JPH0711233B2 - Non-removing earth construction device for foundation piles and non-removing earth construction method for foundation piles - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for constructing a foundation pile for supporting a structure on soft ground without soil discharge, and a foundation pile using the above-mentioned device for soil elimination. It relates to the method of construction.

[0002]

2. Description of the Related Art The technique of driving foundation piles to support a structure on soft ground has been used since ancient times.
Since the beginning of modern times, technological improvements have been concentrated on high-efficiency construction using mechanical power. However, noise pollution caused by pile driving has become a social problem in recent years, and a vibration-free and noise-free foundation pile construction technique is being developed.
In addition, soil removal is a difficult issue for construction in urban areas. Although this disposal of soil is not technically impossible, it requires a great deal of labor and cost and may cause traffic congestion around the workplace.

In order to meet the social demands of no vibration, no noise, and no soil discharge, a screw auger having a thick soil surface formed on the outer peripheral portion of a screw blade piece, casing, etc. is used to dig a hole. At the same time, the technology of constructing foundation piles while preventing the collapse of the hole circumference by firmly consolidating the hole peripheral wall by the action of the above-mentioned soil surface is also being researched and developed, but in the hole expanded and expanded with a screw auger When inserting the casing or the pile, a large frictional resistance is generated between the casing and the pile and the inner surface of the hole, so that this inserting operation requires a large amount of power and a long working time. As a prior art closest to the present invention for reducing such a problem, Japanese Patent Application Laid-Open No. 56-146584 (Japanese Patent Publication No. 57-44794) "Foundation pile construction device" is known. The above-mentioned known technology is one in which a spiral auger head that is advanced while expanding and consolidating soil is attached to the lower end of a cylindrical casing, but the expansion and consolidation of soil is completely achieved only by the auger head described above. Since it is not performed, a spiral ridge is provided on the outer peripheral surface of the cylindrical casing.

[0004]

In the above-mentioned known technique, since the spiral projection is provided on the outer peripheral surface of the casing, this projection acts as a screw conveyor, and some soil is discharged. The amount of soil discharged varies depending on the soil quality, but in any case, complete soil-free construction is not possible. The present invention has been made in view of the above circumstances, and provides a device and a construction method capable of performing a foundation pile for supporting a structure on soft ground with no vibration, no noise, and absolutely no soil discharge. The purpose is to provide.

[0005]

With respect to the basic principle of the present invention created to achieve the above-mentioned object, one of the present invention will be described.
The outline is as follows with reference to FIG. 1 corresponding to the embodiment.

The auger head 2 is attached to the lower end of the casing 3 to spread and consolidate soil while advancing. In the present invention, soil is a broad concept including sand, gravel, clay and mixtures thereof.

Consolidation shoes 4a to 4d are arranged adjacent to above the auger head 2 and fixed to the casing 3. The maximum diameter of this compaction shoe is larger than the outer diameter of the auger head, and completes the consolidation finish while further expanding the inner peripheral surface of the hole where the auger head is expanded and consolidated. As a result, the casing 3 needs only to take the role of transmitting the rotational force, and it is not necessary to have the function of the screw conveyor. However, it is necessary to keep the concentric state with the hole while sliding the compression shoe so as not to roughen the inner peripheral surface of the hole that has been subjected to the compression finish, and to reduce the friction caused by the sliding as much as possible. Is desired.

As a concrete configuration based on the above principle,
The soil-free construction apparatus according to the present invention assumes a reference cylindrical surface having a diameter D _0, is concentric with the reference cylindrical surface, and has a bottom circle diameter D.
An auger head base having a conical surface of ₁ <D _0, and a screw blade concentric with the reference cylindrical surface, having a soil edge along the reference cylindrical surface, and fixed to the conical surface of the auger head base. , A cylindrical casing fixed to the auger head base and having a diameter substantially the same as the bottom circle of the auger head base and concentric with the reference cylindrical surface, and adjacent to the auger head base, around the casing. A plurality of fixed compression shoes having an outer diameter dimension D ₂ > D ₀ , and a plurality of fixed shoes arranged around the casing in a discontinuous arrangement along a spiral and having a top surface along the reference cylindrical surface. And a ridge.

Further, according to the method for constructing non-discharging foundation piles of the present invention based on the above-mentioned principle, an auger head having a conical surface which expands upward and a spiral surface having a soil edge on its periphery is provided.
It is attached to the lower end of a vertical straight cylindrical casing, and a compaction shoe having a diameter larger than the outer diameter of the soil edge is fixed to the outer peripheral surface near the lower end of the casing, and the lower end of the casing. On the outer peripheral surface other than the part, fix the intermittent spiral ridge, screw the auger head into the ground while giving a rotational force to the upper end of the casing, the auger head of the hole that has expanded into the soil The inner peripheral surface is further expanded while being consolidated with the above-mentioned compacting shoe to form a cylindrical compacted soil wall, and the top surface of the ridge provided on the casing is aligned with the inner peripheral surface of the compacted soil wall. To reduce rotational friction and supply rotational energy to the auger head and compaction shoe to form a hole having a vertical cylindrical surface in the soil without discharging soil, and the inner surface of the hole by the compacted soil wall. It is characterized by preventing the collapse of.

[0010]

[Function] When the above-mentioned soil-free construction method is carried out using the above-mentioned soil-free construction device, the screw blades of the auger head generate a propulsion force, and the conical auger head base takes the lead in expanding the soil. Consolidation and the soil edge of the screw wing promotes consolidation of surrounding soil.

Further, the consolidation shoe completes the consolidation of the soil to form a cylindrical consolidation soil wall.

The outer diameter of the casing provided with the ridge is smaller than the inner diameter of the compacted soil wall, and the circle drawn by the top surface of the ridge is almost the same as the inner diameter of the compacted soil wall. Rubbing the inner surface of the compacted soil wall with a small friction without ruining it. As a result, there is no danger of destroying and collapsing the inner peripheral surface of the compacted soil wall, and without suffering a large power loss due to friction,
The casing is guided so as to be concentric with the compacted soil wall.
And, the ridges are arranged along the spiral,
It does not work as a screw conveyor because it is not continuous and therefore does not carry soil and discharges soil completely, thus achieving complete soil-free operation.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an embodiment of a soil-free construction device for foundation piles according to the present invention, and FIG. 1 (B) is a vertical sectional view.
(A) is the AA sectional view. As shown in FIG. 1 (B), the device of this embodiment is used with its longitudinal direction set upright vertically. Therefore, in the following description, the upper and lower names will be used based on the posture (FIG. B) in this usage state.

A vertical right circular cylinder having a diameter D ₀ is assumed as a reference cylindrical surface. This reference cylindrical surface is an imaginary cylindrical surface that is assumed as a design reference. Slightly smaller circle of diameter D ₁ than the diameter D ₀ and a bottom circular, constitutes a steel member having a conical surface which is inverted by an apex at the bottom for, this is a base member 2a of the auger head. Around the auger head base 2a, a screw blade 2b made of a steel plate is welded and fixed, and the edge of the periphery is folded along the reference cylindrical surface 1 to form a compressed soil edge 2c. To do.
A casing 3 made of a steel pipe having an outer diameter D ₁ <D ₀ is fixed concentrically with the auger head 2 having the auger head base 2a, the screw blades 2b, and the soil edge 2c configured as described above. This fixing is detachably attached by a bolt (not shown).

Four compaction shoes 4a, 4b, 4c and 4d are fixed around the lower end of the casing 3 so as to be adjacent to the bottom surface of the auger head base 2a. As shown in FIG. 1 (A), these compaction shoes have a circumferential length shorter than L / N. However, L is the outer peripheral dimension of the casing 3, and N is the number of installed compaction shoes and is an integer of 2 or more. That is,
Surrounding the casing 3 with a plurality of consolidation shoes, and
The compaction shoes are arranged apart from each other. As shown in FIG. 1 (B), the above-mentioned compaction shoe has a large diameter in the upper portion and projects outward from the reference cylindrical surface, and a lower portion (close to the auger head) has a small diameter in the above-mentioned reference shoe. It is located inside the cylindrical surface. The diameter D ₂ shown in FIG. 1A indicates the maximum outer diameter of a plurality of (four in this example) consolidation shoes, and D ₂ > D ₀ .

As shown in FIG. 1A, a large number of ridges 5a to 5h are arranged along the spiral on the outer periphery of the casing 3 and fixed to the casing 3.

Any number of these, for example, ridges 5a, 5
As for b and 5c, as shown in FIG. 1B, the length of the casing 3 is less than half the length of the circumference of the casing 3 (a little less than 1/4 in this example). It is arranged apart from the adjacent ridge.

Since the ridges 5a to 5c are intermittently arranged in this manner, a small amount of unconsolidated earth and sand leaks and falls from this gap, and does not function as a screw conveyor.

As shown in FIG. 1 (A), a plurality of ridges 5a to 5d are arranged with their top surfaces aligned with a circle having a diameter D ₀ , that is, aligned with a reference cylindrical surface 1. There is.

A mortar feed pipe 6 is arranged along the center lines of the casing 3 and the auger head 2, and the lower end thereof has an opening 6a. Although the tip of the mortar feed pipe 6 of this example is open to the top surface of the conical auger head base 2a, the tip of the mortar feed pipe is not necessarily the apex of the auger head base 2a when carrying out the present invention. It does not have to be opened, and may be opened in the vicinity of the auger head 2.

Using the soil-free construction apparatus (FIG. 1) configured as described above, the soil-free construction method of the present invention was carried out.
An example will be described next with reference to FIG. The upper end of the casing 3 is attached to the rotary drive MD, and the arc arrow B
When it is rotated like, the screw blades 2b of the auger head 2 are screwed into the soil and precede the downward propulsion force. The conical auger head base 2a is pressed into the soil by the propulsive force and the self-weight of the apparatus, and the soil is advanced while expanding and consolidating the soil. Along with this, the casing 3 vertically penetrates into the soil. The hole expanded by the auger head base 2a is further expanded while the consolidation shoe 4c is pressed against the inner peripheral surface of the hole, and the soil on the inner peripheral surface is further consolidated and solidified to form a cylindrical consolidation layer 8. The protrusion 5 provided around the casing 3 rotates with the casing 3 while the top surface slides on the inner peripheral surface of the consolidation layer 8. The consolidation layer 8 is expanded by the consolidation shoe 4 and has an inner diameter of about D ₂ . The diameter of the rotation locus circle on the top surface of the protrusion 5 is the diameter D ₀ of the reference cylindrical surface. Therefore, the top surface of the ridge 5 slides while lightly touching the inner peripheral surface of the consolidation layer 8, does not receive a large frictional resistance, and there is no risk of collapsing the inner peripheral surface. Since the ridges 5 are arranged along the spiral (see FIG. 2 (A)), the local sliding contact with the inner peripheral surface of the consolidation layer 8 is performed in a manner of moving relatively obliquely. The inner peripheral surface of the layer 8 is not roughened and guided by this to support and guide the casing 3 in a vertical posture.
In this way, the auger head 2 and the casing 3 enter into the soil while forming the cylindrical consolidation layer 8, so that this operation is performed completely without soil.

When the casing 3 is machined to a predetermined depth, the casing 3 and the auger head 2 are lifted by a crane device (not shown) while reversing the casing 3 in the direction of the half arrow B, and at this time, the mortar feed pipe 6 is expanded. Injecting cement mortar into the hole, about 70 of the expanded hole
% With cement mortar. Subsequently, FIG. 2 (B)
As shown in FIG. 3, the ready-made concrete pile 1 is hung by suspending the ready-made concrete pile 10 into the cement mortar 9 in the expanded hole and solidifying the cement mortar.
Plant 0. In this way, the placement of the ready-made concrete pile 10 is performed without completely discharging soil, without generating the noise of the impact pile driver and without transmitting the vibration of the vibration pile driver to the surroundings. be able to.

Although illustration is omitted, after the casing 3 and the auger head 2 are lifted while injecting the cement mortar as described above, the reinforcing bar (even if it is a iron basket or core material) is placed in the cement mortar in the expansion hole. So called cast-in-place piles can also be constructed by inserting (good) and solidifying the cement mortar. Even if it is constructed in this way, it is possible to construct foundation piles with absolutely no soil discharge and no noise or vibration.

As a further different embodiment, after the casing 3 and the auger head 2 are lifted while the cement mortar is being poured as described above, the auger head is removed from the casing, and the casing 3 is again hung and placed in the expansion hole. It can also be inserted and the cement mortar solidified. Since the casing 3 is buried in the ground when constructed in this way, it is possible to construct a strong cast-in-place pile that is particularly resistant to bending stress. In this embodiment, instead of suspending and burying the casing 3, it is also possible to suspend and bury a steel pipe pile having substantially the same diameter as the casing 3.

[0025]

As is clear from the above embodiments, when the soil-free construction apparatus for foundation piles of the present invention is used to carry out the soil-free construction method of the present invention, no vibration, no noise, and It has an excellent practical effect of being able to drive foundation piles without completely discharging soil.

[Brief description of drawings]

FIG. 1 shows an embodiment of a soil-free construction apparatus for foundation piles according to the present invention, (B) is a longitudinal sectional view, and (A) is its A-.
FIG.

FIG. 2 is a process explanatory view showing an embodiment of a soil-free construction method for foundation piles according to the present invention, in which (A) shows a state during excavation, and (B) shows after concrete pile placement. The state is drawn.

[Explanation of Codes] 1 ... Standard cylindrical surface, 2 ... Auger head, 2a ... Auger head base, 2b ... Screw blade, 2c ... Consolidation edge, 3 ... Casing, 4, 4a-4d ... Consolidation shoe, 5, 5a- 5
h ... ridge, 6 ... mortar supply pipe, 6a ... opening, 8 ... consolidation layer, 9 ... cement mortar, 10 ... ready-made pile.

Claims (10)

[Claims] [Claim 1] assumes a diameter D ₀ becomes the reference cylindrical surface, with the reference cylindrical surface concentric with the auger head base diameter of the bottom circle having a D ₁ <D ₀ becomes a conical surface, the reference cylindrical surface concentric A screw blade fixed to the conical surface of the auger head base, having a compressed soil edge along the reference cylindrical surface, and having a diameter substantially the same as the bottom circle of the auger head base, and concentric with the reference cylindrical surface. Then, a cylindrical casing fixed to the auger head base, a compaction shoe adjoining the auger head base and fixed around the casing and having an outer diameter dimension D ₂ > D ₀ , and A plurality of ridges, which are arranged and fixed intermittently along a spiral and have a top surface along the reference cylindrical surface, are provided around the periphery, and the foundation pile is not discharged. Soil construction equipment. 2. The ridges each have a lengthwise dimension shorter than half the outer peripheral dimension of the casing, are arranged along the surface of the casing along a spiral, and the ridges are arranged in the lengthwise direction. The soil-free construction device for foundation piles according to claim 1, characterized in that they are arranged apart from each other. 3. The compaction shoe is a strip-shaped member provided in a shape surrounding the casing, the circumferential length dimension of which is shorter than half the circumferential dimension of the casing, and The soil-free construction device for a foundation pile according to claim 1 or 2, characterized in that the compaction shoes are arranged side by side in the circumferential direction and are spaced apart from each other in the circumferential direction. 4. The compaction shoe has a smaller diameter closer to the auger head base and a larger diameter farther from the auger head base. The outer diameter dimension D _{2 of the} large diameter portion is
D ₂ > D ₀ , The soil-free construction device for foundation piles according to claim 3, characterized in that. 5. A mortar feed pipe is provided in the auger head base and the casing so as to substantially coincide with the axis thereof, and the tip of the mortar feed pipe is located near the conical auger head. Characterized by being open,
The soil-free construction device for foundation piles according to claim 1. 6. An auger head having a conical surface that expands upward and a spiral surface having a soil edge on its periphery is attached to the lower end of a vertical straight cylindrical casing, and the vicinity of the lower end of the casing. A compression shoe having a diameter larger than the outer diameter of the soil edge is fixed to the outer peripheral surface of the casing, and an intermittent spiral protrusion is fixed to the outer peripheral surface other than the lower end portion of the casing, The auger head is screwed into the ground while applying the rotational force to the upper end of the, and the inner peripheral surface of the hole where the auger head expands into the soil is further expanded while being consolidated by the above-mentioned consolidation shoe, The compacted soil wall is formed, and the top surface of the protrusion provided on the casing is slid along the inner peripheral surface of the compacted soil wall to reduce rotational friction and to apply rotational energy to the auger head and the compaction shoe. Supply and no soil, vertical cylinders in soil To form a hole having, characterized in that to prevent the collapse of the bore inner surface by the compaction soil walls, no dumping method of constructing foundation piles. 7. The vertical cylindrical surface-shaped hole is formed by using a mortar feed pipe which is arranged along the center line of the casing and the auger head and is opened near the auger head. The non-removal work method for foundation piles according to claim 6, wherein the auger head and the casing are pulled up while being reversed while the mortar is being injected. 8. The mortar is poured into the hole of the vertical cylindrical surface, the auger head and the casing are pulled up to the ground and removed, and then the ready-made concrete pile is suspended and planted in the mortar. The method for constructing soil-free soil for foundation piles according to claim 7. 9. The mortar is solidified after the auger head and the casing are pulled up to the ground while injecting the mortar into the hole of the vertical cylindrical surface and removed, and then the rebar is suspended and inserted into the mortar. A non-removing earth construction method for a foundation pile according to claim 7, characterized in that. 10. The mortar is poured into the hole in the vertical cylindrical surface while the auger head and the casing are pulled up to the ground and removed, and then, the casing in which the auger head is removed, or substantially the same as the casing in the mortar. The method for earth-free construction of foundation piles according to claim 7, characterized in that a steel pipe pile having a diameter is suspended and the mortar is solidified.