KR101200362B1 - Drilling Machine And Method With Extending Bits - Google Patents

Abstract

The excavator having the expansion bit portion of the present invention includes a hydraulic pressure source for supplying hydraulic pressure; A water source for supplying water; A main frame including an elevating support, an elevating platform guided by the elevating support, and an elevating driving device for operating the elevating platform; A hydraulic motor installed on the lifting platform; A drive shaft connected to the hydraulic motor and driven; An excavation frame connected to the drive shaft, an expansion hydraulic cylinder installed inside the excavation frame, an extension plate configured to enlarge a diameter of the excavated ground hole while protruding toward the excavation frame side, and operation of the expansion hydraulic cylinder. An expansion bit portion formed of a pressure plate connected to the expansion plate so as to project the expansion plate out of the excavation frame; And a turning joint connected to the drive shaft and configured to receive hydraulic pressure and water from the hydraulic pressure source and the water source, respectively, and to transfer hydraulic pressure and water to the front end of the expansion hydraulic cylinder and the expansion bit part.

Description

Excavator with extension bit and excavation method using same {Drilling Machine And Method With Extending Bits}

The present invention relates to an excavator having an extended bit portion and an excavation method using the same, and more particularly, to excavate a hole for forming a foundation such as a transmission tower or pier in a wetland of clay.

In general, in the case of foundation work such as steel towers and piers for power transmission, drill holes in the ground and fill the holes with rebar and concrete. Steel towers or piers will be installed on the foundation piles.

However, a conventional type of excavator as shown in FIG. 1 uses a drill. The drill 10 has a disadvantage in that its diameter cannot be increased, and when it operates in a clay wetland, the clay is different from the drill edge. As it interferes with the rotation of the drill, it becomes difficult to drill holes in the ground.

Meanwhile, the conventional excavator 20 as shown in FIG. 2 disclosed in Patent No. 804751 is a type of digging into the basement while supporting the wall in the hole, and should have a separate discharge device for discharging the crushed soil. When used in the wetlands of the excavator in the wall in the hole can not be supported, and there is a problem that it is difficult to use the drive equipment such as various hydraulic motors are buried in the mud.

On the other hand, in the wetland of clay material, even if the foundation work is made by reinforcing steel and concrete, if a hole of uniform diameter is drilled as in the general excavation work (see FIG. 3 (a)), the foundation is not correctly supported by plastic deformation of clay material. It is necessary to process the lower end of the hole wider as shown in Fig. 3 (b), the excavation apparatus that can process the lower end of the hole processed for the foundation has not been developed so far, registered utility model 274273 The hammer bits with expansion wings disclosed in the prior art, such as arcs, are intended to make the diameter of the borehole larger than the diameter of the borehole for inserting the borehole into the borehole and also to allow the hammer bit to escape through the borehole. It cannot be used to excavate the lower end of the drilled hole widely. There is a problem that is not suitable because it is relatively small to use.

The present invention has been devised to solve the above problems, to enable effective excavation in the wetland of clay, widen the diameter of the bottom of the excavated hole to enable a more perfect foundation work, durability of the excavation equipment It is for that purpose to be able to secure.

Excavator with expansion bit portion of the present invention

A hydraulic source for supplying hydraulic pressure;
A water source for supplying water;

A main frame including an elevating support, an elevating platform guided by the elevating support, and an elevating driving device for operating the elevating platform;

A hydraulic motor installed on the lifting platform;
A drive shaft connected to the hydraulic motor and driven;

An excavation frame connected to the drive shaft, an expansion hydraulic cylinder installed inside the excavation frame, a pressure plate having an inclined lower surface operating up and down by receiving the operation of the expansion hydraulic cylinder, and one side of the lower portion The expansion plate and the expansion plate installed to expand the diameter of the bottom of the ground hole while protruding to the side of the excavation frame during excavation in accordance with the lowering of the pressure plate and the other side forms a slope that is slidably coupled by the surface and the groove and the projection, An expansion bit portion formed of a guide plate for suppressing the gap;

And a turning joint connected to the drive shaft and configured to receive hydraulic pressure and water from the hydraulic pressure source and the water source, respectively, and to transfer hydraulic pressure and water to the front end of the expansion hydraulic cylinder and the expansion bit part.

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It is also preferable to allow the drilling bit portion to be mounted at the tip of the extension bit portion.

The excavation bit portion has a pointed tip and a wide rear end, and preferably includes a central axis and a plurality of plates installed along the outer surface of the central axis.

It is also preferable to further provide a separate connecting shaft for connecting the drive shaft and the excavation frame.

The drive shaft and the connecting shaft is preferably made of a hollow shaft, so that the water supplied from the turning joint to the expansion bit portion can pass through therein.

Excavation method using an excavator having an extended bit portion of the present invention,

Providing the excavator;

After removing the extension bit portion connected to the drive shaft and directly connecting the excavation bit portion to the drive shaft or connecting the excavation bit portion to the tip of the expansion bit portion so that the extension plate does not protrude toward the excavation frame side, the ground using the excavation bit portion Excavating, supplying water to the tip of the excavating bit portion to mix the excavated soil with the supplied water and to discharge it to the ground;

After the excavation is made to the set depth, the expansion plate of the expansion bit portion is protruded to excavate while supplying water in the form of widening the diameter of the bottom of the hole excavated by the excavation bit portion, and the excavated soil is mixed with the supplied water to the ground. Characterized in that it comprises a step to be discharged.

According to the present invention, an effective excavation can be made in a wetland of clay, and the diameter of the lower part of the excavated hole can be widened, thereby enabling a more perfect foundation work and securing the durability of the excavating equipment.

1 and 2 are views for explaining a conventional excavator.
Figure 3 is a view showing the shape of the hole excavated by the present invention.
4 and 5 are views for explaining an excavator of an embodiment of the present invention.
Figure 6 is a view showing an expansion bit portion and the drilling bit portion of an embodiment of the present invention.
7 to 9 are diagrams illustrating an extension bit unit in an embodiment of the present invention.
10 is a view showing a hydraulic and water supply relationship of an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings in accordance with embodiments thereof.

4 and 5 are views for explaining the present embodiment excavator.

In Figure 4, the elevating support 110, guided by the elevating support 110, the elevating platform 120 to be moved up and down, and comprises a lifting drive device 130 for operating the elevating table 120 Body frame 100 is shown. The dotted line shows the shape when the platform is lifted to the maximum position by the lift drive device 130. The lift drive device 130 lifts and lowers the platform 120 by a lift cylinder, a rope, or the like. Although the detailed description of the lift drive device is omitted, the principle can be understood by those skilled in the art with reference to the accompanying drawings. .

The main body frame 100 supplies hydraulic pressure for driving a hydraulic device such as the lift drive device 130, and is equipped with a hydraulic supply source 200 formed of a hydraulic pump or the like. Such a hydraulic drive source can be driven by an engine (not shown) or the like for moving the body frame. In addition, a water supply source (not shown) consisting of a water pump or the like may be provided integrally or separately from the body frame to supply water required for the excavation operation.

The lifting platform 120 is installed with a hydraulic motor 210, the gear box for transmitting the rotational force of the hydraulic motor 210 to the drive shaft 310 in the lower box 211 of the lifting table 120 to deliver the hydraulic pressure and water Turning joint is provided. The turning joint will be described later in detail.

The driving shaft 310 refers to an axis connected to the expansion bit unit 400 and the drilling bit unit 500, and is connected to each bit unit 400 and 500 through the connection shaft 311 as shown in FIG. 5. According to another embodiment, the driving shaft 310 of FIG. 4 is provided with the same length as the connecting shaft 311 of FIG. 5, or the shaft connecting portion 403 of the expansion bit part 400 of FIG. 5 is the same length without the connecting shaft. It will also be possible to be provided with.

As the drive shaft 310 rotates, the connecting shaft 311 rotates, the expansion bit unit 400 connected to the connection shaft 311 rotates, and the drilling bit unit 500 connected to the expansion bit unit 400 is rotated. Excavation is achieved by rotating. Except for the extension bit 400, it is also possible to be excavated using only the excavation bit 500.

When water is supplied to the tip of the expansion bit portion 400, the soil of the clay becomes weak and the soil is excavated by the excavation bit portion 500, the soil is discharged to the outside through the excavated hole . When the excavation is performed by the excavation bit part 500 to the required depth, the extension plate 410 provided in the extension bit part 400 protrudes in the radial direction, excavating the surrounding soil and gradually increasing the width of the excavated hole. Excavation in a form similar to that of FIG. 3 (b) is made in a wider manner. In the excavation method of the present invention, since a wide diameter hole is processed at the lower end of the excavated hole, even if there is an excavation bit part 500 installed at the tip of the expansion bit part 400, there is a problem in implementing the technical idea. It doesn't work. To achieve the same type of excavation as in FIG. 3 (b), first, the excavation bit part 500 is connected to the connecting shaft 311 without the expansion bit part 400, and then excavation bit part 500 again. ) To remove and connect the expansion bit portion 400 to the connecting shaft (311). The tip of the expansion bit portion 400 is preferably made so that the drilling bit portion can be mounted or removed.

The drilling bit 500 has a sharp tip and a wide rear end, and includes a plurality of plate members installed along a central axis 510 and an outer surface of the central axis 510. The diameter of the hole excavated by the excavation bit portion is such that the extension bit portion does not interfere with the excavated hole without the extension plate protruding.

Figure 6 (a) is a perspective view of the expansion bit portion 400 and the excavation bit portion 500 of the present embodiment, Figure 6 (b) is a perspective view showing a form in which the expansion plate 410 is protruded.

As shown in FIG. 7, the expansion bit unit 400 of the present embodiment includes an excavation frame 401 connected to the connecting shaft 311, an expansion hydraulic cylinder 420 installed inside the excavation frame 401, and the excavation. Expansion plate 410 that can extend the diameter of the excavated ground hole while protruding to the side of the frame 401, and expansion plate for protruding the expansion plate 410 out of the excavation frame by the operation of the hydraulic cylinder 420 It consists of a pressure plate 430 connected with. The expansion hydraulic cylinder 420, the expansion plate 410, and the pressure plate 430 are sealed by the excavation frame 401, and contaminants do not flow into the expansion bit part 400.

The pressure plate 430 is connected to the hydraulic cylinder 420 is operated only up and down, the expansion plate 410 is suppressed up and down by the guide plate 402 installed in the excavation frame 401, so that only horizontal displacement is generated Is installed. In this embodiment, the guide plate 402 for suppressing the shankdong of the expansion plate 410 is attached to the excavation frame 401, but the guide plate 402 may be in any form as long as it suppresses the shankdong of the expansion plate. It will be possible.

The pressure plate 430 and the expansion plate 410 are connected to each other by a groove 411 and a protrusion 412 so as to slide in a state where the surfaces coupled to each other are not separated as shown in FIG. 8.

As shown in FIG. 8, the expansion plate 410 is protruded to the outside of the excavation frame according to the degree that the pressure plate 430 descends. When the pressure plate 430 is lowered to the maximum, the expansion plate 410 is projected to the outside of the excavation frame 401 as shown in Figure 7 (b).

In the present embodiment, two pressure plates 430 are provided to displace each expansion plate 410 (see FIG. 9).

Next, a configuration for supplying hydraulic pressure and water from the hydraulic pressure supply source and the water supply source to the expansion bit portion will be described with reference to FIG. 10.

The turning joint 600 of this embodiment is installed in the lower box 211 of the platform.

Turning joints are installed to supply hydraulic pressure and water along a rotating drive shaft and a connecting shaft.

The turning joint 600 includes a water supply port 601 for supplying water, hydraulic supply ports 603 and 605 for supplying hydraulic pressure to the expansion hydraulic cylinder 420, and a sealing portion for blocking the ports.

The water supply port 601 is connected to the drive shaft 310 and the inner through hole 312 of the connecting shaft 311, the water transferred from the water supply to the water supply port 601 is the inner through hole 312 and It is supplied through the water supply pipe 317 to the nozzle 318 installed at the outer end of the expansion bit part 400 and sprayed from the tip of the expansion bit part 400 and the drilling bit part 500 to lower the viscosity of clay. It will play a role.

In addition, the hydraulic supply ports 603 and 605 are supplied to the expansion hydraulic cylinder 420 through the hydraulic supply paths 313 and 314 and the hydraulic pipes 315 and 316 of the drive shaft 310, and the expansion hydraulic cylinder 420 is supplied with both hydraulic pressures. The pressure difference between the ports 603 and 605 is activated.

In this embodiment, one turning joint is used, but it may be possible to use turning joints for water and hydraulic pressure, respectively. In addition, although the drive shaft and the connecting shaft is used as an example of the hollow shaft, it will be possible to use a hypothesis that the pipe through which the inner through-hole is formed only in the driving shaft and the water can be transferred to the outside of the connecting shaft.

Since the turning joint is installed on the platform 120 and the expansion bit part 400 is sealed by the excavation frame 401, there is no fear that the hydraulic driving part may be contaminated, so that the durability of the excavator is also increased.

100: body frame 120: platform 210: hydraulic motor
310: drive shaft 400: expansion bit portion 410: expansion plate
500: drilling bit part

Claims (6)

A hydraulic source for supplying hydraulic pressure;
A water source for supplying water;

A main frame including an elevating support, an elevating platform guided by the elevating support, and an elevating driving device for operating the elevating platform;

A hydraulic motor installed on the lifting platform;
A drive shaft connected to the hydraulic motor and driven;

An excavation frame connected to the drive shaft, an expansion hydraulic cylinder installed inside the excavation frame, a pressure plate having an inclined lower surface operating up and down by receiving the operation of the expansion hydraulic cylinder, and one side of the lower portion The expansion plate and the expansion plate installed to expand the diameter of the bottom of the ground hole while protruding to the side of the excavation frame during excavation in accordance with the lowering of the pressure plate and the other side forms a slope that is slidably coupled by the surface and the groove and the projection, An expansion bit portion formed of a guide plate for suppressing the gap;

A turning joint connected to the drive shaft and configured to receive hydraulic pressure and water from the hydraulic pressure source and the water source, respectively, and to transmit hydraulic pressure and water to the expansion hydraulic cylinder and the extension bit part, respectively; Excavator with bit part.
The excavator of claim 1, wherein an excavation bit part is mounted at a tip of the extension bit part.
delete The excavator of claim 1, further comprising a separate connection shaft for connecting the driving shaft and the excavation frame.
5. The excavator of claim 4, wherein the driving shaft and the connecting shaft are hollow shafts so that water supplied from the turning joint to the expansion bit portions can pass therein.
A hydraulic source for supplying hydraulic pressure;
A water source for supplying water;
A main frame including an elevating support, an elevating platform guided by the elevating support, and an elevating driving device for operating the elevating platform;
A hydraulic motor installed on the lifting platform;
A drive shaft connected to the hydraulic motor and driven;
An excavation frame connected to the drive shaft, an expansion hydraulic cylinder installed inside the excavation frame, a pressure plate having an inclined lower surface operating up and down by receiving the operation of the expansion hydraulic cylinder, and one side of the lower portion It forms a slope that is slidably coupled by the surface and the groove and the projection, and the other side protrudes to the side of the excavation frame during the excavation as the pressure plate descends, and the expansion plate installed to enlarge the diameter of the ground hole, and the shandong of the expansion plate. An expansion bit portion formed of a guide plate for suppressing;
And a turning joint connected to the drive shaft and configured to receive hydraulic pressure and water from the hydraulic pressure source and the water source, respectively, and to transfer hydraulic pressure and water to the expansion hydraulic cylinder and the extension bit part, respectively. Wow;

After removing the extension bit portion connected to the drive shaft and directly connecting the excavation bit portion to the drive shaft or connecting the excavation bit portion to the tip of the expansion bit portion so that the extension plate does not protrude toward the excavation frame side, the ground using the excavation bit portion Excavating, supplying water to the tip of the excavating bit portion to mix the excavated soil with the supplied water and to discharge it to the ground;

After the excavation is made to the set depth, the expansion plate of the expansion bit portion is protruded to excavate while supplying water in the form of widening the diameter of the bottom of the hole excavated by the excavation bit portion, and the excavated soil is mixed with the supplied water to the ground. Excavation method using an excavator having an extended bit portion characterized in that it comprises a step to be discharged.

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