KR100458381B1 - Construction method of sand-mat for reinforcing ground of weakness - Google Patents

Abstract

The present invention relates to a sand mat construction method for laying sand on the ground of the soft ground so that various equipment for the improvement of the soft ground can be entered on the soft ground. The sand layer is formed by the air spray method by the hopper, and the sand spreader using the buoyancy vacuum tank as the traveling frame and the sand layer by the relay type sand transportation method between the crawler cranes. It is possible to prevent the settlement and elevation of soft ground due to uneven laying, minimize the amount of sand loss required for sand layer construction, and construct sand layer with excellent reinforcement and drainage performance throughout the soft ground in a very short time. The present invention relates to a sand mat construction method for reinforcing soft ground.

Sand mat construction method for reinforcing soft ground according to the present invention, the division section (101) for dividing the soft ground (1) into a first zone (A) and the second zone (B) as the outer portion; A crane spraying step 102 of spraying sand on the ground surface of the first zone A using the crawler crane 10; A sand spreader entry step 103 of allowing the sand spreader 20 having the buoyancy vacuum tank as a traveling frame to enter the first zone A; A sand loading step 104 for loading sand into the sand spreader 20 which has entered the first zone A using the crawler crane 10; Characterized in that a series of construction steps consisting of a sand laying step 105 for laying the sand loaded in the sand sanding machine 20 on the ground surface of the second zone (B).

In addition, a zone dividing step (201) for dividing the soft ground (1) into a first zone (A) as an outer portion, a second zone (B) as a central portion, a third zone (C) as a central portion; A crane spraying step 202 of spraying sand on the ground surface of the first zone A using the crawler crane 10; A crane entry step 203 for entering the small and small crawler cranes 30 into the first zone A by the reinforcing plate 40; A relay spraying step 204 of using a hopper (11) (31) provided in each crawler crane (10) (30) to aerially spray sand on the ground surface of the second zone (B); A sand spreader entry step 205 for entering the sand spreader 20 having the buoyancy vacuum tank as a travel frame into the second zone B; A relay loading step 206 for relaying sand to the sand spreader 20 using the hoppers 11 and 31 of each crawler crane 10 and 30; Characterized in that a series of construction steps consisting of a sand laying step 207 for laying the sand loaded in the sand sanding machine 20 on the ground surface of the third zone (C).

Description

Construction method of sand-mat for reinforcing ground of weakness}

The present invention relates to a sand mat construction method for laying sand on the ground of the soft ground so that various equipment for the improvement of the soft ground can be entered on the soft ground. The sand layer is formed by the air spray method by the hopper, and the sand spreader using the buoyancy vacuum tank as the traveling frame and the sand layer by the relay type sand transportation method between the crawler cranes. It is possible to prevent the settlement and elevation of soft ground due to uneven laying, minimize the amount of sand loss required for sand layer construction, and construct sand layer with excellent reinforcement and drainage performance throughout the soft ground in a very short time. The present invention relates to a sand mat construction method for reinforcing soft ground.

In general, the areas formed by reclamation, dredging, or reclamation of coasts, rivers, lakes, and harbors not only form wetlands mixed with water and viscous soils or water, but also contain void water in the ground. Therefore, since the overall strength of the ground is very weak to form a soft ground, in order to use such an area as an industrial area or a commercial area, the work to improve the soft ground to be suitable for site utilization must be preceded.

As described above, in the method for improving the soft ground, a sand pillar or a drain paper board is inserted into the ground by a casing, such as a sand drain method or a paper darin method. Vertical drainage method to promote consolidation of the soft ground by discharging it to the ground, and sand compaction pile to reinforce the bearing capacity along with the discharge of underground gap water by forming sand compaction pile on the ground. Various methods such as construction method, forced replacement method by santo landfill, or lime column method using lime pillar are adopted in various ways depending on the site conditions. The vertical drainage method described above is widely used in the method.

In order to implement the above-mentioned soft ground improvement method, various heavy equipment and a large amount of equipment should be carried on the soft ground. Therefore, the ground surface of the soft ground should be reinforced first. Form trenches on the surface to naturally dry the moisture on the surface, and apply sand to the bulldozer with high-strength special mats (Gio-grid, Gio-mat, Polyester mat, etc.) on the surface of the soft ground. A method of laying sand on the soft ground and a method of spraying sand together with water by using a high pressure pump on the ground surface of the soft ground on which the special mat is attached are used.

However, in the conventional soft ground reinforcement method as described above, the natural drying method by the trench takes a very long time to dry the surface of the soft ground to the extent that various heavy equipment can be entered, causing excessive delay in the construction period. When the vertical drainage method is applied to the improvement of the soft ground where the ground surface is dried, a sand layer for horizontal drainage should be separately placed on the ground surface for drainage of the ground gap water discharged by sand pillars or drain paper. Therefore, there was a problem that the construction cost is excessively consumed, and there is a problem that is severely affected by the climate depending on the region as well as the limitation on the depth and inclination angle of the trench.

In addition, in the conventional soft ground reinforcement method, the sand laying method using a high tension mat and a bulldozer firstly lays a high tensile mat having a high tensile strength of 15 ton / m ² (1.5 kg / cm ² ) on the ground surface of the soft ground. Even though the soft ground itself is very weak, the soft ground partially subsides or rises due to the weight of the bulldozer entering the soft ground, especially the soft ground corresponding to the point of sand laying. Since excessive local sedimentation occurs due to the weight of the sand and the load of the sand, there is a problem that a large amount of sand must be laid again in this part.

As a result of the excessive local sedimentation of the soft ground generated at the time of sand laying, the large amount of sand must be laid again, resulting in an increase in the overall construction cost and a delay in the construction period, and the bulldozer running on the soft ground. Partial sedimentation and uplift continue to occur during the process, making it almost impossible to lay a layer of sand with a certain thickness as specified in the specification, thereby creating a stable ground with a constant bearing force over a large area of soft ground. There was a problem that could not be.

In the conventional soft ground reinforcement method, in the sand spraying method in which sand is sprayed together with water using a high pressure pump, the soft ground having a rather large area has a large area because the sand spreading distance is limited by the capacity of the pump. There was a problem that was difficult to apply, and in the sand spreading process, heavy and coarse sand particles were laid on the soft ground which is close to the pump, and light and thin sand particles were laid on the soft ground which was far from the pump. There is a problem that the intensity distribution of the sand is nonuniform over the entire area.

As described above, if the intensity distribution of the sand is nonuniform over the entire area of the soft ground, not only a problem arises in that a lot of constraints occur on the traveling of the various heavy equipment input for the improvement of the soft ground, but also perpendicular to the soft ground on which the sand layer is formed. When the drainage method is applied, the water sprayed with the sand is easily drained through the sand layer and the sand gap discharged from the basement is easily drained through the sand layer. Since the ground clearance discharged from the ground and underground is not easily drained through the sand layer, it is difficult to secure a horizontal drainage layer by sand.

The present invention has been made to solve the above-mentioned problems, the sand mat construction method for reinforcing soft ground according to the present invention to form a sand layer in the air spray method by a crawler crane and hopper in the outer region of the soft ground In the central area, sand layer is used as a buoyancy vacuum tank as a traveling frame, and sand layer is formed by relay sand transportation method between crawler cranes, so that soft ground subsidence and elevation due to excessive entry of equipment and sand spreading It is to be a technical task of the present invention to minimize the amount of sand loss required for the construction of the sand layer and at the same time make it possible to construct a sand layer having excellent reinforcement and drainage performance over the entire soft ground in a very short time. .

The present invention for achieving the above technical problem, in the soft ground reinforcement method for laying sand on the ground surface of the soft ground on which the high-tensile mat is installed, the soft ground corresponds to the first zone and the central portion corresponding to the outer portion A zone dividing step of dividing into a second zone; A crane spraying step of spraying sand on the ground surface of the first zone outside the soft ground using a crawler crane; A sand spreader entering step of entering a sand spreader having a buoyancy vacuum tank as a driving frame into the first zone; A sand loading step of loading sand into the sand spreader entering the first zone by using a crawler crane outside the soft ground; Characterized in that a series of construction steps consisting of a sand laying step of laying the sand loaded in the sand spreader in a certain thickness on the ground surface of the second zone.

In addition, the present invention comprises a zone dividing step of dividing the soft ground into a first zone corresponding to the outer portion, a second zone corresponding to the central portion, and a third zone corresponding to the central portion; A crane spraying step of spraying sand on the ground surface of the first zone outside the soft ground using a crawler crane; A crane entry step of entering a small crawler crane satisfying the allowable ground pressure of the first zone having a sand layer into the first zone by a reinforcing plate; A relay spraying step of spraying sand on the ground surface of the second zone in a relay manner by using respective hoppers provided in the crawler crane outside the soft ground and the crawler crane in the first zone; A sand spreader entering step of entering a sand spreader having a buoyancy vacuum tank as a driving frame into the second zone; A relay loading step of relaying sand in a sand sander using a hopper of each crawler crane; Characterized in that a series of construction steps consisting of a sand laying step for laying the sand loaded in the sand spreader on the ground surface of the third zone.

Figure 1 (a) and (b) is a block diagram showing a sand mat construction step according to the present invention.

2 is an explanatory diagram showing a state in which a section of a soft ground is divided for sand mat construction according to the present invention;

Figure 3 is a construction showing a crane spraying step according to the present invention.

Figure 4 (a) and (b) is a side view and a front view showing a sand spreader used in the present invention.

Figure 5 is a construction showing the sand loading step and the sand laying step according to the present invention.

Figure 6 is a state of use of the reinforcing plate used in the present invention.

7 is a construction showing the relay spraying step according to the present invention.

<Explanation of symbols for main parts of drawing>

1: Soft ground 2: Sand-mat 10,30: Crawler crane

11,31 Hopper 12,32 Crane Boom 13,33 Wire

14,34: crawler 20: sand spreader 21: sand loading

22: orbit 23: orbit pontoon 24: track shoes

25: conveyor 26: sand loss cover 27: drive motor

28 frame 29 support base 40 reinforcement plate

41: base 42: support plate

The present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

Figure 1 (a) and (b) is a block diagram showing a sand mat construction step according to the present invention, Figure 2 is an explanatory view showing a state divided the area of the soft ground for sand mat construction according to the present invention. 3 is a construction showing the crane spraying step according to the present invention, Figure 4 (a) and (b) is a side view and a front view showing a sand spreader used in the present invention, Figure 5 is the sand according to the present invention Figure 6 is a construction diagram showing the loading step and the sand laying step, Figure 6 is a state diagram of the use of the reinforcing plate used in the present invention, Figure 7 is a construction diagram showing the relay spraying step according to the present invention, reference numeral 2a not shown in the drawings Is the sand loaded on the outside of the soft ground.

Sand mat construction method for reinforcing soft ground according to the present invention is divided into two construction methods, as shown in the process block diagram of Figure 1, one of the construction method (hereinafter, "first construction method" Is called) is divided into a series of construction stages consisting of zone division step 101, crane spraying step 102, entry step 103 of sand spreader, sand loading step 104, sand laying step 105 , The other construction method (hereinafter referred to as "the second construction method") is the zone dividing step 201, crane spraying step 202, crane entry step 203, relay spraying step 204, sand spreader It goes through a series of construction steps consisting of an entry step 205, a relay loading step 206, a sand laying step 207.

First, the first construction method according to the present invention is a high-tension special mat (Gio) for laying the sand layer (sand mat) on the ground surface of the soft ground formed by reclamation or dredging or reclamation of the shore, river, lake, harbor, etc. -grid, Gio-mat, Polyester mat, etc.) is first laid, and then divided into two parts of the outer area and the central area of the soft ground to apply the first construction method of the present invention (101) Will go through.

As shown in FIG. 2, the zone dividing step 101 includes a first zone A and a crawler crane, which are outer parts of the entire area of the soft ground 1 that can be sprayed by sand by a crawler crane. By dividing the sand into the second zone (B), which is impossible to spray the sand by air, the length of the crawler crane and the crane boom to be used in the first construction method of the present invention is determined. In the embodiment, the outer portion having a width of 50m is defined as the first zone A in the soft ground 1 having a square composition having a width of 200m on one side, and thus the center portion of the square shape having a width of 100m on one side is formed. Zone 2 (B) was set.

In addition, the outer region of the soft ground (1) is a natural ground secured enough to drive a large crawler crane, or a large crawler crane such as a bank or road built around the soft ground (1) It can be an artificial ground for the running of, the high-strength mat not shown, which is laid on the ground surface of the soft ground (1) is firmly fixed to the outer ground side to the load of the sand laid on the soft ground (1) Will be supported.

In addition, in FIG. 2, the part shown with the code | symbol "C" in the inside of the 2nd zone B is the 3rd zone applied to the 2nd construction method of this invention in the part explaining the 2nd construction method of this invention. It will be described in more detail, in addition to the soft ground (1) of the rectangular composition shown in Figure 2 can be applied to the construction method according to the present invention to the various soft ground (1) formed of various other composition.

After passing through the zone dividing step 101 as described above, a crane spraying step 102 for spraying sand with a predetermined thickness on the ground surface of the first zone A outside the soft ground 1 using a crawler crane. Go through).

As shown in FIG. 3, the crane spraying step 102 uses a crawler 14 as a traveling frame, and can be opened and closed by a wire 13 at the tip of the crane boom 12. In the state where the large crawler crane 10 having the hopper 11 installed as a sand air dispersing means is located outside the soft ground 1, the soft ground 1 is carried by a transportation means such as a dump truck. Sand (2a) loaded on the outside of the backhoe (Pull (Drag) shovel, shovel-based excavators) using a hopper 11 of the crawler crane 10 by using a backhoe, and the sand-loaded hopper (11) The crane boom 12 is used to position the upper portion of the first zone A, and then sand is removed from the upper surface of the first zone A by opening the hopper 11 by the wire 13. It is a construction process by air spraying.

Equipment used in the crawler spreading step 102 of the construction process, in particular, the specifications of the crawler crane 10, the construction area of the first zone (A), the distance of sand spreading and the sand layer to be constructed ( Various types can be used according to the thickness of 2), but in the above-described zone dividing step 101, sand is sanded on the ground surface of the first zone A, which is divided into an outer portion having a width of 50 m, with a thickness of 80 to 150 cm. Specifications of specific equipment for spreading are listed in Table 1.

Table 1: Specification of equipment used in the crane spreading phase

division Equipment name standard Quantity Weight (kg) Remarks One Crawler crane 100ton 1 set 100,000 2 Backhoe 1.0 m ³ 1 set 28,000 Sand loading (hopper) 3 Crane boom 53m 1 set 8,400 Adjust according to the spreading distance 4 Hopper 1.0 m ³ to 3.0 m ³ 2 units 750 Adjust to Sand Thickness Daily laying ability (m ² / set) 600 Adjust according to the spreading distance Monthly construction capacity when 2 Sets are put in (m ² ) 30,000

After passing through the above-mentioned crane spraying step 102, the sand spreader entry step 103 of entering the sand spreader using the buoyancy vacuum tank as the traveling frame into the first zone (A).

The sand spreader entry step (103) is a sand spreader that can be sanded in a uniform thickness on the soft ground while running easily on the ultra soft ground such as wetlands using a vacuum tank with buoyancy act as a driving frame As the sand layer (2) enters the interior of the first zone (A), as a step for preparing the sand laying construction for the second zone (B) corresponding to the center of the soft ground (1) as a step The application of the patent application No. 9152 in 1998 and registered on November 11, 2000 (No. 280694) will be used for sand runner for wetland driving.

As shown in (a) and (b) of FIG. 4, the sand spreader 20 has a tank-type caterpillar pontoon 23 having a hollow buoyancy acting on both sides of the frame 28. ) Is fixedly installed, and at the outer circumference of the crawler pontoon 23, the track 22 is connected to a plurality of track shoes 24 in a link form so as to be pivoted by a driving roller 22a. The sand stack 21 having the hopper 21a is fixedly installed on the upper side of the 28 by the support 21b, and the conveyor 25 for installing sand is installed at the lower side of the sand stack 21 toward the front side. It is extended and installed so as to be rotated by the driving motor 27, the both sides of the conveyor 25 is made of a configuration in which the sand chamber cover 26 is installed to prevent the sand flowing out of the conveyor 25 to be lost.

The sand spreader 20 having the above-described configuration uses the endless track pontoon 23, which is a vacuum tank in which buoyancy acts, as a driving frame, so the ground pressure is very low, so that only a high-strength special mat is installed. Since the equipment is capable of easily traveling on the sand, even if the sand spreader 20 is placed in the first zone A where the sand layer 2 is reinforced with a high-strength special mat, the sand spreader 20 There is no sedimentation or bumps of the soft ground (1) due to the weight of the self, thereby allowing the sand spreader 20 to smoothly travel inside the first zone (A).

After the sand spreader entry step 103 as described above, the sand loading step 104 for loading sand in the sand spreader 20 entered into the first zone (A) using the crawler crane (10). And, the first construction method according to the present invention is completed by going through a series of construction steps consisting of a sand laying step 105 for laying the sand loaded in the sand spreader 20 on the ground surface of the second zone (B) do.

In the sand loading step 104, as shown in FIG. 5, the crawler crane 10 is placed on the outside of the soft ground 1, and on the first zone A of the soft ground 1, The crawler crane (10) using the backhoe to the sand (2a) loaded on the outside of the soft ground (1) in a state in which the sand spreader 20 to enter the position close to the second zone (B) To the hopper 11 of the sand, and the sand-loaded hopper 11 using the crane boom 12 is located on the sand stacker 21 of the sand sander 20, and then wire 13 Through the opening operation of the hopper 11 by the sand made of the construction process to drop the sand loaded on the sand stacker 21 of the sand spreader 20.

In addition, the sand sanding step 105 operates the conveyor 25 installed in the sand sanding machine 20 so that the sand loaded in the sand stacker 21 is transferred to the front side of the sand sanding machine 20. The sand spreader 20 proceeds from the first zone (A) to the second zone (B), whereby sand is deposited on the ground surface of the second zone (B). By repeatedly performing the loading step 104 and the sand laying step 105, a sand layer 2 having a constant thickness is formed on the ground surface of the second zone B.

Equipment used in the sand loading step 104 and the sand spraying step 105 of the above construction process, in particular the specifications of the sand spreader 20 is the construction area of the second zone (B) and the sand layer to be constructed Various kinds of things can be used according to the thickness of (2), but the spraying step of the crane on the ground surface of the second zone (B) divided into the center portion of the rectangular shape having a width of 100 m in the zone dividing step (101) Specifications of specific equipment for laying sand to a thickness of 80 to 150 cm using the crawler crane 10 applied to 102 are as shown in Table 2.

Table 2: Specifications of Equipment Used in Sand Loading and Sand Spraying Steps

division Equipment name standard Quantity Weight (kg) Remarks One Sand spreader 15 m ³ 1 unit 30,000 Sand Carrying Capacity 2 Crawler crane 100ton 1 set 100,000 3 Backhoe 1.0 m ³ 1 set 28,000 Sand loading (hopper) 4 Crane boom 53m 1 set 8,400 5 Hopper 1.0 m ³ to 3.0 m ³ 1 set 750 Sand loading (base material loading) Daily laying ability (m ² / set) 300 Adjust according to the installation distance Monthly construction capacity when 2 Sets are put in (m ² ) 15,000

Hereinafter, the second construction method according to the present invention will be described in detail with reference to the accompanying drawings, the second construction method of the present invention by dividing the above-described soft ground (1) into three zones, two crawler cranes With the exception of the detailed construction stage, the sand sand (2) is formed on the soft ground (1) by relay sand spraying and relay sand laying by sand transportation between crawler cranes. In this case, it is almost the same as the first construction method of the present invention.

According to a second construction method according to the present invention, a zone dividing step (201) for dividing an entire area of the soft ground (1), on which a high-tension special mat is first placed on the ground, is divided into three parts of an outer part, a central part, and a central part. Rough

As shown in FIG. 2, the zone dividing step 201 enters the inside of the first zone A from the total area of the second zone B divided by the first construction method of the present invention. By determining the middle part of the small central crawler crane and the crane boom length to be applied to the second construction method of the present invention by dividing the center part, which cannot be relayed by the small and medium crawler cranes, into the third zone (C), In a specific embodiment of the second construction method of the present invention, the remaining portion except for the outer portion having a width of 30 m is set as the third region (C) in the second area (B) of the square shape having one side width of 100 m.

After the above-described zone division step 201, the crawler crane 10 having the crane boom 12, the wire 13 and the hopper 11 as shown in FIG. In the outer surface of the ground (1) through a crane spraying step 202 for air spraying sand to the ground surface of the first zone (A) with a thickness of 80 ~ 150cm, specific construction method of the crane spraying step 202, and Specific specifications of the equipment used are made in the same manner as the crane spraying step 102 by the first construction method of the present invention.

After the above-mentioned crane spraying step 202, the medium and small crawler cranes satisfying the allowable ground pressure of the first zone A in which the sand layer 2 is formed are reinforced by the reinforcement plate. Go through the crane entry step 203 to enter inside.

In the crane entry step 203, the allowable ground pressure of the first zone A in which the sand layer 2 is formed at a predetermined thickness is calculated, and the small and small crawler cranes satisfying the allowable ground pressure are formed by reinforcing plates. By entering into the interior of the zone A, the crawler crane 10 located outside of the soft ground 1 and the relay-type sand transportation between the crawler crane entered into the interior of the first zone A are provided. As a step for constructing a forward base for constructing the sand layer 2 on the ground surface of Zone 2 (B), small and medium crawler cranes corresponding to 30 to 80 tons depending on the sand spreading distance and the thickness of the sand layer 2 are installed. As the reinforcement plate, the soft ground reinforcement plate, which was filed as a design registration application No. 3445 in 1998 and registered on May 18, 1999 (No. 241786), will be used.

As shown in FIG. 6, the reinforcement plate 40 has a support plate 42 supporting the equipment on the upper surface of the reinforcement plate 40 in which a plurality of support bars 41 are bent. It is integrally formed to distribute the ground pressure of the equipment to be placed on the upper surface of the reinforcing plate 40 in a large area, such a reinforcing plate 40 on the upper surface of the sand layer 2 of the first zone (A) Installed to enter the small and medium crawler crane 30 into the interior of the first zone (A), the sand layer (2) of 80cm thickness is formed on the ground surface of the first zone (A) where the high-tension special mat is installed The specifications of the specific equipment based on the above are as shown in Table 3.

Table 3: Specifications of Equipment Used in Crawler Entry Stage

division Equipment name standard Weight (kg) Remarks One Crawler crane 50ton 48,000 Small or medium 2 Gusset 36m ³ 14,000 Total weight 62,000 Crane + Gusset Equipment ground pressure 1.722ton / m ² (0.172kg / cm ² ) Gross weight / stiffener area

Note) Supporting stress of sand layer: 1.6ton / m ² (= 0.16kg / cm ² )

⇒ 0.8m (thickness of sand layer) * 2ton / m ³ (specific gravity of sand) = 1.6ton / m ² (0.16kg / cm ² ), so that the first area (A It is assumed that at least 0.32kg / cm ² {0.16kg / cm ² * 2 (safety factor)} is allowed.

As described above, the ground pressure (0.172kg / cm ² ) of the equipment obtained by dividing the weight of the crawler crane 30 and the reinforcement plate 40 by the area of the reinforcement plate 40 is the first zone A in which the sand layer 2 is constructed. Soft ground (1) due to the weight of the crawler crane (30) even if the above-mentioned medium and small crawler crane (30) enters the first zone (A) because it is smaller than the allowable ground pressure (0.32 kg / cm ² ). Not only does not settle or bumps, but also by the reinforcing plate 40, the crawler crane 30 will be able to travel inside the first zone (A) at a constant speed.

After passing through the crane entry step 203 as described above, each hopper 11 provided in the crawler crane 10 outside the soft ground 1 and the crawler crane 30 inside the first zone A ( 31) is passed through the relay spraying step 204 of relaying the air in the air of the second zone (B) to the ground by relay.

In the relay spraying step 204, as shown in FIG. 7, the large crawler crane 10 is positioned outside the soft ground 1, and the above-described first zone A of the soft ground 1 is located above the soft ground 1. The sand 2a loaded on the outside of the soft ground 1 is backhoeed with the medium and small crawler crane 30 entering the position close to the second zone B by the reinforcement plate 40. To the hopper 11 of the large crawler crane 10, and the sand-loaded hopper 11 using the cram boom 12 to the hopper 31 of the small and medium crawler crane 30. It is located on the upper side.

In the above state, the sand loaded in the hopper 11 is opened inside the hopper 31 of the medium and small crawler crane 30 through the opening operation of the hopper 11 by the wire 13 installed on the large crawler crane 10. In the case of dropping the sand, sand is loaded into the hopper 31 of the medium and small crawler crane 30, and the sand hopper 31 is loaded in the second zone B using the crane boom 32. After positioning on the ground surface, the construction process of air spraying the sand on the ground surface of the second zone (B) through the opening operation of the hopper 31 by the wire 33.

The equipment used in the relay spraying step 204 consisting of the above-described construction process, in particular, the specifications of the small and medium crawler crane 30, the construction area of the second zone (B), and thus the distance and the distance to be installed Various types can be used according to the thickness of the sand layer 2, but the thickness of the sand on the ground surface of the second zone (B) divided into an outer portion having a width of 30 m in the zone dividing step 201 is 80 to 150 cm thick. The specifications of the specific equipment for air spraying are as shown in Table 4. In this case, the hopper 11 mounted on the large crawler crane 10 and the hopper 31 mounted on the medium and small crawler crane 30 are used. In comparison, the larger one is usually mounted on the large crawler crane 10. Therefore, the load of sand that can be accommodated in the hopper 11 mounted on the large crawler crane 10 is small and small crawler cranes 30. Sheet in) In other words, the amount of sand that can be accommodated in the hopper 31 is greater than that. In other words, the hopper 11 having a large amount of sand is placed at the top, and the hopper 31 having a small amount of sand is located at the bottom, and the wire ( The sand dropped from the hopper 11 with a large load amount is transferred to the hopper 31 with a small load amount by the operation of 13). Even when such a dropping action is performed, the sand is dropped by the weight of the sand. 30) There is little risk of breakage, because there is a limit to the loading volume of sand that can be accommodated in the hopper 31 mounted on the medium and small crawler crane 30 even though a large amount of sand is dropped. This is because sand exceeding the limit amount is naturally not received in the hopper 31 and is dropped to the ground. That is, when the sand is filled in the hopper 31 mounted on the medium and small crawler crane 30, the extra sand is not loaded into the hopper 31 indefinitely, and the extra sand naturally falls to the ground. It is almost impossible to cause the small crawler crane 30 to break due to the weight of sand. In other words, even if a large amount of sand is dropped from the hopper 11 of the large crawler crane 10 located at the upper part. This means that the weight of the medium and small crawler cranes 30 can not be applied to the medium and small crawler cranes 30, and that heavy construction equipment such as crawler cranes have a significant safety factor in manufacturing. When designing a machine or mechanism, it determines and calculates how many times the load should be able to withstand the forces acting on the machine or mechanism. For example, a safety factor of '2' means that it can withstand up to twice the maximum working load calculated to be applied to a machine or apparatus through a technique such as structural analysis. Even if a load greater than a load is applied, the damage of a machine or a mechanism does not occur within a considerable range. To what extent such a safety factor is applied may correspond to the know-how of a manufacturer who manufactures a machine or a mechanism, Therefore, in areas where weight increases have a devastating effect on mechanical performance, such as aircraft, strict structural analysis calculates the maximum working load as accurately as possible, and the safety factor is the minimum value within the range that does not affect safety (for example, '2' 'And the following figures) are applied. In the performance impact is relatively small areas and relatively large applying a safety factor. Moreover, in the case of heavy load equipment such as cranes, safety and durability are given priority in consideration of safety and durability, so it is generally designed and manufactured to withstand even the weight of more than twice the working load. As described above, it is almost impossible to apply the weight of the medium and small crawler cranes 30 to the weight of the heavy crawler crane 30 by the sand dropped from the hopper 11 of the large crawler crane 10. Even if a weight greater than the working load is momentarily applied, the safety factor is considered, so that the small and medium crawler cranes 30 are hardly damaged by the weight of the sand to be dropped. Since the amount of sand can be adjusted, if the sand is sufficiently filled in the hopper 31 located below, Since the load applied to the medium and small crawler cranes 30 can be maintained within an appropriate range, the medium and small crawler cranes 30 are less likely to be damaged by the weight of the sand to be dropped. In addition, the sand dropped in the process of sand is dropped from the hopper 11 of the large crawler crane 10 located in the upper portion to the hopper 31 of the small and small crawler crane 30 located in the lower portion. In some cases, the small crawler crane 30 may be dropped into the ground without being loaded into the hopper 31. However, this does not cause any problems in the implementation of the present invention. This is because the cross-sectional area of the upper side of the hoppers 11 and 31 is relatively large compared to the cross-sectional area of the lower side of the hoppers 11 and 31 which are opened by the wires 13 and 33. That is, since the cross-section of the container (that is, the hopper 31) that accommodates the sand discharged from the lower side is larger than the cross-sectional area of the sand discharged from the upper side, the small and medium crawler cranes during the sand dropping process. This is because the sand dropped to the outside of the hopper 31 of the 30 can be minimized. Further, the sand dropped to the outside of the hopper 31 and stacked on the surrounding ground of the small and medium crawler crane 30 is separately included. It is possible to use it for air spraying by reloading it into the hopper 31 through the operation of the bar. The sand sprayed on the ground in the relay spraying step 204 and stacked around the small and medium crawler cranes 30 is lost. Therefore, in the sand dropping process, sand may be present to some extent as it is, without being loaded into the hopper 31, but dropped to the ground as it is. Considering that heavy construction equipment is operated by experts who have undergone rigorous qualification process, not only can a heavy duty driver be operated by a driver's license, It is further apparent that sand which is not loaded inside 31) and which is thrown to the ground as it does not affect the practice of the present invention.

Table 4: Specification of equipment used in relay spreading phase

division Equipment name standard Quantity Weight (kg) Remarks One Crawler crane 100ton 1 set 100,000 Soft ground outside 2 Crawler crane 50ton 1 set 50,000 Establishment of forward base 3 Crane boom 53m 1 set 8,400 Adjust according to the spreading distance 4 Crane boom 33m 1 set 2,640 Adjust according to the spreading distance 5 Hopper 1.0 m ³ to 3.0 m ³ 2 each 750 Adjust to Sand Thickness 6 Backhoe 1.0 m ³ 1 set 28,000 Daily laying ability (m ² / set) 300 Per set Monthly construction capacity when 2 Sets are put in (m ² ) 15,000

After the relay spraying step 204, the sand spreader 20 having the buoyancy vacuum tank, the trackless pontoon 23, as a driving frame, passes through the first zone A and the second zone ( B) through the sand sander entry step 205 to enter into the inside, the sand sander entry step 205 is sand compared with the sand sander entry step 103 by the first construction method of the present invention. Only the entry position of the installation machine 20 is different from each other in the first zone (A) and the second zone (B), the specific specifications of the sand spreader 20 used, and this The reason why the sand layer 2 is applied to the construction is the same as in the first construction method of the present invention, so a detailed description of this step will be omitted.

After the sand spreader entry step 205 is performed, sand is loaded into the sand stacker 21 of the sand spreader 20 by using the hoppers 11 and 31 installed on the crawler cranes 10 and 30. Relay loading step (206) for loading the relay in a series, and sand installation step (207) for laying the sand loaded in the sand spreader 20 to a constant thickness on the ground surface of the third zone (C) Through the steps, the second construction method of the present invention is completed.

The relay loading step 206 is entered into the large crawler crane 10 located outside the soft ground 1 and the first zone A, as described in the relay spraying step 204. Relay transportation between the crawler cranes 10 and 30 using sand hoppers 11 and 31 installed in the small crawler crane 30, respectively, on the outside of the soft ground 1. It consists of a construction process for loading in the sand loading box 21 of the sand sander 20 by the method, the sand sanding step 207 is operated by the conveyor 25 installed in the sand sander 20 sand loading The sand loaded in the 21 is transferred to the front side of the sand spreader 20 and the sand spreader 20 is advanced from the second zone B to the third zone C while the sand stacker 20 is transported. It is a construction process that allows sand to be deposited on the surface of zone 3 (C).

By repeatedly performing the relay loading step 206 and the sand laying step 207 as described above, the sand layer 2 having a thickness of 80 to 150 cm is formed on the ground surface of the third zone C. The equipment used in steps 206 and 207 includes the crawler cranes 10 and 30 used in the relay spraying step 204 and the sand spreader used in the sand laying step 105 of the first construction method. Since the same equipment as 20) is used, a detailed description of the specifications of the equipment will be omitted.

As described above, the sand mat construction method according to the present invention comprising the first construction method and the second construction method uses the crawler crane 10 located outside the soft ground 1 to form the outer edge of the soft ground 1. The sand layer having a constant thickness on the ground surface of the first zone A by spraying sand on the ground surface of the first zone A corresponding to the portion, even if no separate equipment is placed on the soft ground 1 2; sand mat) can be constructed, thereby preventing excessive settlement and elevation of the soft ground (1) due to the entry of the equipment.

In addition, the initial settlement of the sand by the crawler crane 10 may cause a slight settlement and rise of the soft ground (1) due to the weight of the sand, which is sand sander 20 or after construction of the sand layer (2) Not only does it cause little trouble in the entry of various equipment including the small crawler crane 30 and the improved construction of the soft ground 1, and the capacity of the two hoppers 11 installed in the crawler crane 10 is increased. By selectively adjusting, the initial spreading thickness of sand can be easily adjusted within the range of 40 to 80 cm, so as to minimize the settlement and elevation of the soft ground (1) as described above, the entire area of the first zone (A) It is possible to construct a sand layer (2) having a substantially constant thickness, simultaneously placing multiple crawler cranes (10) on the outside of the soft ground (1) to simultaneously perform multiple sand spraying operations by each crawler crane (10) Number Once, it is possible to construction a sand bed (2) to the surface side of the first zone (A) within a very short period of time.

In the case of constructing the sand layer 2 on the ground surface of the second zone B corresponding to the entire central area of the soft ground 1 by the first construction method of the present invention, the vacuum tank for buoyancy is infinite. With the orbital pondun 23 as a driving frame, only the sand spreader 20 that can enter wetlands or ultra soft ground into which general equipment cannot enter is entered into the first zone A, and then the soft ground 1 The first zone due to the excessive equipment entry into the first zone (A) and the loading of sand on the equipment by loading sand in the sand spreader 20 by using a crawler crane (10) located outside It is possible to minimize settlement and elevation of (A).

In addition, in the sand sanding process of the second zone (B) by the sand sander 20, sand is primarily directed toward the traveling direction of the sand sander 20 by a conveyor 25 installed in the sand sander 20. And the sand thus laid complements the bearing capacity of the soft ground (1) together with the high tension special mat laid on the ground surface of the second zone (B), and is installed in a constant thickness on the upper surface of the high tension special mat. Since the sand spreader 20 runs on the sand, even when the sand spreader 20 proceeds to the second zone (B), disturbances or bumps of the soft ground 1 are hardly generated. Rather, it is possible to construct a sand layer 2 of a constant thickness over the entire surface of the second zone (B) by the sand laying method by the conveyor (25).

In addition, in consideration of the allowable ground pressure of the first zone (A) in which the sand layer (2) was constructed, a plurality of sand spreaders (20) are simultaneously introduced into the first zone (A), and the soft ground (1) By placing a plurality of crawler crane (10) that can load sand in each sand spreader 20, sand loading work by the crawler crane (10) and sand laying work by the sand spreader (20) When the multiple simultaneous operations are performed, it is possible to construct the sand layer 2 on the ground surface of the second zone B in a very fast time.

Further, even when the sand layer 2 is constructed on the ground surface of the second zone B and the third zone C corresponding to the central portion of the soft ground 1 by the second construction method of the present invention, The medium and small crawler crane 30 that satisfies the allowable ground pressure of the first zone A is introduced into the first zone A by the reinforcement plate 40, and thus the crawler crane 30 While minimizing settlement and elevation of zone 1, the sand layer 2 is formed on the surface of the second zone B by relay spraying method between the crawler cranes 10 and 30 separately. Even if the equipment does not enter the second zone (B), it is possible to construct a sand layer (2) having a constant thickness over the entire surface of the second zone (B).

Even in the sand spreading process of the second zone (B) by the medium and small crawler crane 30 as described above, slight settlement and elevation of the soft ground (1) may occur due to the weight of the sand, but this is caused by the sand layer (2). After the construction, not only does it cause little trouble in the entry of various equipment including the sand spreader 20 and the improved construction of the soft ground 1, and the initial spreading thickness of sand by the two hoppers 31. Since it can be easily adjusted within the range of 40 ~ 80cm, it is possible to minimize the settlement and elevation of the soft ground (1) as described above, in consideration of the allowable ground pressure of the first zone (A) a number of small and medium crawler Several large crawler cranes 10 capable of simultaneously entering the crane 30 into the interior of the first zone A and loading sand into each of the small and medium crawler cranes 30 on the outside of the soft ground 1. ), Each crawler crane (1 If the relay spraying operation of sand by 0) 30 is performed simultaneously, the sand layer 2 can be constructed on the ground surface of the second zone B in a very fast time.

In addition, in the second zone (B) in which the sand layer (2) is constructed as described above, the sand installation is possible to enter wetlands or super soft ground by using the caterpillar pondun 23, which is a buoyancy vacuum tank, as a driving frame. The machine 20 is entered and each crawler crane 10 and 30 is used to relayly load sand, thereby excessively entering the equipment into the second zone B and loading sand into the equipment. This can minimize the settlement and elevation of the second zone (B).

In addition, as described in the first construction method of the present invention, the sand spreader 20 installs sand on the upper surface of the high-tension special mat laid on the ground surface of the third zone C. Sand is deposited in the third zone (C) in such a way as to run on the sand, so that the sand layer of a constant thickness over the entire area of the third zone (C) while minimizing disturbance or elevation of the soft ground (1). (2) can be constructed, taking into account the allowable ground pressure of the second zone (B) to enter a number of sand spreaders 20 into the second zone (B) at the same time, the sand installation entered in this way A plurality of crawler cranes (10) (30) capable of loading sand into the machine (20) are arranged outside the first zone (A) and the soft ground (1), thereby to the crawler cranes (10) (30). Relay sand loading work and sand spreading operation in the third zone (C) by sand spreader (20) After the carried out concurrently, it is possible to construction a sand bed (2) in the third zone (C) in a very short time.

As described above, the sand mat construction method for reinforcing soft ground according to the present invention forms a sand layer by air spraying method by a crawler crane in the outer region of the soft ground, and in the central region, sand buoy with a buoyancy vacuum tank as a traveling frame. By forming the sand layer by the relay type sand transportation method between the tile and the crawler crane, it is possible to construct a sand layer having almost constant thickness over the entire soft ground surface in a short time, while minimizing equipment entry into the soft ground. have.

In addition, there is an effect to prevent the settlement and elevation of soft ground caused by excessive entry of equipment and the uneven spreading of sand, and to minimize the amount of sand consumed during the construction of the sand layer, and throughout the soft ground It is possible to construct a sand layer having an even strength distribution and a particle size distribution, and it is possible to construct a sand layer having excellent reinforcement function according to the entry of equipment for improving soft ground and drainage of the ground gap water by the vertical drainage material.

Also, in consideration of the allowable ground pressure of the ground, several crawler cranes and sand spreaders used in each construction stage are simultaneously placed in each zone, and the crawler cranes and sand spreaders arranged in this manner are used for construction stages. When sand spraying and sand spreading are performed at the same time, it is possible to complete the construction of the desired sand layer in a very short time.

Claims (2)

In the soft ground reinforcement method for laying sand on the ground surface of the soft ground (1) on which the high-strength mat is installed so that various equipment for the improvement of the soft ground (1) can enter the soft ground (1), A zone dividing step 101 for dividing the entire area of the soft ground 1 into a first zone A corresponding to an outer portion and a second zone B corresponding to a central portion; After the above-described zone dividing step 101, the ground surface of the first zone A outside the soft ground 1 using the crawler crane 10 having the crane boom 12 and the hopper 11. Crane spraying step 102 for aerial spraying sand to a certain thickness, After the above-mentioned crane spraying step (102), sand laying machine for entering the sand spreader 20 into the inside of the first zone (A) using a crawler pontoon (23), which is a buoyancy vacuum tank for driving. Entry stage 103; After the sand spreader entry step 103, the sand stacker 21 of the sand spreader 20 entered the first zone A using the crawler crane 10 outside the soft ground 1. Sand loading step (104) for loading sand in the), After the sand loading step 104, the sand loading step (105) for laying the sand loaded in the sand sanding machine 20 to a certain thickness on the ground surface of the second zone (B) Sand mat construction method for reinforcing soft ground. In the soft ground reinforcement method for laying sand on the ground surface of the soft ground (1) on which the high-strength mat is installed so that various equipment for the improvement of the soft ground (1) can enter the soft ground (1), Zone that divides the entire area of the soft ground (1) into a first zone (A) corresponding to the outer portion, a second zone (B) corresponding to the center portion, and a third zone (C) corresponding to the central portion. Division step 201, After the above-described zone division step 201, the ground surface of the first zone (A) on the outside of the soft ground (1) using a crawler crane (10) having a crane boom (12) and a hopper (11) Crane spraying step 202 for spraying the sand to a certain thickness in the air, After the above-mentioned crane spraying step 202, the small and medium crawler crane 30 that satisfies the allowable ground pressure of the first zone A, in which the sand layer 2 is formed, is reinforced by the reinforcing plate 40. A crane entry step (203) for entering into (A), After passing through the above crane entry step (203), each hopper (11) (31) provided in the crawler crane (10) outside the soft ground (1) and the crawler crane (30) in the first zone (A) A relay spraying step 204 of spraying sand on the ground surface of the second zone B by air in a relay manner; After passing through the relay spraying step 204, the sand laying machine for entering the sand spreader 20 into the inside of the second zone (B) using the crawler pontoon (23), which is a buoyancy vacuum tank, as a driving frame. Entry stage 205, After the sand spreader entry step 205, the sand is relayed to the sand stacker 21 of the sand spreader 20 using the hoppers 11 and 31 of the crawler cranes 10 and 30. A relay loading step 206 for loading in a manner; After the relay loading step 206, the sand loading step (207) for installing the sand loaded in the sand sanding machine 20 to a predetermined thickness on the ground surface of the third zone (C) Sand mat construction method for reinforcing soft ground.