JPH02178414A - Mixing-agitating device of mixed earth in improvement - Google Patents

Abstract

PURPOSE:To simplify the structure by locating a rotating blade between fixed blades and providing a screw around of it, and changing the rotating speed of the screw to a drilling blade and the fixed blade integrally rotating with a driving rod to prevent the mutual rotation of the drilled earth. CONSTITUTION:An injection hole of the filling material is provided in the tip member 13 in which an injection hole of the lower end of a driving rod 11 made of the hollow material, and a drilling blade 15 having a projecting drilling tooth 16 is provided on it, and fixed blades 18 for agitating-mixing the earth and the filling material are comprised above it. Rotating blades 20, 20a are located between the drilling blade 15 and the fixed blade 18, and an upper and a lower fixed blades 18. The rotating blade consists of a casing 21 having the rotating speed different from the speed of the driving rod 11 and a screw 22 projecting from its peripheral, and prevent the mutual rotation of the earth by biting of the outer diameter of the screw 22 to the drilled hole wall at the time of rotating. Thereby, the mixture-agitation of the earth and the filling material can be performed enough.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention is directed to the construction of a building on soft ground, etc. by mixing a filler such as cement milk into the soil excavated on the ground. Regarding the drilling equipment used in the ground improvement method to improve the support strength of the ground, we have designed it to be able to excavate holes and mix and stir the filler material well, especially in areas with a lot of rubble such as landfills. related to drilling equipment.

(Conventional technology) In areas that are not suitable for building buildings, such as areas with poor ground conditions or reclaimed land, piles are driven in to improve the supporting strength of the ground. In addition, by drilling a hole in the ground and mixing an assimilating agent (hereinafter referred to as filler) such as cement or sodium silicate with the soil in the hole to solidify the soil, a pile-shaped structure can be created. Ground improvement is being carried out.

For example, construction methods used for this purpose include:
A device capable of performing excavation and stirring as shown in Japanese Patent Application Laid-Open No. 61-95118 is used.

Then, by using the conventional equipment described above, it is possible to dig holes and mix and stir filler into the excavated soil to construct cast-in-place piles and improve the supporting strength of the ground. Make it.

However, when constructing cast-in-place piles, if the soil is sandy or silty, it is easy to construct cast-in-place piles using the conventional equipment described above.
If the nature of the soil is, for example, hard or highly adhesive, such as clay, there will be a problem that the excavated soil will move around with the excavation blade of the excavation equipment. Even when attempting to mix filler with excavated soil, a problem has arisen in that the two cannot be mixed and stirred efficiently.

In order to solve the above-mentioned problems, Japanese Patent Application Laid-open No. 56-1
As shown in Japanese Patent No. 53013, etc., a technique for preventing co-rotation during excavation is used. The conventional co-rotation prevention means described above includes stirring blades provided at predetermined intervals in the length direction of the drive shaft, and co-rotation prevention blades arranged between the stirring blades, and a cylindrical body housing the co-rotation prevention blades. is constructed so as to be stretched toward the wall of the borehole.

When the soil is stirred by the stirring blades, the soil is subjected to resistance by the anti-rotation blades, so that the soil and filler are mixed well, making it suitable for use in clayey and other soils. The construction of lambda piles can now be carried out well.

(Problems to be Solved by the Invention) When using a cast-in-place pile construction device using the conventional co-rotation prevention device as described above, the cylindrical body and the co-rotation prevention wings protruding toward the inside thereof. During this period, it is necessary to rotate the stirring blades.

As mentioned above, in the conventional device configured, when the ground for excavation is relatively homogeneous such as viscous soil or beet layer, the g If there is only enough mass to pass through the fillet, cast-in-place piles can be constructed in relatively good condition.

However, in recent years, soil improvement work is often carried out in areas with extremely poor soil quality, such as concrete lumps and rubble, rather than in areas where the soil is not homogeneous, such as in landfills. However, when using the above-mentioned co-rotation prevention device, problems arise such as large chunks of concrete, debris, etc. not being able to pass between the rotary blade and the fixed interior. ing.

In addition, in places where the ground quality is not good as mentioned above,
If fixed wings are installed on the drilling equipment, problems may occur such as the blades hitting large stones on the wall of the drilling hole, making it impossible to drill the hole, and the work efficiency will be significantly reduced. There is.

(Object of the Invention) The present invention has been used in the past as described above! I
This eliminates the drawbacks of the N-position, and allows for easy excavation of ground containing rubble, etc., using rotary blade devices with different rotational speeds without the need for fixed blades, as well as the ability to remove excavated soil. The object is to provide a device that can prevent co-rotation.

(Means and effects for solving the problems) The excavation mixing and stirring device of the present invention excavates a hole in the ground using a drilling device, mixes filler, etc. into the soil in the excavation hole, and stirs the soil. This relates to a construction method for improving the ground by solidifying the soil in the hole.

The shaft of the excavation device of the present invention is formed with a tip member having an ejection hole at its tip, and is configured to eject filler material etc. from the tip member, and excavates near the tip of the driving rod. Fixed blades are fixedly arranged at predetermined intervals above the excavating blades of the driving slot, and rotating blades are arranged between the fixed blades, and the rotating blades are equipped with a planetary gear mechanism. A screw is provided around the casing of the rotating blade, and a part of the outer circumference of the screw is in constant contact with the wall of the borehole. By changing the rotational speed of the rotary blade with respect to the excavating blade and the fixed blade, which are provided as such and rotate integrally with the driving rod,
It is constructed to prevent the excavated soil from rotating together in the hole.

Therefore, by using the drilling equipment of the present invention,
By rotating the two types of rotary blade devices at different speeds, the soil is prevented from co-rotating inside the borehole, so that the soil and filler can be mixed well. It becomes something that can be done in the state.

Furthermore, even if there are relatively large stones or concrete lumps in the ground, the excavation mixing and stirring device of the present invention can be removed upward by the rotary blades, so it can be used in places such as landfills. Hole drilling work can be carried out efficiently.

(Example) The configuration of the excavated soil mixing and stirring device of the present invention will be explained according to the illustrated example.

The embodiment of the present invention shown in FIGS. 1 to 3 shows the configuration of a drilling equipment 10. As shown in FIG. The drive rod 11 is configured as a hollow member similar to that of a conventional driving rod, and a tip member 13 provided with an ejection hole at the lower end of the driving rod 11 has many holes for ejecting the filler.

Further, on the upper part of the tip member 13 of the driving rod 11,
A digging blade 15 having a large number of digging teeth 16 protruding from its tip is provided, and the digging blade 15 performs the operation of digging a hole.

On the upper part of the excavation blade 15, fixed blades 18, 18a are arranged at predetermined intervals in the length direction of the driving rod 11.
The fixed blade discharges the excavated soil upward, and when mixing the filler, it performs the action of stirring and mixing the soil and the filler.

In addition, the above-mentioned excavation blade 15 and fixed blade 18...
The blades are attached to the drive rod 11 by means such as welding, as in the case of conventional excavation equipment, and are configured as blades having substantially the same length and tilted in the excavation direction.

Between the above-mentioned excavation blade 15 and fixed blade 18, and
Rotating blades [20, 20a are arranged between the fixed blade 18 and the fixed blade located above it. As shown in FIGS. 2 and 2a, the rotary blade 20 includes a casing 21 that is rotated at different rotational speeds with respect to the driving rod 11, and a screw 22 that protrudes around the casing 21. A planetary gear device is provided inside the casing 21.

As shown in the figure, the outer diameter of the screw 22 of the rotary blade 20 is smaller than the length of the excavating blade and the fixed blade, but the trajectory of the screw of the rotary blade when it rotates is similar to that of Moeki. It is made to draw the same circle as the rotation locus of the outermost part of the B-shaving blade 15. Furthermore, setting the rotation locus of the outermost portion of the screw 22 to such an extent that it slightly bites into the wall of the excavation hole may be more effective in preventing the soil from rotating together.

In this embodiment, the planetary gear device includes a drive gear 25 provided on the drive rod 11, an internal gear 27 provided on the inner surface of the casing 21, and the two gears 25.27.
and a planetary gill 26 disposed between the two.

When the driving rod 11 is rotated, the casing 21 provided with the internal gear 27 is rotated in the same direction via the planetary gear 26 that meshes with the driving gear 25. The rotational speed of 20 is significantly reduced relative to the rotation of the shaft.

In this rotating blade drive mechanism, when @11 is rotated in the direction of arrow a as shown in the figure, the planetary gear 26 that meshes with the drive gear 25 of the shaft 11 rotates in the direction of the arrow, and the drive gear Rotation is performed in the direction of arrow C around the axis.

Furthermore, the rotary blade 20 is rotated in the direction of arrow d via the internal gear 27 that meshes with the planetary gear 26, and the locus drawn by the outermost part of the rotary blade matches the diameter of the outer wall of the hole 1. Become so.

Further, the excavation hole 1 is formed to have a predetermined diameter depending on the length of the excavation blade 15, and the fixed blade is rotated drawing the same trajectory inside the hole. Then, the work of drilling the hole is carried out in the state described above, but as mentioned above, at a speed different from the rotational speed of the shaft,
The rotating blades will be driven.

In the embodiment of the present invention configured as described above, the rotational speed of the rotary blade 20 can be set to about 1/4 of the rotational speed of the driving rod 11, so that soil excavation and stirring can be performed easily. When carrying out the work, the driving force in the direction of turning the soil will be different between the fixed blade of the upper F and the rotating blade.

Therefore, by varying the speed in the direction of rotation of the soil between the fixed blade and the rotating blade,
A large resistance is generated in the soil, which prevents the soil from rotating together with the driving rod.

In the rotating blade 20 of the present invention configured as described above, the plate member forming the upper and lower parts of the casing 21 is provided with a hole 23 through which the rod 11 passes. It is formed as a large hole in order to be able to rotate around it. In order to prevent soil, etc. inside the excavation hole from entering the inside of the casing through the hole 23, sealing members 24.24a are provided to close the upper and lower holes of the casing 21.
The sealing member prevents the casing from moving excessively in the vertical direction and also seals the hole.

Further, in addition to the embodiments of the present invention described above, a rotary vane 50 as shown in FIGS. 3 and 3a can be used. The rotating blade 50 shown in FIG. 3 has a plurality of planetary gears 56 provided inside a casing 51, and these planetary gears 56 mesh with internal gears 58 provided on the circumferential inner surface of the casing 51. It is like that. The shaft 57 of the planetary gears 56 is supported via bearings provided on the upper and lower plate members of the casing, and the principle operation is similar to that of a general planetary gear device. It becomes something that can be done.

In the embodiment of the present invention described above, the casing 51 is provided concentrically with the drive rod 11, and a screw 52 with an eccentric outer periphery is provided around the casing. Then, the most outwardly protruding portion 52a of the screw is placed so as to be slid on the wall 2 of the borehole.

Therefore, the rotary blade device using the eccentric screw of the present invention, like the rotary blade shown in the first embodiment, rotates at a slower speed than the rotation speed of the excavating blade etc. This will prevent the excavated soil from rotating around between the fixed tensions.

When drilling a hole in the ground using the drilling device 10 of the present invention configured as described above, first the drilling blade 15 is
A hole is drilled to a set depth using a
The ground is dug by the digging blade 15 and the digging tooth 16 provided at the tip thereof, and the excavated soil is discharged to the upper part by rotation of the fixed blade and the rotary blade.

After drilling the hole 1 to the designed depth, the driving rod 11 is drilled while spouting the filler from the tip member 13.
The filler is mixed with the soil remaining in the hole by rotating it, and the cast-in-place pile is created.

Separately, while the hole 1 is being excavated by the drilling equipment, after the amount of soil removed from the hole reaches the designed amount, the lower part of the hole is excavated and, at the same time, the tip member 13 is filled with soil. The excavation operation continues while ejecting material,
Although it is possible to dig the hole while mixing the filler material into the soil being excavated, the steps for excavation and mixing can be performed arbitrarily.

When carrying out this excavation and soil removal work, even if there is a lump of concrete or large stone in the excavation area, if it can be dug out with the excavation blade, the large lump etc. will be removed by the excavation blade. Since the fixed blade, the fixed blade, and the rotary blade rotate together, the hole is transported upward in sequence, so that the work of excavating the hole can be carried out efficiently.

On the other hand, when using a conventional co-rotation prevention device, a plate member that acts as a resistance is placed between the fixed blades, so large lumps etc. get caught on the resistance plate member, and the excavation equipment Although there has been a problem in that the drilling device does not easily advance to the bottom, the drilling device of the present invention does not have the above-mentioned problems and can efficiently drill holes.

Furthermore, even if wood, large stones, or other rubble protrudes from the wall 2 of the hole 1, the parts protruding from the wall may be sequentially scraped away by the fixed blade and the rotating blade midway through the hole. In addition to this, the blades can easily pass through the obstacle, and will not become an obstacle when transporting the excavated soil upward.

As shown in FIG. 4, the excavated soil mixing and agitating device of the present invention as described above is installed on a vehicle for in-shell excavation, and is used to create cast-in-place piles and improve the ground thereby. It will be possible to perform the following tasks. In the embodiment shown in FIG. 4, the upper end of the drilling rig 10 is connected to a drive device 140, and as the drive device 40 moves up and down along the guide 36 of the mast 35, Excavation and extraction operations are performed.

The mast 35 is supported by a support arm 31 of a working vehicle 30, and a wire 33 pulled out from a winch 32 provided on the vehicle supports a drive device 40 via a head member 37, and the drive device 40 is supported by the winch 32. is moved up and down to move the excavation rig 10.

Further, a swivel 45 is provided at the top of the excavation device 10, and filler is supplied from the swivel 45 to the hollow hole of the excavation blade 11. , swivel 45 by hose 44
is supplied to Then, at the pressure set by the pump 43, it is ejected from the tip member 13 into the hole, and mixed with the soil.

In addition, in the embodiment of the present invention described above, the lengths of the excavating blades and the fixed blades protruding from the axis are set according to the diameter of the hole to be excavated, and the drilling equipment i! f10IP-The number and spacing of fixed blades to be provided can also be formed arbitrarily. Furthermore, the outer diameter of the casing 21 of the rotary blade 20, the shape and rotation speed of the screw provided around it, etc. can be configured as optimal according to the properties of the soil, and in particular, the It is not limited to.

In addition, in the device of the present invention, the rotation blade is driven! lI
As a mechanism, in addition to the planetary gear mechanism shown in the example, it is also possible to use a conventionally used general operating gear mechanism, etc., in which the rotary blade is fixed to a rod such as an excavation blade. Any means can be used for the drive mechanism as long as it can be rotated at a different speed.

(Effects of the Invention) The excavated soil mixing and stirring device of the present invention has the above-described configuration, and the excavation device includes an excavation blade and a fixed blade that rotate together with the driving rod, and the driving rod. It is equipped with fixed blades that rotate at different speeds,
The excavation mechanism can be simplified.

Furthermore, by using the excavation device of the present invention, the two types of rotary blade devices rotate at different speeds, which prevents the soil from co-rotating inside the excavation hole. The operation of mixing and stirring with the materials can be performed in good condition.

Furthermore, the excavated soil mixing and stirring device of the present invention can be used in places such as landfills because even if there are relatively large stones or concrete lumps in the ground, they are removed upward by the rotary blades. Hole drilling work can be carried out efficiently.

[Brief explanation of the drawing]

Fig. 1 is a side view of the excavation equipment of the present invention, Fig. 2 is a sectional view taken along A-Al2 in Fig. 1, Fig. 2a is a longitudinal sectional view of the rotary blade device, and Fig. 3 is a rotary blade of the present invention. FIG. 3a is a cross-sectional view of another embodiment of the present invention, and FIG. 4 is a longitudinal cross-sectional view thereof, and FIG. 4 is an explanatory diagram of an apparatus to which the excavating apparatus of the present invention can be applied. Reference numeral 1 in Figure 1...Drilling hole, 10...Drilling equipment, 1
DESCRIPTION OF SYMBOLS 1... Drive rod, 12... Hollow hole, 13... Tip member provided with an ejection hole, 15...
...Drilling blade, 16...Drilling tooth, 18...
...Fixed blade, 20...Rotating blade, 21.
...Casing, 22...Screw
25... Drive gear, 26... Planetary gear, 27... Internal gear, 30... Work vehicle, 35... Mast, 40... Drive device, 45... Swivel. Figure 2a

Claims (1)

[Scope of Claims] A method of improving the ground by drilling a hole in the ground using a drilling device, mixing a filler or the like into the soil in the hole, and solidifying the soil in the hole. A tip member having an ejection hole provided at the tip thereof is formed on the shaft of the device, and the filler material, etc. is ejected from the tip member, and an excavation blade is provided near the tip of the driving rod, Fixed blades are fixedly arranged above the excavating blades of the driving rod at predetermined intervals, and rotating blades are arranged between the fixed blades, and the rotating blades connect to the driving rod through a planetary gear mechanism. A screw is provided around the casing of the rotating blade, and the screw is provided so that a part of its outer circumference is always in contact with the wall of the borehole, and the driving rod is configured to rotate at a speed different from that of the rotating blade. The ground is characterized in that it is configured to prevent the excavated soil in the hole from rotating together by changing the rotational speed of the rotary blade with respect to the excavation blade and the fixed blade that rotate together with the rotary blade. Mixing and stirring device for excavated soil in improved construction methods.