JP2017082452A - Underground obstacle removal attachment and underground obstacle removal method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an underground obstacle removal attachment and an underground obstacle removal method capable of removing an underground obstacle by using an independent press-in machine under construction at present, when detecting the underground obstacle.SOLUTION: An underground obstacle removal attachment A is used by being installed in an independent press-in machine having a chuck frame 4 for vertically moving to a press-in machine body B, and comprises a fixing part 10 detachably installed in the chuck frame 4 and a gripping rotation mechanism 20 for gripping and rotating the outer periphery of an auger screw O. The fixing part 10 of the attachment A is installed in a chuck 5 of the independent press-in machine, and an obstacle (s) such as an underground stone can be crushed and removed, due to boring in the ground when descending while rotating by gripping the auger screw O by the gripping rotation mechanism 20 of the attachment A. Moreover, since the attachment A is preferably installed and used only when necessary, normal work can construct a pile by the independent press-in machine without using a hard ground exclusive press-in machine.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an underground obstacle removing attachment and an underground obstacle removing method. More particularly, the present invention relates to an underground obstacle removing attachment and an underground obstacle removing method that are used by being attached to a pile presser that presses a pile into the ground by a static load.

FIG. 10 shows a single press-fitting machine that has been conventionally used and its operation procedure.
The press-fitting machine body B of the single press-fitting machine has a saddle 1, a slide frame 2 that slides in the front-rear direction (the left-right direction in the figure, and refers to the front and rear in the direction of press-fitting progress), and the slide frame. 2 and a leader mast 3 standing upright. Further, a chuck frame 4 is guided by an appropriate guide and attached to the front of the leader mast 3 so as to be movable up and down, and a chuck 5 is attached to the lower end of the chuck frame 4 so as to be rotatable. A main cylinder 6 is attached between the leader mast 3 and the chuck frame 4 so as to raise and lower the chuck frame 4.
On the other hand, below the saddle 1, several clamps 7 for gripping the press-fitted reaction force pile P are provided, so that the presser body B can be stably supported.

  For press-fitting of piles such as steel sheet piles, the main cylinder 6 is held in a state where the press-fitting body P is stably supported by the clamp 7 and the presser body B is stably supported, and the new pile Pn is grasped by the chuck 5. By operating and lowering the chuck frame 4, a new pile Pn is pressed into the ground with a static load. And many piles P can be press-fit along a planned line by repeating this operation | work continuously.

  By the way, if the underground into which the pile is pressed is soft ground, it can be pressed without any problem, but if there is an obstacle such as a boulder in the ground, the pile cannot be pressed with a static load. And since the underground situation cannot be grasped in advance, the pile may collide with an underground obstacle during construction work, and the work may be interrupted.

In case of contact with an underground obstacle, the pile was pulled out and one of the following two measures was taken.
The first method is a method of excavating the periphery of the ground with an excavator or the like to remove underground obstacles.
However, according to this method, it is necessary to excavate more than necessary due to restrictions such as the movement trajectory of the bucket of the excavator, and there is a problem that backfilling is necessary later and the surrounding ground loosens. . In addition, excavation with an excavator was not possible in the case of floating construction.

  The second method is a method using a dedicated press-fitting machine for hard ground as shown in Patent Document 1. The hard ground dedicated press machine is equipped with a casing auger in addition to the pile press-in mechanism. The auger is rotated into the ground while rotating the auger, and the ground obstacles are discharged to the ground through the casing. Obstacles can be removed.

  However, when taking this measure, it is necessary to prepare a dedicated press machine for hard ground in advance or to transport it to the site when necessary, and the former measure increases the construction cost, Corresponding to the latter leads to extension of the construction period. In addition, in order to operate the press machine for exclusive use of hard ground, it is necessary to change the process, so that there is also a problem that the construction period and cost increase.

Japanese Patent Laid-Open No. 10-195872

  In view of the above circumstances, in the present invention, when an underground obstacle is discovered, the underground obstacle can be removed by using a single press machine that is actually under construction, and construction can be continued without increasing the construction period and cost. It is an object to provide an attachment for removing a medium obstacle and a method for removing an underground obstacle.

The attachment for removing underground obstacles in the single press machine of the first invention is an attachment for removing underground obstacles used by attaching to a lifting member that moves up and down provided in the press machine main body in the single press machine. The underground obstacle removing attachment is a penetration type for penetrating and holding the auger screw in a vertical state, and holds the outer periphery of the auger screw and a fixed portion that is detachably attached to the elevating member. And a gripping rotation mechanism that rotates the handle.
The underground obstacle removing attachment according to the second invention is characterized in that, in the first invention, the fixing portion has a shape that can be gripped by a chuck for gripping a pile provided in the single press-fitting machine.
In the first or second invention, the underground obstacle removing attachment of the third invention includes the auger screw digging guide, and the digging guide holds the auger screw while allowing the auger screw to rotate. And an engagement portion that is engaged with and lifted by a joint that has been opened in the preceding pile material that has been previously placed in the ground.
A ground obstacle removing method according to a fourth aspect of the present invention is a ground obstacle removing method using the underground obstacle removing attachment according to claim 1, 2 or 3, wherein (1) the ground obstacle removing method is used. A setting step of gripping the outer periphery of the auger screw with the attachment and setting the auger screw in a rotatable state (2) With the auger screw rotated, the elevating member of the single press-fitting machine is lowered to bring the auger screw into the ground A penetrating step of penetrating (3) including an ascending step of stopping the rotation of the auger screw when the elevating member descends to a predetermined position or raising the elevating member while rotating in reverse, each of (1) to (3) By repeating the steps in that order, the auger screw is penetrated to a predetermined depth in the ground to remove obstacles in the ground.

According to the first invention, when the attachment is attached to the lifting member of the single press-fitting machine, and the auger screw is lowered by the lifting mechanism while being held and rotated by the gripping rotation mechanism of the attachment, the auger screw is brought into the ground. Because it digs, obstacles such as underground stones can be crushed and removed. In addition, since it is only necessary to attach and use the attachment only when necessary, it is possible to construct a pile with a normal single press machine without using a press machine dedicated to hard ground during normal work.
According to the second invention, since the attachment can be fixed by gripping the chuck originally provided in the single press machine, the attachment can be easily and firmly performed without using an extra member and processing the press machine main body. Can be attached to the pile presser.
According to the third aspect of the invention, the auger screw can be held at a predetermined position horizontally spaced from the open joint of the preceding pile material previously disposed in the ground by the holding portion and the engaging portion of the excavation guide. Therefore, the auger screw can be dug vertically downward to reliably crush obstacles existing in the ground.
According to the fourth invention, if the setting process, the penetration process and the ascending process are repeated, the obstacles in the deep ground can be crushed and removed even by using a single press machine with a short lifting stroke of the lifting member. .

It is a principal part cross-sectional side view of the underground obstruction removal attachment A which concerns on one Embodiment of this invention. It is a top view of the state attached to the press-fit machine main body B of the attachment A for underground obstruction removal. FIG. 6 is an explanatory view of an opening / closing operation of the rotary gripping mechanism 20. It is a side view of the state which attached attachment A for underground obstruction removal to press-fit machine main part B. FIG. 5 is a cross-sectional view of the chuck 5 taken along line V-V in FIG. 4. It is explanatory drawing of the excavation guide 40 of the auger screw O. FIG. FIG. 7 is a cross-sectional view taken along line VII-VII in FIG. 6. It is explanatory drawing of the other example of the auger screw O. It is an operation process figure of the underground obstruction removal method concerning the present invention. It is an explanatory view of a single press machine and a pile press work using it.

Next, an embodiment of the present invention will be described with reference to the drawings.
(Basic concept)
The basic concept of the present invention is to provide an underground obstacle removal function (hereinafter, referred to as `` detachable '') to the press machine main body in order to provide an underground obstacle removal function to a single press machine that press-fits a pile such as a steel sheet pile with a static load. It is simply called an attachment.) The member directly responsible for the underground obstacle removing function is an auger screw, and the attachment according to the present invention has a function for rotating the auger screw and a member for attaching to the press-fitting machine body.

The term “single press machine” as used herein refers to a press machine that presses a pile with a static load applied by the press machine, and does not have a pile auger function for excavating hard ground.
The auger screw O itself is a known member, and as shown in FIG. 1, it has a long cylindrical screw shaft O1 and a screw blade O2 formed in a spiral shape on its outer periphery, and at the tip (lower end). It has a drilling claw O3.

(Attachment for removing underground obstacles)
The details of the underground obstruction removal attachment A will be described with reference to FIGS.
The attachment A is roughly composed of a fixed portion 10 and a gripping rotation mechanism 20.
The fixing unit 10 is a member that supports the gripping rotation mechanism 20 and is attached to the lifting member of the press-fitting machine body. The “elevating member” in the claims refers to a member that moves up and down in order to press-fit a pile.

  The fixing portion 10 may be a member having any shape as long as it is a member that can be detachably attached to the elevating member. In this embodiment, since the chuck frame 4 and the chuck 5 are employed as the elevating members as will be described later, members that can be gripped by the chuck 5 are used.

  That is, as shown in an enlarged view (B) (a cross-sectional view taken along the line bb) in FIG. 1, the fixing portion 10 has substantially the same shape as a known U-shaped steel sheet pile. With this shape, the chuck 5 can be firmly held as will be described in detail later.

  In the present embodiment, the attachment A can be fixed by gripping the chuck 5 originally provided in the press-fitting machine main body B (see FIG. 4), so that any processing is not performed on the press-fitting machine main body B and an extra member is used. Without attachment, the attachment A can be easily and firmly attached to the pile press-fitting machine. Moreover, the fixing part 10 of the attachment A can also employ a steel sheet pile-like simple structure.

  In the attachment A of the present invention, various means can be adopted without particular limitation as long as the fixing portion 10 can be attached to the elevating member as long as it is detachable. For example, a means for attaching the fixing portion 10 to the tube of the chuck frame 4 or the main cylinder 6 by a combination of an appropriate mounting bracket and a pin, a bolt or the like may be employed.

A gripping rotation mechanism 20 is attached to the upper end portion of the fixed portion 10.
As shown in FIGS. 1 and 2, the gripping rotation mechanism 20 includes a cylindrical casing 21, and the casing 21 penetrates in the vertical direction. Since the auger screw O can be penetrated in a vertically oriented state in the casing 21 that penetrates in the vertical direction as described above, this is referred to as a “penetration type” in the present specification.

  A gripping mechanism 22 is disposed on the inner periphery of the casing 21. The gripping mechanism 22 includes three gripping plates 23 arranged along the circumferential direction and an opening / closing cylinder 24 for opening and closing the plate. Each gripping plate 23 is equally arranged in the circumferential direction in the casing 21. Moreover, the shape is formed in circular arc shape by planar view, and the curvature is substantially the same as the outer peripheral circular arc surface of the auger screw O. Further, each gripping plate 23 has a certain length in the vertical direction, and when the auger screw O is gripped, the straightness of the auger screw O is easily maintained.

  An open / close cylinder 24 composed of a hydraulic cylinder is disposed outside the three grip plates 23, and each open / close cylinder 24 is attached between the casing 21 and each grip plate 23. Further, the open / close cylinder 24 is disposed on both the upper end and the lower end of each gripping plate 23.

In the illustrated embodiment, the cylinder of the open / close cylinder 24 is mounted on the gripping plate 23 side, and the piston rod is mounted on the casing 21 side. However, the cylinder is mounted on the casing 21 side in reverse, and the piston rod is mounted on the gripping plate 23. It may be attached to the side.
Moreover, the structure which grips the auger screw O by sliding the other holding plate 23 provided with the opening / closing cylinder 24 toward the fixed holding plate 23 which is not provided with the opening / closing cylinder 24 may be used.
The casing 21 is provided with a receiving portion 24g (see FIG. 3) that receives the open / close cylinder 24 and also serves as a guide during expansion and contraction.

The opening / closing operation of the holding plate 23 will be described with reference to FIG.
3A shows an open state in which the open / close cylinder 24 is contracted, and a gap is generated between the gripping plate 23 and the outer periphery of the auger screw O. FIG. In this state, the auger screw O can be freely inserted into and removed from the gripping mechanism 22 while being suspended by a mobile crane or the like.

  (B) of the figure shows a closed state in which the open / close cylinder 24 is extended, and the circumferential surface of the gripping plate 23 is strongly pressed against the outer peripheral surface of the auger screw O to firmly fix the auger screw O. . In this state, as will be described in detail later, the auger screw O can be freely rotated in both forward and reverse directions.

  Since the gripping plate 23 of the gripping mechanism 22 has three pieces at equal intervals in the circumferential direction, the auger screw O can be gripped accurately and coaxially, and each gripping plate 23 has hydraulic cylinders 24 at both upper and lower ends. By applying the pressing force, the straightness can be accurately maintained without causing the auger screw O to be inclined. In the illustrated embodiment, three sets of the gripping plate 23 and the opening / closing cylinder 24 are used. However, four sets of the gripping plate 23 and the opening / closing cylinder 24 may be arranged symmetrically, and the number of sets can be arbitrarily changed as appropriate. .

A rotation mechanism 25 is attached to the lower end of the casing 21, in other words, the upper end of the fixed portion 10. The rotation mechanism 25 includes a gear 26 on the casing 21 side, a gear 27 engaged with the gear 26, and a motor 28 that rotates the gear 27.
The gears 26 and 27 are housed in a gear case 29, and the gear case 29 is fixed to the upper end portion of the fixed portion 10.

  In addition, a control box 30 is attached to the gear case 29 via an appropriate mount. The control box 30 contains a valve for controlling opening / closing of the opening / closing cylinder 24 and a control unit for controlling driving of the motor 28.

With the above-described configuration, the attachment A can insert and hold the auger screw O, rotate it, and can release the grip and insert and remove the auger screw O. A mobile crane or the like may be used to insert and remove the auger screw O.
The gripping mechanism 22 can hold the auger screw O at any position along the entire length of the auger screw O in the longitudinal direction. The rotation of the auger screw O by the rotation mechanism 25 can be switched between forward and reverse by operator control through the control box 30 and can be rotated endlessly.

(How to use attachment)
Next, a method of using the attachment A will be described based on FIGS. 4 and 5.
As shown in FIG. 5, the fixing portion 10 of the attachment A is inserted into the chuck 5, and the pile chuck cylinder 5b is pressed while the back surface of the fixing portion 10 is in contact with the fixing claw 5a. By doing so, the fixing portion 10 can be firmly fixed to the chuck 5.

Since the pressing force is released when the pile chuck cylinder 5b is contracted, the fixing portion 10 of the attachment A can be easily pulled out.
The insertion / removal of the fixing portion 10 with respect to the chuck 5 can be easily performed by lifting and hanging the entire attachment A with a mobile crane or the like arranged at the construction site.

  As shown in FIG. 4, the auger screw O is gripped and rotated by the gripping rotation mechanism 20. When the chuck frame 4 and the chuck 5 are lowered by the contraction operation of the main cylinder 6, the auger screw O is also lowered, so that the ground can be dug by the excavation claw O3 at the tip of the auger screw O. Further, when the main cylinder 6 is extended, the auger screw O can be raised together with the chuck frame 4 and the chuck 5.

(Digging guide)
The excavation guide 40 will be described with reference to FIGS. 6 and 7.
The excavation guide 40 includes a holding portion 41 and an engaging portion 45.
The holding portion 41 is a cylindrical member and incorporates a rotary bearing 42 that holds the auger screw O while allowing the rotation. The engaging portion 45 includes a bracket 46 attached to the holding portion 41 and a guide claw 47 fixed to the bracket 46 with a bolt or the like.
As shown in FIG. 7, the guide claw 47 is a claw member that fits into the joint j of the pile P and can slide up and down.

  As shown in FIG. 6, the auger screw O is used in which the holding portion 41 is not formed with the screw blade O2.

  As shown in FIGS. 6 and 7, when the excavation guide 40 is used, the excavation guide 40 moves up and down by fitting into the open joint j of the preceding pile material P arranged in the ground in advance. The screw O penetrates into the ground while keeping exactly parallel to the preceding pile material P. That is, the auger screw O is held at a predetermined position horizontally separated from the joint j opened by the preceding pile material P, which is disposed in the ground in advance, by the holding portion 41 and the engaging portion 45 of the excavation guide 40. As a result, the auger screw O can be dug vertically downward to reliably crush obstacles present in the ground. As a result, since the excavation hole is not inclined, a new pile Pn is press-fitted while maintaining a straightness when the pile is press-fitted after excavation.

In the present invention, it is not always necessary to use the excavation guide.
In this case, as the auger screw O, a type without a notch portion of the screw blade O2 as shown in FIG. 8 can be used. However, the excavation claw O3 is attached to the tip (lower end) of the auger screw O via the joint portion 04.
The joint portion 04 includes a quadrangular or pentagonal prism portion that restrains the excavation claw O3 in a non-rotatable manner with respect to the axis of the auger screw O, and a square hole 05 that receives the square pillar portion.

(Underground obstacle removal method)
Next, the underground obstacle removing method of the present invention will be described with reference to FIG.
FIG. (A) shows a state where an obstacle s such as a boulder exists in the ground. Normally, the underground obstacle s cannot be found before the pile press-in, so that it will be noticed during construction with a single press-fit machine as shown in FIG. 4 or FIG.

  In this case, as described above, the underground obstruction removal attachment A is attached to the press machine main body B, and (1) the outer periphery of the auger screw O is gripped by the underground obstruction removal attachment A, and the auger screw A setting step for setting O in a rotatable state is executed. Then, (2) a penetrating step of lowering the lifting / lowering member (chuck frame 4 in the illustrated embodiment) of the pile press-fitting machine with the auger screw O rotated is performed to allow the auger screw O to penetrate into the ground. In this case, as shown in FIG. (B) to FIG. (C), the auger screw O digs into the ground, crushing the crushing stones s, etc., or moving them sideways to eliminate obstacles. The soil and stone in the ground are discharged to the ground by the screw blade O2 of the auger screw O.

  Then, (3) when the auger screw O is lowered to a predetermined position, an ascending step of raising the elevating member (chuck frame 4) is performed while stopping the rotation of the auger screw O or rotating it in reverse (FIG. (D)). reference). In addition, the holding of the auger screw O by the holding rotation mechanism 20 may be released, and the auger screw O may be lifted by a mobile crane or the like and removed from the ground.

  If the obstacle removal is insufficient with one excavation, the above steps (1) to (3) are repeated in that order so that the auger screw O penetrates to a predetermined depth in the ground and Remove. Since the gripping and rotating mechanism 20 of the present invention is a penetrating type, a long auger screw O can be used regardless of the overall height of the attachment, and a boulder or the like in a deep place in the ground can be removed without any problem.

  By using the removal method of the present invention, if the setting step (1), the penetration step (2), and the ascending step (3) are repeated, even if a pile presser with a short lifting stroke of the lifting member is used, the obstacle in the deep ground Can be crushed and removed.

  As described above, according to the attachment A of the present invention and the underground obstacle removing method of the present invention, the attachment A is attached to the elevating member (chuck frame 4) of the pile press-fitting machine, and the gripping rotation mechanism 20 of the attachment A Then, when the auger screw O is held and rotated and is lowered downward by the lifting mechanism (chuck frame 4), it digs into the ground, so that obstacles such as stones in the ground can be crushed and removed.

  Moreover, since the attachment A may be attached and used only when necessary, the pile can be constructed with a normal single press machine in normal work in which no rolling stones or the like appear. And even if underground obstacles such as rolling stones appear, it is not necessary to use a press machine dedicated to hard ground, so construction costs can be reduced and construction time can be shortened.

A Attachment for removing underground obstacles B Press-fit machine body O Auger screw 4 Chuck frame 5 Chuck 10 Fixed part 20 Grip rotating mechanism 21 Casing 22 Grip mechanism 23 Grip plate 24 Opening and closing cylinder 25 Rotating mechanism 26, 27 Gear 30 Control box

Claims (4)

An attachment for removing underground obstacles used by attaching to a lifting member that moves up and down provided in the press machine main body,
The underground obstacle removing attachment is a penetrating type that penetrates and holds the auger screw in a vertically oriented state,
A fixing portion detachably attached to the elevating member;
An attachment for removing underground obstacles, comprising: a gripping rotation mechanism that grips and rotates the outer periphery of the auger screw. The attachment for removing underground obstacles according to claim 1, wherein the fixing portion has a shape that can be gripped by a chuck for gripping a pile included in the press-fitting machine body. It has an auger screw digging guide,
The excavation guide includes a holding unit that holds the auger screw while allowing rotation,
The attachment for removing underground obstacles according to claim 1 or 2, further comprising an engaging portion that is fitted and lifted up and down with a joint that has been previously opened in the ground. An underground obstacle removing method using the underground obstacle removing attachment according to claim 1, 2 or 3,
(1) A step of gripping the outer periphery of the auger screw with the underground obstacle removing attachment and setting the auger screw in a rotatable state. (2) With the auger screw rotated, the lifting member of the single press-fitting machine is moved. A step of lowering and penetrating the auger screw into the ground (3) including an ascending step of stopping the rotation of the auger screw when the elevating member descends to a predetermined position or raising the elevating member while reversely rotating,
A ground obstacle removing method, wherein the ground obstacle is removed by repeating the steps (1) to (3) in that order.