JP2007218039A - Existing pile removing method and device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an existing pile removing method for easily removing a long/heavy existing pile buried underground. <P>SOLUTION: In a first process, a casing 2 having an excavating blade 1 for excavating the periphery of the existing pile 30 buried in the ground G<SB>1</SB>is lowered while being rotated by a casing rotating lifting device 6 to excavate down to a predetermined depth, then an existing pile cutting edge 3 provided at the lower end 2a of the casing 2 is projected from the inner surface of the lower end 2a to cut the existing pile 30, and an upper portion from a cut part of the existing pile 30 cut with the existing pile cutting edge 3 is latched by a receiving face 3a of the existing pile cutting edge 3 and pulled out of the ground G<SB>1</SB>. After repeating the first process, a second process is carried out by taking hold of the peripheral surface of a pile lower end by holding claws 7 located above the existing pile cutting edge 3, to pull the pile lower end out of the ground G<SB>1</SB>together with the casing 2. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an existing pile removing method and apparatus, and more particularly, to an existing pile removing method and apparatus for removing unnecessary piles buried in the ground.

  When rebuilding a building structure, it is necessary not only to dismantle and remove the old building structure, but also to remove the existing piles that are buried in the ground. Existing piles driven into the ground are firmly fixed to the ground for many years, and a huge pulling force is required to pull them out. Conventionally, when such an existing pile is pulled out and removed, the casing is rotated by an auger machine that moves up and down along the leader of the pile puller, and then the existing pile is excavated to the vicinity of its tip. A wire was tied to the upper end of the wire and pulled out by a crane.

However, the above method has a problem that the crane cannot withstand the weight of the existing pile when the length and weight of the existing pile become large. Moreover, it is necessary to make the casing attached to the pile puller and the pile puller larger, and there is a problem in that the cost required for pulling and removing the existing pile increases.
Therefore, conventionally, various existing pile removing devices and methods thereof have been proposed in order to enable drawing and removing such an existing pile having a large length and weight (see, for example, Patent Document 1).
In patent document 1, after excavating the circumference | surroundings of the existing pile with a casing, a wire saw apparatus is inserted in the space formed between the existing pile and the casing, and the existing pile is made predetermined length from the upper part with the wire saw apparatus. The existing pile removal method and its apparatus which are divided and removed by drawing are disclosed.
JP 2001-262570 A

However, the existing pile removing method and apparatus disclosed in Patent Document 1 have a disadvantage that the wire saw device only has a function of dividing the existing pile into predetermined lengths. Thereby, in order to pull out and remove the existing piles from the ground, there is a problem that it is necessary to tie a wire to the upper end portion of the existing piles and pull it out with a crane as in the past. As a result, there is a problem that the number of work steps is significantly increased as compared with the case where the existing pile is pulled out from the ground without being divided. Moreover, the operation | work which inserts a wire saw apparatus in the space formed between the existing pile and the casing also becomes a factor which increases an operation man-hour compared with the case where it pulls out from the ground as it is without dividing an existing pile.
Moreover, in the conventional existing pile removal method in which a divided existing pile is pulled out and removed from the ground, when trying to cut the shortened pile lower end, the blade and the pile lower end are brought together by the cutting resistance, and the pile is removed. There was also a problem that the lower end could not be cut.
Then, an object of this invention is to provide the existing pile removal method and its apparatus which can remove easily the existing pile which was embed | buried in the ground and whose length and weight are large.

  In order to achieve the above object, an existing pile removing method according to the present invention is a state in which a casing having an excavating blade for digging the periphery of an existing pile buried in the ground is in a state where the casing is gripped and opened. The existing pile cutting blade provided at the lower end so that it can be lowered by rotating with a casing rotary lifting device that can be switched between, and excavated to a predetermined depth, and can be projected and retracted from the inner surface of the lower end of the casing Projecting from the inner surface of the lower end portion to cut the existing pile, and among the existing piles cut by the existing pile cutting blade, a portion above the cutting portion is received by the protruding existing pile cutting blade. The first step of hooking at the surface and pulling out from the ground together with the casing is repeated, and then the peripheral surface of the lower end of the pile of the existing pile that remains at the end can be projected and retracted from the casing inner surface and The existing pile cutting blade Grasp at gripping claws of the upper position, and performs the second step of pulling out from the ground with the casing.

  Further, the casing rotating / lifting device has a mounting portion and a plurality of legs attached to the mounting portion, and is mounted on the mounting portion of a mount installed on the ground, and the existing pile cutting The base casing, which is a portion provided with a blade and the gripping claws, is placed between the plurality of legs of the gantry by means of casing moving means for horizontally moving the base casing so as to approach and separate from the gantry. It is inserted into the lower side of the mounting part, and the joint casing is connected to the casing rotary lifting device and the mounting unit from above the casing rotating lifting device by connecting the base casing with the base casing. The base casing and the joint casing constitute the casing.

In addition, the existing pile removing apparatus according to the present invention has a drilling blade for digging the periphery of the existing pile buried in the ground, and can be switched between a state held by the casing rotary lifting device and a released state. A casing, an existing pile cutting blade provided at the lower end so as to be able to protrude and retract from the inner surface of the lower end of the casing and capable of cutting the existing pile, and a blade drive for extending and retracting the existing pile cutting blade The existing pile cutting blade has a receiving surface for hooking a portion above the cutting portion of the existing pile cut in the protruding state and pulling it from the ground together with the casing. Furthermore, it is disposed above the existing pile cutting blade so as to be able to appear and retract from the inner surface of the casing, and the peripheral surface of the lower end portion of the pile of the existing pile is gripped from the ground together with the casing. Holding nail for pulling out Provided.
Further, a claw drive mechanism is provided that swings up and down while the tip of the gripping claw is inclined upward so as to bite and grip the peripheral surface of the existing pile by its own weight.

  The existing pile cutting blade is pivotally attached to the lower end portion of the casing so as to be swingable around a pivot shaft in the vertical direction, and the blade driving mechanism includes a vertically movable rod and the casing. An actuator disposed along the peripheral surface, a cylindrical moving direction changing female portion provided at the tip of the rod and having a spiral groove formed on the inner peripheral wall, and a spiral that is interlocked with the pivot shaft A moving direction changing male part formed on the outer peripheral wall, and the moving direction changing female part is arranged so that the protruding part is fitted into the groove part. It is configured so that the vertical movement of the rod of the actuator is converted into the swing of the existing pile cutting blade.

According to the existing pile removing method and apparatus of the present invention, the existing pile cutting blade can perform two types of operations, that is, an operation of dividing the existing pile into a predetermined length and a drawing operation. Thereby, the various existing piles with large length and weight can be easily removed without increasing the number of work steps.
Moreover, the process of excavating the circumference | surroundings of an existing pile with a casing, and the process of cutting an existing pile with an existing pile cutting blade can be performed continuously. This eliminates the need to insert the existing pile cutting device into the space formed between the existing pile and the casing, compared with the case where a wire saw device is used. can do.
Moreover, when pulling out a pile lower end part, it can be made not to use an existing pile cutting blade. As a result, when the tip of the lower end of the pile reaches the bedrock, it is not necessary to dig hard rock, and there is no problem with the connection between the lower end of the pile and the casing. Can be pulled out from inside.

Moreover, according to the existing pile removing method of the present invention, a ready-made casing rotary lifting device can be used, and parts costs can be reduced by not using a custom-sized casing rotary lifting device.
In addition, the existing pile cutting blade, gripping claws, and a mechanism for driving them are provided in the casing, so that it is not necessary to lift a heavy part above the casing rotary lifting device, thereby improving workability. Can do.

Moreover, according to the existing pile removing apparatus according to the present invention, when the existing pile is pulled out from the ground together with the casing, it is possible to prevent the existing pile from dropping off in the middle and falling to the bottom of the hole. Can be removed.
In addition, the vertical movement of the actuator rod can be easily converted into the swing of the existing pile cutting blade with a simple and compact structure. Thereby, the diameter of the casing of the part provided with the blade drive mechanism can be reduced.

Hereinafter, the present invention will be described in detail with reference to the drawings illustrating embodiments.
First, the structure of the existing pile removing apparatus according to the present invention will be described.
1 to 4, the existing pile removing apparatus according to the present invention is an apparatus used when removing an existing pile 30 buried in the underground G ₁ in order to replace a building structure. It is.
The existing pile removing apparatus according to the present invention is capable of appearing and retracting from the casing 2 having the excavating blade 1 for digging the periphery of the existing pile 30 embedded in the underground G ₁ and the inner surface of the lower end portion 2a of the casing 2. The existing pile cutting blade 3 provided at the lower end 2a and capable of cutting the existing pile 30; the blade drive mechanism 8 for projecting and retracting the existing pile cutting blade 3; The gripping claws 7 disposed above the pile cutting blades 3... And a swivel joint portion 26 for supplying water to the lower end 2 a of the casing 2 and supplying hydraulic oil to the blade drive mechanisms 8. And a tower section 27.

The casing 2 can be switched between a state of being gripped by a known casing rotating / lifting device 6 and a state of being opened. The casing 2 has a cylindrical shape, and is composed of a base casing 19 and a joint casing 20 that are connected to each other by a fastener such as a detachable bolt and nut. The base casing 19 is located at the lower end 2a of the casing 2, and is a portion where the existing pile cutting blades 3 ..., the blade drive mechanism 8 ..., and the gripping claws 7 ... are provided. The joint casing 20 is a part that adjusts the length of the entire casing 2 by increasing or decreasing the number of connections.
Next, the casing rotation elevating device 6 that rotates and elevates the casing 2 includes a chuck portion 24 that grips the casing 2, a rotation mechanism that is not shown in the drawing that rotates the casing 2, and a plurality of elevating cylinders that elevate and lower the casing 2. 33 ... and so on.
Casing rotary lifting device 6 is mounted to the frame 18 placed on the ground G _0.
The gantry 18 includes a base portion 34, a placement portion 17, and a plurality of leg portions 16 that are erected on the base portion 34 and attached to the placement portion 17.
The leg portions 16 are disposed at the four corners of the placement portion 17. The leg portion 16 has an elevating cylinder 37 inside, and is vertically extendable. The mounting portion 17 is moved up and down as the leg portions 16 expand and contract, and the mounting portion 17 and the base portion 34 approach and separate from each other. That is, by extending and contracting the leg portion 16 with the elevating cylinder 37, the casing 2 gripped by the chuck portion 24 of the casing rotation elevating device 6 on the placement portion 17 can be raised and lowered.

The base portion 34 is provided with level adjusting portions 35 for adjusting the inclination of the casing rotation elevating device 6 with respect to the ground G ₀ and auxiliary chuck cylinders 36. The auxiliary chuck cylinders 36 are configured so that when the casing 2 is lowered to the state in which the leg portions 16 are contracted to the maximum, the depth portions of the casing 2 are maintained and the leg portions 16 are extended. Is provided. Specifically, the auxiliary chuck cylinders 36 are configured to grip the casing 2 in a state where the leg portions 16 are contracted most. And the chuck | zipper part 24 of the casing rotation raising / lowering apparatus 6 is made into an open state in the state which hold | gripped the casing 2 with this auxiliary chuck cylinder 36 .... In this way, the leg portions 16 can be easily extended without changing the depth position of the casing 2, and the lower end portion 2a of the casing 2 can be moved to a desired depth position regardless of the stroke of the leg portions 16. It is possible to descend. Conversely, the lower end 2a of the casing 2 can be raised to a desired depth position.

The base portion 34 is additionally provided with casing moving means 22 for horizontally moving the base casing 19 of the casing 2 so as to be close to and away from the gantry 18.
The casing moving means 22 has a casing loading / unloading section 38 that can be freely loaded and unloaded from the base portion 34 with the base casing 19 placed thereon, and a loading / unloading cylinder 39 for moving the casing loading / unloading section 38. Thereby, in the state where the leg portions 16 of the gantry 18 are most extended, the lower side of the mounting portion 17 (the mounting portion 17, the base portion 34, the plurality of leg portions 16 ... The base casing 19 can be inserted into the space formed between the two.

Next, the tower unit 27 is connected to the fixed frame 53 placed on the ground G ₀ , the column unit 56 erected on the fixed frame 53 and provided with the rail unit 59 in the vertical direction, and the rail unit 59. A lifting part 57 having a roller 58 to be joined and raising and lowering along the rail part 59; a winch 54 for winding a wire attached to the lifting part 57; and a turning cylinder 55 for turning the pillar part 56 ing. The swivel joint portion 26 is attached to the tip portion of the elevating portion 57. The elevating part 57 is moved up and down by the operation of the winch 54 and maintains the swivel joint part 26 connected to the upper end of the casing 2 while the casing 2 is rotated. In other words, the elevating part 57 moves up and down following the raising and lowering of the casing 2. Further, when the column portion 56 is turned by the turning cylinder 55, the connection between the swivel joint portion 26 and the casing 2 is released.
The swivel joint portion 26 is supplied with water and hydraulic oil such as the blade drive mechanism 8 supplied to the lower end portion 2a of the casing 2 from an external device (not shown) through a cable. The turning cylinder 55 is provided for turning the column portion 56 to move the position of the swivel joint portion 26 from directly above the casing 2. The turning cylinder 55 is connected to the base casing 19 and the extension casing 20 to form the casing 2 or when the existing pile 30 cut by the existing pile cutting blades 3 is pulled up to the ground. The 56 is turned about 90 ° to 180 °. Then, the swivel joint part 26 is moved to a position that does not interfere with the work.

Next, the casing 2 will be described in detail.
In the casing 2 (more specifically, the basic casing 19), a cutting blade storage portion 28 is formed on the outer peripheral surface of the lower end portion 2a in the shape of an outer casing. Excavation blades 1 are provided on the lower surface side of the cutting blade storage portion 28 formed in the lower end portion 2a of the casing 2. Further, four existing pile cutting blades 3... Are pivotally attached to the cutting blade storage portion 28 so as to be swingable around the pivot shaft 9 in the vertical direction. And these four existing pile cutting blades 3 ... are provided so that it can protrude and retract from the inner surface of the lower end part of the casing 2.
The existing pile cutting blades 3 are projected from the inner surface of the lower end portion of the casing 2 at a predetermined depth, and the casing 2 is rotated in the direction of arrow A in FIG. It can be cut.

The existing pile cutting blade 3 is used to cut a pair of reinforcing bar cutting blades 4, 4 for cutting the reinforcing bar 30a of the existing pile 30 (see FIG. 10) and a concrete 30b of the existing pile 30 (see FIG. 10). A pair of concrete cutting blades 5 and 5. The pair of rebar cutting blades 4 and 4 and the pair of concrete cutting blades 5 and 5 are arranged so that the same type is point-symmetric with respect to the center of the casing 2 in a bottom view. With this arrangement, the existing pile 30 can be cut with a good balance.
The reinforcing bar cutting blades 4 and 4 and the concrete cutting blades 5 and 5 are formed in a substantially sickle shape when viewed from the bottom. Among these, the concrete cutting blades 5 and 5 are formed in such a size that the lower end portion is located in the vicinity of the center of the casing 2 when the lower end portion is projected most from the inner surface of the casing 2.

Concrete cutting blade 5, 5 (the existing pile cutting blade 3, 3) is for extracting from the ground G ₁ with casing 2 by hooking the upper portion than the cut portion of the existing pile 30 which has been cut in the projecting state The receiving surface 3a is provided.
The reinforcing bar cutting blades 4, 4 are formed smaller than the concrete cutting blades 5, 5. In this way, the existing pile cutting blade 3... Rebar cutting blades 4, 4 for cutting the reinforcing bar 30 a of the existing pile 30, and the concrete cutting blades 5, 5 for cutting the concrete 30 b of the existing pile 30. , The existing pile cutting blades 3 are in an optimum shape for cutting either the reinforcing bar 30a or the concrete 30b. That is, it is the structure which can shorten the working time at the time of cutting the existing pile 30 compared with the case where the kind of existing pile cutting blade 3 ... is single.

Further, each of the reinforcing bar cutting blades 4 and 4 and the concrete cutting blades 5 and 5 is provided with a fluid ejection hole 29 for ejecting water or cement milk.
Water is supplied to each fluid ejection hole 29 from the swivel joint portion 26 of the tower portion 27 through the water pressure line 32. Thus, by providing the fluid ejection holes 29 in the existing pile cutting blade 3, when cutting the existing pile 30, the cutting waste between the existing pile cutting blade 3 ... and the existing pile 30 is cut with water or cement milk. It can be discharged out of the section. Further, water or cement milk can be used as a cooling liquid for cooling the existing pile cutting blades 3.
When the connection between the swivel joint portion 26 and the casing 2 is released in order to turn the column portion 56, the coupler disposed in the connection portion between the swivel joint portion 26 and the casing 2 in the hydraulic pressure line 32 is connected. , Is supposed to cancel.

Next, the blade drive mechanism 8 has a function of causing the existing pile cutting blades 3 composed of the reinforcing bar cutting blades 4 and 4 and the concrete cutting blades 5 and 5 to protrude from the inner surface of the casing 2. 5 and 6, the blade driving mechanism 8 includes an actuator 11 having a rod 10 that can move up and down, a cylindrical moving direction changing female portion 13 provided at the tip of the rod 10, and a pivot shaft 9. And a moving direction changing male portion 15 that is interlocked.
The actuator 11 is a hydraulic cylinder, and one is provided corresponding to each existing pile cutting blade 3. The actuator 11 is disposed along the circumferential surface of the casing 2 so that the top and bottom are in the longitudinal direction. The actuator 11 is stored in a blade drive mechanism storage unit 40 provided on the upper surface side of the cutting blade storage unit 28. Further, hydraulic oil is supplied to the actuator 11 from the swivel joint portion 26 of the tower portion 27 through the hydraulic line 52.
When the connection between the swivel joint portion 26 and the casing 2 is released in order to turn the column portion 56, the coupler disposed in the connection portion between the swivel joint portion 26 and the casing 2 in the hydraulic line 52 is connected. , Is supposed to cancel.

  The moving direction changing male portion 15 is connected to the pivot shaft 9 of the existing pile cutting blade 3 and is provided at the upper end of the transmission shaft 41 disposed in the blade drive mechanism storage portion 40. The moving direction changing male part 15 has a shape in which a large number of spiral ridges 14 (four in the illustrated example) are formed on the outer peripheral wall of the cylindrical main body part. When the moving direction changing male part 15 is viewed in a cross-sectional view, the projecting ridge parts 14 are arranged at regular intervals (90 °) at equal central angles. It has a formed shape. When the moving direction changing male part 15 is viewed in a cross-sectional view, the projecting ridge parts 14 are arranged at regular intervals (90 °) at equal central angles.

The length of the moving direction converting female portion 13 is longer than the length of the moving direction converting male portion 15 in the axial direction (longitudinal direction). The moving direction changing female portion 13 is disposed in the blade drive mechanism housing portion 40 so that the closed upper side is pivotally attached to the tip of the rod 10 of the actuator 11 and the lower side is the opening end portion 46.
A large number (four in the example) of spiral grooves 12 are formed on the inner peripheral wall of the dynamic direction changing female portion 13 corresponding to the large number of protrusions 14 of the dynamic direction changing male portion 15. Has been. The moving direction changing female portion 13 is externally fitted to the moving direction changing male portion 15 so as to be movable up and down so that the protruding portion 14 is fitted into the groove portion 12. The vertical movement of the moving direction changing female part 13 is caused by the rotation of the moving direction changing male part 15 by the multiple spiral protrusions 14 and the groove parts 12 of the moving direction changing male part 15 of the moving direction changing female part 13. Converted to dynamic. And the existing pile cutting blade 3 rock | fluctuates by rotation of the moving direction conversion male part 15. FIG.

In addition, a pair of guided protrusions 42 and 42 in the longitudinal direction of the moving direction changing female portion 13 are formed on the outer peripheral wall of the moving direction changing female portion 13. Each guided protrusion 42 engages with a guide groove 43 in the vertical direction formed on the inner wall of the blade drive mechanism housing 40. As a result, the moving direction changing female portion 13 can move smoothly in the vertical direction while being restricted from moving in the horizontal direction.
Further, the opening end portion 46 of the moving direction changing male portion 15 is covered (via a seal member such as packing) with a lid portion 45 having an insertion hole 44 for insertion of the transmission shaft 41. The insertion hole 44 and the transmission shaft 41 are sealed with a seal member 47 such as an O-ring.
In this way, the moving direction changing male part 15 is sealed by the moving direction changing female part 13 and the lid part 45, and this sealed space is filled with a lubricant such as machine oil. . This lubricant prevents wear of the ridges 14 of the moving direction changing male part 15 and the grooves 12 of the moving direction changing female part 13 and enables smooth movement.

  In addition, the rotation of the moving direction changing male part 15 is smoothly performed so that an excessive load is not applied to the protrusions 14 of the moving direction changing male part 15 with the vertical movement of the moving direction changing female part 13 described above. As shown in the figure, the swaying angle θ of the ridge 14 of the moving direction changing male part 15 (passes through the swaying line of the ridge 14 and one point above it, and the central axis of the moving direction changing male 15 is The angle formed with the plane perpendicular to the plane (see FIG. 5) is preferably set in the range of 55 ° to 65 °. If θ is smaller than 55 °, an excessive load is applied to the ridges 14 and the rotation of the moving direction changing male part 15 may be awkward. If θ exceeds 65 °, the conversion efficiency when converting the vertical movement of the moving direction converting female portion 13 into the rotation of the moving direction converting male portion 15 becomes very poor.

Here, the gripping claw 7 will be described with reference to FIG. The gripping claws 7 are arranged above the existing pile cutting blades 3. In other words, the casings 2 are arranged at a pitch equal to the center angle of the casing 2 and a large number (four). Each gripping claw 7 can be projected and retracted from the window 51 provided in the casing 2 (more specifically, the basic casing 19) to the inner surface side of the casing 2. The gripping claw 7 is formed so as to be able to bite into the peripheral surface of the existing pile 30 in a protruding state.
Further, in the present embodiment, a claw drive mechanism 23 that swings up and down while making the tip of the gripping claw 7 tilt upward so that the weight of the existing pile 30 digs into the peripheral surface of the existing pile 30 and grips it. It has. The claw drive mechanism 23 has an actuator 48 formed of a hydraulic cylinder and a link arm 50.

The actuator 48 is disposed along the circumferential surface of the casing 2 (more specifically, the basic casing 19) so that the upper and lower sides are in the longitudinal direction. The actuator 48 is a hydraulic cylinder, and one is provided for each gripping claw 7. The hydraulic fluid is supplied to the actuator 48 through the hydraulic line 52 from the swivel joint portion 26 of the tower portion 27.
One end of the link arm 50 is connected to the tip of the vertically extendable rod 49 of the actuator 48, and the other end is connected to the gripping claw 7 and the arm connecting portion 60. The arm connecting portion 60 is provided near the center of the gripping claw 7.
The actuator 48 and the link arm 50 are attached to the casing 2 and housed in a claw drive mechanism housing portion 62 located near the upper portion of the blade drive mechanism housing portion 40 (see FIG. 1).
Further, the gripping claw 7 is pivotally attached in the claw driving mechanism storage portion 62 at the base end portion. The movement of the actuator 48 is transmitted through the arm connecting portion 60 so that it can swing up and down. In this way, the front end of the gripping claw 7 can be projected and retracted from the window 51 provided in the foundation casing 19 to the inner surface side of the foundation casing 19.

Next, an existing pile removing method according to the present invention will be described with reference to FIGS.
First, as shown in FIG. 8, a frame 18 having a plurality of legs 16 ... and which is attached to the portion 17 mounting a base portion 34 and the mounting portion 17, while placed on the ground G _0, the casing rotating lifting The device 6 is placed on the placement portion 17 of the gantry 18. In addition, a tower 27 (see FIG. 9) is installed next to the gantry 18. Then, the casing loading / unloading portion 38 of the casing moving means 22 attached to the base portion 34 of the gantry 18 is brought out, and the existing pile cutting blade 3, the blade driving mechanism 8 and the gripping claw 7 are provided thereon. The base casing 19 is placed. Further, the legs 16 of the gantry 18 are kept in the most extended state.
Then, the base casing 19 is inserted into the lower side of the mounting portion 17 from between the plurality of leg portions 16 of the gantry 18 at the casing loading / unloading portion 38 of the casing moving means 22.
Further, the joint casing 20 is lifted by the crane 63, and the joint casing 20 is vertically penetrated from the upper side of the casing rotating / lifting device 6 to the casing rotating / lifting device 6 and the mounting portion 17. And the joint casing 20 and the foundation casing 19 are connected, and the casing 2 is comprised by the connected foundation casing 19 and the joint casing 20 (refer FIG. 9).

  Next, as shown in FIG. 9, the casing 2 is gripped by the chuck portion 24 of the casing rotating / lifting device 6 and the swivel joint portion 26 is connected to the upper end of the casing 2 so that the casing rotating / lifting device 6 is illustrated. While rotating the casing 2 (in the direction of arrow D in FIG. 9) with the omitted rotation mechanism, the lifting cylinder 33 of the casing rotating lift 6 and the leg 16 of the gantry 18 are contracted (arrow B in FIG. 9). , C direction), the casing 2 is lowered. As a result, the excavating blades 1 formed on the lower end 2a of the casing 2 dig around the existing pile 30, and the casing 2 descends. At this time, the raising / lowering part 57 of the tower part 27 descends following the movement of the casing 2. Since the casing 2 is lowered by contracting not only the elevating cylinders 33 of the casing rotary elevating device 6 but also the leg portions 16 of the gantry 18, the descending stroke can be increased and efficient work can be performed. When the leg portions 16 are in the most contracted state, the auxiliary chuck cylinders 36 are used to extend the leg portions 16 while keeping the depth position of the casing 2 unchanged. Further, as the digging progresses deeper, the extension casing 20 is added, and the length of the casing 2 is increased.

Next, as shown in FIG. 10, when excavating to a predetermined depth H, the casing 2 is stopped from being lowered. Then, while rotating the casing 2 (in the direction of arrow D in FIG. 10), among the existing pile cutting blades 3 provided on the lower end 2a so as to be able to protrude and retract from the inner surface of the lower end 2a of the casing 2, The reinforcing bar cutting blades 4, 4 are projected from the inner surface of the lower end 2a to cut the reinforcing bars 30a of the existing pile 30 from the peripheral surface side.
Next, as shown in FIG. 11, while rotating the casing 2 (in the direction of arrow D in FIG. 11), the pair of concrete cutting blades 5, 5 are projected from the inner surface of the lower end portion 2 a of the casing 2 to 30b is cut from the peripheral surface side.

Next, as shown in FIG. 12, the pair of concrete cutting blades 5 and 5 are released from the inner surface of the lower end 2a of the casing 2, and the connection between the swivel joint portion 26 and the casing 2 is released. The column part 56 of the part 27 is turned (in the direction of arrow E in FIG. 12).
And the raising / lowering cylinder 33 ... of the casing rotation raising / lowering apparatus 6 and the leg part 16 ... of the mount frame 18 are extended, and the casing 2 is raised (arrow F, J direction of FIG. 12). Thereby, the portions above the cutting portion of the existing pile 30 cut by the existing pile cutting blades 3 ... are the receiving surfaces 3a, 3a of the concrete cutting blades 5, 5 (existing pile cutting blades 3, 3) in a protruding state. And is pulled out from the ground G ₁ together with the casing 2.
And, a casing rotating / lifting device 6 that can be switched between a state in which the casing 2 having the excavating blades 1... For digging around the existing pile 30 embedded in the underground G ₁ is held and opened. The existing pile cutting blade 3 provided on the lower end 2a so as to be able to protrude and retract from the inner surface of the lower end 2a of the casing 2 is lowered to the lower end 2a. Projecting from the inner surface of the existing pile 30 and cutting the existing pile 30 cut by the existing pile cutting blades 3... repeats the hooking and the called withdrawn from the ground G ₁ "with the casing 2 and the first step in 3a.

Next, as shown in FIG. 13, the pile bottom end 31 of the existing pile 30 remaining in the end, part tip has reached the rock G _2. When pulling out this pile lower end part 31, the method like a 1st process cannot be taken. This is because the receiving surface 3a of the existing pile cutting blades 3, 3, cause hooked pile bottom portion 31 at 3a is to be difficult if there is need to burrowing hard rock G _2, existing pile cutting blades 3, 3 This is because even if the lower end 31 of the pile is cut, the lower end 31 of the pile is rotated with the casing 2 due to the cutting resistance, so that it cannot be cut.
Then, when pulling out this pile lower end part 31, the following 2nd processes are performed.

That is, first, to the lower end 2a of the casing 2 reaches the vicinity of the rock G _2, while rotating the casing 2 burrowing. Next, in a state where the rotation of the casing 2 is stopped, the gripping claws 7 located above the existing pile cutting blades 3 are projected to the inner surface side of the casing 2, and the gripping claws are formed on the peripheral surface of the lower end 31 of the pile. 7 bite in (arrow I direction in Fig. 13).
Next, as shown in FIG. 14, the connection between the swivel joint portion 26 and the casing 2 is released while the pile lower end portion 31 is held by the holding claws 7, and the column portion 56 of the tower portion 27 is turned. (The direction of arrow E in FIG. 14).
And the raising / lowering cylinder 33 ... of the casing rotation raising / lowering apparatus 6 and the leg part 16 ... of the mount frame 18 are extended, and the casing 2 is raised (arrow F, J direction of FIG. 14). In this way, the pile lower end 31 is pulled out of the ground G ₁ together with the casing 2 without the need to dig up the hard rock G _2, and without the problem of rotation between the pile lower end 31 and the casing 2. At this time, the weight W of the pile lower end 31 (existing pile 30) is added to the gripping claws 7. The gripping claws 7 bite deeper into the peripheral surface of the pile lower end 31, Hold 31 firmly.

The present invention is not limited to the above-described embodiment, and the design can be changed without departing from the gist of the present invention. For example, in the present embodiment, the case where the existing pile cutting blades 3... Have two types of cutting blades, concrete cutting blades 5 and 5 and reinforcing bar cutting blades 4 and 4 is exemplified. Not limited to this, the existing pile cutting blade may be constituted by one type of cutting blade.
Further, the gripping claws 7 may be arranged with different heights in the vertical direction as well as arranged at a pitch of the center angle of the casing 2.
Moreover, in this embodiment, although the case where the casing rotation raising / lowering apparatus 6 was mounted in the mount frame 18 which has the extendable leg part 16 ... was illustrated, this invention is not restricted to this but has a leg part which does not expand / contract. You may make it mount a casing rotation raising / lowering apparatus on a mount.
Further, in the present embodiment, the case where the casing moving means 22 having the casing insertion / removal portion 38 that can be freely taken in and out from the base portion 34 with the base casing 19 placed thereon is illustrated, but the present invention is not limited thereto, and the casing is not limited thereto. A general forklift may be used as the moving means.

As described above, in the existing pile removing method of the present invention, the casing 2 having the excavating blade 1 for digging the periphery of the existing pile 30 embedded in the underground G ₁ is in a state where the casing 2 is gripped and opened. Is installed in the lower end 2a so that the casing can be lowered and lowered, excavated to a predetermined depth, and protruded and retracted from the inner surface of the lower end 2a of the casing 2. The pile cutting blade 3 is protruded from the inner surface of the lower end 2a to cut the existing pile 30, and the existing pile 30 cut by the existing pile cutting blade 3 ... receiving surface 3a of the pile cutting blades 3, 3, repeating the first step of pulling out from the ground G ₁ with casing 2 by hooking at 3a, then the last remaining circumference of the pile bottom end 31 of the existing pile 30 The surface can be moved in and out of the inner surface of the casing 2 and Grasp than piles cutting blades 3, 3 at the upper position of the gripping claws 7 ..., since the second step of pulling out from the ground G ₁ with casing 2, at the existing pile cutting blade 3 ..., the existing pile 30 Two kinds of work, that is, work for dividing into a predetermined length and work for pulling out can be performed. As a result, it is possible to easily perform the work of dividing the existing pile 30 into a predetermined length and sequentially taking out from the underground G _1. 30 can be removed easily.

  Moreover, the process of excavating the circumference | surroundings of the existing pile 30 in the casing 2 with the existing pile cutting blade 3 ... provided in the lower end part 2a of the casing 2, and the process of cutting the existing pile 30 with the existing pile cutting blade 3 ... Can be performed continuously. This eliminates the need to insert the cutting device for the existing pile 30 into the space formed between the existing pile 30 and the casing 2 as compared with the case where a wire saw device is used. Man-hours can be reduced. As a result, the existing pile 30 embedded in the ground and having a large length and weight can be easily removed.

In addition, since the pile lower end 31 is pulled out by grasping the peripheral surface of the pile lower end 31 of the existing pile 30 remaining with the gripping claws 7, when the pile lower end 31 is pulled out, the existing pile cutting blade 3 ... can be avoided. Thus, when a part of the lower end 31 of the pile reaches the bedrock G ₂ , it is not necessary to dig up the hard bed G ₂ , there is no problem of rotation between the pile lower end 31 and the casing 2, and the pile The lower end 31 can be pulled out from the underground G ₁ together with the casing 2.

Further, the casing rotation elevating device 6 is placed on the placement portion 17 of the gantry 18 that has the placement portion 17 and a plurality of legs 16 attached to the placement portion 17 and is installed on the ground G _0. The base casing 19, which is a portion where the existing pile cutting blades 3... And the gripping claws 7 are provided, is moved by the casing moving means 22 that horizontally moves the base casing 19 close to and away from the base 18. The joint casing 20 is inserted into the casing rotation elevating device 6 and the mounting portion 17 from above the casing rotation elevating device 6 from above the plurality of leg portions 16 to the lower side of the mounting portion 17. In addition, since the casing 2 is constituted by the base casing 19 and the joint casing 20 connected to the base casing 19, the casing 2 is driven by the existing pile cutting blade 3, the gripping claws 7, and the like. A mechanism is provided to make the diameter larger than the others A portion is divided into a cylindrical portion, the other diameter than is larger portion of the casing 2, it can be so may not pass through the casing rotating lifting device 6. Thereby, the ready-made casing rotation raising / lowering apparatus 6 can be used, and cost can be reduced by the amount which does not use a custom-sized casing rotation raising / lowering apparatus.
Moreover, since the existing pile cutting blade 3 and the gripping claws 7 and a mechanism for driving them are provided in the casing 2 and a heavy part is not required to be lifted above the casing rotating / lifting device 6, workability is improved. Can be improved.

Moreover, the existing pile removing apparatus according to the present invention has the excavating blade 1 for digging the periphery of the existing pile 30 embedded in the underground G ₁ and is released from the state gripped by the casing rotary lifting device 6. A casing 2 which can be switched to a state, an existing pile cutting blade 3 which is provided at the lower end 2a so as to be able to project and retract from the inner surface of the lower end 2a of the casing 2 and can cut the existing pile 30; A blade drive mechanism 8 for projecting and retracting the pile cutting blades 3... The existing pile cutting blade 3 hooks a portion above the cutting portion of the existing pile 30 cut in the protruding state, together with the casing 2. has a receiving surface 3a for withdrawing from the medium G _1, further disposed above the existing pile cutting blade 3 ... so as to be retractable from the casing 2 the inner surface, and the pile bottom end 31 of the existing pile 30 Grab the surrounding surface and pull it from the ground G ₁ with the casing 2 Since the holding claws 7 are provided for extraction, the existing pile cutting blades 3 can perform two types of operations, that is, an operation of dividing the existing pile 30 into a predetermined length and an operation of pulling out. Thus, since the task of sequentially taking out from the ground G ₁ to split the existing pile 30 into a predetermined length can be easily performed without increasing the man-hours, the length and weight is large variety of existing pile 30 can be removed easily.

  Moreover, the process of excavating the circumference | surroundings of the existing pile 30 in the casing 2 with the existing pile cutting blade 3 ... provided in the lower end part 2a of the casing 2, and the process of cutting the existing pile 30 with the existing pile cutting blade 3 ... Can be performed continuously. This eliminates the need to insert the cutting device for the existing pile 30 into the space formed between the existing pile 30 and the casing 2 as compared with the case where a wire saw device is used. Man-hours can be reduced. As a result, the existing pile 30 embedded in the ground and having a large length and weight can be easily removed.

Moreover, since the holding claw 7 ... for grasping the peripheral surface of the pile lower end 31 of the existing pile 30 and pulling it out from the underground G ₁ together with the casing 2 is provided, It is possible not to use the pile cutting blade 3. Thus, when a part of the lower end 31 of the pile reaches the bedrock G ₂ , it is not necessary to dig up the hard bed G ₂ , there is no problem of rotation between the pile lower end 31 and the casing 2, and the pile The lower end 31 can be pulled out from the underground G ₁ together with the casing 2.

Further, the casing 2 is provided with a claw driving mechanism 23 that swings up and down while the tip of the gripping claw 7 is inclined upward so that the weight of the existing pile 30 can bite and grip the peripheral surface of the existing pile 30. together from the ground G ₁ when withdrawing the existing pile 30, by the existing pile 30 falls off in the middle it can be prevented from being fallen to the bottom of the hole, capable of performing stable dismantling.

  The existing pile cutting blade 3 is pivotally attached to the lower end portion 2a of the casing 2 so as to be swingable about a vertical pivot shaft 9, and the blade drive mechanism 8 has a vertically movable rod 10 and a casing. 2, an actuator 11 disposed along the circumferential surface of the rod 2, a cylindrical moving direction changing female portion 13 provided at the tip of the rod 10 and having a spiral groove 12 formed on the inner circumferential wall, and a pivot shaft 9. And a moving direction changing male part 15 having a spiral protruding part 14 formed on the outer peripheral wall, and the moving direction changing female part 13 is arranged so that the protruding part 14 is fitted in the groove part 12. Because it is externally fitted to the moving direction changing male part 15 so as to be movable up and down, the vertical movement of the rod 10 of the actuator 11 is converted into the swing of the existing pile cutting blade 3, so that the structure is simple and compact. Then, the vertical movement of the rod 10 of the actuator 11 is changed to that of the existing pile cutting blade 3. It can be readily converted to kinetic. Thereby, the longitudinal direction of the actuator 11 can be made into the up-down direction, and the diameter of the casing 2 of the part in which the blade drive mechanism 8 was provided can be made small.

It is a front view which shows the existing pile removal apparatus which concerns on one Embodiment of this invention. It is a principal part side view. It is a principal part sectional top view of a tower part. It is a bottom view of a casing. It is a principal part cross-section side view around a blade drive mechanism. It is a principal part sectional top view of a blade drive mechanism periphery. It is a principal part sectional side view showing the claw drive mechanism periphery, (a) is a principal part sectional side view which shows the state where the gripping claw was stored, and (b) is the principal part which shows the state where the gripping claw was projected. It is a cross-sectional side view. It is a cross-sectional side view for drawing-out removal process of an existing pile. It is a cross-sectional side view for drawing-out removal process of an existing pile. It is a cross-sectional side view for drawing-out removal process of an existing pile. It is a cross-sectional side view for drawing-out removal process of an existing pile. It is a cross-sectional side view for drawing-out removal process of an existing pile. It is a cross-sectional side view for drawing-out removal process of an existing pile. It is a cross-sectional side view for drawing-out removal process of an existing pile.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Excavation blade 2 Casing 2a Lower end part 3 Existing pile cutting blade 3a Receiving surface 6 Casing rotation raising / lowering device 7 Grasping claw
8 Blade drive mechanism 9 Pivoting shaft
10 rod
11 Actuator
12 Groove
13 Moving direction changing female part
14 Projection
15 Movement direction change male part
16 legs
17 Place
18 frame
19 Foundation casing
20 Additional casing
22 Casing moving means
23 Claw drive mechanism
26 Swivel joint
30 Existing pile
31 Pile bottom G ₀ ground G ₁ underground G ₂ bedrock

Claims (5)

Switching the casing (2) having the excavating blade (1) for digging around the existing pile (30) buried in the ground (G ₁ ) between the state in which the casing (2) is gripped and the state in which it is opened The lower end portion (6) of the lower casing (6) is rotated and lowered to be excavated to a predetermined depth, so that the lower end (2a) of the casing (2) can be projected and retracted. The existing pile cutting blade (3) provided in 2a) is projected from the inner surface of the lower end (2a) to cut the existing pile (30), and the existing pile cutting blade (3) A portion of the existing pile (30) above the cutting portion is hooked by the receiving surface (3a) of the existing pile cutting blade (3) in a protruding state, and the ground (G ₁ ) together with the casing (2). ) Repeat the first step of pulling out from the pile, and then the last left pile of the existing pile (30) 31) The peripheral surface of the casing (2) can be moved in and out of the inner surface of the casing (2) and is held by the gripping claws (7) located above the existing pile cutting blade (3). existing pile removing method which is characterized in that in the second step of pulling out from (G _1). The casing rotation elevating device (6) includes a mounting unit (17) and a plurality of legs (16) attached to the mounting unit (17) and is installed on a ground (G ₀ ) ( 18) placed on the placement part (17),
The foundation casing (19), which is the part provided with the existing pile cutting blade (3) and the gripping claws (7), is moved horizontally so that the foundation casing (19) can be moved toward and away from the gantry (18). In the casing moving means (22), insert between the plurality of legs (16) of the gantry (18) to the lower side of the mounting portion (17),
The joint casing (20) is formed into a vertically penetrating shape from above the casing rotating / lifting device (6) to the casing rotating / lifting device (6) and the placing portion (17), and the base casing (19) The existing pile removing method according to claim 1, wherein the casing (2) is constituted by the base casing (19) and the joint casing (20) connected to each other. Underground switched between a state of being open in a state of being gripped by the casing rotating lifting device (6) which has a digging edge (1) for digging around the (G ₁₎ to the buried existing pile (30) A casing (2) that can be freely moved, and a lower end (2a) of the casing (2) that is provided at the lower end (2a) so as to be able to protrude and retract and can cut the existing pile (30). An existing pile cutting blade (3), and a blade drive mechanism (8) for projecting and retracting the existing pile cutting blade (3),
The existing pile cutting blade (3) is hung from the ground (G ₁ ) together with the casing (2) by hooking a portion above the cutting portion of the existing pile (30) cut in the protruding state. Having a receiving surface (3a) for pulling out,
Furthermore, it is disposed above the existing pile cutting blade (3) so as to be able to protrude and retract from the inner surface of the casing (2), and holds the peripheral surface of the lower end portion (31) of the existing pile (30). lifting to existing pile removal apparatus, characterized in that it comprises withdrawal of the gripping claws (7) for the above ground (G ₁₎ with the casing (2).   A claw drive mechanism that swings up and down while tilting the tip of the gripping claw (7) so as to bite and grip the peripheral surface of the existing pile (30) by its own weight. The existing pile removing device according to claim 3, comprising (23). The existing pile cutting blade (3) is pivotally attached to the lower end (2a) of the casing (2) so as to be swingable around a vertical pivot shaft (9),
The blade drive mechanism (8) includes a rod (10) that can move up and down and an actuator (11) disposed along the peripheral surface of the casing (2), and a tip of the rod (10). And a cylindrical moving direction changing female portion (13) having a spiral groove portion (12) formed on the inner peripheral wall, and a spiral projection (14) interlocking with the pivot shaft (9). A moving direction changing male part (15) formed on the outer peripheral wall,
The moving direction changing female part (13) is externally fitted to the moving direction changing male part (15) so that the ridge part (14) is fitted into the groove part (12) so as to be movable up and down. The existing pile removing apparatus according to claim 3 or 4, wherein the vertical movement of the rod (10) of the actuator (11) is converted to swinging of the existing pile cutting blade (3).

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