JP3558229B2 - Slope stabilization method and equipment - Google Patents

Description

[0001]
[Industrial applications]
The disclosed technology belongs to the technical field of construction of a frame for stabilizing a slope formed on a side portion of a road or the like.
[0002]
[Prior art]
As is well known, modern society is supported by a lot of information, and therefore, information processing networks are being expanded more and more on a nationwide scale.
[0003]
Such an information processing network is not only based on a means such as a telecommunications network or a radio wave, but also in a very large number of modes maintained by a railway, a road, a cable along the railway, the road, and the like.
[0004]
Therefore, anyway, construction work on expressways and railways is extremely important, and interaction with existing surrounding structures cannot be ignored, and there are problems such as pollution problems, harmony with the environment, and safety maintenance. Is also very important.
[0005]
Therefore, in order to prevent the collapse, collapse, and leakage of groundwater from the viewpoint of safety in the construction of these open channels, horizontal roads, and the like, and in the use condition after construction, the sides (up and down) stabilization of the slope of the side) is Ru indispensable. Therefore, construction techniques such as a so-called free frame have been widely used.
[0006]
Thus, for the stabilization work of the slope, for example, as shown in the invention disclosed in Japanese Patent Application Laid-Open No. 5-140948, a tensile material is buried at a construction site, or a reinforcement work is performed on a ground. Work such as casting concrete with a heavy machine or the like carried in by taking an anchor through a form to form a frame (beam) and spraying cement mortar between the frames has been performed .
[0007]
However, carry-in, such as rebar and formwork in these works, Kenkomi, assembly, disassembly of the jig or the like, removal, etc., human wave tactics ones is Ru main der by all human hand. Moreover, from being carried out by the inclined surface work forms a slope, work efficiency is a disadvantage there Ru that bad. Moreover, not only there is a drawback that can not be maintained safety sufficiently, it was also inconvenience of causing deterioration of the surrounding environment in the construction period (including its longitudinal).
[0008]
There is also a mode in which a free frame is bent and installed on a tree. However, there is a disadvantage that the tree is damaged and the environment is deteriorated.
[0009]
[Problems to be solved by the invention]
In view of the above-mentioned problems of the prior art, an object of the invention of this application is to solve various problems associated with stabilization work on a side slope of an installation site of a structure such as an open channel based on the above-mentioned prior art. In the field of civil engineering technology in the construction industry, the work efficiency is good, the safety is high, and there is no risk of deteriorating the work environment for the surroundings. It is an object of the present invention to provide an excellent slope stabilization method which is advantageous to the above, and a device directly used in the method.
[0010]
[Means for Solving the Problems]
(1) In order to achieve the above object, in the method according to the present invention, a frame base is formed by inserting a flexible reinforcing bar into a flexible first mesh bag, and further forming a flexible base. A method of stabilizing the slope by installing the frame formed in advance by inserting the frame base into the second mesh bag having the property, by installing the slope on the ground slope,
Forming a plurality of pits at a predetermined pitch on the slope of the ground,
In each of the plurality of formed pits, an anchor is fixed,
In the pit where the anchor was fixed, concrete was poured,
On the slope, lay the previously formed frame along the anchor,
With the anchor, the laid frame is engaged,
Filling the first mesh bag of the frame with a solidifying agent,
The second mesh bag of the frame is filled with a solidifying agent.
[0011]
(2) In order to achieve the above object, the method according to the present invention
A frame base is formed by inserting a flexible reinforcing bar into a flexible first mesh bag, and then a plurality of flexible second mesh bags are connected to a slit-formed joint. By connecting a frame formed in advance by inserting the frame base into the connected second mesh bag, the frame is connected to the second mesh bag via a pipe, and the slope is formed on the slope of the ground. Is a method of stabilizing
On the slope of the ground, a plurality of anchors with hooks are fixedly provided at a predetermined pitch,
On the slope, lay the previously formed frame along the anchor,
Filling the first mesh bag of the frame with a solidifying agent,
Filling the second mesh bag of the frame with a solidifying agent,
By hooking the frame base of the laid frame on the hook of the anchor, the frame base is fixed in a tensioned state by the anchor via the slit.
[0012]
(3) In the slope stabilization method according to the above (1) or (2), preferably, the frame base has a bent spacer in addition to the flexible reinforcing bar inside the frame base.
[0013]
(4) In the step of laying the frame in the slope stabilization method according to the above (1) or (2), preferably, the frame is laid in any of a column shape, a row shape, and a matrix shape.
[0014]
(5) In order to achieve the above object, an apparatus of the present invention is an apparatus used in the slope stabilization method according to any one of (1) to (4),
A frame base including: a flexible reinforcing bar, a bent spacer, and a flexible first mesh bag including the flexible reinforcing bar and the spacer inside;
A frame formed by inserting the frame base into a flexible second mesh bag.
[0015]
(6) In order to achieve the above object, an apparatus of the present invention is an apparatus used in the slope stabilization method according to any one of (1) to (4) ,
A plurality of frame bases including: a flexible reinforcing bar having an external thread formed at an end; a bent spacer; and a flexible first mesh bag including the flexible reinforcing bar and the spacer inside;
A frame formed by inserting the frame base into a flexible second mesh bag;
A female nut is formed on the inside, and a long nut for connecting the plurality of frame bases in the frame;
One end of the long nut is screwed to an end of the flexible reinforcing bar of the inserted one frame base,
The other end of the long nut is screwed with the end of the flexible reinforcing bar of the other inserted frame base.
[0016]
(7) In the slope stabilizing device according to the above (5) or (6), preferably,
A solidifying agent is filled in the first mesh bag of the frame,
The second mesh bag of the frame is filled with a solidifying agent.
[0017]
【Example】
Next, embodiments of the invention of this application will be described with reference to the drawings.
[0018]
Illustrated embodiment, the protection against the inclined surface 2 of the natural ground 1 road side, about aspects of the stabilization works for maintenance. In the figure, reference numeral 3 indicates the "Slope stabilizer" which forms the center of one of the subject matter of the invention of this application. Reference numeral 4 denotes a flexible “mesh bag” of a predetermined size having a closed cross section , which is formed of a predetermined mesh made of a permeable vinyl sheet or the like.
[0019]
In the principle mode shown in FIGS. 1 to 5, for example, at least one flexible reinforcing bar 5 for applying tension , which is known around the circumference, is inserted into a mesh bag (first mesh bag) 4 in advance at a factory. has become so that the shape inserted into the spacer 6,6 also suitable for "V" in contact with the inner surface of the mesh bag 4 at a predetermined pitch.
[0020]
Incidentally, the spacer 6, in one its longitudinal of the flexible reinforcing bar 5, which is molded by bending changes direction to shape the "V" in a zigzag fashion in the vertical and horizontal directions by 90 ° at a predetermined pitch It may be.
[0021]
And Thus, the spacer 6 as described next, when for flowing filled with cement paste 10 as solidified material from the longitudinal ends of the mesh bag 4, functions to hold the expanded position of the mesh bag 4 Things.
[0022]
The cement paste is exuded from the mesh gap to solidify and integrate with the surroundings.
[0023]
When the cement paste 10 flows and fills into the mesh bag 4 in this way, the mesh bag 4 becomes a kind of a round bar and forms a base of the frame.
[0024]
And Thus, when the slope stabilization works, the main anchors 8,8 ..., and the auxiliary anchors 8 ', the 8', as shown in FIGS. 7 and 8, the line shape at a predetermined pitch on the slope 2 of the natural ground 1 (Or in a row or a matrix), and are fixed by being driven into a predetermined depth.
[0025]
Note that the base of each main anchor 8, as shown in FIGS. 7 and 8, a circular cross section of the ring head 9 (or even allowed by pin joint) integrally has, or, provided screw screwed manner I have.
[0026]
Then, the mesh bag (second mesh bag) 7 containing the “mesh bag 4 into which the flexible reinforcing bars 5 and the spacers 6 are inserted” is inserted into and engaged with the ring heads 9 and 9 ′ of the anchors 8 and 8 ′. To form a network of rows and columns . Furthermore, based on this, as shown in FIG. 4, a network of a kind of matrix-like frame 11 is formed and laid by sewing trees on the surface of the slope 2 of the ground 1 as an application.
The mesh bag 7 inside the mesh bag 4 is formed in a closed cross section of a predetermined size (circular cross section, square, etc.), has a cross section larger than the cross section of the mesh bag 4, and has a predetermined cross section made of vinyl or the like. It is formed from a mesh.
[0027]
Then, the end portion of the mesh bag 4, Ru is appropriately flowed filled with cement paste (consolidated material) 10. Then, as shown in FIG. 3, these ends or predetermined plugs or nipples (not shown) are placed in the mesh bag 7 ( at a ring-shaped cross section between the mesh bag 7 and the mesh bag 4). the concrete pump (not shown) through, cement paste, Ru is injected filled with cement mortar 10 '. Thus, the mesh bag 7 is in a state of being embedded in interior mesh pouch 4 logs rod-shaped (in this case, the cement paste, and solidified integrally by cement mortar exuded from the mesh bag 4.), Into a circular cross section Thus, a beam-shaped frame 11 as shown in FIG. 9 is formed.
[0028]
In this case, the mesh bag 4 in which the flexible reinforcing bars 5 are disposed may be inserted into the mesh bag 7 after the mesh bag 7 is inserted into each of the anchors 8 and 8 '.
[0029]
And Thus, this time, the frame 11 is not good in one direction of parallel alignment of rows (or columns) of the lateral (or vertical). Alternatively, as shown in FIG. 4, but it may also be arranged in a matrix in association to cross in the vertical and horizontal directions. In the latter case, as shown in FIG. 5, one mesh bag 7 is overlapped with the other mesh bag 7 at the intersection at an upper portion or a lower portion at the intersection.
Incidentally, cement mortar filling, solidification agent of cement paste 10 ', etc., so adapted to Oite plastically deformed during filling, in effect, that the mesh bags 7,7 which cross interfere with each other There is no.
In addition, the ground 1 is appropriately dug into a concave shape (see a concave portion 2 ′ in FIG. 5) so that the lower side is bent . Therefore, the arrangement of the network-like matrix-like frames 11 is performed without difficulty .
Further, the cement paste exudes from the mesh bag, are integrated by cement mortar, these sequences posture is sufficiently adapted to be shape-retaining maintained by the ring head 9, 9 'of each anchor 8, 8' (where However, the fixed state of the crossover portion is not always sufficiently guaranteed).
[0030]
Then, when the set construction of each frame 11 is completed, concrete milk or cement mortar is sprayed between these frames 11 and 11 by means such as shotcrete or the like, so that the slope stabilization construction is completed. .
[0031]
During this time, the pair mesh bag 7, operations such as inserting a mesh bag 4 is interposed a flexible reinforcing bar 5 may be carried out as a pre-work in a factory or the like. As described above, by performing the preparatory work in a factory or the like, the workability at the construction site is improved, and the construction accuracy is also sufficient . In addition, the conventional reinforcement and formwork carried in a construction site in this way, not only is not necessary to perform the work of built with, etc., dismantling of materials, ing to be Habukeru also work of removal and the like. In addition, it does not cause any deterioration of the surrounding environment.
[0032]
The above embodiment is an aspect of the basic basic embodiment. As shown in FIG. 4, the frames 11 are arranged in a matrix and set on the ground 1 on the slope 2 by the main anchor 8 and the auxiliary anchor 8 ', respectively. The vertical and horizontal rows are shown as being set in a cross state as shown in FIG. 5, but in the above-described construction, the cross portion shown in FIG. At the time of construction, of course, even after the construction, there is a case where the rigidity may not be sufficient due to relative sliding or the like. However, in the invention of this application, the arrangement of the frame 11 is vertical or horizontal only. It is also included in the spirit of the invention of the present application to realize a stable construction state on the slope 2 as a row. As shown in FIG. 9, the slope 2 is vertically or horizontally arranged. Parallel to each other (an embodiment shown in FIG. 9) In the vertical direction), the distance between them is set to L by design and construction, and the main anchor 8 and the auxiliary anchor 8 'are fixed to the ground of the slope 2 with a predetermined interval for each frame 11. .
[0033]
However, as described above, the slope 2 is inclined. Therefore, during the construction (or after construction), each relative to the mesh bag 7, sliding force to lower the cement paste 10 'and the flexible reinforcing bar 5 and the like gravity force component of which is filled therein work of the frame 11 Sometimes. Therefore, there are cases where the stability of the mesh bag 7 with respect to the slope 2 is not good .
[0034]
In such a case, as shown in FIG. 10, prior to the construction, the part of the slope 2 providing the main anchor 8, advance recessed form pits 12. Next, the main anchor 8 penetrates into the ground of the slope 2, and the base of the main anchor 8 is tightened. Thereafter, a mesh bag 7 to interior a "mesh bag 4 has been inserted a flexible reinforcing bar 5 'is inserted through the ring head 9 of the main anchor 8, further pressed filled with cement paste 10'.
[0035]
Thus, the mesh bag 7 is fastened to the inner peripheral surface of the ring head 9 of the main anchor 8 is solidified, and is further adhered by exudation concrete by pouring concrete 12 'pit 12. As a result, the mesh bag 7 is prevented from falling and displacing along the slope 2 during or after construction.
[0036]
Thus, in order to more reliably assure the stability of the slope 11 at the time of applying the frame 11 to the slope 2 or after the execution, an embodiment such as the embodiment shown in FIGS. 11 and 12 can be adopted. .
[0037]
That is, first, a short cylindrical joint pipe 13 of a predetermined size is prepared. A slit 21 is formed below the joint pipe 13. Then, collars 15, 15 of a predetermined length having screws 14 threaded on the inner peripheral surfaces of both ends are screwed into the joint pipe 13. Next, the end of the mesh bag 7 is inserted and connected to each collar 15 and further fixed using an adhesive.
[0038]
An anchor mass 18 is screwed and connected to an upper end portion of the anchor 16 cast on the ground 1 by a screw screw 19. Thereby, the anchor 16 and the anchor mass 18 are integrated.
[0039]
On the other hand, a hook pin 20 is laid and fixed on the surface of the anchor mass 18. The mesh bag 4 is inserted through the hook pins 20, and the flexible rebar 5 together with the mesh bag 4 is hooked on the anchor mass 18 protruding from the slit 21 of the joint pipe 13. As a result, the flexible rebar 5 together with the mesh bag 4 is fixed to the anchor 16 via the anchor mass 18 in a tensile state.
[0040]
Thus, the order of the mesh bag 4, the engagement of the flexible rebar 5 with the mesh bag 7, the collar 15, the joint pipe 13, and the construction of the concrete 12 'may be performed as appropriate.
[0041]
In this manner, the flexible rebar 5 together with the mesh bag 4 is fixed to the anchor 16 under tension. Therefore, the frame 11 firmly maintains the construction posture as designed with respect to the ground 1 on the slope 2 and does not slide down.
[0042]
In this case, although not shown, by placing a "flexible rebar 5 mesh bags 4 that houses the" in place of the above in a mesh bag 7, even when the slope 2 is slipped, flexible By ensuring that the rebar 5 is placed on the tension side of the reinforced concrete structure frame, it is possible to provide a law frame with a large resistance to sliding of the slope 2.
[0043]
As described above, when the mesh bag 4 into which the flexible reinforcing bar 5 is inserted is provided in the mesh bag 7, the mesh bag 4 having the flexible reinforcing bar 5 interior prepared in advance is set when the mesh bag 7 is set at the construction site. Alternatively, it may be performed by inserting from the end of the mesh bag 7.
[0044]
As another embodiment, first, as in the embodiment shown in FIGS. 13 to 16, the mesh bags 7 are inserted in the main anchor 8 and the auxiliary anchor 8 ′ in the form of a row and along the longitudinal direction thereof. Then, a slit 23 having a predetermined length is formed using an appropriate jig such as a cutter . At that time, your Ku as a freely opening and closing the slit 23 in the width direction. Then, partly to show the slit 23 in FIG. 14, or open as a whole, the mesh bag 4 that decorated flexible reinforcing bar 5 may be set in the longitudinal direction by inserting a trial and error type .
[0045]
In the case of the other embodiment described above, a "long nut 24" which is formed in a screw joint type turnbuckle shape and has a female screw 24 'threaded inside is prepared. Prior to insertion of the mesh bag 4 through the slit 23, the long nut 24 is screwed by a predetermined length to a male screw engraved on the end of the flexible reinforcing bar 5 (FIG. 14). reference).
[0046]
Then, the mesh bag 4 inside the flexible reinforcing bar 5 is set in the mesh bag 7 by slidingly inserting the same. At this time, the long nut 24 screwed to the end of the flexible reinforcing bar 5 is made to face the hand of the flexible reinforcing bar 5 of the mesh bag 4 which has been inserted in advance by hand-raising from the end of the slit 23. Subsequently, as shown in FIG. 15, the male screw 5 ′ of the tail of the flexible rebar 5 is screwed into the female screw 24 ′ of the long nut 24 (in this case, both flexible rebars 5, 5 are in a tensioned state). ) And apply a tensile force as needed to screw together.
[0047]
The end portion of the mesh bag 4 for the first insertion is slightly loosened so as to be inserted outside the long nut 24.
[0048]
In this way, in the mesh bag 7, the flexible reinforcing bar 5,5 ... with interposed mesh bag 4 can be set to a connection state of setting length.
[0049]
Then, with respect to the mesh bag 7 after the connection is completed , as shown in FIG. 16, both edge portions of the slit 23 are united so that an integral edge portion 23 ' is formed. Then, a stitch is stitched through a stapler 25 such as a stapler or the like so as to prevent the slit 23 from opening.
[0050]
When the set lengths of the flexible rebars 5, 5,... Provided inside the mesh bag 4 are connected to the mesh bag 7, a stapler such as a stapler is used by sewing the mesh bag 23, or an instant adhesive is used. It is possible to use both.
[0051]
In FIG. 15, the opening portion of the mesh bag 7 is not a slit 23, but merely shows a cut-away portion for convenience of illustration in a perspective view.
[0052]
It is needless to say that the embodiments of the invention of this application are not limited to the above-described embodiments. For example, as shown in FIG. 6, the ring head 9 ″ of the anchors 8, 8 ′ has a rectangular cross section . It may be formed as follows. Further, the mesh bag 7 may be bundled two or more together. Further, it is needless to say that the cement paste 10 'in each mesh bag 7 can be made of two or more bodies, and that two or more reinforcing bars 5 such as flexible reinforcing bars to be installed can be bundled.
[0053]
As a design change, a lath net or the like can be set after setting the mesh bag 7 as the frame 11 to the anchors 8 and 8 ', and the concrete can be sprayed and cast.
[0054]
In addition to the above-described embodiments, the present invention can be applied to a side slope of a railway other than the side slope of a road, and a slope such as an open channel or a cross road.
[0055]
【The invention's effect】
As described above, according to the invention of this application, basically, at the time of stabilization work for protecting side slopes such as railroads and roads, there is no reinforcement at the site accompanying concrete casting such as free frame construction. No manual work such as construction or form setting is required . Therefore, since the construction efficiency is good, the safety is high, and the work efficiency is good, the cost can be reduced . In addition, construction is performed as designed with high reproducibility of high-precision construction, and an excellent effect that reliability of slope stability is enhanced is exhibited.
[0056]
Further, according to the invention described above, with respect to the flexibility of the mesh bag closed cross section of the vinyl or the like, furnished in a state in which the mesh bag vinyl such as forming a frame body has previously inserted a reinforcement such as a flexible reinforcing bar It has become so that is. For this reason, it is possible to manufacture a factory in advance at the time of loading into the site, and from this point, the work is extremely easy, and there is an effect that the construction can be performed safely and efficiently.
[0057]
In addition, an excellent effect is obtained in which the exudation of the cement paste or the cement milk from the mesh bag through the mesh is integrated around the periphery and solidified.
[0058]
Thus, in the slope stabilizing device, the mesh bag in which the reinforcing bar is inserted is internally provided in the mesh bag, and a solidifying material such as cement paste is provided in the mesh bag via the reinforcing bar. By performing the press-fitting, there is an effect that it is easy to inject and fill a solidifying material such as cement paste or cement mortar into the mesh bag, sufficiently maintaining the shape retention of the frame, and It is easy to handle.
[0059]
Then, for example, the anchors are vertically and horizontally arranged in a matrix in the vertical and horizontal directions in the ground on the slope, and a simple operation of inserting the mesh bag into their ring heads, or the set of one-way frame formation is surely performed. The effect is that the set posture is reliably protected by the anchor, so that the construction state of the slope stabilization frame is sufficiently ensured over time, and the collapse of the ground and leakage of groundwater are sufficiently prevented. There is.
[Brief description of the drawings]
FIG. 1 is a partial cutaway perspective view of an apparatus according to one embodiment.
FIG. 2 is a partially cut-away side view of a setting state of the inclined surface.
FIG. 3 is a cross-sectional view of a setting posture with respect to a slope of a frame in a state where a solidified material is filled.
FIG. 4 is a plan view of a set posture of a matrix-shaped frame with respect to a ground on a slope.
FIG. 5 is a perspective view of a crossing portion of the frame.
FIG. 6 is a cross-sectional view illustrating a mounting posture of a frame to a ground through a ring head.
FIG. 7 is a schematic perspective view of a main anchor.
FIG. 8 is a schematic perspective view of an auxiliary anchor.
FIG. 9 is a schematic plan view of another construction example.
FIG. 10 is a schematic longitudinal sectional view of the same.
FIG. 11 is a longitudinal sectional view of another specific embodiment.
FIG. 12 is a partial cross-sectional view of the same.
FIG. 13 is a partially enlarged perspective view of forming a slit in the mesh bag.
FIG. 14 is a schematic perspective view of a slide insertion process of the flexible rebar interior into the mesh.
FIG. 15 is a perspective view showing a connection state of a flexible reinforcing bar in a mesh bag via a long nut.
FIG. 16 is a perspective view of a slit stitch of the mesh bag after the mesh bag inside the flexible reinforcing bar is connected to the mesh bag.
[Explanation of symbols]
1 Ground 2 Slope
2 'concave portion 3 slope stabilizing device 4 mesh bag (first mesh bag)
5 Flexible rebar
5 'male screw 6 spacer 7 mesh bag (second mesh bag)
8, 8 'anchor 9, 9' ring head 10 cement paste (solidifying material)
10 ' cement paste (solidifying material)
11 frames
12 pits
13 Joint pipe
14 Screw
16 Anchor
19 Screw thread
20 hook pins
21 slit
23 slit
24 long nut
24 'female screw
25 Stipula

Claims (7)

By inserting a flexible reinforcing bar into a flexible first mesh bag to form a frame base, and further inserting the frame base into a flexible second mesh bag. A method of stabilizing the slope by installing a previously formed frame on the slope of the ground,
Forming a plurality of pits at a predetermined pitch on the slope of the ground,
In each of the plurality of formed pits, an anchor is fixed,
In the pit where the anchor was fixed, concrete was poured,
On the slope, lay the previously formed frame along the anchor,
With the anchor, the laid frame is engaged,
Filling the first mesh bag of the frame with a solidifying agent,
A slope stabilization method, wherein a solidifying agent is filled in the second mesh bag of the frame. A frame base is formed by inserting a flexible reinforcing bar into a flexible first mesh bag, and then a plurality of flexible second mesh bags are connected to a slit-formed joint. By connecting via a pipe, further, by inserting the frame base into the connected second mesh bag, a frame previously formed, by installing on the slope of the ground, A method of stabilizing the slope,
On the slope of the ground, a plurality of anchors with hooks are fixedly provided at a predetermined pitch,
On the slope, lay the previously formed frame along the anchor,
Filling the first mesh bag of the frame with a solidifying agent,
Filling the second mesh bag of the frame with a solidifying agent,
A slope stabilizing method, wherein a frame base of the laid frame is hooked on a hook of the anchor so that the frame base is fixed in a tensioned state by the anchor through the slit. Law. The slope stabilization method according to claim 1, wherein the frame base has a bent spacer in addition to the flexible reinforcing bar inside the frame base. The slope stabilization method according to claim 1, wherein, in the step of laying the frame, the frame is laid in any one of a column shape, a row shape, and a matrix shape. An apparatus used in the slope stabilization method according to any one of claims 1 to 4,
A frame base including a flexible reinforcing bar, a bent spacer, and a flexible first mesh bag including the flexible reinforcing bar and the spacer inside;
A frame formed by inserting the frame base into a flexible second mesh bag. An apparatus used in the slope stabilization method according to any one of claims 1 to 4,
A plurality of frame bases including: a flexible reinforcing bar having an external thread formed at an end; a bent spacer; and a flexible first mesh bag including the flexible reinforcing bar and the spacer inside;
A frame formed by inserting the frame base into a flexible second mesh bag;
A female nut is formed on the inside, and a long nut for connecting the plurality of frame bases in the frame;
One end of the long nut is screwed to an end of the flexible reinforcing bar of the inserted one frame base,
The other end of the long nut is screwed into an end of a flexible reinforcing bar of another inserted frame base, and the other end of the long nut is screwed. A solidifying agent is filled in the first mesh bag of the frame,
The slope stabilizing device according to claim 5, wherein the second mesh bag of the frame is filled with a solidifying agent.

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