JP2021139142A - Screw pile extraction tool and screw pile extraction device - Google Patents

Abstract

To provide a screw pile extraction tool and a screw pile extraction device capable of easily extracting even a screw pile firmly screwed into the land.SOLUTION: A head ring 11a of a screw pile 11 screwed into the land is disposed in the center of a lower end opening of a cylindrical casing 12, and a rotation input unit 18 is rotated by applying a pressing-down force to the cylindrical casing 12. Accordingly, via a drilling blade 16 and a screw blade 17 of the cylindrical casing 12, surrounding dirt is scooped up in a cylindrical shape over the entire length of the screw pile 11 by a screw pile extraction tool 13. Then, the screw pile 11 is extracted together with the surrounding dirt in which the screw pile 11 has been buried by lifting the screw pile extraction tool 13. As a result, even the screw pile 11 firmly screwed into the land can be easily removed.SELECTED DRAWING: Figure 3

Description

The present invention relates to a spiral pile pulling tool and a spiral pile pulling device, specifically, a spiral pile pulling tool and a spiral pile pulling device for pulling a spiral pile screwed into the ground.

As an agricultural facility used for crop cultivation, a vinyl greenhouse in which a steel material is used as a skeleton and the outer wall is covered with a vinyl film is known.
When assembling this greenhouse, first, arc-shaped curved columns are driven into the ground at regular intervals, each column is covered with a transparent vinyl film, and a number of columns are located near both ends in the house length direction. Screw multiple spiral piles into the soil at metric intervals. After that, on both sides of the house, a series of metal pipes are inserted into the head rings of each spiral pile, and both ends of a plurality of holding bands hung on the upper surface of the vinyl film are hung on the corresponding metal pipes, respectively. Stop.

By the way, when dismantling a vinyl house, it is necessary to remove the spiral pile in the soil.
Conventionally, as a portable spiral pile pulling machine that automates this pulling operation, for example, the one of Patent Document 1 is known. In this method, the holder is placed on the head of the spiral pile, and the holder and the spiral pile are integrally rotated in the direction opposite to that at the time of embedding by the rotational force of the motor to be pulled out.

Jikkenhei No. 2-80151

However, a portable spiral pile pulling machine as in Patent Document 1 generally generates a small torque. Therefore, for example, a spiral pile that has been screwed into agricultural land for a long period of time and firmly integrated with the land cannot be easily pulled out even by using the motor-driven spiral pile pulling machine of Patent Document 1. ..

Therefore, as a result of diligent research, the inventor used a cylindrical spiral pile pulling tool instead of rotating the spiral pile in the reverse direction with a spiral pile pulling machine to pull it out. It was found that the above-mentioned problems could be solved by extracting the above-mentioned problems, and the present invention was completed.

The present invention has been made in view of the above-mentioned problems of the prior art, and provides a spiral pile pulling tool and a spiral pile pulling device that can easily pull out even a spiral pile firmly screwed into the land. The purpose is.

The invention according to claim 1 is a spiral pile pulling tool for pulling out a spiral pile screwed into the ground, wherein the cylindrical casing has a cylindrical casing whose inner diameter is larger than the spiral outer diameter of the spiral pile. An excavation blade for digging in the ground is fixed to the lower end portion, and a spiral blade for digging in the ground near the outer peripheral surface of the cylindrical casing is provided around the outer peripheral surface of the cylindrical casing during the excavation. At the upper end of the spiral pile pulling tool, a rotation input portion for inputting an external force for rotating the cylindrical casing in the circumferential direction is provided.

The use of the spiral pile is arbitrary. For example, it can be used for vinyl greenhouses, pipe warehouses, pipe garages, tents, and the like.
As the material of the spiral pile, for example, iron, steel, or the like can be adopted.
The shape of the spiral pile is arbitrary as long as it has a spiral portion obtained by bending a round bar into a spiral shape. For example, various heads such as a ring shape and a rectangular shape may be provided at the upper end of the spiral portion.
The length of the spiral pile is appropriately selected according to the application. For example, it is 20 cm to 1 m, preferably 30 cm to 80 cm.
The outer diameter of the spiral of the spiral pile is arbitrary. For example, it is 3 cm to 20 cm, preferably 5 cm to 10 cm.

The material of the cylindrical casing is not limited. For example, iron, steel and the like can be adopted.
The size of the cylindrical casing is arbitrary as long as the inner diameter is larger than the spiral outer diameter of the spiral pile.
The length of the cylindrical casing is arbitrary. However, it is preferable that the length is the same as or longer than the length of the spiral pile. This is because if it is shorter than the length of the spiral pile, the operator needs a larger force when pulling out the spiral pile with soil.
As the material of the excavation blade, for example, various types of iron, steel and the like can be adopted.
The shape of the drilling blade is arbitrary. For example, it may be triangular or trapezoidal.

The number of formed excavation blades may be one or a plurality. In the case of a plurality of cases, it is preferable to arrange them at a predetermined pitch in the circumferential direction of the cylindrical casing.
As the material of the spiral blade, for example, various types of iron, steel, and the like can be adopted.
The shape of the spiral blade is arbitrary.
The lead angle, helix angle, outer diameter, etc. of the spiral blade are arbitrary.
The shape of the rotation input unit is arbitrary. For example, a columnar shape, a prismatic shape, or the like can be adopted.
A hole (including a through hole) or a groove (including a groove of a spline shaft) that can be used for power transmission may be formed on the outer peripheral surface or the end surface of the rotation input portion.

Further, a pair of shaft communication holes may be formed in both side portions (opposing portions) of the upper part of the cylindrical casing in order to pass one communication shaft between the head ring and the spiral pile. As a result, after the cylindrical groove is formed, the communication shaft is inserted into the head ring and each shaft communication hole, and the spiral pile pulling tool can be pulled up in this state. As a result, the spiral pile can be reliably pulled out together with the surrounding soil in which the spiral pile is buried. The length of the communication shaft may be substantially the same as or longer than the diameter of the cylindrical casing in this communication state.
In addition, the shaft communication holes arranged facing each other are arranged in multiple pairs by changing the height position (position in the casing length direction) of the upper part of the cylindrical casing so that the spiral piles having different lengths can be accommodated. You may.
Further, if each shaft communication hole is an elongated hole extending in the length direction of the cylindrical casing, the shaft communication hole and the head ring can be easily aligned, and the work of communicating the communication shaft through these holes can be performed. It will be easier and work time will be shortened.
A wire, a rope, a wire, or the like may be used instead of the communication shaft.

The invention according to claim 2 is the spiral pile pulling tool according to claim 1, wherein the rotation input portion is provided with a handle integrally or detachably.
The shape of the handle is arbitrary. For example, it may be rod-shaped or ring-shaped.

The invention according to claim 3 is a spiral pile pulling device including the spiral pile pulling tool according to claim 1 and an actuator for rotating the cylindrical casing via a rotation input portion thereof.
The type of actuator is arbitrary. For example, an electric motor, a hydraulic motor, or the like may be adopted.

According to the present invention, the head of a spiral pile screwed into the ground is arranged at the center of the lower end opening of the cylindrical casing, and the excavation blade of the cylindrical casing is brought into contact with the ground surface. In this state, while applying a pushing force to the cylindrical casing, the handle manually rotates the cylindrical casing via the rotation input portion (in the case of claim 2), or the actuator rotates the cylindrical casing via the rotation input portion (claim). In the case of item 3).
In this way, the soil around the spiral pile is gradually dug by the spiral pile pulling tool through the drilling blade and the spiral blade of the cylindrical casing, and finally the soil around the spiral pile is gradually dug over the entire length of the spiral pile. Is cut into a cylinder to form a cylindrical groove. After that, by pulling up this spiral pile pulling tool, the spiral pile can be pulled out together with the surrounding soil in which the spiral pile is buried.
As a result, even spiral piles that are firmly screwed into the land can be easily removed.

In particular, according to the invention of claim 2, since the cylindrical casing is rotated by using the manual handle, the effect of claim 1 can be obtained at low cost.

Further, according to the third aspect of the present invention, since the cylindrical casing is rotated by using the actuator, the labor for pulling out the spiral pile is reduced.

It is a perspective view of the spiral pile pulling apparatus which concerns on Example 1 of this invention. It is a perspective view of the spiral pile pulling tool used for the spiral pile pulling apparatus which concerns on Example 1 of this invention. It is a perspective view which shows the use state of the spiral pile pulling tool used for the spiral pile pulling apparatus which concerns on Example 1 of this invention. It is a perspective view which shows another use form of the spiral pile pulling apparatus which concerns on Example 1 of this invention.

Hereinafter, examples of the present invention will be specifically described. Here, an example is taken for pulling out a spiral pile firmly screwed into a farmland when dismantling a vinyl house.

As shown in FIGS. 1 to 3, the spiral pile pulling device 10 according to the first embodiment of the present invention has an inner diameter a larger than the spiral outer diameter b of the spiral pile 11 (FIG. 3) and a length of the spiral pile. A spiral pile pulling tool 13 having a cylindrical casing 12 having the same length as 11 and a rotation driving unit 14 for rotating the spiral pile pulling tool 13 are provided.
The spiral pile 11 is made of iron having a length of 60 cm and a spiral outer diameter b of 8 cm. A head ring 11a is curvedly formed at the upper end of the spiral pile 11.
The cylindrical casing 12 is an iron pipe having an inner diameter a of 10 cm, a length (height) of 65 cm, and a thickness of 3 mm, and the upper end opening is closed by a circular iron lid 15.

A large number of steel excavation blades 16 for digging underground are arranged in a row on the entire circumference of the lower end of the cylindrical casing 12.
Further, on the outer peripheral surface of the cylindrical casing 12, an iron spiral blade 17 for digging in the ground near the outer peripheral surface of the cylindrical casing 12 is provided around the outer peripheral surface of the cylindrical casing 12.
Further, a rotation input portion 18 for rotating the cylindrical casing 12 in the circumferential direction is erected on the upper surface of the central portion of the iron lid 15 at the upper end of the cylindrical casing 12 (FIG. 2). The rotation input portion 18 is a short iron prism, and an insertion hole 18a is formed through the left and right surfaces (a pair of facing surfaces) of the prism in FIG. A long handle rod (manual handle) 19 used during manual rotation of the cylindrical casing 12 is inserted into the insertion hole 18a (FIG. 4).
Furthermore, as shown in FIG. 1, the rotary drive unit 14 includes a drive unit main body 21 having a horizontally long grip 20A and a vertical rectangular frame grip 20B, and an electric motor (actuator) 22 mounted on the drive unit main body 21. And have. The electric motor 22 is provided with a downward output shaft 23, and a socket portion 24 that is detachably fitted to the rotation input portion 18 of the cylindrical casing 12 is integrally formed at the lower end portion of the output shaft 23.

Next, with reference to FIGS. 1 to 3, the work of pulling out the spiral pile 11 firmly screwed into the farmland at the time of dismantling the vinyl house will be described using the spiral pile pulling device 10 according to the first embodiment of the present invention. do.
First, although not shown, the vinyl film and the skeleton of the vinyl house are removed, and the rotary input portion 18 of the cylindrical casing 12 is fitted to the socket portion 24 of the electric motor 22 (FIG. 1).
After that, as shown in FIG. 3, in one side of the construction site of the vinyl house, the head ring 11a of the spiral pile 11 screwed into the ground is arranged at the center of the lower end opening of the cylindrical casing 12, and the ground is ground. The excavation blade 16 of the cylindrical casing 12 is brought into contact with the inside, and in this state, one of the grips 20A and 20B is grasped with the left and right hands, respectively, and not only the weight of the drive unit main body 21 but also the cylindrical casing 12. The output shaft 23 and the rotation input portion 18 of the electric motor 22 are rotated in the soil excavation direction via the socket portion 24 while applying a pushing-down force.

As a result, the excavation blade 16 of the cylindrical casing 12 gradually excavates the soil around the spiral pile 11 with the spiral pile 11 as the center of rotation, and along with this, the spiral blade 17 causes the ground near the outer peripheral surface of the cylindrical casing 12. Dig inside. After that, finally, the cylindrical groove 25 is formed by cutting the soil around the spiral pile 11 into a columnar shape over the entire length of the spiral pile 11.
After that, by grasping the grip 20 and pulling up the spiral pile pulling tool 13 integrally with the drive unit main body 21, the spiral pile 11 is pulled out together with the buried surrounding soil.
As a result, the spiral stake 11 can be easily removed even if the spiral stake 11 is firmly screwed into the farmland.
Further, since the electric motor 22 is used here to rotate the cylindrical casing 12, the labor for pulling out the spiral pile 11 can be reduced.

Further, here, a configuration is adopted in which the cylindrical casing is rotated by the electric motor 22 via the rotation input unit 18. For example, as shown in FIG. 4, an iron handle rod 19 is inserted into the insertion hole 18a of the rotation input unit 18. The cylindrical casing 12 may be manually rotated in the excavation direction in this state after being inserted.
As described above, if the cylindrical casing 12 is rotated by using the manual handle rod 19, the above-mentioned effect of the present invention can be obtained at low cost.

The spiral pile pulling tool and the spiral pile pulling device of the present invention are useful as a technique for pulling a spiral pile screwed into the ground.

10 Spiral pile pulling device,
11 Spiral stake,
12 Cylindrical casing,
13 Spiral pile puller,
16 Drilling blade,
17 spiral blade,
18 Rotational input section,
19 Handle bar (manual handle),
22 Electric motor (actuator),
a inner diameter,
b Spiral outer diameter.

Claims (3)

In a spiral pile pulling tool for pulling out a spiral pile screwed into the ground
It has a cylindrical casing whose inner diameter is larger than the spiral outer diameter of the spiral pile.
An excavation blade for excavating the ground is fixed to the lower end of the cylindrical casing.
On the outer peripheral surface of the cylindrical casing, a spiral blade for digging in the ground near the outer peripheral surface of the cylindrical casing is provided around the outer peripheral surface of the cylindrical casing.
A spiral pile pulling tool provided with a rotation input portion for inputting an external force for rotating the cylindrical casing in the circumferential direction at the upper end portion of the cylindrical casing. The spiral pile pulling tool according to claim 1, wherein the rotation input portion is provided with a manual handle integrally or detachably. The spiral pile pulling tool according to claim 1 and
A spiral pile pulling device including an actuator that rotates the cylindrical casing via its rotation input portion.

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