KR100497031B1 - Apparatus for excavating deep trenches from the ground and excavating trenches by said apparatus - Google Patents

Abstract

The present invention provides a chassis (8) provided with a rotary block (9) suspended from the lifter (1-7) by a cable (14) at the top and a milling drum at the bottom suitable for digging the ground; A flexible hose (27) connected to and discharging dirt and the like generated by the milling drum, and perpendicular to the ground such that the ground is dug over a portion through which the chassis 8 passes along the milling drum. A device for digging trenches while advancing, characterized in that the rotary block 9 is motorized.

Description

Apparatus for excavating deep trenches from the ground and digging trenches by said apparatus

The present invention relates to an excavation apparatus for excavating a trench on the ground and a method of excavating a trench by the apparatus.

A typical boring device includes a chassis suspended from a lifting machine by a cable, the chassis milling drum mounted on the bottom of the device being driven to rotate in opposite directions such that the chassis is grounded. It penetrates and drills.

In order to excavate a ditch from the ground with the above device, a number of bores are formed in alignment with the ground in a given direction, which are connected to each other by removing the separate ground.

The interior of each bore corresponds to the exterior of the chassis and a square frame of concrete is formed on the ground, which is positioned inside the frame such that the chassis is positioned on the ground during the rotation of the milling drum. Ground excavation of the chassis is then initiated and the chassis working position is maintained by the frame.

When the chassis is lowered to the ground above the height of the chassis, the chassis protrudes from the frame and is guided downward by a portion of the already formed trench. The chassis is then advanced to the ground without being correctly oriented.

When the depth of the trench is shallow, the orientation of the chassis is properly maintained so that bores can be easily obtained, so connecting them forms a continuous horizontal trench. Further, when the depth of the trench is deep, that is, about 30 to 40 m on the ground, the forward direction of the chassis descending to the ground tends to advance in a spiral shape while the chassis is rotated about a vertical longitudinal axis. .

Therefore, the groove formed due to the above problem is not flat, and the two adjacent bores are not easily connected because their distances are largely separated, so that the groove is discontinuously formed.

Therefore, to solve the above problem, a propulsion mechanism mounted on the chassis is proposed, which is located adjacent to the wall of the bore, and by this mechanism the position of the chassis located on the bore is readjusted so that a large deflection of the chassis Will be prevented. However, such a mechanism cannot avoid the problem caused by the chassis rotating about the longitudinal axis.

In addition, French Patent Application No. 2 696 768, filed by the applicant, describes a trench digging device on the ground in the same form as the device described above. The upper portion of the chassis according to this patent application is provided with a block that can be suspended from the lifter and rotate freely. This rotating block allows the chassis to be oriented by hand prior to excavation, in particular tilting relative to the lifter, which takes advantage of the length and orientation of the lifter master without the need for the lifter to be positioned exactly perpendicular to the frame. To position the chassis on the guide frame. Such a device is therefore suitable for forming a bore perpendicular to the location of immovable obstacles such as corners of buildings.

However, even a device that interlocks with a freely rotating block does not solve the problem caused by the rotation of the chassis when the chassis descends into the deep trench of the ground.

Therefore, the present invention was devised to solve the problems inherent in the prior art as described above, and an object of the present invention is to provide a device having a simple structure and low cost.

According to the present invention, the above object is easily achieved, and according to the present invention, there is provided a rotating block suspended from a lifting machine by a cable on the upper side, and a milling drum suitable for digging the ground. A flexible hose connected to and discharging the debris generated by the milling drum, the apparatus for excavating the trench while advancing perpendicularly to the ground so that the ground is dug over the portion through which the chassis passes along the milling drum In the, characterized in that the rotary block is powered.

In addition, the flexible hose for discharging the clay waste is designed as a "mud hose", which is generated by excavating the mud ground, and the clay waste is discharged by pumping mud generated near the milling drum. Will be.

According to the invention, the motorized block gives torque to the chassis by pressing the cable and mud hose connecting the block to the lifter, or just the cable of the block.

A mud hose, typically a reinforcement conduit with a diameter of 6 inches, sufficiently supports the power block of the device according to the present invention, thereby providing torque to the chassis so that the device can excavate the ground in the correct orientation. However, since the block is rotated by the cable connecting the block to the lifter, the torqued chassis is twisted as it descends into the bore. This phenomenon is evident when the chassis is located a few meters from the surface, but this does not apply when the chassis is located at a depth of 30 to 40 meters from the surface.

In practice, the rotation of the block at a given depth does not affect the behavior of the chassis, but the above mentioned phenomenon is caused only by the twisting of the cable since the resistance torque of the cable is inversely proportional to its length.

In a test conducted by the applicant, only a slight rotation of the block in order to prevent the twisting of the cable affects the advancement of the chassis, since the twist is generated by the detection of the torque imparted by the block.

Thus, compensation of chassis rotation at an inappropriate time and returning the chassis on the flat surface of the trench to be excavated is sufficient for the rotation of the block, thereby giving torque to the chassis in the reverse direction of rotation.

In a first embodiment of the invention, the block consists of a rotary connection of a simple configuration comprising a lifted top connected to the chassis and a bottom connected to the chassis, the two parts of which discharge the pumped dirt in the vicinity of the milling drum. Rotate axially with respect to each other about the channel connected to the mud hose. The motor mounted on the lower portion of the rotary joint engages with the cog wheel mounted on the upper portion of the rotary joint.

In a second embodiment of the invention, the rotating block consists of a multiple rotating connection comprising a central channel connected to the mud hose and at least one peripheral annular channel forming a passage of pressurized fluid supplied to the motor of the chassis.

According to the above embodiment, a motor meshing with the cog wheel is used to rotate the lower part with respect to the upper part.

In a third embodiment of the invention, the block consists of the structure described in French Patent Application No. 2 696 758 and is equipped with a motor to power the block.

The block is axially rotated with respect to the mud hose by a connection that connects the channel to the mud hose so that the hose is not subjected to torsional stress when the chassis is lowered into the ditch.

However, it is preferable that the rotation of the rotational connection is interrupted so that the block presses the cable and the mud hose of the block to give torque to the chassis.

According to another aspect of the present invention, there is provided a rotary block connected to the lifter by a cable at the top thereof, and a chassis milling drum which is rotationally driven to dig the ground while penetrating the ground, and connected to the ground, A method of excavating a ditch with a boring device comprising a flexible hose for discharging dirt and the like generated by the milling drum, the method comprising: detecting a possibility of rotation of the chassis about a vertical longitudinal axis; Or rotating the rotating block in a direction opposite to the rotational direction of the chassis such that the cable is pressed to torque the chassis.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the figure, the device according to the invention is particularly provided with a large diameter mud hose for lifting a lifting device, articulated mast 3, and excavating material, consisting of a platform 1 provided on a caterpillar 2. Winder 4 for oil hoses, winch 6 for lifting cable (not shown) and a device 7 for controlling and monitoring the different members of the device.

At the free end of the articulated mast 3 the chassis 8 is suspended by means of a lifting cable (not shown), which is the motorized rotary block 9 on top of the chassis 8 and the free end of the mast. Engagement in a fixed block on the top allows the chassis to be oriented in any direction.

The rotating block 9 shown in cross section in FIG. 2 consists of an upper part 10 suspended from the lifting machine and a lower part 11 connected to the chassis, the upper and lower parts being rotated relative to each other about a vertical axis 12. .

The upper part 10 of the block consists of two pulleys 13 supporting the lifting cable 14 and a number of connections 15 for the hydraulic hoses 16, all of which are mounted on the plate 17a.

The hub 17b fixed to the plate 17a extends downwardly, and seven peripheral grooves 18 axially distributed along the outer surface of the hub are formed, and the center channel (over the entire height of the hub) is formed. 19) is extended.

The lower part 11 of the block consists of a cylindrical body 20 surrounding the hub 17b, which includes seven annular grooves 21 having an inner surface of a square end opposite to the peripheral groove 18. These grooves are separated by grooves 22 with a small diameter interposed between the 0-rings 23.

Peripheral annular channels respectively connected to a hydraulic hose connection 15 terminating at the top of the block via a specific channel 24 formed in the plate 17a and the hub 17b are connected to the cylindrical body 20 and the hub ( It is formed by the groove part of 17).

Likewise, these annular channels are each connected to a hydraulic hose connection 25 which terminates at the bottom of the block via a particular channel 24 formed in the body 20.

The mechanical connection between the fixed part and the rotating part 20 of the blocks 17a and 17b is effectively effected by the operation of the annular roller bearing 30, the fixing plate 17a is equipped with an outer ring 32, An inner ring 34 is mounted on the upper end of the cylindrical body 20.

The center channel 19 of the hub extends to the bottom of the block so that the excavator pumped from the chassis near the milling drum is transported through it, the channel being connected to the mud hose by a rotary connection 28 which can be blocked from rotation. Connected to (27). More precisely, the axial passage 19 of the hub 17b extends by a cylindrical sleeve 36 fixed to the top surface of the plate 17a.

The sleeve is connected to the lower end 27a of the mud hose 27 by means of the rotary connection 28 mounted at the end, through which the sleeve 36 can rotate. At the bottom of the block, the axial passage 19 is extended by a conduit 38 mounted to the chassis 8 to raise the excavator, and the assembly is connected to a boring mud. Since it is buried, the sealing between the passage 19 and the conduit 13 is not necessary.

The motor 29 mounted on the body 20 and fixed to the lower portion 11 of the block is engaged with the gear wheel 30 fixed to the upper portion 10 via the hub 17b to form a bore on the ground. Torque can be applied to the chassis.

In normal operation the rotation of the rotary connection 28 is cut off and the block is operated when the motor 29 is operated to rotate the chassis 8 and the bottom 11 relative to the top 10 of the block. Each strand of mud hose 27 and cable 14 is pressed.

In certain cases, rotation of the rotary joint 28 may be allowed to prevent stress induced in the mud hose. In general, the torque is transmitted to the chassis 8 of the device so that the device is advanced in the ground while rotating about the axis 12.

As described above, when the chassis is lowered into the deep trench of the ground by the device according to the present invention, the conventional problem caused by the rotation of the chassis can be easily solved, and the structure of the device is simple, so Will provide an inexpensive device.

While the invention has been shown and described with reference to certain preferred embodiments, it will be understood that the invention can be variously modified and modified without departing from the spirit or scope of the invention as set forth in the following claims. Can be easily understood by those of ordinary skill in the art.

1 is a perspective view of a trench digging device according to a preferred embodiment of the present invention.

Figure 2 shows a schematic cross-section of a rotating block of the device according to figure 1;

* Explanation of symbols for the main parts of the drawings *

8: chassis, 9: rotating block,

10: upper part, 11: lower part,

12: vertical axis, 14: lifting cable,

15: connection, 19: center channel,

27: mud hose, 28: rotary connection,

29: motor

Claims (7)

The cable 14 is provided with a rotary block 9 suspended from the lifter 1-7 at the upper part thereof, connected to the surface with a chassis 8 provided with a milling drum suitable for digging the ground at the lower part thereof, A flexible mud hose 27 for discharging dirt and the like generated by the milling drum, and advancing perpendicularly to the ground such that the ground is dug over a portion through which the chassis 8 passes along the milling drum; In the apparatus for excavating a trench, A device for excavating deep grooves in the ground, characterized in that the rotary block (9) is motorized. 2. The rotating block (9) according to claim 1, wherein the rotary block (9) consists of a simple rotary connection comprising an upper portion (10) connected to the lifter (1-7) and a lower portion (11) connected to the chassis (8). The two parts of the deep groove in the ground, characterized in that rotated in the axial direction with respect to each other about the channel (19) connected to the mud hose (27) in order to discharge the dirt and the like pumped in the vicinity of the milling drum Device to excavate. 2. The at least one peripheral annular ring of claim 1, wherein the rotating block 9 forms a passage of pressurized fluid supplied to a central channel 19 connected to the flexible mud hose 27 and a motor of the chassis 8. A device for excavating deep trenches in the ground, characterized in that it consists of multiple rotary connections comprising channels (18, 21). Apparatus for excavating deep grooves in the ground as claimed in claim 1, wherein the flexible mud hose 27 is connected to the rotary block 9 by a rotatable rotary connection 28. . The chassis 8 is provided with a rotary block 9 connected to the lifter 1-7 by a cable 14 at the top thereof and provided with a chassis milling drum at the bottom which is rotationally driven to dig the ground while penetrating the ground. In the method of excavating a ditch with a boring device comprising a flexible hose (27) connected to the ground surface, and discharges dirt and the like generated by the milling drum, Detecting the possibility of rotation of the chassis 8 relative to a vertical chassis; and Rotating the rotating block 9 in a direction opposite to the rotating direction of the chassis 8 such that the rotating block 9 presses the hose or cable to give torque to the chassis 8. Ditch excavation method using a boring device characterized in that. 6. The method of excavating a trench using a boring device according to claim 5, wherein the rotary block (9) is not rotated with respect to the flexible mud hose (27). The digging excavation method according to claim 6, wherein the rotary block (9) is temporarily rotated with respect to the flexible mud hose (27).