JP2004308207A - Excavator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an excavator capable of excavating the whole excavating groove in uniform torque, and capable of excavating the groove in a state of arranging endless cutters in the ground even when excavating the excavating groove of the deep depth. <P>SOLUTION: This excavator 1 has a ship (a base machine) 2, and a plurality of excavating means 10a and 10b supported by the ship 2 in a state of being juxtaposed in the excavating direction. The excavating means 10a and 10b are composed of a frame member 11 supported by the ship 2, and a plurality of endless cutters 20 supported by the frame member 11 in a state of being juxtaposed in the vertical direction. The respective excavating means 10a and 10b adjacent in the excavating direction are arranged in a state of at least partially overlapping in a side view on the respective endless cutters 20 in the rear excavating means 10b so as to block up clearance in the vertical direction of the mutual respective endless cutters 20 and 20 in the front excavating means 10a. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a drilling device for drilling a trench.
[0002]
[Prior art]
Conventionally, as a drilling device for drilling a trench in a water bottom, as shown in FIG. 8, a ship (barge) 51 as a base machine, a support post (support means) 52 supported by the ship, An excavating device that includes an underwater motor 53 attached to the lower end of the support post 52 and a chain cutter (continuous groove excavation means) 54 rotatable by the underwater motor 53, and excavates an excavation groove in the water bottom by the chain cutter 54. (Groove excavator for continuous wall construction) 50. In this excavator 50, the chain cutter 54 is rotated by engaging the drive shaft of the submersible motor 53 arranged on the water bottom with the upper end 55 of the chain cutter 54, and between the water bottom and the ship 51. Since the chain cutter 54 does not rotate, the chain cutter 54 can be efficiently rotated (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-2003-003513 (pages 1-7, FIG. 1)
[0004]
[Problems to be solved by the invention]
However, the conventional excavator 50 has the following problems.
In the conventional excavator 50, since the chain cutter 54 is rotated by one underwater motor 53, it is necessary to secure a large torque of the underwater motor 53 when excavating a deep trench. This increases the size of the underwater motor 53 and makes it difficult to dispose the underwater motor 53 in the ground. The distance from the lower end 56 of the chain cutter 54 increases, and the torque of the lower end 56 of the chain cutter 54 decreases during excavation.
In addition, since the underwater motor 53 whose drive shaft is engaged with the upper end 55 of the chain cutter 54 is disposed on the bottom, the upper end 55 of the chain cutter 54 projects from the bottom. As a result, the earth and sand in the ground is lifted up by the rotation of the chain cutter 54 during excavation and diffused into the water, and the water is contaminated, so that the cover 57 is attached to the upper end 55 of the chain cutter 54 projecting from the water bottom. It is necessary to prevent the spread of earth and sand.
[0005]
Therefore, in the conventional excavator 50, when excavating a deep excavation groove, the torque of the entire chain cutter 54 is not uniform, so that there is a problem that the excavation efficiency is reduced. Furthermore, since the earth and sand in the ground is diffused into the water by the chain cutter 54 protruding from the ground, it is necessary to provide a means for preventing underwater contamination, and the configuration of the excavator 50 becomes complicated. There is.
[0006]
The present invention has been made in order to solve the above problem, and even when excavating a deep excavation groove, excavating the excavation groove efficiently by excavating the entire excavation groove with a uniform torque. It is an object of the present invention to provide an excavator capable of excavating the endless cutter in a state where the endless cutter is arranged in the ground.
[0007]
[Means for Solving the Problems]
The present invention is configured to solve the above-mentioned problem, and the invention according to claim 1 includes a base machine and a plurality of excavating means supported by the base machine in a state of being arranged in the excavation direction. A drilling device for drilling a trench by each drilling means, wherein the drilling means has a frame member supported by a base machine, a drilling blade and a drive motor, and is arranged in parallel in a vertical direction. And a plurality of endless cutters supported by the frame member in a state, and each excavating means adjacent in the excavation direction is to close a vertical gap between the endless cutters in one of the excavating means. The endless cutters of the other excavating means are arranged so that at least a part thereof is overlapped in a side view.
[0008]
Here, the configuration of the base machine is not limited, such as a ship or a crane, as long as the base machine can move the excavation means in the excavation direction.
In addition, the endless cutter is not limited to a chain shape, a belt shape, and the like, and may have any configuration as long as it can surely excavate the ground.
Furthermore, the rotation direction of the endless cutter is not limited, and the endless cutters adjacent in the excavation direction and the vertical direction may be rotated in different directions.
In addition, the drive motor only needs to have a torque that can excavate the ground by rotating one endless cutter, and its configuration is not limited. Preferably, it is used.
Further, the shape of the excavation blade is not limited, and may be any shape as long as it can excavate the ground efficiently.
[0009]
According to the present invention, the excavating means is configured to excavate the ground by a plurality of endless cutters arranged side by side in the vertical direction, and since each endless cutter has a drive motor, Even when excavating a deep excavation groove, the entire excavation groove can be excavated with a uniform torque without lowering the torque at the lower end of the excavation means.
Also, by excavating the ground with a plurality of endless cutters, the torque required for one endless cutter to excavate the ground is reduced, so that the drive motor of the endless cutter can be reduced in size. Thereby, since the endless cutter can be disposed in the ground, the excavation groove can be excavated without projecting the endless cutter from the ground. This is effective when excavating an excavation trench in the water bottom.Because the rotation of the endless cutter does not lift the soil in the ground into the water, it is necessary to provide a means to prevent the diffusion of the soil into the water. Therefore, underwater pollution during excavation can be prevented.
[0010]
In each excavating means adjacent to the excavating direction, the endless cutters in the other excavating means are arranged so as to close the vertical gap between the endless cutters in one excavating means. Thereby, the unexcavated part formed by the vertical gap between the endless cutters in one of the excavating means arranged in the excavating direction is moved by the other excavating means arranged behind the one excavating means. Since the excavation can be performed, the entire wall surface of the excavation groove can be uniformly excavated. In addition, the number of the excavating means juxtaposed in the excavation direction is not limited, and is appropriately determined according to construction conditions such as the geology of the ground. Further, the dimensions of the endless cutters are preferably the same when forming a rectangular excavation groove, but they are not necessarily the same.
[0011]
According to a second aspect of the present invention, there is provided the excavator according to the first aspect, wherein the frame member includes a fixed shaft whose axial direction is arranged in the width direction of the excavation groove, and the endless cutter is provided. Has a hydraulic drive motor in which a fixed shaft is interpolated and the output part is rotatable around the fixed shaft, and an excavating blade is provided on the outer surface, and an endless shape rotatable about the width direction of the excavation groove as a rotating shaft. The output portion of the drive motor is engaged with the inner surface of the endless member so that the endless member is rotated by the rotational force of the output portion.
[0012]
Here, an existing hydraulic motor such as a radial piston motor or an axial piston motor can be used as the hydraulic drive motor whose output unit can rotate around a fixed axis.
[0013]
According to the present invention, since the endless member of the endless cutter is rotated by the output portion of the drive motor engaged with the inner surface thereof, the drive motor can be disposed inside the endless member. Thereby, since the output part rotates near the center of the endless cutter, the stability of the endless cutter can be improved. Further, since the endless member is directly rotated by the output unit, the configuration of the endless cutter can be simplified, and the weight of the endless cutter can be reduced. Further, since the drive motor disposed inside the endless member does not contact the ground, it is possible to prevent the drive motor from being damaged.
[0014]
According to a third aspect of the present invention, there is provided the excavator according to the first or second aspect, wherein a plurality of endless cutters are arranged in parallel in a width direction of the excavation groove. .
[0015]
According to the present invention, since the endless cutters are arranged side by side in the width direction of the excavation groove, the excavation groove having a large width can be efficiently excavated. Further, when the drive motor is disposed inside the endless cutter, the drive motor does not protrude to the side of the endless cutter, so that the gap between the endless cutters juxtaposed in the width direction of the excavation groove is reduced. And the occurrence of unexcavated portions can be reduced.
[0016]
According to a fourth aspect of the present invention, there is provided the excavator according to the third aspect, wherein the excavating means excavates a gap between the endless cutters juxtaposed in the width direction of the excavation groove. It is characterized by having gap excavation means.
[0017]
According to the present invention, by excavating the gap between the endless cutters juxtaposed in the width direction of the excavation groove by the gap excavating means, it is possible to excavate the unexcavated portion formed by the gap reliably. it can. This is effective when the frame member is arranged between the endless cutters juxtaposed in the width direction of the excavation groove.Since the frame member does not abut against the ground, damage to the frame member is prevented. Can be prevented.
[0018]
According to a fifth aspect of the present invention, there is provided the excavator according to any one of the first to fourth aspects, wherein the excavating unit excavates the ground by injecting a fluid. Is provided near the lower end.
[0019]
According to the present invention, when the lower end of the excavating means is curved in the ground during excavation, the ground corresponding to the lower end of the excavating means can be excavated in advance by the fluid ejecting means. The posture of the means can be easily corrected. The fluid ejecting means may be configured to be extendable and contractible in the excavation direction from the excavating means. In this configuration, the fluid can be reliably ejected to a predetermined portion of the ground.
[0020]
According to a sixth aspect of the present invention, there is provided the excavating apparatus according to any one of the first to fifth aspects, wherein the excavating means is configured to inject a solidifying agent into the excavation groove. Means is provided.
[0021]
According to the present invention, the solidifying agent is injected into the excavation groove by the solidifying agent injecting means, and the excavated sediment and the solidifying agent in the excavation groove can be stirred with a uniform torque by the excavating means. Agent can be efficiently mixed. When stirring the excavated earth and sand and the solidifying agent, the endless cutters adjacent to each other in the excavation direction and the vertical direction are rotated in different directions, thereby increasing the stirring efficiency between the adjacent endless cutters. be able to.
[0022]
According to a seventh aspect of the present invention, there is provided an excavating apparatus according to the first to sixth aspects, wherein the excavating apparatus includes a base machine, and excavating means supported by the base machine. A digging device for digging a digging trench by a digging device, wherein the digging means has a plurality of frame bodies supported by a base machine in a state of being connected in a chain in the vertical direction, a digging blade and a drive motor, And a plurality of endless cutters supported by each frame body in a state of being juxtaposed in the direction, and adjacent frame bodies are rotatably and fixedly connected to each other.
[0023]
According to the present invention, when the excavating means is erected at the excavating position, the excavating means is moved above the excavating position in a state where the excavating means is tilted on the base machine, and each frame body is sequentially moved from the lower end side of the excavating means. By lowering while rotating in the vertical direction, the entire excavation means can be erected on the base machine. That is, the digging means can be erected at the digging position without digging the digging means on the base machine or assembling the divided digging means at the digging position. This makes it possible to easily install the excavator of the present invention even at a construction site where the height above is limited, such as near an airport or immediately below a bridge.
[0024]
Therefore, in the excavator of the present invention, even when excavating a deep excavation groove, the entire excavation groove can be excavated with a uniform torque, so that the excavation groove can be efficiently excavated. Furthermore, since the drive motor can be reduced in size, digging with the endless cutters arranged in the ground can prevent underwater pollution when digging the water bottom.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0026]
In the present embodiment, the excavation device is used to excavate an excavation groove in the water bottom, and a solidifying agent is injected into the excavation groove and mixed with the excavation sediment to harden the excavation sediment in the excavation groove. The case where the ground is improved will be described as an example.
[0027]
First, an excavator according to an embodiment of the present invention will be described.
1A and 1B are diagrams showing an excavator according to an embodiment of the present invention, wherein FIG. 1A is a side view showing an excavator, and FIG. 1B is a front sectional view showing an excavator. FIG. 2 is a partial side view showing the endless cutter according to the embodiment of the present invention. FIG. 3 is a partial front view showing the endless cutter according to the embodiment of the present invention. FIG. 4 is a partial plan view showing the endless cutter according to the embodiment of the present invention.
[0028]
First, the configuration of the excavator according to the embodiment of the present invention will be described.
As shown in FIG. 1, the excavator 1 is a two-body excavator that is supported by the vessel 2 in a state where the vessel 2 is a base machine and is arranged side by side in the excavation direction (the left-right direction in FIG. 1A). Means for improving the ground at the bottom by excavating a digging groove in the water bottom by means of the digging means 10a and 10b, and injecting and solidifying a solidifying agent into the digging groove and mixing with the excavated earth and sand. It is.
[0029]
Next, the configuration of the boat 2 will be described.
As shown in FIG. 1, the marine vessel 2 includes a lifting frame 3 for raising and lowering each of the digging units 10a and 10b, a hydraulic unit 4 for supplying driving oil to each of the digging units 10a and 10b, Supply means 5 for supplying the solidifying agent to 10a and 10b is mainly constituted.
[0030]
The elevating frame 3 is a truss-structured column that is supported by the marine vessel 2 in a state where the hull of the marine vessel 2 penetrates in the vertical direction. The excavating frame 3 is capable of attaching the excavating means 10a and 10b to the lower end thereof, and is vertically movable by the elevating means (not shown) while supporting the excavating means 10a and 10b.
[0031]
The hydraulic unit 4 is for supplying and discharging driving oil to each of the excavating means 10a and 10b, and the driving oil for the oil tank 4a provided on the deck of the ship 2 is supplied to each of the excavating means 10a and 10b through a hydraulic hose 4b. The driving oil supplied to the digging means 10a and 10b and discharged from the digging means 10a and 10b is collected in the oil tank 4a through the hydraulic hose 4b.
The supply means 5 is for supplying a solidifying agent to each of the excavating means 10a and 10b, and the solidifying agent of the storage tank 5a provided on the deck of the ship 2 is supplied to the respective excavating means 10a and 10b through a supply hose 5b. Is configured to be supplied.
[0032]
Next, the configuration of the excavating means 10a and 10b will be described.
As shown in FIGS. 2, 3 and 4, the excavating means 10a and 10b have two excavating means 10a and 10b arranged side by side in the excavating direction (the left-right direction in FIG. 2). The front excavating means 10a (right side in FIG. 2) and the rear excavating means 10b rearward in the direction of excavation (left side in FIG. 2) are arranged. The configuration is the same except for the number of members.
Each of the excavating means 10a and 10b includes three frames 11 arranged side by side at predetermined intervals in the width direction of the excavation groove (the left-right direction in FIG. 1B, hereinafter referred to as “width direction”). A plurality of endless cutters 20 of the same shape and the same size, which are supported by the frame 11 in a state where the blades 21 and the drive motor 22 are arranged in the vertical direction and the width direction, And a solidifying agent injecting means (not shown) for injecting. Each excavating means 10a, 10b is attached to the ship 2 by an upper end of each frame 11 being attached to a lower end of the elevating frame 3 by a pin joint. Supported.
[0033]
Further, four endless cutters 20 arranged side by side in the width direction are arranged side by side with the frame 11 interposed between the endless cutters 20, 20. In addition, the number of the endless cutters 20 juxtaposed in the width direction is not limited, and is appropriately determined according to the width of the excavation groove to be excavated.
[0034]
Further, the endless cutters 20 of the two excavating means 10a and 10b adjacent to each other in the excavation direction close the vertical gap between the endless cutters 20 and 20 of the front excavating means 10a, and the rear excavating means 10b Are arranged in such a manner that at least a part thereof is overlapped with each endless cutter 20 of the front excavating means 10a in a side view (see FIG. 2). In the present embodiment, the endless cutters 20 of the excavating means 10a and 10b are arranged so that the vertical lengths of the endless cutters 20 are ピ ッ チ pitch and are alternated.
[0035]
The frame 11 is composed of a plurality of divided frames 12 ("frame body" in the claims) connected in a chain, and a connecting portion 13 between the divided frames 12, 12 is rotatably configured by a pin joint. Each divided frame 12 supports the endless cutter 20. Further, the adjacent divided frames 12, 12 can be fixed in a state where they are vertically connected by a lock mechanism of the connecting portion 13.
[0036]
In the three divided frames 12 arranged side by side in the width direction, four fixed shafts 14a and 14b whose axial directions are arranged in the width direction are arranged side by side in the width direction with the divided frame 12 interposed therebetween. The three divided frames 12 arranged side by side in the width direction by the fixed shafts 14a and 14b are integrated. The fixed shafts 14a and 14b are provided two by two at predetermined intervals in the vertical direction, and are composed of an upper fixed shaft 14a arranged above and a lower fixed shaft 14b arranged below. I have.
[0037]
In addition, near the lower end of the frame 11, a solidifying agent injecting means (not shown) for injecting the solidifying agent into the excavation groove is provided, and a flow path of the solidifying agent is provided inside the frame 11. (Not shown) is provided. This flow path communicates with the solidifying agent injection means, and the solidifying agent that has flowed into the flow path from the supply hose 5b (see FIG. 1) connected to the flow path at the upper end of the frame 11 is discharged from the solidifying agent injection means. It is configured to be injected into a wellbore. According to this configuration, since the connection between the frame 11 and the supply hose 5b does not rotate, there is no need to attach a special mechanism such as a swivel joint to the connection.
[0038]
Further, a flow path (not shown) for supplying drive oil to the endless cutter 20 and collecting the drive oil discharged from the endless cutter 20 is provided inside the frame 11 and the upper fixed shaft 14a. Are provided so that oil supply and drainage are performed through a hydraulic hose 4b connected to a circulation path at the upper end of the frame 11. According to this configuration, since the connection between the frame 11 and the hydraulic hose 4b (see FIG. 1) does not rotate, it is not necessary to attach a special mechanism such as a swivel joint to the connection.
[0039]
The endless cutter 20 has an upper fixed shaft 14a attached to the divided frame 12 inserted therein and penetrated therethrough. A hydraulic drive motor 22 capable of rotating the output unit 23 around the upper fixed shaft 14a, and an outer surface Are provided with a plurality of excavating blades 21, an endless member 24 rotatable around two fixed shafts 14 a and 14 b about a width direction as a rotation axis, and an upper end for preventing bending of the endless member 24. A guide member 25, which is a box provided between the fixed shaft 14a and the lower fixed shaft 14b, is configured to supply and drain oil from the drive motor 22 through a flow path in the frame 11 and the upper fixed shaft 14a. Thus, the output unit 23 of the drive motor 22 is configured to rotate.
[0040]
The drive motor 22 is a radial piston motor of an outer peripheral drive type in which the output unit 23 rotates around an inserted shaft. The output unit 23 rotatable around the upper fixed shaft 14a has a predetermined interval in the axial direction. Are separated from each other, two driving sprockets 26, 26 are provided around the endless member 24. By engaging each driving sprocket 26, 26 with the inner surface of the endless member 24, the endless member 24 is rotated by the rotational force of the output portion 23. It is configured to rotate.
[0041]
Further, two driven sprockets 27 are rotatably provided around the lower fixed shaft 14b at a predetermined interval in the axial direction, and each driven sprocket 27 is engaged with the inner surface of the endless member 24. The endless member 24 is guided by the driven sprockets 27, 27 by the combination, and is configured to smoothly rotate around the two fixed shafts 14a, 14b.
[0042]
The endless member 24 is a member that excavates the ground by the excavation blade 21 provided on the outer surface thereof and agitates the solidifying agent and excavated earth and sand in the excavation groove. Although the belt-shaped endless member 24 is used in the present embodiment, the configuration is not limited, and the excavation blade 21 can be provided on the outer surface, and can be smoothly rotated in the ground. For example, a chain-shaped endless member may be used. Further, the rotation direction of each endless member 24 is not limited, and in the present embodiment, the endless members 24 of the endless cutters 20 adjacent in the excavation direction and the vertical direction are rotated in different directions. Let me.
[0043]
Further, the excavation blade 21 is a bit member uniformly provided on the entire outer surface of the endless member 24, and can surely excavate the ground, and also includes a solidifying agent, excavated earth and sand in an excavation groove. Any shape and material can be used as long as it can be efficiently stirred, and the shape and number thereof are not limited.
[0044]
A projecting member 28 for notching the ground is provided between the endless cutters 20 arranged side by side in the width direction. The protruding member 28 is formed at an acute angle in a plan view (see FIG. 4) such that a tip portion protrudes from the frame 11 toward the ground side, and the protruding amount is greater than that of the excavating blade 21 of the endless member 24. It is getting smaller. Further, two protruding portions 28 are arranged in the excavation direction with the frame 11 interposed therebetween, and the tips of the protruding members 28, 28 are arranged to face in opposite directions. When excavating soft ground such as a water bottom, the protruding portion 28 comes into contact with the ground so that the ground is cut and provided in the gap between the endless cutters 20, 20 arranged side by side in the width direction. Since the ground does not abut on the frame 11 that has been set, damage to the frame 11 can be prevented. Note that the amount of protrusion of the protruding member 28 is not limited, and is preferably determined appropriately in accordance with the geology of the ground.
[0045]
Therefore, in the excavating means 10a and 10b according to the embodiment of the present invention, by excavating the ground with the plurality of endless cutters 20, the torque required for one endless cutter 20 to excavate the ground is reduced. Therefore, the drive motor 22 can be downsized, and the endless cutter 20 can be downsized. Thereby, the endless cutter 20 can be arranged in the ground.
Further, since the output portion 23 of the drive motor 22 is engaged with the inner surface of the endless member 24, the drive motor 22 can be housed inside the endless member 24. Thereby, since the output unit rotates near the center of the endless cutter 20, the stability of the endless cutter 20 can be improved. Further, when the endless cutter 20 is disposed in the ground, the drive motor 22 disposed inside the endless member 24 does not contact the ground, so that the drive motor 22 can be prevented from being damaged.
[0046]
Next, a ground improvement method using the excavator 1 according to the embodiment of the present invention will be described.
FIG. 5 is a side sectional view showing a state where the excavating means according to the embodiment of the present invention is installed at an excavating position.
[0047]
First, the excavating means 10a and 10b are tilted on the deck of the boat 2 so that the longitudinal direction of the frame 11 is horizontal. At this time, the connecting portion 13 between the divided frames 12, 12 is rotatable.
In addition, by moving the vessel 2 above the excavation position, and as shown in FIG. 5, by sequentially rotating each divided frame 12 in the vertical direction from the lower end side of the frame 11 of the front excavating means 10a, it is lowered, The endless cutter 20 at the lower end is brought into contact with the water bottom. When lowering each of the divided frames 12, the connecting portion 13 is fixed by a lock mechanism in a state where the connected divided frames 12, 12 are arranged in the vertical direction.
[0048]
Further, the drive motor 22 of each endless cutter 20 is driven, and the front excavating means 10a is lowered while excavating the ground by the endless cutter 20 at the lower end. Then, the endless cutters 20 are sequentially lowered into the ground, and the divided frame 12 at the upper end is attached to the lifting frame 3 on the boat 2. Thereafter, the lifting frame 3 is lowered, and the entire front excavating means 10a is arranged in the ground. Similarly, as shown in FIG. 1, the entire rear excavation means 10b is arranged in the ground. This makes it possible to easily install each of the excavating means 10a and 10b even in a construction site where the height above is limited, such as near an airport or immediately below a bridge.
[0049]
Subsequently, the ship 2 is moved in the excavation traveling direction, and excavation grooves are excavated in the water bottom by the excavation means 10a and 10b. At this time, since each endless cutter 20 of each of the excavating means 10a and 10b has a drive motor 22, each of the excavating means 10a and 10b can uniformly cut the entire excavation groove without lowering the torque at the lower end. Can be drilled with torque.
[0050]
Further, by arranging the entire excavating means 10a and 10b in the ground, the excavation groove can be excavated without projecting the endless cutter 20 from the ground. It is possible to prevent earth and sand from being scooped into water. This makes it possible to prevent underwater pollution during excavation without providing a means for preventing the spread of earth and sand into the water.
[0051]
Each of the excavating means 10a and 10b closes a vertical gap (see FIG. 2) between the endless cutters 20 and 20 of the front excavating means 10a so that the endless cutters 20 of the rear excavating means 10b are closed. Since at least a part of the front excavator 10a is arranged in an overlapping state in a side view, the unexcavated portion formed by the gap in the extension direction between the endless cutters 20, 20 of the front excavator 10a is removed by the rear excavator 10b. Since the excavation can be performed, the entire wall surface of the excavation groove can be uniformly excavated.
[0052]
On the other hand, a solidifying agent is injected into the excavation groove from the solidification agent supply means while excavating the excavation groove by each of the excavation means 10a and 10b. Then, the excavated earth and sand and the solidifying agent are stirred and mixed in the excavation groove by the rotation of the endless member 24 of each endless cutter 20. At this time, since the endless cutters 20 adjacent to each other in the excavation direction and the vertical direction are rotating in different directions, the endless cutters 20 can be efficiently and reliably agitated between the endless cutters 20. .
[0053]
In this way, a digging groove of a predetermined size is digged, and after the inside of the digging groove is stirred and mixed, the digging means 10a and 10b are separated from the digging groove. Thereby, the excavated earth and sand in the excavation trench is hardened, and the ground at the bottom of the water is improved. When the respective excavating means 10a and 10b are separated from the excavation groove, the respective divided frames 12 are sequentially raised from the upper end side of the frame 11 while being rotated in the vertical direction, so that the longitudinal direction of the frame 11 is in the horizontal direction. In this manner, the excavating means 10a and 10b are placed on the deck of the ship 2 in a state where the excavating means 10a and 10b are tilted. Can be easily separated from the ground.
[0054]
Therefore, in the excavating device 1 of the present invention, even when excavating a deep excavation groove, the entire excavation groove can be excavated with a uniform torque, and the excavation means 10a and 10b can be arranged in the excavation direction. By arranging, the ground can be reliably excavated without generating an unexcavated portion, so that the excavation groove can be efficiently excavated. Furthermore, by arranging and excavating each endless cutter 20 in the ground, underwater contamination can be prevented.
[0055]
As described above, an example of a preferred embodiment of the present invention has been described. However, the present invention is not limited to the above-described embodiment, and a design can be appropriately changed without departing from the gist of the present invention.
FIG. 6 is a diagram showing another configuration of the excavating means according to the embodiment of the present invention, and is a side view showing a case where a hydraulic cylinder is provided between the connected endless cutters.
FIG. 7 is a view showing another configuration of the excavating means according to the embodiment of the present invention, and is a plan view showing a case where a gap excavating means is provided.
For example, as shown in FIG. 6, two hydraulic cylinders 35, 35 that can expand and contract may be provided between the connected divided frames 12, 12. In this configuration, two hydraulic cylinders 35, 35 are arranged in the excavation direction with the connecting portion 13 interposed therebetween, and the main body and the rod are rotatably attached to the divided frames 12, 12, respectively. Then, by extending one hydraulic cylinder 35 and contracting the other hydraulic cylinder 35, the divided frame 12 can be rotated in the vertical direction, and the bending of each of the excavating means 10a and 10b can be adjusted. This is effective when the guide member 36 of each of the excavating means 10a and 10b is provided in the ship 2, and the excavating means 10a and 10b can be smoothly inserted into the cylindrical guide member 36. Further, by providing the hydraulic cylinders 35, 35, the strength between the connected divided frames 12, 12 can be increased.
[0056]
As shown in FIG. 7, in the excavating means 1 of the embodiment, a gap excavating means for excavating a gap between the endless cutters 20, 20 arranged in the width direction instead of the protruding members 28. 30 may be provided.
The gap excavating means 30 is arranged between the frames 11 adjacent in the width direction in a state where two units are arranged in parallel in the excavating direction. The gap excavating means 30 includes two rotating shafts 33 that are axially arranged in the width direction and are attached to the upper end and the lower end of the guide member 25 at predetermined intervals in the vertical direction. An excavating blade 31 is provided, and is constituted by an endless member 32 rotatable around two rotating shafts 33 with the width direction of the excavating groove as a rotating shaft. A gear is formed at one end (left side in FIG. 7) of the rotating shaft 33 disposed above the two rotating shafts 33. This gear is engaged with a drive sprocket 29 provided around the output portion 23 of the drive motor 22, and is configured such that the rotating shaft 33 is rotated by the torque of the output portion 23 of the drive motor 22. Further, drive sprockets 34, 34 are provided around a substantially central portion in the axial direction of the rotating shaft 33 at predetermined intervals in the axial direction, and the drive sprockets 34, 34 engage with the inner surface of the endless member 32. As a result, the endless member 32 is rotated by the rotational force of the rotating shaft 33, and the plurality of excavating blades 31 excavate the gap between the endless cutters 20, 20 juxtaposed in the width direction. It is configured.
[0057]
According to this configuration, the unexcavated portion formed by the gap between the endless cutters 20, 20 arranged side by side in the width direction is excavated by the gap excavating means 30, and the frame 11 does not contact the ground. 11 can be prevented from being damaged. This is effective when excavating hard ground in which it is difficult to cut out the ground by the protruding member 28 (see FIG. 4), and the unexcavated portion formed by the gap between the endless cutters 20, 20. Can be reliably excavated. Furthermore, since the excavated earth and sand and the solidifying agent can be agitated between the endless cutters 20 arranged side by side in the width direction, the agitation efficiency can be increased.
[0058]
Further, a fluid ejecting unit that can excavate the ground by ejecting a fluid may be provided near the lower end of the front excavating unit 10a.
With this configuration, when the lower end of the excavating means is curved in the ground during excavation, the ground corresponding to the lower end of the excavating means can be excavated in advance by the fluid ejecting means. The posture of each excavation means 10a, 10b can be easily corrected. It should be noted that the fluid ejecting means may be configured to be extensible in the excavating direction from the excavating means so that the fluid is reliably ejected to a predetermined portion of the ground.
[0059]
【The invention's effect】
According to the excavating device of the present invention, the excavating means is configured to excavate the ground with a plurality of endless cutters each having a drive motor, and even when excavating a deep trench, Since the entire groove can be excavated with a uniform torque, the excavation groove can be efficiently excavated.
In addition, by excavating the ground with a plurality of endless cutters, the drive motor of the endless cutter can be reduced in size. Thereby, since the endless cutter can be arranged in the ground, the excavation groove can be excavated without projecting the endless cutter from the ground.
Further, in each of the excavating means adjacent to the excavating direction, each endless cutter in the other excavating means is arranged so as to close a gap in the vertical direction between the endless cutters in one excavating means. The unexcavated part formed by the vertical gap between the endless cutters in one of the excavating means disposed in front can be excavated by the other excavating means disposed behind the one excavating means. Therefore, the entire wall surface of the excavation groove can be excavated uniformly.
Further, when a drive motor whose output unit is rotatable around an axis is arranged in the endless member of the endless cutter, and the output unit is configured to rotate the endless member, the vicinity of the center of the endless cutter is provided. As a result, the output section rotates, so that the stability of the endless cutter can be enhanced, and the drive motor does not come into contact with the ground, so that damage to the drive motor can be prevented.
When a plurality of endless cutters are arranged in parallel in the width direction of the excavation groove, the excavation groove having a large width can be efficiently excavated.
Further, in the case where a gap excavating means for excavating a gap between the endless cutters arranged side by side in the width direction of the excavation groove is provided, the unexcavated portion formed by the gap between the endless cutters is removed. Drilling can be performed reliably.
Further, when a fluid ejecting means capable of excavating the ground by ejecting a fluid is provided near the lower end, when the lower end of the excavating means is curved in the ground during excavation, the fluid ejecting means is provided. As a result, the ground corresponding to the lower end of the excavating means can be excavated in advance, so that the attitude of the excavating means in the ground can be easily corrected.
When a solidifying agent injecting means for injecting the solidifying agent into the excavation groove is provided, the solidifying agent is injected into the excavation groove by the solidifying agent injection device, and the excavating means solidifies the excavated earth and sand in the excavation groove. And the solidifying agent can be efficiently mixed with the excavated earth and sand.
When a plurality of endless cutters are respectively supported by a plurality of frame bodies connected in a chain, and adjacent frame bodies are rotatably and fixedly connected to each other, each frame body is sequentially rotated in a vertical direction. By lowering or raising while rotating, the excavating means can be installed or removed without erecting the excavating means on the base machine. Also, the excavator can be easily installed.
[Brief description of the drawings]
FIG. 1 is a view showing an excavator according to an embodiment of the present invention, in which (a) is a side view showing an excavator, and (b) is a front sectional view showing an excavator.
FIG. 2 is a partial side view showing the endless cutter according to the embodiment of the present invention.
FIG. 3 is a partial front view showing the endless cutter according to the embodiment of the present invention.
FIG. 4 is a partial plan view showing an endless cutter according to the embodiment of the present invention.
FIG. 5 is a side sectional view showing a state where the excavating means according to the embodiment of the present invention is installed at an excavation position.
FIG. 6 is a diagram showing another configuration of the excavating means according to the embodiment of the present invention, and is a side view showing a case where a hydraulic cylinder is provided between connected endless cutters.
FIG. 7 is a view showing another configuration of the excavating means according to the embodiment of the present invention, and is a plan view showing a case where a gap excavating means is provided.
FIG. 8 is a side view showing a conventional excavator.
[Explanation of symbols]
1 ... Drilling equipment
2. Ship
10a ... excavation means
10b ・ ・ ・ ・ ・ ・ Excavation means
11 Frame
12 ··· Split frame
13. Connection part
20 ... Endless cutter
21 ... Drilling blade
22 ... Driving motor
23 Output unit
24 ... Endless member

Claims (7)

A base machine,
A plurality of excavating means supported by the base machine in a state of juxtaposition in the excavation direction,
A digging device for digging a digging trench by each of the digging means,
The excavating means,
A frame member supported by the base machine;
A plurality of endless cutters having an excavating blade and a drive motor, and being supported by the frame member in a state of being juxtaposed in a vertical direction,
Each of the excavating means adjacent to the excavation direction closes a vertical gap between the endless cutters in one of the excavating means, and the endless cutters in the other excavating means are in side view. An excavator, wherein the excavator is arranged at least partially in an overlapping state. The frame member includes a fixed shaft whose axial direction is arranged in the width direction of the excavation groove,
The endless cutter,
A hydraulic drive motor in which the fixed shaft is interpolated and whose output unit is rotatable around the fixed shaft,
An excavation blade is provided on the outer surface, and an endless member rotatable around a width direction of the excavation groove as a rotation axis,
The endless member is configured to be rotated by a rotational force of the output portion by engaging the output portion of the drive motor with an inner surface of the endless member. Drilling rig as described. 3. The excavator according to claim 1, wherein a plurality of the endless cutters are arranged in parallel in a width direction of the excavation groove. 4. The excavating apparatus according to claim 3, wherein the excavating means includes gap excavating means for excavating a gap between the endless cutters juxtaposed in a width direction of the excavation groove. . The excavator according to any one of claims 1 to 4, wherein the excavation unit includes a fluid ejection unit capable of excavating the ground by ejecting a fluid near the lower end. . The excavator according to any one of claims 1 to 5, wherein the excavation unit includes a solidifying agent injection unit for injecting a solidifying agent into the excavation trench. A base machine,
Excavating means supported by the base machine,
A drilling device for drilling a trench by the drilling means,
The excavating means,
A plurality of frame bodies supported by the base machine in a state of being connected in a chain in the vertical direction,
A plurality of endless cutters each having an excavating blade and a drive motor, each of which is supported by each of the frame bodies in a state of being juxtaposed in a vertical direction,
An excavator, wherein the adjacent frame members are rotatably and fixedly connected to each other.

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