JP6770374B2 - Pile driving machine - Google Patents

Description

The present invention relates to a pile driving machine, and more particularly, to a pile driving machine in which an auger moves up and down by sliding a guide pipe fixed to a leader by a guide give provided on the auger.

Regarding the pile driving machine, in Patent Document 1, guide pipes are provided on both the left and right sides of the leader so as to extend vertically, and a pile driving machine in which the guide give of the auger slides in the vertical direction along the guide pipe is used. It is disclosed.

Japanese Unexamined Patent Publication No. 2014-133985

In a pile driving machine as disclosed in Patent Document 1, grease is applied to the guide pipe in order to lubricate the guide pipe so that the guide pipe can slide smoothly on the guide pipe. .. At this time, for example, there is a guide give with a greasing port that stores grease in a recess inside the guide give and applies the grease to the guide pipe when the auger is raised or lowered. However, since the amount of grease that can be accumulated in the recess inside the guide give is limited, there is a possibility that the grease cannot be reliably applied to the guide pipe over the entire leader. Therefore, the operator manually applies grease to the guide pipe before raising the leader. However, since such manual work must be performed at each construction site, the work becomes complicated and the burden on the operator increases.

Therefore, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a pile driving machine capable of lubricating between a guide pipe and a guide give while reducing a burden on an operator. And.

One embodiment of the present invention made to solve the above problems is a pile driving machine having a leader to which a tubular guide pipe is fixed and a working device including a guide give that slides on an outer peripheral surface of the guide pipe. In the lubricant storage section formed in the guide pipe and storing the lubricant, the attachment provided in the lubricant storage section, and the attachment so that the tip of the attachment protrudes from the outer peripheral surface of the guide pipe. It is characterized by having a pressing member for an attachment to be pressed.

According to this aspect, when the guide give sliding on the outer peripheral surface of the guide pipe passes through the position where the tip of the attachment protrudes, the attachment faces the pressing force of the attachment pressing member by the guide give toward the inside of the lubricant storage portion. Is pushed in. As a result, the lubricant stored in the lubricant storage portion seeps out of the guide pipe through the gap between the tip of the attachment and the guide pipe. In this way, the lubricant is supplied to the outer peripheral surface of the guide pipe, and further, since the guide give slides on the outer peripheral surface of the guide pipe to which the lubricant is supplied, the lubricant is spread over the entire guide pipe. Can be supplied. Then, the supply of lubricant between the guide pipe and the guide give is automated. Therefore, it is possible to lubricate between the guide pipe and the guide give while reducing the burden on the operator.

In the above aspect, the leader is formed by connecting a plurality of leader members, and the guide pipe is formed by connecting guide pipe members fixed to each of the leader members and adjacent to each other. The members are connected to each other via a connecting member fitted in the guide pipe member, and the connecting member includes a lubricant supply hole for supplying the lubricant in the lubricant storage portion. That is preferable.

According to this aspect, the lubricant can be easily supplied into the lubricant storage portion through the lubricant supply hole. Therefore, a sufficient amount of lubricant for supplying to the outer peripheral surface of the guide pipe can be stably filled in the lubricant storage portion.

In the above aspect, it is preferable to have a piston facing the lubricant storage portion and a piston pressing member that presses the piston toward the inside of the lubricant storage portion.

According to this aspect, the pressure of the lubricant storage portion can be adjusted by applying the pressing pressure of the piston pressing member to the lubricant storage portion via the piston. Therefore, by adjusting the pressure of the lubricant storage unit to a predetermined pressure, the lubricant stored in the lubricant storage unit more reliably when the attachment is pushed into the lubricant storage unit by the guide give. Can be exuded out of the guide pipe. Therefore, more stable lubrication can be achieved between the guide pipe and the guide give.

According to the pile driving machine according to the present invention, lubrication between the guide pipe and the guide give can be achieved while reducing the burden on the operator.

It is the whole view of the pile driving machine of this embodiment. It is a detailed view of part A of FIG. It is BB sectional view of FIG. FIG. 2 is a cross-sectional view taken along the line CC of FIG. It is a figure which shows the state of connecting two guide pipe members. It is sectional drawing of a leader and a guide pipe in a modification.

An embodiment of the pile driving machine according to the present invention will be described with reference to the drawings. As shown in FIG. 1, in the pile driving machine 1 of the present embodiment, the upper swivel body 11 is mounted so as to be swivelable with respect to the lower traveling body 12. The leader 21 is attached to the front side (left side in FIG. 1) of the upper swing body 11. FIG. 1 shows a state in which the reader 21 stands upright in the vertical direction.

The upper swivel body 11 has a driver's cab 13 for performing a driving operation. The upper swing body 11 is provided with a back stay 14 that supports the leader 21 from the rear side (right side in FIG. 1) with the leader 21 standing upright. The lower traveling body 12 can travel by the crawler 15, and rotatably supports the upper rotating body 11 via the bearing 16.

The leader 21 extends linearly and long, and is formed by connecting a plurality of leader members 22 (22A, 22B, 22C, 22D, 22E, 22F). A flange 23 is formed at the end of each leader member 22, and the flanges 23 of the adjacent leader members 22 are connected to each other by using bolts and nuts.

An iron tubular guide pipe 24 extending in the same direction as the leader 21 is fixed to the leader 21. An iron guide give 32 of the auger 31 is slidably attached to the guide pipe 24 along the leader 21. The guide pipe 24 extends linearly and longly, and is formed by connecting a plurality of guide pipe members 25 (25A, 25B, 25C, 25D, 25E, 25F). Then, as shown in FIG. 3, a pair of guide pipe members 25 are fixed to each leader member 22. Then, in this way, the pair of guide pipes 24 are fixed to the leader 21. In the present embodiment, as shown in FIGS. 2 to 5, the guide pipe member 25 (guide pipe 24) is formed in a cylindrical shape.

The auger 31 has a guide give 32 assembled to the guide pipe 24 and a rotary drive device 33 for rotationally driving the rod 41 (or steel pipe pile). In the example shown in FIGS. 1 and 3, a total of two pairs of guide give 32s corresponding to the pair of guide pipes 24 are provided at the upper part and the lower part of the auger 31. The wire rope 52 bridged from the winch (not shown) provided on the upper swing body 11 is connected to the auger 31 via the top sheave block 51 provided on the top of the leader 21. Then, by operating the winch, the auger 31 can be moved up and down along the reader 21. At this time, the guide give 32 provided in the auger 31 slides on the outer peripheral surface 27 of the guide pipe 24 fixed to the leader 21.

The rod 41 has a screw on the outer circumference, the upper end thereof is connected to the auger 31, and the excavation head is detachably connected to the lower end portion.

The pile driving machine 1 pushes the rod 41 into the ground while rotating the rod 41 by lowering the auger 31 suspended by the wire rope 52 along the leader 21 with the leader 21 standing upright. Can be done. On the other hand, the pile driving machine 1 pulls out the auger 31 suspended by the wire rope 52 from the ground while rotating the rod 41 by raising the auger 31 suspended by the wire rope 52 in a state where the leader 21 stands upright. be able to.

Next, the guide pipe member 25 of this embodiment will be described. The guide pipe members 25A, 25B, 25C, 25D, and 25E have different lengths but have the same structure. Therefore, the guide pipe member 25A will be described as a representative in the following description. The structure of the guide pipe member 25F may be the same as or different from the structure of the guide pipe members 25A, 25B, 25C, 25D, and 25E.

As shown in FIG. 2, a grease storage unit 61 (lubricant storage unit) for storing grease is formed in the guide pipe member 25A. An attachment unit 71 is provided in the grease storage unit 61. Specifically, a cylindrical cylinder 28 is arranged in the guide pipe member 25A, a grease storage portion 61 is formed in the cylinder 28, and an attachment portion 71 and a pressing mechanism 91 described later are provided. Has been done. The cylinder 28 includes an upper surface 28a and a lower surface 28b formed on both sides of a cylindrical axial direction, respectively. Further, the grease is, for example, a mixture of molybdenum disulfide and oil.

The attachment portion 71 includes an attachment 72, a spring 73 (attachment pressing member), and the like. The attachment 72 is pressed by the spring 73 toward the outside (left side in FIG. 2) of the guide pipe member 25A in the radial direction. As a result, the tip 72a of the attachment 72 projects from the outer peripheral surface 27 of the guide pipe member 25A toward the outside of the guide pipe member 25A through the through hole 26 provided in the guide pipe member 25A. In FIG. 3, the tips 72a of the attachments 72 provided on the pair of guide pipe members 25A project from the outer peripheral surface 27 of the guide pipe members 25A toward the upper side and the lower side of the drawing, respectively.

Then, in the present embodiment, when the guide give 32 sliding on the outer peripheral surface 27 of the guide pipe member 25A (guide pipe 24) passes through the position where the tip 72a of the attachment 72 protrudes (see FIG. 4), the tip of the attachment 72 72a is pushed by the guide give 32. In this way, the attachment 72 is pushed into the grease storage portion 61 by the guide give 32 against the pressing force of the spring 73. As a result, the grease stored in the grease storage unit 61 seeps out of the guide pipe member 25A from the gap between the tip 72a of the attachment 72 and the through hole 26 of the guide pipe member 25A.

As a result, grease is supplied to the outer peripheral surface 27 of the guide pipe member 25A, and the guide give 32 slides the outer peripheral surface 27 to which the grease is supplied in the vertical direction (axial direction) of the guide pipe 24. Since it moves, grease can be supplied over the entire guide pipe 24. In this way, the supply of grease between the guide pipe 24 and the guide give 32 is automated. Therefore, lubrication between the guide pipe 24 and the guide give 32 can be achieved while reducing the burden on the operator.

Further, in the present embodiment, the adjacent guide pipe members 25 are connected to each other via a joint pin 81 (connecting member) fitted in the guide pipe member 25. For example, as shown in FIGS. 2 and 5, the guide pipe member 25A and the guide pipe member 25B are connected to each other via a joint pin 81 that fits into the guide pipe member 25A and the guide pipe member 25B. The joint pin 81 is provided with a grease supply hole 82 and a grease nipple 83 for pouring grease when supplying grease into the grease storage portion 61 formed in the guide pipe member 25A. The grease supply hole 82 communicates with the grease storage portion 61 via a through hole 28c (see FIG. 2) formed in the lower surface 28b of the cylinder 28.

As a result, grease can be easily supplied from the grease nipple 83 into the grease storage unit 61 via the grease supply hole 82. The grease nipple 83 has a built-in check valve, and the grease is injected into the grease supply hole 82 by applying pressure.

Further, in the present embodiment, the pressing mechanism 91 is provided in the cylinder 28 provided in the guide pipe member 25 so as to be adjacent to the grease storage portion 61. As shown in FIG. 2, for example, the pressing mechanism 91 includes a piston 92 arranged facing the grease storage unit 61 and a spring 93 (piston pressing member) that presses the piston 92 toward the inside of the grease storage unit 61. It has. Then, the pressing mechanism 91 can adjust the pressure in the grease storage portion 61 by utilizing the pressing pressure of the spring 93. Then, by adjusting the pressure of the grease storage unit 61 to a predetermined pressure, when the attachment 72 is pushed into the grease storage unit 61 by the guide give 32, the grease is transferred from the grease storage unit 61 to the guide pipe member 25A. It seeps out of the guide pipe member 25A through the gap between the tip 72a of the attachment 72 and the through hole 26 of the guide pipe member 25A through the through hole 26 of the guide pipe member 25A. In this way, since the grease is more reliably supplied to the outer peripheral surface 27 of the guide pipe member 25A, it is possible to stably lubricate between the guide pipe 24 and the guide give 32.

Then, by adjusting the pressing force of the spring 93, the amount of grease discharged from the through hole 26 of the guide pipe member 25A can be adjusted. Further, by adjusting the pressing force of the spring 93, for example, when the guide give 32 stops at a position where the tip 72a of the attachment 72 protrudes, more grease than necessary is applied to the tip 72a of the attachment 72 and the guide pipe member. It is also possible to prevent it from seeping out from the gap with the through hole 26 of 25A.

As a modification, the leader member 22 (leader 21) and the guide pipe member 25 (guide pipe 24) may be formed in a tubular shape having a quadrangular cross section as shown in FIG. In the example shown in FIG. 6, specifically, the leader member 22 is formed in a cylindrical shape having a rectangular cross section, and the guide pipe member 25 is formed in a tubular shape having a square cross section.

As described above, according to the present embodiment, the pile driving machine 1 has a leader 21 to which the tubular guide pipe 24 is fixed, and an auger 31 having a guide give 32 that slides on the outer peripheral surface 27 of the guide pipe 24. In the attachment, the grease storage portion 61 formed in the guide pipe 24 and storing the grease, the attachment 72 provided in the grease storage portion 61, and the tip 72a of the attachment 72 project from the outer peripheral surface 27 of the guide pipe 24. It has a spring 73 that presses the 72.

As a result, when the guide give 32 sliding on the outer peripheral surface 27 of the guide pipe 24 passes through the position where the tip 72a of the attachment 72 protrudes, the guide give 32 causes the attachment 72 to face the pressing force of the spring 73 and the grease storage portion 61. Pushed inward. Therefore, the grease stored in the grease storage portion 61 seeps out of the guide pipe 24 from the gap between the tip 72a of the attachment 72 and the through hole 26 of the guide pipe member 25. As a result, grease is supplied to the outer peripheral surface 27 of the guide pipe 24, and further, since the guide give 32 slides on the outer peripheral surface 27 to which the grease is supplied in this way, the grease is supplied over the entire guide pipe 24. be able to. Then, the supply of grease between the guide pipe 24 and the guide give 32 is automated. Therefore, lubrication between the guide pipe 24 and the guide give 32 can be achieved while reducing the burden on the operator.

Further, conventionally, there is a risk that grease will flow in rainy weather, but according to this embodiment, even if grease flows in rainy weather, the grease can be reapplied. Further, according to the present embodiment, every time the guide give 32 passes the position where the tip 72a of the attachment 72 protrudes, the outer peripheral surface 27 of the guide pipe 24 is newly coated with grease, so that old grease can be removed. ..

Further, according to the present embodiment, the leader 21 is formed by connecting a plurality of leader members 22, and the guide pipe 24 is formed by connecting the guide pipe members 25 fixed to each leader member 22. There is. The adjacent guide pipe members 25 are connected to each other via a joint pin 81 that fits in the guide pipe member 25, and the joint pin 81 supplies grease for supplying grease into the grease storage portion 61. It has a hole 82. As a result, when it is desired to supply the grease into the grease storage unit 61, the grease can be easily supplied into the grease storage unit 61 through the grease supply hole 82. Therefore, a sufficient amount of grease for supplying the outer peripheral surface 27 of the guide pipe 24 over the entire leader 21 can be stably filled in the grease storage portion 61.

It should be noted that the above-described embodiment is merely an example and does not limit the present invention in any way, and it goes without saying that various improvements and modifications can be made without departing from the gist thereof.

1 Pile driving machine 21 Leader 22 (22A to 22F) Leader member 24 Guide pipe 25 (25A to 25F) Guide pipe member 31 Auger 32 Guide give 52 Wire rope 61 Grease storage 71 Attachment 72 Attachment 72a Tip 73 Spring 81 Joint pin 82 Grease supply hole 91 Pressing mechanism 92 Piston 93 Spring

Claims (3)

With a reader with a fixed tubular guide pipe,
In a pile driving machine having a working device including a guide give that slides on the outer peripheral surface of the guide pipe.
A lubricant storage unit formed in the guide pipe to store the lubricant,
The attachment provided in the lubricant storage unit and
Having an attachment pressing member that presses the attachment so that the tip of the attachment projects from the outer peripheral surface of the guide pipe.
A pile driving machine featuring. In the pile driving machine of claim 1,
The leader is formed by connecting a plurality of leader members.
The guide pipe is formed by connecting the guide pipe members fixed to the respective leader members.
The adjacent guide pipe members are connected to each other via a connecting member fitted in the guide pipe member.
The connecting member is provided with a lubricant supply hole for supplying the lubricant in the lubricant storage portion.
A pile driving machine featuring. In the pile driving machine of claim 1 or 2.
The piston facing the lubricant storage part and
Having a piston pressing member that presses the piston toward the inside of the lubricant storage portion.
A pile driving machine featuring.

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