KR102627320B1 - Inclined grouting equipment for reinforcement of soft ground - Google Patents

Abstract

The present invention relates to inclined grouting equipment for reinforcing soft ground. To be more specific, when excavating a large area of soft ground, inclined grouting on an inclined excavation slope is performed to prevent collapse or damage to the excavated slope. The grouting fixture can be rotated left and right by the rotating shaft, and the drilling base fixed on the other side of the grouting fixture can be easily placed at an angle. By developing an inclined grouting equipment that enables grouting work even on inclined slopes, the cost of inclined grouting has been greatly improved. This relates to inclined grouting equipment for reinforcing soft ground, which allows the cost of excavating soft ground to be significantly reduced by significantly reducing the construction period, and the structure of the grouting equipment is also simple to manufacture, making the manufacturing cost low.

Description

Inclined grouting equipment for reinforcement of soft ground}

The present invention relates to inclined grouting equipment for reinforcing soft ground. To be more specific, when excavating a large area of soft ground, inclined grouting on an inclined excavation slope is performed to prevent collapse or damage to the excavated slope. The grouting fixture can be rotated left and right by the rotating shaft, and the drilling base fixed on the other side of the grouting fixture can be easily placed at an angle. By developing an inclined grouting equipment that enables grouting work even on inclined slopes, the cost of inclined grouting has been greatly improved. This relates to inclined grouting equipment for reinforcing soft ground, which allows the cost of excavating soft ground to be significantly reduced by significantly reducing the construction period, and the structure of the grouting equipment is also simple to manufacture, making the manufacturing cost low.

In general, when attempting to construct a structure directly on the ground, if the ground is soft ground composed of soft soil such as coastal clay soil or layered clay soil due to the topographical characteristics, the ground is improved and reinforced, and the ground is improved and reinforced. In cases where it is necessary, work is being done to form a vertical water barrier in the ground.

The agitation device for ground improvement used to improve soft ground and form vertical cutoff walls is usually used after the auger shaft has penetrated the ground to be improved to the desired depth, and then when the auger shaft is pulled out, a solidifying agent such as cement paste or solidifying material is used. The soil to be improved and the cementing agent are mixed (chemical injection method) and stirred (agitation method) while spraying the chemical through the improvement agent spout formed at the tip of the auger shaft to improve the ground or form a water barrier.

However, the agitation method has the problem that drilling and agitation are not possible in soils that are weathered rock or higher, and drilling and agitation require attaching a hammer bit to the tip of the rod, which not only takes a lot of time but also increases costs. In addition, the use of a hammer bit has the limitation that soil and sand are discharged during work, deteriorating the surrounding environment.

On the other hand, the chemical injection method has improved permeability due to the development of the injected chemical, but there is a problem in that when the underground ground is uncertain, the improved bulb is formed uncertainly due to tilting of the weak ground.

Figure 1 is a diagram showing the construction process of drilling and casting-in-place piles in the ground with a typical stratum structure. The casing (300) is penetrated and the soil layer (110) is excavated with soil excavation equipment (210) to create a rock layer (120). ), the earth excavation equipment 210 is pulled out, the rock excavation bit 220 enters the inside of the casing 300, the rock layer 120 is excavated to the design depth, and the reinforcing bar 310 is inserted into the excavation hole. Afterwards, the cast-in-place pile is completed by pulling out the casing 300 while pouring concrete 330 through the tremie pipe 320. In this way, in the past, excavation work was performed using separate bits at intervals in the soil layer and rock layer, but this had the limitation of not only increasing the construction period but also being uneconomical. Moreover, as shown in FIG. 1, the excavation of the rock layer 120 is performed at once using a large rock excavation bit 220 with the same diameter as the excavation hole formed in the soil layer 110, so the noise generated during the excavation process of the rock layer 120 Excessive vibration was bound to be large, and in the case of urban construction, there was a problem of damage to surrounding structures and civil complaints due to noise and vibration during the excavation process.

In addition, the conventional soil excavation equipment 210 has a problem in that it can only be used vertically, so in order to perform grouting on a large area such as 2 to 3 soccer fields, grouting must also be performed on inclined areas. There was no equipment for grouting the part in the photo, and in order to grout such an inclined part, a grouting device that performs grouting at an angle has been proposed in Utility Model Registration No. 20-0428590, but since the device has many components, it There was a problem in that it was difficult to manufacture and could not operate freely even in a small space.

Registered Patent Publication No. 10-1527723

The purpose of the present invention is to solve this problem. In order to prevent collapse or damage to the excavated slope when excavating a large area of soft ground, inclined grouting for the inclined excavation slope is performed by attaching a grouting fixture to the rotating shaft. By developing a tilt grouting equipment that enables rotation to the left and right and allows grouting work on slopes by arranging the perforation base fixed on the other side of the grouting fixture at an angle, grouting is also possible on slopes, and the cost of slope grouting is much higher. In addition to the shortened construction period, it is possible to significantly reduce the cost of excavating soft ground, and the structure of the grouting equipment is simple to manufacture, providing slope grouting equipment for reinforcing soft ground that requires low manufacturing costs.

This object of the present invention is a grouting fixture hinged to a first hinge portion rotatably forward and backward at the end of the excavator's boom and hinged to a second hinge portion at the end of the arm cylinder of the excavator, and one side of the grouting fixture. a rotating shaft portion installed between the first and second hinge portions, a pair of rotating cylinders installed on both sides of the rotating shaft portion and operated to expand and contract, and a driller installed on the other side of the grouting fixture and rotating together with the grouting fixture. This is achieved by the inclined grouting equipment for reinforcing soft ground according to the present invention, which includes a part.

The inclined grouting equipment for reinforcing soft ground according to the present invention includes a grouting fixture hinged to a first hinge portion so as to be rotatable forward and backward at the end of the excavator's boom and hinged to a second hinge portion to the end of the arm cylinder of the excavator. , a rotating shaft portion installed between the first and second hinge portions on one side of the grouting fixture, a pair of rotating cylinders installed on both sides of the rotating shaft portion and operated to expand and contract, and installed on the other side of the grouting fixture to form the grouting fixture. In order to prevent collapse or damage to the excavation slope when excavating a large area of soft ground, including a drilling base that rotates with the By developing an inclined grouting device that enables grouting even on slopes by arranging the perforation base fixed on the other side of the grouting fixture at an angle, the cost of slope grouting is significantly reduced, and the construction period is also shortened, significantly reducing the cost of excavating soft ground. It is possible to achieve significant savings and the structure of the grouting equipment is simply manufactured, which has the excellent effect of lowering the manufacturing cost.

Figure 1 is a diagram showing the construction process using a conventional ground improvement device.
Figures 2a and 2b are a plan view and partial longitudinal cross-sectional view of soft ground reinforcement work for burying combustion residues in soft ground using inclined grouting equipment for soft ground reinforcement according to the present invention.
Figure 3 is a schematic perspective photo of the slope grouting equipment for reinforcing soft ground according to the first embodiment of the present invention.
Figures 4a and 4b are a side view of the inclined grouting equipment for reinforcing soft ground according to the first embodiment of the present invention and an operation diagram showing the left and right rotation operation of the grouting fixture of the grouting equipment.
Figure 5 is a perspective photo showing the connection between the grouting fixture and the boom of the slope grouting equipment for reinforcing soft ground according to the first embodiment of the present invention.
Figure 6 is a schematic diagram showing the left and right rotation state of the grouting fixture of the inclined grouting equipment for reinforcing soft ground according to the first embodiment of the present invention.
Figure 7 is an enlarged perspective photo of the fixed body of the slope grouting equipment for reinforcing soft ground according to the first embodiment of the present invention.
Figure 8 is a schematic longitudinal cross-sectional view of the rotating shaft of the inclined grouting equipment for reinforcing soft ground according to the first embodiment of the present invention.
Figure 9 is a cross-sectional view schematically showing the state in which grouting is performed on a slope by slope grouting equipment for reinforcing soft ground according to the first embodiment of the present invention.

As shown in FIGS. 3 and 4, the inclined grouting equipment (A) for soft ground reinforcement according to the first embodiment of the present invention includes a grouting fixture hinged and fixed to the end of the boom (1) of the excavator (P) 2) and a perforating base (3) fixed to the other side of the grouting fixture (2).

The excavator (P) is capable of rotating 360 degrees by freely moving the boom (1) forward and backward at a certain rotation radius without a separate support means, so that the position of the boom (1) can be easily changed. , Fundamentally, it can be easily placed in an appropriate position on a slope using an excavator (P), and therefore grouting work on a slope can be performed quickly and easily.

As shown in FIG. 5, the boom (1) of the inclined grouting equipment (A) for reinforcing soft ground is hinged to the first hinge portion (21) so as to be rotatable forward and backward at the end (11) of the boom (1). The grouting fixture ( 2) is installed so that it can be rotated to the left or right.

In this embodiment, the first hinge part 21 and the second hinge part 22, which are hinged to the boom bar 1, are hinged on one side of the grouting fixture 2, and soft ground is excavated on the other side. The grouting perforation base (3) is fixedly installed.

As shown in FIG. 7, on one side of the grouting fixture (2) in contact with the boom (1), a first hinge portion (21) hinged to the end of the boom (1) and the arm cylinder (12) are provided. ) and a second hinge portion 22 hingedly fixed to the end of the shaft, and a rotating shaft portion 23 installed between the first hinge portion 21 and the second hinge portion 22 to rotate the grouting fixture 2. ), and one end is hinged and fixed to the extended end (24a) of both extension parts (24) extending a certain length in both directions of the second hinge part (22), and the other end is attached to the upper part of the grouting fixture (2). A pair of left and right rotation cylinders (26) are hinged and fixed to the arranged fixing part (25). The cylinder 26 for left and right rotation has one end hinged and fixed to the extended ends 24a of both extension parts 24 extending a certain length in both directions of the second hinge part 22, and the other end is attached to the grouting. It is hinged and fixed to the fixing part 25 disposed at the top of the fixing stand 2, so that the lower extension end 24a is hinged and fixed to the upper fixing part 25 and is formed to have a trapezoidal shape with upper and lower beams. Since the length of the extension end 24a is formed to be long, the tilt angle at which it is rotated can be made large.

To explain this in more detail, the first hinge portion 21, the second hinge portion 22, the rotating shaft portion 23, and the extension portions on both sides 24 of the grouting fixture 2 are welded to each other and integrated into one body. It is formed on the manufactured fixed body 20, and the fixed body 20 is manufactured to have sufficient mechanical strength.

As shown in FIG. 8, the rotating shaft portion 23 includes a central axis 23a protruding from one side of the grouting fixture 2, a bearing 23b surrounding the central axis 23a, and the fixed body. It is formed on (20) and includes a casing (23c) that surrounds the central axis (23a) and the bearing (23b) and rotates. When the left and right rotation cylinder (26) is operated to rotate in one direction, the grouting fixture ( 2) is operated to rotate around the rotation axis portion (23).

In this embodiment, the cylinder 26 for left and right rotation has an angle of about 52.5° on both sides of the center line s in the left and right direction in such a way that one cylinder 26 is extended and the other cylinder 26 is contracted. Since it can be tilted at an angle, the grouting fixture 2 can be tilted at an angle of about 52.5° to both left and right.

On one side of the grouting fixture (2) in contact with the drilling base portion (3), a drilling machine (31) for excavating soft ground, and a drilling guide (32) for guiding the double pipe or triple pipe used in the drilling machine (31) And, a lifting gear (not shown) is installed to drive the drilling machine 31 up and down.

In this embodiment, the perforation base portion 3 of the grouting fixture 2 is installed on the right side when viewed from the direction of the excavator P, but it is not limited to this and may also be installed on the left or front side. .

Since the configuration of the driller 31, the drilling guide 32, and the lifting gear attached to one side of the grouting fixture 2 is already known, detailed description thereof will be omitted.

In this embodiment, components such as the drilling base unit 3 installed on the grouting fixture 2, the cylinder 26 for left and right rotation of the grouting fixture 2, and the arm cylinder 12 of the boom pole 1 Since the boom cylinder 13 that controls the boom 1 and the operation control unit (not shown) that operates the rotation of the boom 1 are installed separately on the outside of the excavator P, the operation control unit (not shown) Slope grouting work can be easily performed without the need to go up and down with an excavator (P).

The operation of the slope grouting equipment (A) for reinforcing soft ground according to the first embodiment of the present invention having the above configuration for slope grouting of the slope (T) will be described in detail below.

As shown in Figure 2b, when grouting a slope (T) inclined to the left is desired, the excavator (P) is first moved to a place where grouting work is to be performed on the slope (T), The boom (1) of the excavator (P) is placed close to the inclined slope (T).

In this state, the left and right rotating cylinder (26) is manipulated so that the grouting fixture (2) is disposed inclined to the left so that the grouting fixture (2) has the same inclination angle as the inclined slope (T) inclined to the left. Control.

To explain this in more detail, as shown in FIG. 6, the left and right rotation cylinder 26 is extended and the left left and right rotation cylinder 26 is contracted, so that the grouting fixture 2 is connected to the rotation axis 23. As it rotates to the left through ), the grouting fixture (2) is disposed inclined at the same inclination angle as the inclined slope (T), and is placed inside the inclined slope (T), which is the position where grouting is required, to perform inclined grouting work. It is placed in a ready state.

In this state, as shown in FIG. 9, when the driller 31 installed on one side of the grouting fixture 2 is operated to excavate to a certain depth and the grouting chemical solution is injected, inclined grouting ( G) becomes possible.

As described above, the slope grouting equipment for reinforcing soft ground according to the first embodiment of the present invention performs grouting work on a slope by adjusting the position of the boom of the excavator and rotating the grouting fixture fixed to the end of the boom in the left and right directions. It is very easy to perform slope grouting work by arranging it at an angle according to the slope of the slope (T). This makes it possible to quickly carry out slope grouting work, which not only shortens the construction period but also significantly reduces construction costs. will be.

In addition, the slope grouting equipment (A) for reinforcing soft ground that performs such slope grouting work has a simple structure, is easy to manufacture, and is inexpensive to manufacture, so it can be manufactured in large quantities and used at many construction sites.

The inclined grouting equipment for reinforcing soft ground according to the present invention can be said to be an invention with industrial applicability because it is said to be possible to repeatedly manufacture the same product in the general grouting equipment manufacturing industry.

1: Boom 2: Grouting fixture
3: Perforation base 4: Operation control unit
11: End 12: Arm cylinder
21: first hinge portion 22: second hinge portion
23: rotational shaft portion 24: extension portion
25: fixing part 26: cylinder
20: fixed body

Claims (5)

In the inclined grouting equipment (A) for reinforcing soft ground,
The inclined grouting equipment (A) for reinforcing soft ground includes a grouting fixture (2) hinged and fixed to the end of the boom (1) of the excavator (P) and a perforation base (3) fixed to the other side of the grouting fixture (2). Including,
The hinge fixation of the boom (1) and the grouting fixture (2) of the inclined grouting equipment (A) for reinforcing soft ground is a first hinge portion (21) rotatable forward and backward on the end (11) of the boom (1). ) and is hinged and fixed to the second hinge portion 22 at the end of the arm cylinder 12 of the excavator P,
On one side of the grouting fixture (2) in contact with the boom (1), a first hinge portion (21) hinged to the end of the boom (1) and a first hinge portion (21) hinged to the end of the arm cylinder (12) are provided. 2 A hinge portion 22, a pivoting shaft portion 23 installed between the first hinge portion 21 and the second hinge portion 22 to rotate the grouting fixture 2, and the second hinge portion One end is hinged and fixed to the extension end (24a) of both extension parts (24) extending a certain length in both directions of (22), and the other end is fixed to the fixing part (25) disposed on the upper part of the grouting fixture (2). A pair of hinged left and right rotation cylinders (26) are installed so that the grouting fixture (2) can be rotated to the left or right of the boom pole (1) at a certain angle,
The rotating shaft portion 23 has a central shaft 23a fixed in the middle of the fixed body 20, a bearing 23b surrounding the central shaft 23a, and one end fixed to the grouting fixture 2. It includes a casing (23c) that surrounds and rotates the bearing (23b),
The cylinder 26 for left and right rotation has one end hinged and fixed to the extended ends 24a of both extension parts 24 extending a certain length in both directions of the second hinge part 22, and the other end is attached to the grouting. It is hinged and fixed to the fixing part 25 disposed on the upper part of the fixing stand 2, so that the lower extension end 24a is hinged and fixed to the upper fixing part 25 to have a trapezoidal shape with upper and lower beams,
The pair of cylinders for left and right rotation (26) can be rotated obliquely at an angle of about 52.5° to both left and right with respect to the center line (s) in the left and right direction in such a way that one side of the cylinder (26) is extended and the other side of the cylinder (26) is contracted. Inclined grouting equipment for reinforcing soft ground, characterized in that the grouting fixture (2) is tilted to the left and right at an angle of about 52.5°. delete delete delete delete