JPH0497019A - Trencher for constructing underground continous wall - Google Patents

Abstract

PURPOSE:To simplify a power-transmitting mechanism by a method in which a chain cutter is engaged over a drive sprocket and a tension roller and a rotary power transmission mechanism is provided between a driver and a rotary shaft attached to the lower frame. CONSTITUTION:A chain cutter 9 is engaged over a drive sprocket 7 fixed to the basal end of a drum cutter 4 and a tension roller 8 attached to a support frame 3. A rotary power transmission mechanism consisting of a drive gear 28, intermediate gears 30 and 31, and follow gear 29 is provided between a driver 10 and a rotary shaft 11 attached to the lower frame 2. The cutter 4 is turned and also the cutter 9 is circularly driven, excavated sludge by the cutter 4 is raked to the downside of the cutter 9. The excavated sludge is raked up by paired cutters 9 and sucked up to the ground's surface by a water pump 13. The power transmission mechanism can thus be simplified.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a trench excavator used in constructing an underground continuous wall.

[Conventional technology]

Currently, when constructing structures, pier foundations, 9 artificial islands, etc. underground or underwater, wide and deep underground continuous walls are often constructed as a preliminary step.

Conventionally, as trench hole excavators used when constructing underground continuous walls, trench hole excavators having structures disclosed in JP-A-61-225424 and JP-A-63-110320 have been known. According to this trench excavator, it is possible to sufficiently excavate even the unexcavated portion between the ends of the two drum cutters.

[Problem to be solved by the invention]

In the case of the conventional trench excavator, there are problems in that the transmission mechanism is complicated and excavated waste cannot be carried out with high efficiency.

SUMMARY OF THE INVENTION An object of the present invention is to provide a trench excavator for constructing an underground continuous wall, which has a simple transmission mechanism and can transport excavated debris with high efficiency.

Means for Solving the 3 Problems] In order to achieve the above object, in the trench excavator for constructing underground continuous walls of the first invention, a plurality of lower frames 2 are arranged at the lower part of the upper frame 1 at intervals in the horizontal direction. are connected with
A support frame 3 is constructed, and base ends of drum cutters 4 arranged on the same horizontal line are rotatably attached to both sides of the lower part of each lower frame 2, and each drum cutter 4 transfers excavated waste to the lower frame 2. A driving sprocket 7 is provided with a spiral 15 and a bit 6 that scrape toward each other, and is fixed to the base end of each drum cutter 4 arranged in series. A chain cutter 9 having a plurality of bit rows across a rotatably mounted tensioning roller 8
is wound between a driving device 10 fixed to the upper part of the lower frame 2 at the lower part of the tensioning roller 8 and a rotating shaft 11 rotatably attached to the lower frame 2 on the center line of the drum cutter 4. A rotation transmission mechanism is provided, and a speed reduction device 12 is provided between the rotation shaft +1 and the drum cutter 4.

In addition, in order to carry out the excavated waste with high efficiency, the support frame 3
Suction port 14 of submersible pump 13 for transporting excavated waste fixed to
are opened downward between adjacent chain cutters 9.

Furthermore, in order to excavate trenches easily and with high efficiency,
The upper parts of the plurality of lower frames 2 are fixed to a connecting frame 15, and a vertical guide frame 16 is fixed to the upper part of the connecting frame 15 to form an elevating frame 17,
The elevating frame 17 and the upper frame 1 are connected via an elevating cylinder 18.

〔Example〕

Next, the present invention will be explained in detail using illustrated examples.

1 to 6 show a first embodiment of the present invention, in which the upper part of a lower frame 2 extending in the vertical direction is connected to the front center and rear center of the lower part of the upper frame 1. , a support frame 3 is constructed, and a gripper 21 that is pressed against the hole wall 20 is arranged at the upper and lower parts of the upper frame l described in 17r, and the gripper 21 and the upper frame 1 are connected by a pair of upper and lower parallel rings 22. is,
The gripper 21 and the upper frame 1 are connected via a pressing hydraulic cylinder 23.

A pair of drum cutters 4 are arranged on the left and right sides of the lower part of each lower frame 2 on a straight line extending in the left and right direction,
The base end of each drum cutter 4 is rotatably attached to the lower frame 2 via a bearing, and the drum cutter 4 has a spiral blade 5 that scrapes excavated waste toward the lower frame 2, A driving sprocket 7 is fixed to the base end of each drum cutter 4, and a driving sprocket 7 is fixed to the base end of each drum cutter 4.
The tensioning roller 8 disposed above is rotatably fitted through a bearing to a support shaft 24 extending in the left-right direction, and a tensioning screw is attached to a support fitting fitted to both ends of the support shaft 24. 2
5 are connected to each other, and the screw rod 25 is connected to the support frame 3.
A tensioning nut 26 is inserted into the lower part of the upper frame 1 and screwed into the upper part of the screw rod 25.

A chain cutter 9 having a plurality of rows of bits 27 is wound around each driving sprocket 7 and the tensioning roller 8, and a drive device 10 consisting of an electric motor with a reduction gear is installed at a lower level than the tensioning roller 8. A rotary shaft 11 fixed to the upper side surface of the frame 2 and extending in the left-right direction on the central extension line of the left and right drum cutters 4 is rotatably attached to the lower part of the lower frame 2 via a bearing, and the output of the drive device 10 is Drive gear 2 fixed to the shaft
A transmission intermediate gear 30.31 rotatably attached to the lower frame 2 is interposed between the drive gear 28 and the driven gear 29 fixed to the rotating shaft 11. The driven gear 29 constitutes a rotation transmission mechanism.

A first sun picture east 32 is fixed to both ends of the rotating shaft 1j, a base end of a reducer case 33 disposed inside the drum cutter 4 is fixed to the lower frame 2, and the drum cutter 4
A driven wheel 34 located in the center of the drum cutter 4
The intermediate shaft 35 is fixed to the drive shaft 34 and rotatably supported by the reducer case 33 via a bearing, and is disposed between the rotating shaft 1 and the driven shaft 34. A first support member 36 and a second sun gear 37 are rotatably fitted into the center hole, and a first support member 36 and a second sun gear 37 are fixed to the intermediate shaft 35. A first planetary gear 39 that meshes with an annular gear 38 provided in A planetary gear 41 is rotatably attached, and the two-stage planetary gear type reduction gear 12 is constituted by each part provided in the reduction gear case 33.

A submersible pump 1 for transporting excavated waste is installed at the bottom of the upper frame 1.
, 3 are fixed, and the suction port 14 of the submersible pump 13 opens downward between the vertical intermediate portions of adjacent chain cutters 9,
The discharge pipe 42 is led to the ground. Further, the upper frame 1 of the trench excavator constructed as described in i41 is suspended and supported by a crane (not shown).

When excavating a trench using the trench drilling machine, the drum cutter 4 and the chain cutter 9 arranged in the front-rear direction are rotated so that their lower portions move toward each other, and While operating the submersible pump 13, the trench excavator is gradually lowered by a crane. In this way, the ground is excavated by each drum cutter 4 and chain cutter 9, and the excavated debris excavated by the drum cutter 4 is scraped toward the lower part of the chain cutter 9 by the spiral blade 5, and then the excavated debris is It is scraped up by a pair of chain cutters 9, sucked by a submersible pump 13, and transported to the ground.

FIGS. 7 to 9 show a second embodiment of the second invention, in which the lower frame 2 of
The upper part of is fixed to a connecting frame 15, and the lower parts of a plurality of guide frames 16 perpendicular to the upper part of the connecting frame 15 are fixed to constitute an elevating frame 17, and the elevating frame 17 and the upper frame 1 are A submersible pump 1 for transporting excavated waste is connected to the upper part of the connecting frame 15 through a lifting cylinder 18 consisting of a hydraulic cylinder.
3 is fixed.

Fixing support members 43 are disposed on both front and rear sides and left and right sides of the upper frame 1, and the upper and lower parts of the fixation support members 43 are connected via pressure-welding hydraulic cylinders 44, when excavating a groove hole. is a pressure welding hydraulic cylinder 44
The fixing support member 43 is brought into pressure contact with the hole wall to fix the upper frame 1 to the hole wall, and the lifting cylinder 18 gradually lowers the lifting frame 17 and the part supported thereby to perform excavation. . Note that the other configurations are the same as in the first embodiment.

When excavating a trench using the trench drilling machine of the second embodiment, the fixing support member 43 is
The driving device 10 and the submersible pump 13 for transporting excavated waste are operated with the cylinder in pressure contact with the hole wall, and the lifting cylinder 18
The operation of extending the lifting frame 17 and lowering the lifting frame 17, stopping the operation of the driving device 10 and the submersible pump 13 for transporting excavated waste, and relaxing the pressure welding hydraulic cylinder 44 allows each drum cutter 4 to be placed at the bottom of the hole. The operation of shortening the elevating cylinder 18 and lowering the upper frame 1 in the mounted state may be automatically and repeatedly performed.

Alternatively, a plurality of trench excavators may be arranged in series in close proximity, and each trench excavator may simultaneously excavate the trench.

Furthermore, a chain wheel may be used as the oil mud tensioning roller 8.

1: Effects of the Invention Since the present invention is configured as described above, it has the following effects.

A chain having a plurality of bit rows extends over a driving sprocket 7 fixed to the base end of each drum cutter 4 arranged in series and a tensioning roller 8 rotatably attached to the support frame 3 above the driving sprocket 7. The cutter 9 is wound around the driving device 10 fixed to the upper part of the lower frame 2 at the lower part of the tensioning roller 8 and the lower frame 2 on the center line of the drum cutter 4.
The rotary shaft 1 for driving the drum cutter is rotatably mounted.
Since a rotational transmission mechanism is provided between the drive unit 10 and the rotary shaft 11, each drum cutter 4 can be rotated by a simple rotational transmission unit, and the chain cutter 9 can be driven in circulation. Since the rotation transmission mechanism for transmitting rotation to the chain cutter 9 is arranged inside the endless chain cutter 9, the rotation transmission mechanism can be simplified.

Further, by opening the suction port 14 of the submersible pump 13 for transporting excavated waste fixed to the support frame 3 downward between adjacent chain cutters 9, excavated waste is transferred to the suction port]4 by each chain cutter 9. At the same time, the excavated debris can be carried out with high efficiency by the submersible pump 13, and the excavated debris that has passed between the pair of chain cutters 9 is sucked by the submersible pump 13 and carried out. Large block of excavated material is submersible pump 1
Therefore, the life of the impeller in the submersible pump 13 can be maintained for a long time, and the motor of the submersible pump 13 can be prevented from being overloaded.

Further, the upper parts of the plurality of lower frames 2 are fixed to the connecting frame 15, and a vertical guide frame 16 is fixed to the upper part of the connecting frame 15 to constitute the elevating frame 17, and the elevating frame 17 and the upper frame 1 are connected to each other. By connecting via the lifting cylinder 18, with the upper frame 1 fixed to the hole wall, the lifting cylinder 18 gradually lowers the lifting frame 17 and the portion supported by it to open the groove. Holes can be drilled in a stable state.

[Brief explanation of the drawing]

1 to 6 show a first embodiment of the present invention, in which FIG. 1 is a partially longitudinal front view of a trench excavator, and FIG.
The figure is a side view, FIG. 3 is an enlarged sectional view taken along the line A-A in FIG. 1, FIG. 4 is a longitudinal sectional front view showing the drive mechanism of the drum cutter and chain cutter, and FIG. FIG. 6 is a side view showing the relationship between the drive sprocket and the chain cutter. 7 to 9 show a second embodiment of the present invention, in which FIG. 7 is a front view of the trench excavator, FIG. 8 is a side view thereof, and FIG. 9 is the same as that shown in FIG. 7. FIG. 3 is a partially enlarged front view. In the figure, 1 is the upper frame, 2 is the lower frame, and 3
is a support frame, 4 is a drum cutter, 5 is a spiral blade, 6 is a bit, 7 is a driving sprocket, 8 is a tension roller, 9
is a chain cutter, IO is a drive device, 11 is a rotating shaft, 1
2 is a speed reduction device, 13 is a submersible pump for carrying out excavated waste, 14 is a suction port, 15 is a connecting frame, 16 is a guide frame,
17 is a lifting frame, 18 is a lifting cylinder, 21 is a gripper, 23 is a pressing hydraulic cylinder, 24 is a support shaft, 25
is a screw for tensioning, 26 is a nut for tensioning, 27 is a bit, 2
8 is a drive gear, 29 is a driven gear, 30 and 31 are intermediate gears, 32 is a first sun gear, 33 is a reducer case, 34
35 is a driven shaft, 35 is an intermediate shaft, 36 is a first support member, 37 is a second sun gear, 38 is an annular gear, 42 is a discharge pipe, 43 is a fixing support member, and 44 is a pressure-welding hydraulic cylinder.゛-27

Claims (3)

[Claims] (1) A plurality of lower frames 2 are connected to the lower part of the upper frame 1 at intervals in the horizontal direction to constitute a support frame 3, and are arranged on the same horizontal line on both sides of the lower part of each lower frame 2. The base end of the drum cutter 4 is rotatably attached, and each drum cutter 4 removes excavated waste from the lower frame 2.
A drive sprocket 7 is fixed to the base end of each drum cutter 4 arranged in series, and is rotatably attached to the support frame 3 above the drive sprocket 7. A chain cutter 9 having a plurality of bit rows is wound across the tensioning roller 8 , and a drive device 10 fixed to the upper part of the lower frame 2 at the lower part of the tensioning roller 8 is connected to the center line of the drum cutter 4 . Underground continuous wall construction in which a rotational transmission mechanism is provided between the rotating shaft 11 rotatably attached to the lower frame 2, and a speed reduction device 12 is provided between the rotating shaft 11 and the drum cutter 4. trench hole drilling machine. (2) The trench for constructing an underground continuous wall according to claim 1, wherein the suction port 14 of the submersible pump 13 for transporting excavated waste fixed to the support frame 3 opens downward between adjacent chain cutters 9. excavator. (3) The upper part of the plurality of lower frames 2 is the connecting frame 15
At the same time, a vertical guide frame 16 is fixed to the upper part of the continuous frame 15 to form an elevating frame 17.
Claim 1 wherein the lift frame 17 and the upper frame 1 are connected via a lift cylinder 18.
The trench drilling machine for underground continuous wall construction described above.