation depth area becomes rock, the pre-drilling of the entire excavation depth by the all casing method is performed at predetermined intervals in the direction in which the continuous excavation hole is to be formed, After excavating the ground between these preceding boring holes with a clamshell to the depth of the bedrock layer, the bedrock layer remaining thereunder is crushed by an auger screw attached to the tip of the casing tube on which the preceding boring was constructed, The crushed waste is discharged by the clamshell to form a continuous excavation hole in the ground, and the second invention is used for an underground excavation apparatus for all-casing excavation. An auger screw was connected to the tip of the casing tube via a cutting edge.

[Action]

According to the first invention, the ground between the preceding boring holes is
Even when it forms a bedrock layer, it is possible to excavate (discharge) with a clamshell, and extremely efficient excavation can be expected.

Further, according to the second invention, it becomes possible to perform the function of a kind of earth auger excavator using the all-casing excavator, and the first invention can be effectively realized.

〔Example〕

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

1 to 5 show an embodiment of a method for constructing a continuous excavation hole according to the invention of FIG.
This is an example in which the present invention is applied to a continuous excavation hole formed when constructing an underground continuous wall having a depth of 80 m and a depth of 80 m.

In these figures, FIGS. 1 to 4 show the construction status of the pre-drilling, and the reference symbol G in the figures shows the ground where a continuous excavation hole is formed. As shown in FIG. 1, the ground G which continuous borehole H of interest (Fig. 2) is formed, the bottom is a rock layer G ₁ at the drilling depth range. Sign G ₀ is the normal soft ground.

In order to form the target continuous excavation hole H, first, precedent boring is performed on the ground G as shown in the figure to form the precedent boring holes 1, 1,. Advance drilling is done by conventional all-casing drilling. FIG. 3 (elevation view) and FIG. 4 (plan view) show the state of construction of preceding boring by the all casing method. In these figures, reference numeral 2 denotes an all-casing excavator, and reference numeral 3 denotes a crawler crane equipped with a hammer club 4. In the construction, first, the cylindrical casing tube 5 is penetrated into the ground by the all-casing excavator 2, and the hammer club 4 is inserted from the upper part of the casing 5, and the slip in the casing tube 5 is discharged to the outside. The debris is carried to a predetermined place by the transport vehicle 6. When the top casing 5a is almost completely penetrated into the ground G, the casing 5b (not shown) is added to the top casing 5a, and the same operation as above is repeated to dig down to a predetermined depth. Drilling from reaching the rock layer G ₁ is also performed in the same manner. Here, the preceding boring by the all-casing excavator 2 is formed at a dimension interval when a bucket 8 of the clamshell 7 described later is opened. In this embodiment, as shown in the figure, the upper surface of the ground along the continuous excavation hole H to be formed is paved with concrete C.

If a large number of preceding boring holes 1 as described above are formed at predetermined intervals in the direction in which the drilling holes H are to be formed as shown in FIGS. 1 and 2, then, as shown in FIG. The ground G between the preceding boring holes 1 is excavated by the clamshell 7. Since the preceding boring 1 is formed at the interval of the open dimension of the bucket 8 of the clamshell 7, both opening ends (edge portions) of the bucket 8 are formed.
Can penetrate into the opening of the preceding boring hole 1 respectively, and efficient excavation can be expected. The excavation of the ground G between the preceding boring holes 1 by the clamshell 7 is performed by the rock bed G _1.
When it reaches, stop clamshell drilling there.

Then, crushing the rock layer G ₁ at ground excavating device 9. The underground excavation device 9 according to the second invention of the present invention is as shown in FIG. In the figure, reference numeral 5 denotes a reinforced casing tube of the all-casing excavator 2, reference numeral 10 denotes a cutting edge which is a cylindrical shape having substantially the same diameter as the casing tube 5 and is connected to a distal end portion of the casing 5, and reference numeral 11 denotes cutting. An auger screw connected to the edge 10. That is, the underground excavation device 9 has a main configuration in which the auger screw 11 is connected to the casing tube 5 via the cutting edge 10. The cutting edge 10 is substantially the same as a general cutting edge (not shown) provided at the tip of the top casing 5a, except that a blind bottom is formed to close the path of the casing tube 5. Is different. That is, as shown in FIG. 7 (bottom view), the bottom portion forms a connection portion 10a to which the auger screw 11 is to be connected. The auger screw 1
1 is the same as that equipped on a general earth auger excavator, etc., but has a short overall length (several meters), and has a base end (upper end) 11a connected to the connecting portion 10a of the cutting edge 10. It is structured to engage. The underground excavation device 9 having the above-described structure includes the all-casing excavation base 2.
In addition to being able to use the connecting mechanism originally provided for the addition of the casing tube 5, the casing tube 5 is driven (rotated) by driving the casing tube 5, that is, the drive mechanism of the all-casing excavator 2 is used as it is. can do.

Now, rock layer G ₁ between the preceding borehole 1 is impossible excavation by clamshell 7 is crushed by the drilling device 9 in該地. Thereafter, the crushed rock layer G ₁ may be re-drilled using the clamshell 7. When performing drilling rock layer G ₁ in the underground drilling apparatus 9, the cutting edge 10 connecting the auger screw 11 for in該地drilling device 9, the cutting edge to be attached to the top casing tip of conventionally Since the same function as that described above can be exhibited, the cutting edge 10 can also be used to cut and project the convex portion on the inner surface of the hole wall to perform finishing and correction of the hole wall.

In this way, the ground G between the two preceding boring holes 1 and 1 formed at a predetermined interval is completely excavated, and the two preceding boring holes 1 are connected to each other.
By excavating the ground G between the preceding boring holes 1 and 1, each preceding boring hole 1 may be connected to form a desired continuous drilling hole H.

In the underground digging apparatus 9 of the second invention, in the embodiment, this is described as being applied to the construction of the continuous digging hole of the first invention. The present invention is not necessarily limited to the above-described embodiment, and when this is used in excavation requiring two types of equipment, an all-casing excavator and an earth auger excavator, the same effect as described above can be obtained. it can.

〔The invention's effect〕

As described above, according to the method for constructing a continuous excavation hole of the first invention, when constructing a continuous excavation hole in the ground where the lower layer in the excavation depth area is a rock layer, the soft ground in the ground between the preceding boring holes Excavation can be performed very efficiently by using a clamshell, and in the rock layer, the rock layer is crushed by an underground excavation device and then excavated in the clamshell as in the soft ground. Therefore, this can be made extremely efficient as compared with the one excavated by the conventional all-casing method, and the construction period can be significantly shortened. In addition, the excavation of the bedrock is performed by an underground excavator using an all-casing excavator used for preceding boring, so that the efficiency can be further improved.

According to the underground excavation apparatus of the second invention, an underground excavation apparatus having an organic configuration using a conventional all-casing excavator is realized, and when the construction method according to the first invention is executed, An excellent effect can be obtained, for example, an auger excavator is not separately required, and a slightly longer auger screw is sufficient.

[Brief description of the drawings]

1 to 5 illustrate a method of constructing a continuous excavation hole according to the first invention of the present invention. FIG. 1 is a vertical sectional view of a ground showing a preceding boring hole, and FIG. Top view of the ground showing the borehole, Fig. 3 is a side view including a partial cross section showing the construction of the preceding boring, Fig. 4 is a plan view showing the construction of the preceding boring, and Fig. 5 is the preceding. FIG. 3 is a vertical cross-sectional view showing a state of excavation of the ground between boring holes. 6 and 7 show an embodiment of the underground excavation apparatus according to the second invention of the present invention, and FIG. 6 is an elevational view including a partial cross section showing the configuration thereof, and FIG. FIG. 7 shows a connecting portion to which the auger screw is connected, and is a view taken along the line AA in FIG. G: ground, G _1: rock formation, H: continuous drilling hole, 1 ...
Preceding boring hole, 2 ... All casing excavator, 4
... hammer club, 5 ... casing tube, 7 ...
... Clamshell, 8 ... Bucket, 9 ... Underground drilling equipment, 10 ... Cutting edge, 11 ... Auger screw.

Claims (2)

(57) [Claims] When a continuous drilling hole is constructed in a ground where a lower layer in a drilling depth area is a rock layer, a pre-drilling of an entire drilling depth by an all-casing method is performed at predetermined intervals in a direction in which a continuous drilling hole is to be formed. After excavating the ground between these preceding boring holes with a clamshell to the depth of the bedrock layer, the bedrock layer remaining thereunder is crushed by an auger screw attached to the tip of the casing tube on which the preceding boring was constructed, A method for constructing a continuous excavation hole, wherein a continuous excavation hole is formed in the ground by discharging crushed waste by the clamshell. 2. An underground excavation apparatus comprising an auger screw connected to a distal end of a casing tube used for all-casing excavation through a cutting edge.