JP2004019215A - Pile press-fitting and extracting machine, and hose drum unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce total height as transport height even when an attachment is installed without reducing pile press-fitting precision in a pile press-fitting and extracting machine. <P>SOLUTION: This pile press-fitting and extracting machine press-fits or extracts piles to the ground, with a hose drum unit 10 to assist pile press-fitting and extracting work installed on an upper part. It is provided with a chuck part 4 to chuck the pile, and a machine main body part 5 to support the chuck part 4 to be movable up and down on the front surface side. On the front surface side of the machine main body part 5, a slider 43 provided on the chuck part 4 is slidably engaged to be held between both sides, and a pair of rail parts 54 and 54 are provided to guide vertical move of the chuck part 4 by sliding motion of the slider 43. In an upper part of the machine main body part 5, a recess 531 on which the hose drum unit 10 can be installed between the rails 4 and 54 is formed. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a pile press-in / draw-out machine to which an attachment used for performing a pile press-in / pull-out is attached, and a hose drum device used in the pile press-in / pull-out machine and wound with a hose such as a jet water (high-pressure water) hose.
[0002]
[Prior art]
As a pile press-in / pull-out machine, a pile is pressed into the ground by taking up a new pile while taking a reaction force from an existing pile, or another pile is pulled out while taking a reaction force from an existing pile. It has been known.
This pile press-in / pull-out machine basically includes a saddle provided with a clamp for grasping a previously press-fitted pile, a slide frame that slides back and forth with respect to the saddle, and a mast that pivots on the slide frame. And a chuck that can be moved up and down by a hydraulic cylinder in front of the revolving portion and that grips the pile. Then, the pile press-in / pull-out machine presses the pile that has been driven into the ground by grasping the already driven pile with a clamp and taking a reaction force from the existing pile, and lowering the chuck by the chuck. . By the way, depending on the condition of the ground into which the pile is pressed, there is a case where the pile is pressed while jet water (high-pressure water) is jetted to the ground for the purpose of reducing the pressing load and improving the construction efficiency.
[0003]
FIGS. 7 and 8 show an example of a pile press-in and pull-out machine that presses a pile while jetting jet water onto the ground.
The pile press-in / pull-out machine 80 shown in FIGS. 7 and 8 is a jet that jets jet water from a nozzle 91 attached to the top of the mast 84, in addition to the clamp portion 81, the saddle 82, the mast 84, and the chuck portion 85. A hose drum device 90 provided with a hose drum (hereinafter, drum) 93 for winding and unwinding a hose 92 is provided. The jet hose 92 has a base end connected to a high-pressure water pump via a swivel joint 93a and a connection hose 93b of the drum 93. The jet hose 92 is disposed behind the pile 3 into which the drum 93 is newly press-fitted. Jet water is sprayed from the nozzle 91 toward the ground into which the pile 3 is to be pressed, and the soil near the bottom of the pile is made to flow easily, and the peripheral surface resistance of the pile 3 is reduced to facilitate the press-fitting of the pile 3. It is.
[0004]
In the hose drum device 90, the drum 93 is rotatably attached to the distal end of the arm 95 in a cantilevered state, and the arm 95 extends in the radial direction of the drum, and is attached to the top of the mast 84 at the base end thereof. The mounting bracket 96 is rotatably mounted on the mounting bracket 96. The arm 95 is configured so that the inclination angle with respect to the mounting bracket 96 can be changed by the cylinder 97. When the pile is gripped by the chuck portion 85, the drum 93 is set to the solid line position. The drum 93 is arranged above the pile 3 when the height of the drum 93 becomes lower than the same level as the height. When transporting a pile press-in / pull-out machine equipped with a pile driving attachment such as the hose drum device 90 or the like, as in a known pile press-in / pull-out machine without an attachment, the pile press-in / pull-out machine is transported in a state where a clamp portion is gripped by a gantry. In the drum device 90 having the above-described configuration, the drum 93 can be folded toward the chuck portion 85. In this state (indicated by reference numeral 93 ′ in FIG. 7), the entire pile press-in / pull-out device 80 including the hose drum device 90 is provided. The height H1 (transportation total height) is made lower than the total height H2 of the pile press-in and pull-out machine when using the attachment, so that the pile press-in and pull-out machine 80 can be easily transported.
[0005]
[Problems to be solved by the invention]
By the way, when an attachment such as the above-described hose drum device 90 for facilitating pile driving is attached to the upper portion of the pile press-in / pull-out machine 80, the attachment of the hose drum device 90 or the like is required to improve the transportability. There is a demand to further reduce the overall height H1 of the pile press-in / draw-out machine 80 including the pile press-in / pull-out machine 80.
In this case, it is conceivable that the height of the mast 84 is reduced. However, when the mast 84 is lowered, the chuck rail 85 is supported on the mast 84 so as to be able to move up and down, and the length of a slide rail for guiding the elevating movement is also reduced. As a result, the vertical stroke of the chuck portion 85 is reduced, and the pile press-in efficiency of the pile press-in / pull-out machine itself is reduced, so that the height of the mast itself cannot be reduced.
[0006]
An object of the present invention is to reduce the overall height of a pile press-in and pull-out machine, which is a transport height, without lowering the pile press-in efficiency, even if an attachment is attached.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1, for example, as shown in FIG. 1, presses or pulls out a pile from the ground and attaches an attachment (for example, a hose drum device 10) to an upper portion. The pile press-in / pull-out machine 1 includes a chuck portion 4 for gripping a pile, and a machine body portion 5 for supporting the chuck portion up and down on the front side, and the chuck portion is provided on the front side of the machine body portion. A pair of left and right rails 54 and 54 are provided to engage the provided sliding member 43 movably up and down, and the attachment can be mounted between the pair of left and right rails on the upper part of the machine body. A concave portion 531 is formed.
The attachment is used for press-fitting the pile with the pile press-in / pull-out machine or for facilitating press-fitting of the pile. For example, a winch, a hose drum for winding and feeding a hose for jet water jetting, and the like. A device for winding a hydraulic hose for a hydraulic motor of the earth auger when the earth auger is used in combination with the pile press-fitting.
[0008]
According to the first aspect of the present invention, since the concave portion 531 to which the attachment can be attached is formed between the pair of rails at the upper part of the machine body of the pile press-in / pull-out machine, the attachment is provided in the concave portion. It can be attached, the height of the pile press-in / draw-out machine provided with the attachment is reduced by the depth of the concave portion, and the transportation thereof can be easily carried out. In addition, the attachment is attached between the rails, The press-fitting efficiency can be kept high without shortening the elevating stroke of the chuck portion that slides along.
[0009]
The invention according to claim 2 is, for example, as shown in FIGS. 1 and 6, in a hose drum device attached to an upper part of a pile press-in / pull-out machine for press-fitting / pulling a pile into the ground, winding and unwinding the hose. And a support portion 13 that is disposed adjacent to the drum in the rotation axis direction and rotatably supports the drum,
The support portion is formed to extend outward from the outer periphery of the drum and to be bent toward a center line C1 of the entire width of the drum orthogonal to a rotation axis of the drum, and is supported at a position substantially overlapping the center line. And an arm portion 15A having an end portion (base end portion 151A).
[0010]
According to the second aspect of the present invention, the end of the arm is attached to the upper part of the pile press-in / pull-out machine at a position substantially overlapping with the center line of the drum orthogonal to the rotation axis of the drum capable of winding and unwinding the hose. The drum can be disposed almost directly above an end attached to the pile press-in / pull-out machine.
Therefore, at the top of the machine body of the pile press-in / pull-out machine equipped with rails that support the chuck portion on the front side so as to be able to move up and down, avoid the rails in order to reduce the overall height while maintaining the high-pressure-pulling accuracy of the pile press-in / pull-out machine. Even when a recess is formed between the rails, the one end can be fixed to the recess, and the drum can be arranged between the pair of rails. A pile press-in / draw-out machine equipped with a hose drum device can be provided.
Further, the moment applied to the arm portion by the rotation of the drum when the hose is wound and unwound is displaced in the vertical direction between the conventional cantilevered and fixed base end and the drum in the vertical direction of the drum. Winding and unwinding of the hose can be suitably performed with a smaller size than the structure separated at the position.
[0011]
The invention according to claim 3 is, for example, as shown in FIGS. 1 to 3, in a hose drum device attached to an upper part of a pile press-in / pull-out machine for press-fitting / pulling a pile into the ground, winding and unwinding the hose. And a support portion 13 that is disposed adjacent to the rotation axis direction of the drum and rotatably supports the drum, and extends outward from the outer periphery of the drum from the support portion, An arm portion having an end 151 formed to bend toward a center line C of the entire width of the drum device including the drum and the support portion, which is orthogonal to the rotation axis, and supported at a position substantially overlapping the center line; 15 is provided.
[0012]
According to the third aspect of the present invention, the end of the arm portion is provided at the upper part of the pile press-in / pull-out machine at a position substantially overlapping with the center line of the drum capable of winding and unwinding the hose and the drum orthogonal to the rotation axis of the support portion. Is attached and supported, so that the drum and the support portion can be arranged substantially directly above the base end of the arm attached to the upper portion of the pile press-in / pull-out machine.
Therefore, at the top of the machine body of the pile press-in / pull-out machine equipped with rails that support the chuck portion on the front side so as to be able to move up and down, avoid the rails in order to reduce the overall height while maintaining the high-pressure-pulling accuracy of the pile press-in / pull-out machine. Even when a concave portion is formed between the rails, the one end portion is fixed to the concave portion, and the drum and the support portion can be arranged between the pair of rails. And a pile press-in and pull-out machine equipped with a hose drum device that is easy to use.
Further, the moment applied to the arm portion by the rotation of the drum when the hose is wound and unwound is displaced in the vertical direction between the conventional cantilevered and fixed base end and the drum in the vertical direction of the drum. Winding and unwinding of the hose can be suitably performed with a smaller size than the structure separated at the position.
[0013]
According to a fourth aspect of the present invention, in the hose drum device according to the second or third aspect, for example, as shown in FIG. 1, the end portion 151 is rotatable about an axis substantially parallel to the drum rotation axis. It is characterized in that it is attached to the pile press-in / pull-out machine 1 directly or via the mounting bracket 11.
According to the fourth aspect of the present invention, in the hose drum device, the end of the hose drum device is attached to the pile press-in / pull-out machine 1 directly or via the mounting bracket 11 so as to be rotatable about an axis substantially parallel to the drum rotation axis. It is possible to fold the hose drum device attached to the pile press-in / pull-out machine by rotating it, and to lower the height of the mounted pile press-in / pull-out machine itself to facilitate its transportation. it can.
[0014]
According to a fifth aspect of the present invention, as shown in, for example, FIGS. 1 to 5, in the pile press-in / pull-out machine according to the first aspect, the end of the hose drum device according to the fourth aspect is directly or mounted in the recess 531. When the drum 12 is rotated around the shaft 11b toward the front side of the machine main body 53, the drum, the support and the arm are mounted on the bracket 11 via the bracket 11. It is characterized by being arranged at a position equal to or less than.
According to the fifth aspect of the invention, the drum of the hose drum device mounted directly or via a mounting bracket in the upper concave portion of the machine body is turned around the shaft toward the front side of the machine body. When moved, the drum, the support portion and the arm portion are arranged at positions equal to or lower than the height of the upper surface of the machine main body, so that the stroke of lifting and lowering the chuck portion sliding along the rail is shortened. Without pressing, the press-fitting efficiency can be kept high, and even if the hose drum device is installed, the total transport height is reduced by keeping the overall height to be equal to or less than the height of the upper surface of the machine body. It can be easily transported.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
First, the configuration will be described.
The pile press-in / pull-out machine 1 shown in FIGS. 1 to 5 takes a reaction force from an existing pile (sheet pile), press-fits a new pile into the ground, drives the pile, and moves on the driven pile. It is possible. Then, along with this movement, a new pile is pressed into the ground.
The pile press-in / pull-out machine 1 includes a chuck section 4 and a machine body section 5 that supports the chuck section 4 so as to be able to move up and down. The chuck section 4 includes a chuck body 41 and a chuck 42 provided on the chuck body 41, and the chuck 42 grips the pile. The chuck 42 is rotatable around a vertical axis passing through the center.
The machine main body 5 has a saddle 51, a clamp portion 52 hanging down from the saddle 51 to clamp an existing pile, and a mast 53 erected on the saddle 51 via a slide base. A hose drum device (winding device) 10 is provided at the upper part.
On the front side of the mast 53, a pair of vertically extending rails 54, 54 are provided at right and left distances, and a sliding member 43 provided on the chuck body 41 slides on the rails 54, 54. By freely engaging, the chuck portion 4 is supported on the machine main body portion 5 so as to be able to move up and down. The mast 53 is provided with a pair of left and right arms 55, 55 extending toward the chuck body 41. On the other hand, a pair of cylinder devices 44 are attached to the chuck body 41 vertically and spaced apart from each other, and the cylinder rod 44a of the cylinder device 44 is directed downward. The lower ends of the cylinder rods 44a, 44a are connected to the ends of the arms 55, 55, and the chuck rod 4 is expanded and contracted by the driving of the cylinder device 44, so that the chuck part 4 becomes a rail part 54. , 54 up and down.
Further, in the upper part of the mast 53, a groove-shaped notch (hereinafter, referred to as a concave section) extending in the front-rear direction extending substantially in the middle of the thickness of the mast 53, that is, between the pair of rails 54 provided on the front side. 531). The mounting bracket 11 of the hose drum device 10 is fixed to the recess 531 in a state of being fitted inside. The mounting bracket 11 is attached to the concave portion 531 by welding, but is not limited to this, and may be attached via bolts or pins.
[0016]
The hose drum device 10 jets jet water (high-pressure water) to the ground when the pile is pressed in by the pile press-in / pull-out machine 1. A jet nozzle (jetting means) for jetting jet water is attached to the new pile via a nozzle socket (not shown). The jet nozzle is connected to a high-pressure water pump (not shown) via a drum 12 and a hose 2, and the high-pressure water pump is connected to a water absorption pump via a hose, and pumps water from a water source by the water suction pump. ing. The water pumped by the high-pressure water pump is supplied with pressure by the high-pressure water pump to supply jet water to the hose 2. In the present embodiment, jet water is jetted. However, the present invention is not limited to this, and jet water may be used for ground improvement agents and air jetting.
[0017]
As shown in FIG. 3, the hose drum device 10 is disposed adjacent to a drum 12 capable of winding and unwinding a hose and in a direction in which a rotation shaft 12a of the drum 12 extends, and rotatably supports the drum 12. And a line extending from the support portion 13 to the outside from the outer periphery of the drum 12 and passing through the center of the thickness of the drum 12 and the support portion 13 which are orthogonal to the rotation axis 12a of the drum 12. One end attached to the upper part of the mast 53 at a position overlapping the center line C of the entire width of the drum device 14 formed of the drum 12 and the support portion 13 which is formed by bending and is orthogonal to the rotation shaft 12a of the drum 12. And an arm 15 having the same. Here, the center line is a line passing through the center of the thickness of the drum 12 and the support portion 13 and orthogonal to the rotation shaft 12a, and is the center of the thickness of the drum 12 and the support portion 13 in the axial direction. The vertical line passes through the portion, that is, the center portion of the entire width of the drum device 14.
The drum 12 is supported by a support portion 13 so as to be rotatable about a rotation shaft 12a. The support portion 13 has a built-in rotation motor 131 for rotating the drum 12 around the rotation shaft 12a. One end of the hose 2 is internally connected to a side surface of the drum 12 opposite to the side surface adjacent to the support portion 13, and the connected hose 2 is connected to an external hose 21. A swivel joint 16 is provided.
[0018]
The arm 15 is formed integrally with the support 13 in this embodiment. The base end 151 of the arm 15 is inserted into a concave portion 11a provided in the mounting bracket 11, and is rotatably attached by a support pin 11b.
In detail, the base end 151 of the arm 15 is formed in a downward concave shape that opens downward and extends in the front-rear direction of the pile press-in / pull-out machine 1. Each of the shafts is attached to a side wall constituting the concave portion 11a inside the concave portion 11a of the mounting bracket 11 via a coaxial support pin 11b. The mounting bracket 11 is a long one which is mounted so as to extend in the front-rear direction of the mast 53, and is formed in a concave cross-section with both ends opened upward. The above-described concave portion 11a is provided at one end on the front side of the mast 53, and the base end of the arm portion 15 is fitted therein, thereby rotatably supporting the arm portion 15. The mounting position of the base end 151 of the arm portion 15 is set at the center line C of the length W in the direction of the rotation axis perpendicular to the rotation axis, where the drum 12 and the support portion 13 are combined. It is an overlapping position. Further, the entire width of the hose drum device 10, that is, the length W in the rotation axis direction (the entire width of the drum device 14) of the drum 12 and the support portion 13 is smaller than the width between the cylinders 44 of the chuck body 41. Has become something.
[0019]
The main body 17b of the undulating cylinder 17 disposed along the mounting bracket 11 is fitted into a concave portion 11c at the other end of the mounting bracket 11, here a concave portion 11c having a concave cross section on the rear side of the mast 53. In this state, it is supported by the support pin 11d. The up-and-down cylinder 17 is attached to the concave portion 11c so as to advance and retreat the cylinder rod 17a to the other end, and the distal end of the cylinder rod 17a is connected to a portion above the base end 151 of the arm portion 15. It is attached rotatably by a support pin 15b via a portion 17d. Note that each of the support pins 11d and 15b has an axis parallel to the support pin 11b. Then, by extending the cylinder rod 17a, the arm 15 is tilted to the front side as shown in FIG. At this time, the cylinder rod 17a is inserted through the concave base end 151 and is substantially parallel to the mounting bracket 11. By driving the undulating cylinder 17, the arm 15 can be turned around the support pin 11 b of the base end 151, and the arm 15 can be moved up and down with respect to the mounting bracket 11.
By this operation, the position of the drum 12 provided on the distal end side of the arm portion 15 via the support portion 13 can be changed. For example, when the chuck portion 4 grips a pile lowered from above, By contracting the cylinder rod 17a of the up-and-down cylinder 17, the drum 12 can be disposed behind the front surface of the mast 53. Further, when the hose 2 is recovered after the press-fitting is completed, the stake of the pile into which the drum 12 is press-fitted is removed. Can be placed on top. Further, by extending the cylinder rod 17a, the drum 12 can be arranged on the chuck section 4 side. This state is indicated by reference numeral 12 'in FIG. FIG. 5 shows a state of the base end portion of the arm when the hose drum device 10 attached to the upper part of the mast 53 is folded as described above.
[0020]
As shown in FIG. 5, when the arm portion 15 is tilted, the cylinder rod 17a projects between the pair of rails 54, 54 of the mast 53 so as to cross the center between the rails 54, 54, and the up-and-down cylinder The upper end of 17 is substantially flush with the upper surface of the mast 53, and the drum 12, the support portion 13, and the arm portion 15 are respectively arranged below the upper surface of the mast 53. That is, when the arm portion 15 is tilted to tilt the drum 12 toward the chuck portion 4, as shown in FIG. 1A, the height of the pile press-in / pull-out machine 1 is set by the hose drum device 10. In this case, the distance from the lower end of the clamp 52 to the upper surface of the mast 53 is T1.
Therefore, when transporting the pile press-in / pull-out machine 1, the transport height is reduced by tilting the drum 12 toward the chuck portion 4 and making the upper end thereof substantially flush with the upper surface of the mast 53. , Can be easily transported.
As described above, since the mounting bracket 11 of the hose drum device 10 is provided in the concave portion 531 of the mast 53 formed between the rail portions 54, 54, the vertical length of the rail portions 54, 54 is reduced. The height of the pile press-in / pull-out machine 1 provided with the hose drum device 10 is reduced by the depth of the concave portion 531 while keeping the accuracy of the pile press-in without shortening and shortening the vertical stroke of the chuck portion 4. can do. That is, the transport height when transporting the pile press-in and pull-out machine 1 to which the hose drum device 10 is attached can be reduced by the depth of the concave portion 531, and transport can be easily performed. Further, the hose drum device 10 is configured such that the base end 151 of the arm 15 supported in the recess 531 of the mast 53 via the mounting bracket 11 is connected to the drum 12 and the support 13 perpendicular to the rotation axis direction of the drum 12. Is set at a position substantially overlapping the center line C of the thickness (total width) in which the moment applied to the arm 15 when winding the hose 2 used for press-fitting the pile is smaller than that of the conventional one. Thus, the twist generated above and below the arm portion 15 can be reduced, and operations such as winding and unwinding of the hose 2 by rotation of the drum 12 can be suitably performed. The hose drum (hose winding) device 10 is attached to the concave portion 531 via the attachment bracket 11, but is not limited to this. As long as the mounting bracket 11 has an effect, the mounting bracket 11 may be provided integrally with the mast 53. Further, the base end portion 151 of the arm portion 15 may be formed between the side walls of the concave portion 531 via bolts or pins. It is good also as a structure mounted directly rotatable on.
[0021]
[Modification]
FIG. 6 shows a modified example of the hose drum device as the pile driving attachment provided in the pile press-in / pull-out machine 1 described above. In the hose drum device 10 </ b> A shown in FIG. 6, the same components as those of the above-described hose drum device 10 have the same names and the same reference numerals, and description thereof will be omitted.
The hose drum device 10A shown in FIG. 6 includes a drum 12 capable of winding and unwinding the hose 2, a support portion 13 disposed adjacent to the drum 12 in the axial direction and rotatably supporting the drum 12, The portion 13 extends outward from the outer periphery of the drum 12 and bends toward a center line C1 of the entire width of the drum 12 that is orthogonal to the rotation axis of the drum 12, and the position described above is substantially overlapped with the center line C1. The pile press-in / pull-out machine 1 includes an arm portion 15A having a base end (end) 151A attached to an upper part of a mast 53A of the same configuration as the pile press-in / pull-out machine 1. The hose drum device 10A is rotatably mounted at a base end 151A above a mast 53A and via a mounting member 532 provided in a concave portion 531A formed between the rail portions 54. The attachment member 532 includes a pair of attachment pieces 532a, 532a that protrude upward from the bottom surface of the recess 531A and are spaced apart from each other along opposing side walls of the recess 531A.
The base end 151A of the arm 15A is inserted between the mounting pieces 532a, 532a, and is axially supported by support pins 532b, 532b which are axes parallel to the axis of the drum 12. The support pins 532b and 532b have the same axis, and the base end 151A of the arm 15A pivotally supported by the support pins 532b and 532b has a center line C1 of the drum 12 orthogonal to the rotation axis of the drum 12. And it is in a state of being overlapped. As described above, the base end portion 151A is supported at a position substantially overlapping with the center line C1, and therefore, even when the hose 2 of the drum 12 is wound or pulled out at the time of press-fitting a pile, the arm is provided via the drum 12. The moment applied to the portion 15A can be minimized, and the drum 12 is moved to a position directly above the press-fitting stake, so that even when the hose assisted for press-fitting is wound, the force is applied so that the hose is twisted at the time of winding on the arm portion. The hose 2 can be suitably wound without adding.
[0022]
In the above embodiment, the device attached to the concave portion 531 of the mast 53 is the hose drum device 10, 10A. However, the present invention is not limited to this, and assists the press-fitting and pulling-out work of the pile. Any device may be attached to the recesses 531 and 531A as long as the attachment is necessary for the attachment. For example, when the earth auger is used together with the pile press-fitting by the machine main body 5, a device for winding a hose for a hydraulic motor used for driving the earth auger may be used. Further, a device such as a winch or a welding machine may be used, and a device for supplying hydraulic power, air, or the like as a power source to these devices may be used.
Also, the shapes of the mounting bracket, the arm portion, and the like are arbitrary, and it goes without saying that other specific components can be appropriately changed. For example, the arm portions 15 and 15A have a bent shape in the above embodiment, but may have a curved shape.
[0023]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, even if the attachments, such as a hose drum apparatus, are attached, the press-fitting accuracy of a pile is kept high, and it can carry easily by making the whole height low by the depth of a recessed part. Further, the attachment is a hose drum device, the end of which is rotatable around an axis substantially parallel to the drum rotation axis so that it can be mounted directly or via a mounting bracket on the concave portion of the machine body, and When the drum, the supporting portion, and the arm portion are arranged at a position equal to or lower than the height of the upper surface of the machine main body when the drum is rotated around the shaft toward the front side of the machine main body, the hose drum Even if the device is mounted, the total height of the device is reduced by keeping the total height of the device below the same height as the height of the upper surface of the machine body, so that the device can be easily transported.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a pile press-in and pull-out machine according to an embodiment to which the present invention is applied, (a) is a schematic side view, and (b) is a schematic plan view.
FIG. 2 is a schematic front view of the pile press-in and pull-out machine of FIG.
3A and 3B are diagrams illustrating a hose drum device provided in the pile press-in / pull-out machine of FIG. 1, wherein FIG. 3A is a schematic side view, FIG. 3B is a rear view of an undulating cylinder of the hose drum device, and FIG. 1 is a schematic front view of the device.
4A and 4B are diagrams showing a state in which a cylinder rod of an up-and-down cylinder is extended in the hose drum device of FIG. 3, wherein FIG. 4A is a schematic side view and FIG. 4B is an end view taken along line AA of FIG. .
5 is a view showing a state in which a cylinder rod is extended in a hose drum device attached to a mast of the pile press-in and pull-out machine in FIG. 1, (a) is a schematic plan view of the same state, and (b) is a same state (C) is a schematic front view of the same state.
FIG. 6 is a front view showing a modified example of the hose drum device to which the present invention is applied.
FIG. 7 is a schematic side view showing a configuration of a conventional pile press-in and pull-out machine.
FIG. 8 is a schematic front view showing a configuration of a conventional pile press-in and pull-out machine.
[Explanation of symbols]
1 Pile press-in and pull-out machine
2 hose
4 Chuck section
5 Machine body
10,10A hose drum device
12 drums
12a Rotary axis
13 Support
43 Sliding member
54 Rail
151, 151A Base end (end)
531, 531A recess
C, C1 center line
T1 length

Claims (5)

In a pile press-in / pull-out machine where a pile is pressed into or pulled out of the ground and an attachment is attached to the top,
A chuck for gripping the pile,
A machine body for supporting the chuck part vertically so as to be able to move up and down,
On the front side of the machine body, a pair of left and right rails is provided, which vertically and movably engage a sliding member provided on the chuck portion,
A recess for mounting the attachment between the pair of left and right rails is formed in an upper part of the machine body, and the pile press-in / pull-out machine is characterized in that: In a hose drum device attached to an upper part of a pile press-in / pull-out machine for press-fitting or pulling out a pile from the ground,
A drum capable of winding and unwinding the hose,
A support portion that is arranged adjacent to the rotation axis direction of the drum and rotatably supports the drum;
The support portion extends outward from the outer periphery of the drum, and is formed so as to bend toward a center line of the entire width of the drum orthogonal to a rotation axis of the drum,
An arm portion having an end portion supported at a position substantially overlapping the center line. In a hose drum device attached to an upper part of a pile press-in / pull-out machine for press-fitting or pulling out a pile from the ground,
A drum capable of winding and unwinding the hose,
A support portion that is arranged adjacent to the rotation axis direction of the drum and rotatably supports the drum;
While extending outward from the outer periphery of the drum from the support portion, formed to be bent toward the center line of the drum device full width composed of the drum and the support portion orthogonal to the rotation axis,
An arm portion having an end portion supported at a position substantially overlapping the center line. The hose drum device according to claim 2, wherein the end is attached to the pile press-in / pull-out machine directly or via a mounting bracket so as to be rotatable around an axis substantially parallel to the drum rotation axis. An end of the hose drum device according to claim 4 is mounted directly or via a mounting bracket in the recess,
When the drum is rotated about the shaft toward the front side of the machine main body, the drum and the arm are arranged at a position equal to or lower than the height of the upper surface of the machine main body. The pile press-in and pull-out machine according to claim 1.

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