JPH0467529B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to a trench excavator, and more particularly to an excavator for forming a rectangular cross-sectional trench suitable for an underground continuous wall.

[Conventional technology]

Underground continuous walls are formed for uses such as underground structures, rigid foundations of high-rise buildings, water-stop structure walls, and underground tank walls. To create such an underground continuous wall, first, a wall-shaped trench is dug underground using a trench excavator. Next, reinforcing bars are placed in the excavated trench, concrete is poured from the ground to form a wall of one element, and these elements are connected to form a continuous wall underground as a whole. It is something.

Various trench drilling machines have been proposed in the past as trench drilling machines suitable for such underground continuous walls.
For example, in Japanese Unexamined Patent Publication No. 61-211424, the applicant of the present invention has proposed a trench excavator having a pair of drum cutters attached to both ends of a horizontal rotating shaft. As shown in FIG. 5, this trench excavator has a gear case 14 fixed to the lower part of the excavator main body 12, and a horizontal rotating shaft (not shown) is rotatably supported by the gear case 14. A flange 16 is fixed to this horizontal rotation shaft. A drum cutter 18 is fixed to the flange 16, and a cutter bit 18 is attached to the outer peripheral surface of the drum cutter 18.
A, 18A... are fixed in large numbers around the entire circumference. A power transmission mechanism (not shown) that transmits rotation to the flange 16 is provided inside the gear case 14 .
Therefore, when the rotary drive source 20 of the excavator main body 12 is rotated, the drum cutters 18, 18 are rotated via the power transmission mechanism, the horizontal rotating shaft, and the flanges 16, 16, and a groove hole with a rectangular cross section can be excavated. I can do it.

On the other hand, the shape of the underground continuous wall formed by a trench excavator changes depending on the purpose of the construction work. Therefore,
The drum cutter of the trench excavator needs to ensure an excavation width suitable for the changed shape of the underground continuous wall, that is, a width dimension that forms the wall thickness dimension.

[Problem that the invention seeks to solve]

However, conventionally, the integrally constructed drum cutter was changed each time the wall thickness changed. In addition, in recent years, structures have become larger and the wall thickness has become larger, so drum cutters have become larger.
As the size increased, so did the weight. Therefore, when replacing the drum cutter, there are problems in that much labor is required, the time required for replacement is long, and a large drum cutter mounting device is required.

Further, when the drum cutter is replaced, the cutter bit is also replaced at the same time, resulting in a lot of waste and high costs.

Furthermore, since the position of the flange to which the drum cutter is attached is fixed, as the width of the drum cutter increases, the position of the flange moves deeper from the outer surface of the drum cutter, making it difficult to fix the drum cutter.

The present invention has been made in view of the above circumstances, and an object of the present invention is to propose a trench excavator that can easily change the excavation width of a drum cutter in response to changes in wall thickness.

[Means for solving problems]

In order to achieve the above-mentioned object, the present invention has a plurality of drum-shaped cutters arranged in parallel on both sides of a support at the lower part of the main body of the apparatus which can be hung, and which are rotatably driven on a horizontal coaxial line and have cutter bits on the outer periphery. The trench excavation device is characterized in that a predetermined excavation groove thickness is obtained by fixing a detachable split-type drum cutter having a cutter bit on the outer periphery to the outer end surface of the drum-shaped cutter.

[Effect]

According to the present invention, the drum cutter is divided into two parts and the split drum cutter is formed to be detachable from the basic drum cutter, so when changing the wall thickness of the trench excavator, the wall thickness can be changed by simply replacing the separated drum cutter. Changes in thickness can be easily accommodated.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a trench excavator according to the present invention will be described in detail below with reference to the accompanying drawings.

The trench excavator 50 shown in FIG. 1 has an excavator main body 52, and the excavator main body 52 is configured to be suspended from the ground via ropes 54, 54. A plurality of fixed guides 56, 56, . 58... are arranged. The rod end of an adjustable cylinder 60 is rotatably supported by the adjustable guide 58 , and the base end of this cylinder 60 is rotatably supported by the excavator body 52 to control the bubble box 61 . It is now possible to advance and retreat.

A rotary drive source 62 such as a transmission or a hydraulic motor is mounted on the lower side of the excavator main body 52, and a support body, that is, a gear case 64 is fixed to the lower part of the excavator main body 52. A power transmission mechanism (not shown) for transmitting the rotational force of the rotational drive source 62 is disposed at the lower ends 64A, 64A of the gear case 64, and a horizontal rotation axis to which rotation is transmitted via the power transmission mechanism is coaxial. A pair is rotatably supported. At the outer ends of these horizontal rotation axes, a second
As shown in the figure, flanges 72, 72 are fixed, and a flange 7 of a drum-shaped cutter (hereinafter referred to as a basic drum cutter) 70 is fixed to the flanges 72.
4 is fixed with a bolt or the like (not shown).

The flange 74 has a flange 78 of a drum-shaped cutter (hereinafter referred to as a split drum cutter) 76.
are fixed via bolts 79, 79... Cutting bits 80, 80, . . . are fixed to the outer peripheral surfaces of the basic drum cutter 70 and the split type drum cutter 76 over the entire circumference. A reinforcing material 82 for reinforcing the flange 74 is fixed to the basic drum cutter 70, and a reinforcing material 82 for reinforcing the flange 74 is fixed to the basic drum cutter 70.
A reinforcing member 84 for reinforcing 8 is fixed.

The minimum excavation width dimension of the trench excavator 50 can be obtained with a thin split drum cutter 76A fixed to the basic drum cutter 70, as shown in FIG. Further, as shown in FIG. 1, by fixing a thick split drum cutter 76 to the basic drum cutter 70, the excavation width dimension of the trench excavator 50 can be increased. In this way, by replacing the split drum cutter, it is possible to obtain an excavation width dimension that corresponds to the wall thickness dimension. It is also possible to adapt to changes in wall thickness by dividing and adding a plurality of split drum cutters.

Between the basic drum cutters 70, 70, there is a second
As shown in FIG. 4, ring-shaped cutters (hereinafter referred to as ring cutters) 86, 86 are rotatably supported via a flange 87. This flange 87 is fixed to the ring cutter rotating shaft,
The ring cutter rotating shaft is gear case 64A, 64A.
is rotatably supported. Rotation is transmitted to the ring cutter rotating shaft via the power transmission mechanism. Furthermore, cutter bits 80, 80, . . . are fixed to the outer circumference of the ring cutter 86 over the entire circumference. The ring cutter 86 is formed to have a smaller diameter than the drum cutter, and the rotating shaft of the ring cutter is supported eccentrically with respect to the horizontal rotating shaft of the drum cutter. That is, as shown in FIG.
It is supported so that it is approximately flush with the side surface of the

Wing bits 88, 88 are arranged between the ring cutters 86, 86, as shown in FIG. The wing bits 88, 88 are provided at the lower end of the reverse suction port 92 and are arranged below the drum cutter. wing bit 88,8
8, the rotational drive source 89 of the main body 52 rotates the main body 52 reciprocally through the power transmission means.

Further, the reverse pipe 90 is attached to the excavator main body 52 and discharges excavated slime to the ground via a submersible pump 91.

The operation of the trench excavator according to the present invention constructed as described above will be explained.

First, the rotational force from the rotational drive sources 62, 89 is transmitted to the basic drum cutters 70, 7 via a power transmission mechanism.
0 is transmitted to the ring cutters 86, 86 and further to the wing bits 88, 88. Since the split drum cutter is fixed to the basic drum cutter, it rotates at the same time as the basic drum cutter rotates. In this case, as shown in FIG. 3, the left and right drum cutters and ring cutters rotate in opposite directions, so that they cancel out the excavation reaction torques. In this state, the excavator main body 52 is lowered and excavated underground with the drum cutter, ring cutter, and wing bit to form a rectangular excavated hole in the ground. Note that the excavated slime is discharged to the ground via a reverse pipe 90.

Next, if the wall thickness dimension changes, the flange 74
and bolts 79, 7 that fix the flange 78.
9 and remove the split drum cutter 76 from the basic drum cutter 70. After removing the split drum cutter 76, a new split drum cutter is attached to the basic drum cutter 70 via bolts 79, 79, . . . to obtain the desired excavation width. In other words, changing from the minimum excavation width shown in Figure 3 to the increased excavation width shown in Figure 1, or vice versa, is done by changing the split drum cutter. Accordingly, the guide width of the excavator main body 52 is also changed by the adjustment plate 59 in accordance with the wall thickness.

Thereafter, according to the above-mentioned excavation process, a trench hole is excavated underground. As described above, according to the trench excavator of the present invention, the excavation width of the trench trench excavator can be easily changed by simply replacing a portion of the drum cutter.

〔Effect of the invention〕

As explained above, according to the trench drilling machine according to the present invention, when changing the wall thickness dimension of the trench drilling machine, it is possible to easily cope with the change in wall thickness dimension by simply replacing the separate drum cutter. I can do it.

In this way, you can change the width of the drum cutter by replacing part of the drum cutter.
The cost is reduced, it can be replaced with less labor, the time for replacement is shortened, the downtime of the trench drilling machine can be shortened, and the work efficiency can be improved.

In addition, the cutter bits that are fixed to both outer sides of the drum cutter are the most severely damaged.
Since you only need to replace the separation drum cutter,
In this case as well, cost reduction can be achieved.

[Brief explanation of drawings]

FIG. 1 is a front view showing an embodiment of a trench drilling machine according to the present invention, FIG. 2 is an enlarged view of the main part of the embodiment shown in FIG. 1, and FIG. 3 is a trench drilling machine according to the present invention. FIG. 4 is a side view showing an embodiment of the trench excavating machine according to the present invention, and FIG. 5 is a front view showing a conventional trench drilling machine. 50... trench excavator, 52... excavator body, 5
4... Rope, 62... Rotation drive source, 64... Gear case, 70... Basic drum cutter, 74,7
8...Flange, 76...Split type drum cutter,
80...Katsuterbitsuto.

Claims (1)

[Scope of Claims] 1. Slot drilling in which a plurality of drum-shaped cutters with cutters on the outer periphery are arranged in parallel on both sides of a support at the lower part of the equipment body that can be hung, and are driven to rotate on a horizontal coaxial line. A trench hole excavator characterized in that a predetermined excavation groove thickness is obtained by fixing a detachable split-type drum cutter having a cutter bit on the outer periphery to the outer end surface of the drum-shaped cutter.