JP3795385B2 - Construction device and construction method of underground continuous wall with empty digging part - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for constructing an underground continuous wall with an air digging portion used for improving the ground of a deeper ground while digging the ground at a depth below a certain depth in the ground, and a construction method using the same. Is.
[0002]
[Prior art and problems to be solved by the invention]
For example, when building underground continuous walls deeper than a certain depth in the ground, such as when building underground continuous walls to support structures with underground floors, the roots are not suitable for ground below a certain depth. It is dug so that it can be cut.
[0003]
In order to improve the ground deeper than that by digging the ground below a certain depth in the ground with a single construction, use two cutter posts on the base machine as shown in Japanese Patent Laid-Open No. 9-296441 shown in FIG. After the base machine has been dug up the ground at all depths including the section of the ground excavation and the ground improvement section by the cutter post on the front side of the base machine in the direction of travel, the endless chain is stretched over the section to be improved It is necessary to improve the ground by the endless chain of the cutter post on the side.
[0004]
According to this method, since the two cutter posts are juxtaposed in the direction of travel of the base machine, the rear cutter post is rearward when the front cutter post is most advanced relative to the front of the base machine. Therefore, the stroke that can be reciprocated by the cutter post on the rear side is shorter than that of a single stroke.
[0005]
For this reason, the horizontal distance of the area where the ground can be improved by the cutter post on the rear side is only about half of the frame (base) of the base machine that supports the cutter post, and the efficiency of ground improvement per construction is low.
[0006]
In addition, since the cutter post for digging is preceded, the ground dug out from the ground improvement area is always adjacent in the horizontal direction, so the solidified material liquid in the ground improved area penetrates into the digging part side. The concentration of the solidifying material liquid may decrease.
[0007]
In order to increase the ground improvement efficiency per construction and avoid a decrease in the concentration of the solidified material liquid, either the base machine for ground digging and the base machine for ground improvement are made independent or one cutter post is grounded. Although it can be used in two ways for ground improvement, preparing the two base machines on one construction target ground like the former will lower the operating efficiency of the base machine itself and increase the cost. .
[0008]
In the latter method, it is necessary to repeat the insertion of the cutter post into the ground and the traversing operation twice in one construction section, and the endless chain is circulated through the entire length of the cutter post when digging, and the endless chain is used for ground improvement. Since the circulation section of the endless chain has to be changed every time the vehicle is circulated so as to circulate in a section of a certain depth or more, work efficiency is extremely reduced.
[0009]
In FIG. 1 of Japanese Patent No. 2711057 shown in FIG. 6, two cutter posts having different tip depths are supported in parallel in the traveling direction of the base machine, which is received by the cutter post when the excavation depth is large. It is a device for reducing resistance, and a ground improvement body cannot be constructed beyond a certain depth in the ground.
[0010]
From the above background, this invention proposes an apparatus and method for constructing an underground continuous wall deeper than a certain depth in the ground while forming an empty digging portion more efficiently than Japanese Patent Laid-Open No. 9-296441.
[0011]
[Means for Solving the Problems]
In the present invention, an upper cutter post and a lower cutter post are connected in series in the depth direction to constitute a construction apparatus, and the ground at a depth below a certain depth is dug by the upper endless chain of the upper cutter post, and the lower endless chain of the lower cutter post By improving the ground at a depth of a certain depth by using a single base machine, it is possible to construct a continuous underground wall at a depth of a certain depth or less by a single traverse of a cutter post (construction device) by a single base machine.
[0012]
The upper cutter post has an upper drive wheel and an upper idle wheel at the upper end and the lower end, respectively, and an upper endless chain having an excavating blade is stretched between the upper drive wheel and the upper idle wheel. The lower cutter post is supported by being connected to the upper cutter post in series in the depth direction, and has a lower drive wheel and a lower idle wheel at the upper end and lower end, respectively, and a drilling blade between the lower drive wheel and the lower idle wheel A lower endless chain having is stretched.
[0013]
By connecting the upper cutter post and lower cutter post in the depth direction and arranging them in series, the entire cutter post (construction device) can move between both ends in the direction of travel of the base machine frame (frame). Since the horizontal movement distance is expanded as compared with the case of paralleling in the direction of travel of the base machine, the efficiency of ground improvement per construction is improved.
[0014]
In addition, since the upper cutter post and lower cutter post are connected in series, the ground improved in the ground improvement area is not adjacent to the ground improvement area except for the ground excavation on the ground surface side. A situation in which the solidified material liquid in the above-described region permeates into the digging portion side and the concentration of the solidified material liquid in the ground improvement portion is avoided.
[0015]
As the upper cutter post and lower cutter post are connected in series, the lower cutter post tends to incline backward in the direction of travel due to the resistance received when the entire cutter post is traversed. The cutter post is connected so that the function of ground improvement by the lower cutter post is not lost.
[0016]
In order to ensure the function of improving the ground of the lower cutter post, the upper cutter post supporting the lower cutter post is composed of two cutter post materials arranged in parallel in the thickness direction as described in claim 2, and the lower cutter post It is appropriate to hold both the cutter post materials between the upper cutter posts and the cutter post materials. In this case, each cutter post member has an upper drive wheel, an upper idle wheel, and an upper endless chain, and the upper drive wheel of each cutter post member rotates synchronously.
[0017]
In the case of claim 2, the lower cutter post is supported by being sandwiched between two cutter post materials, thereby enhancing the restraining effect on the inclination of the lower cutter post by the upper cutter post and suppressing the inclination of the lower cutter post. Therefore, the stability is improved and the construction accuracy of the underground continuous wall is improved.
[0018]
Further, in claim 2, for example, as shown in claim 6, the lower drive wheel shaft of the lower cutter post and the upper idle wheel shaft of the upper cutter post are made coaxial, and so on. When rotating the wheels in synchronism with the rotation of the upper idle wheel, it is possible to transmit the torque stably from the upper idle wheel to the lower drive wheel without losing the rotational force. Generation of vibration of the ring can be suppressed.
[0019]
The upper endless chain is circulated by the rotation of the upper drive wheel. For example, as described in claim 4, the lower drive wheel is rotated with the rotation of the upper idler wheel of the upper cutter post, and the lower drive wheel is rotated. If the lower endless chain is circulated along with the circulation of the upper endless chain by rotation of the upper drive wheel, such as circulating the lower endless chain, the lower drive wheel is not driven independently. The operation for circulating the upper endless chain and the lower endless chain is simplified.
[0020]
The solidified material liquid that the lower endless chain of the lower cutter post agitates and mixes with the excavated soil can be supplied into the ground through pipes other than the cutter post, but if it is supplied within the range of the lower cutter post section, Since the endless chain circulates to reach the entire length of the lower cutter post, when supplying through the cutter post, a solidified material discharge port is formed in any part of the lower cutter post as described in claim 7.
[0021]
The upper cutter post and the lower cutter post are traversed (translated) along the base machine base while the base machine is stopped, so that during the construction, the depth of the digging area by the upper cutter post and the ground improvement by the lower cutter post are improved. The depth of the section is kept constant, but if the upper cutter post is supported so as to be movable up and down along the mast supported by the base of the base machine as described in claim 8, The depth and the depth of the ground improvement part can be changed.
[0022]
The construction of the underground continuous wall using the construction device according to any one of claims 1 to 8 circulates the upper endless chain around the upper cutter post as in claim 9, and solidifies the material in the ground. While supplying the liquid, the lower endless chain is circulated around the lower cutter post, and the lower cutter post and the upper cutter post are inserted in the ground and traversed.
[0023]
The lower endless chain stirs and mixes the excavated soil excavated by the excavating blade and the solidified liquid supplied to the ground, and improves the ground in the section between both ends of the lower cutter post to construct a continuous underground wall To do. The upper endless chain digs the ground in the section from the upper end of the lower cutter post to the ground surface by its excavating blade, and the construction device forms an air digging portion simultaneously with the construction of the underground continuous wall by one traversal.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
As shown in FIGS. 1 and 2, the construction apparatus 1 according to the first aspect of the present invention is supported by an upper cutter post 2 having an upper endless chain 5 stretched thereon and connected to the upper cutter post 2 in series in the depth direction. The lower cutter post 7 has a lower endless chain 10 stretched thereon.
[0025]
An upper drive wheel 3 and an upper idle wheel 4 are connected to the upper end and lower end of the upper cutter post 2, respectively, and an upper endless chain 5 having a digging blade 6 is stretched between the upper drive wheel 3 and the upper idle wheel 4. The The upper endless chain 5 circulates by the rotation of the upper drive wheel 3 and digs the ground near the ground.
[0026]
Similarly, a lower drive wheel 8 and a lower idle wheel 9 are connected to the upper end and lower end of the lower cutter post 7, respectively, and a lower endless chain 10 having an excavating blade 11 is stretched between the lower drive wheel 8 and the lower idle wheel 9. It is built. The lower endless chain 10 circulates by the rotation of the lower drive wheel 8, and the excavated soil and the solidified material liquid supplied from the ground are stirred and mixed while excavating the ground at a depth of 20 or more where the upper endless chain 5 is dug. Then, the ground is improved and the underground continuous wall 21 is constructed.
[0027]
The upper cutter post 2 is supported up and down along a mast 14 supported by the base 13 of the base machine 12, and the lower cutter post 7 is connected to and supported by the upper cutter post 2 to move up and down together with the upper cutter post 2. It is supported by the base machine 12 freely.
[0028]
From the base machine 12, power can be applied independently to the upper drive wheel 3 of the upper cutter post 2 and the lower drive wheel 8 of the lower cutter post 7, but the rotation of the upper drive wheel 3 as shown in FIG. Accordingly, the lower drive wheel 8 can be interlocked with the upper idler wheel 4 rotated by the upper endless chain 5 that circulates. Therefore, it is sufficient to apply power to at least the upper drive wheel 3.
[0029]
In FIG. 3, in order to link the lower drive wheel 8 to the upper idle wheel 4, the shaft of the lower drive wheel 8 of the lower cutter post 7 and the shaft 4 a of the upper idle wheel 4 of the upper cutter post 2 are coaxial. Is rotated in synchronization with the rotation of the upper idle wheel 4. In addition, the lower drive wheel 8 can be synchronized with the rotation of the upper idle wheel 4 by a combination of gears and the like.
[0030]
In the case of FIG. 3, the upper idle wheel 4 rotates as the upper endless chain 5 is circulated by driving the upper drive wheel 3, and at the same time, the lower drive wheel 8 rotates, and accordingly, the lower endless chain 10 circulates.
[0031]
In the drawing, in order to stabilize the lower cutter post 7 to be supported on the upper cutter post 2 and to stably transmit the rotational force from the upper idle wheel 4 to the lower drive wheel 8, the upper cutter post 2 is divided into two pieces. The lower cutter post 7 is supported by the upper cutter post 2 with the lower cutter post 7 sandwiched between the cutter post members 2a and 2a.
[0032]
The respective configurations of the upper cutter post 2 and the lower cutter post 7 and the combination of both are shown in the figure, and the lower cutter post 7 is supported by a single cutter post material 2a to be the upper cutter post 2 and the like. .
[0033]
Both the upper cutter post 2 and the lower cutter post 7 are assembled to a required length by connecting cutter post units having a certain unit length. Since the upper cutter post 2 digs in the section inserted into the ground, the section inserted into the ground is adjusted so as to have a length corresponding to the depth of the digging section 20, and the lower cutter post 7 is Since the ground is improved over the entire length, the total length is adjusted to be the depth of the underground continuous wall 21.
[0034]
The upper cutter post 2 and the lower cutter post 7 are integrated so that the lower cutter post 7 does not tilt backward in the traveling direction due to resistance when the entire construction apparatus 1 is traversed, and the ground improvement function by the lower cutter post 7 is not lost. Connected to.
[0035]
In FIG. 3, as described above, the upper cutter post 2 is composed of two cutter post materials 2 a and 2 a, and the lower cutter post 7 is disposed between them, and each of the cutter post materials 2 a and 2 a of the upper cutter post 2 is arranged. The upper cutter post 2 and the lower cutter post 7 are integrated by integrally forming the cutter post unit at the lower end and the cutter post unit at the upper end of the lower cutter post 7. It doesn't matter.
[0036]
When the construction device 1 is inserted into the ground, the lower endless chain 10 is circulated by driving the upper drive wheel 3 of the upper cutter post 2 or by driving the lower drive wheel 8, and the excavating blade 11 descends while excavating the ground. Is inserted into the ground.
[0037]
Insertion of the lower cutter post 7 to the target depth is performed while supplying drilling fluid such as fresh water and muddy water, if necessary, without supplying solidified material liquid, but the upper cutter post 2 is the lower end of the lower cutter post 7. Since the chain 10 is inserted into the excavated ground, it is not necessary to supply the drilling fluid when inserting the upper cutter post 2 while circulating the upper endless chain 5.
[0038]
After the lower cutter post 7 is inserted to the target depth, the construction apparatus 1 is traversed while supplying a solidifying material liquid such as cement milk to the section of the lower cutter post 7. The solidifying material liquid is supplied through a pipe or the like separate from the construction apparatus 1, or through the upper cutter post 2 or both cutter posts 2 and 7.
[0039]
3A shows an example in which the solidifying material liquid is supplied through the upper and lower cutter posts 2 and 7, and FIG. In FIGS. 3 (a) and 3 (b), the white arrow indicates the flow of the solidified material liquid.
[0040]
(a) arranges the solidifying material liquid supply passage 18 inside the lower cutter post 7, and continues to the solidifying material liquid supply passage 17 arranged inside the upper cutter post 2, This is a case where the solidifying material liquid is supplied to a lower discharge port (not shown) formed at the lower end or the like. (b) is a case where the passage 17 of the upper cutter post 2 is disposed up to the upper end of the lower cutter post 7 and the solidified material liquid is discharged from the solidified material discharge port 19 formed at the upper end of the lower cutter post 7.
[0041]
In any case, the solidified material liquid is spread over the entire length of the lower cutter post 7 by the circulating lower endless chain 10 and is agitated and mixed with the excavated soil.
[0042]
After the excavated soil and the solidified material liquid are stirred and mixed by the lower endless chain 10 of the lower cutter post 7, the hydraulic cylinder 15 installed between the upper cutter post 2 and the base machine 12 is extended to the base machine 12. On the other hand, the entire construction apparatus 1 traverses in the direction indicated by the arrow in FIG.
[0043]
As the construction device 1 traverses, the lower endless chain 10 agitates and mixes the excavated soil excavated by the excavating blade 11 and the solidified material liquid supplied to the ground, and then grounds the ground between the ends of the lower cutter post 7. Improve and build underground continuous wall 21. The upper endless chain 5 digs the ground in the section from the upper end of the lower cutter post 7 to the ground surface by the excavating blade 6 to form an air digging portion 20.
[0044]
After the traversing, the construction machine 1 returns to the state before the traversing start without changing the position with respect to the ground by advancing the base machine 12 by the traveling device 16 such as a crawler while contracting the hydraulic cylinder 15. The traversal by is repeated.
[0045]
When excavating the ground while the construction apparatus 1 is traversing, the lower cutter post 7 has a built-in inclinometer for the problem of tilting the lower cutter post 7 in the rearward direction of travel. When the lower cutter post 7 is not in a vertical state during excavation of the ground, the construction device 1 is traversed backward, the lower cutter post 7 is returned to the vertical state, and then the construction device 1 is traversed forward again. Excavate the ground.
[0046]
The upper cutter post and lower cutter post are connected in series in the depth direction, the upper endless chain of the upper cutter post digs the ground below a certain depth, and the lower endless chain of the lower cutter post improves the ground below the fixed depth. Therefore, the underground continuous wall can be constructed below a certain depth in the ground (that is, deeper than the digging portion) by one traversing of the cutter post by a single base machine.
[0047]
In particular, the upper cutter post and lower cutter post are connected in the depth direction and arranged in series, so the entire cutter post can move between both ends of the base machine frame in the traveling direction and the horizontal distance is expanded, so it can be installed once. The efficiency of ground improvement with an empty digging area is improved.
[0048]
Also, since the upper cutter post and lower cutter post are connected in series, the ground excavated in the ground improvement area will not be adjacent in the horizontal direction, so the solidified material liquid in the ground improved area is empty It is possible to avoid a situation where the concentration of the solidified material liquid in the ground improvement portion decreases due to penetration into the side.
[0049]
In claim 2, the upper cutter post supporting the lower cutter post is composed of two cutter post materials, and the lower cutter post is sandwiched between both cutter post materials of the upper cutter post and supported by both cutter post materials. As a result of the restraint effect on the inclination of the lower cutter post by the upper cutter post and the inclination of the lower cutter post being suppressed, the stability is improved and the construction accuracy of the underground continuous wall is improved.
[0050]
Since the lower endless chain is circulated along with the circulation of the upper endless chain by the rotation of the upper drive wheel, power is applied to the lower drive wheel as in the case where the lower endless chain is circulated independently. There is no need.
[0051]
In the fifth and sixth aspects, since the lower drive wheel is rotated in synchronization with the rotation of the upper idle wheel, it is possible to transmit the torque stably from the upper idle wheel to the lower drive wheel without loss of torque. Thus, the vibration of the upper idle wheel and the lower drive wheel can be suppressed.
[0052]
In Claim 7, in order to form the solidification material discharge port for supplying the solidification material liquid through the cutter post in any part of the lower cutter post, the underground continuous wall is formed at the depth of the lower cutter post only by traversing the construction device. Can be built.
[0053]
According to the eighth aspect, the upper cutter post is supported so as to be movable up and down along the mast supported on the base of the base machine, so that the depth of digging and the depth of ground improvement can be changed for each construction section.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is an elevation view showing a state of construction of an underground continuous wall by a construction apparatus attached to a base machine.
FIG. 2 is a side view of FIG.
FIGS. 3A and 3B are enlarged views of a broken-line circle portion in FIG.
4 is a side view of FIG. 1 showing a relationship between an empty digging portion and a ground improvement portion.
FIG. 5 is an elevational view showing the prior art.
FIG. 6 is an elevational view showing another prior art.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Construction equipment, 2 ... Upper cutter post, 2a ... Cutter post material, 3 ... Upper drive wheel, 4 ... Upper idle wheel, 4a ... Shaft, 5 ... Upper endless chain, 6 ... Drilling Blade, 7 ... Lower cutter post, 8 ... Lower drive wheel, 9 ... Lower idle wheel, 10 ... Lower endless chain, 11 ... Drilling blade, 12 ... Base machine, 13 ... Base, 14 ... Mast, 15 ... hydraulic cylinder, 16 ... traveling device, 17 ... path of upper cutter post, 18 ... path of lower cutter post, 19 ... solidification material outlet, 20 ... empty digging section, 21 ... Underground wall,

Claims (9)

An upper cutter post having an upper drive wheel and an upper idle wheel at the upper end and the lower end, respectively, and an upper endless chain having an excavating blade between the upper drive wheel and the upper idle wheel, and an upper end and a lower end. each having a lower drive wheel and the lower idle wheel, the depth to the lower endless chain Ri Tona and lower cutter post which is stretched, the lower cutter post upper cutter post having a digging edge between the lower drive wheel and the lower idle wheel A construction device for an underground continuous wall with an empty digging portion that is connected in series in a direction and supported .   The upper cutter post is composed of two cutter post members arranged in parallel in the thickness direction, and each cutter post member has an upper drive wheel, an upper idle wheel, and an upper endless chain. The apparatus for constructing an underground continuous wall with an empty digging portion according to claim 1, wherein the ring rotates synchronously and the lower cutter post is sandwiched and supported between both cutter post members of the upper cutter post.   The construction apparatus of the underground continuous wall with an empty digging part of Claim 1 or Claim 2 with which an upper endless chain and a lower endless chain each circulate with rotation of the upper drive wheel of an upper cutter post.   The lower drive wheel of the lower cutter post rotates with the rotation of the upper idle wheel of the upper cutter post, and the lower endless chain of the lower cutter post circulates with the rotation of the lower drive wheel. Equipment for building underground continuous walls.   The apparatus for constructing an underground continuous wall with an empty digging portion according to claim 2, wherein the lower drive wheel of the lower cutter post rotates in synchronization with the rotation of the upper idle wheel of the upper cutter post.   The construction apparatus for an underground continuous wall with an empty digging portion according to claim 5, wherein the shaft of the lower drive wheel of the lower cutter post and the shaft of the upper idle wheel of the upper cutter post are coaxial.   The construction apparatus of the underground continuous wall with an empty digging part in any one of Claims 1 thru | or 6 in which the solidification material discharge outlet is formed in any part of a lower cutter post.   The construction apparatus of the underground continuous wall with an empty digging part according to any one of claims 1 to 7, wherein the upper cutter post is movable up and down along the mast supported by the base of the base machine.   The construction apparatus according to any one of claims 1 to 8, wherein the upper endless chain is circulated around the upper cutter post and the lower endless chain is moved to the lower cutter post while supplying the solidified liquid into the ground. The lower cutter post and the upper cutter post are inserted into the ground while circulating around, and the ground is dug in the upper cutter post section, and the excavated soil and solidified material liquid are stirred in the lower cutter post section.・ Construction method of underground continuous wall with empty digging part to mix and build underground continuous wall with improved ground.

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