KR101148398B1 - Installation method using the same and installation device for tubular drainage culvert - Google Patents

Abstract

The present invention is a tubular drainage culverter installation device for ground surplus water, and a tubular drainage culverter using the same that can be installed quickly and efficiently at the same time as the construction of the drainage tubular drainage culvert contained in the ground of low wetlands, such as reclaimed land To provide a method, a moisturizer fitted to the boom tip of a backhoe, applied directional pressure to the ground and driven along a linear line of the intended drainage, will have the same shape as the cross-sectional shape of the moisturizer in the ground of a low-wetland and will contain a tubular drainage culvert to be installed. A simultaneous drainage culvert installation apparatus for forming a drainage passage and a tubular drainage culvert in which a drainage passage having a sufficient width is formed and at the same time the tubular drainage culvert is released from the reel located above the moisturizing and is installed in the drainage passage; The tubular drainage culverter is installed to form a drainage channel having a width enough to contain a tubular drainage culvert to be installed in the ground of a low wetland, and to form at least one tubular drainage culvert at the same time as the formation of the drainage. Tubular drainage culvert installation method simultaneously with the formation of drainage channel and tubular drainage culvert; .

Wetland drainage, moisturizing, tubular drainage culverts, reels, backhoes.

Description

Tubular drainage culvert installation device and drainage culvert installation method using the same {INSTALLATION METHOD USING THE SAME AND INSTALLATION DEVICE FOR TUBULAR DRAINAGE CULVERT}

The present invention provides a tube-type drainage culverter installation apparatus for ground surplus water and a method for installing drainage culverts using the same, which allows efficient drainage of a tubular drainage culvert for removing surplus water contained in the ground of a low-wetland ground such as reclaimed land. It is about.

Reclaimed land filled with dredged submarine soils and low wetlands constructed with riverbed dredged soils can be safely accessed by farms, waterway construction equipment, or site construction equipment only when the ground is stabilized at an early stage. However, most landfilled wetlands have high water content and a lot of ground surplus. These grounds require a fairly long ground stabilization time to stabilize enough for civil engineering heavy equipment to enter and exit.

During the attempt to stabilize the landfill wetland ground early, the method of draining ground surplus water is to excavate the drainage drainage by excavating the drainage channel in the ground of the lowland wetland, and to install and drain the tubular drainage culvert in the excavated drainage channel. to be. The former is called a net excavation method and the latter is called a post-exposure post-trenchment method.

Drainage work in low wetlands uses self-propelled excavation equipment (excavators) in consideration of work efficiency and excavation quality. Wetlands are also uneven. Drainage works using excavators in such low-wetlands are practically impossible to secure the straightness, equal depth and smooth furnace walls associated with the efficiency of drainage. In addition, the drainage channel created by excavation is also severely distorted in the drainage channel, such as the collapse of the furnace wall, the narrowing of the furnace width, and the low floor. Occasional drainage work is required.

The pre-excavation culvert installation method compensates for the shortcomings of the net excavation method, but until the culvert for drainage is installed, the problems of the drainage channel by the net excavation method remain the same, and the furnace walls of the drainage channel are not compacted even during excavation. In the process of laying drainage culverts, when the drainage culvert collides with the furnace wall of the drainage channel, the furnace wall collapses, and the drainage path is distorted and the normal installation of the culvert is hindered.

The furnace width of the excavated drainage channel is wider than the outer diameter of the tubular drainage culvert. This is a phenomenon caused by the excavation of the drainage channel wider than necessary even if the furnace width enough to accommodate the tubular drainage culvert. The wide drainage path is ultimately the root cause of premature collapse of the furnace walls, and is not irrelevant to wasting the excavator's operating energy.

The duplex operation of laying tubular drainage culverts after excavating the drainage has long air and high construction costs.

Accordingly, it is an object of the present invention to provide a tubular drainage culvert installation device capable of quickly and efficiently laying a tubular drainage culvert for removing excess water contained in the ground of a low wetland such as reclaimed land.

It is another object of the present invention to provide a tubular drainage culverter installation method that can quickly and easily install a tubular drainage culvert while constructing a good drainage channel which is particularly suitable for laying drainage culverts using the tubular drainage culvert installation device. .

The first task is to equip the boom tip of the backhoe, apply directional pressure to the moist and put it in the ground and run along the planned line of the drainage channel, which is the same as the cross section of the moisturizing on the ground. A drainage channel is formed so that the tubular drainage culvert is released from the reel and is naturally installed in the drainage channel. The tubular drainage culvert can be achieved with a tubular drainage culverter for simultaneous ground installation.

The second object is the tubular drainage culvert installation device for implementing the first task, to form a narrow drainage passage in which the tubular drainage culvert to be installed in the ground of a low wetland is provided at a desired depth and at least one step in the drainage passage. This can be achieved by the tubular drainage culvert installation method, which lays out the tubular drainage culvert with high quality.

The drainage culvert can be simultaneously installed to promote drainage of ground surplus water in the wetland and the tubular drainage culvert can be installed in this drainage. It can drastically shorten the air of the construction of the construction work, and the construction cost can be greatly reduced.

In addition, unlike the conventional excavation type, when the drainage wall is formed on the ground of the low wetland where the drainage wall of the drainage channel is easily collapsed due to the surging underground surplus, there is a possibility of the collapse of the furnace wall and the quality of the drainage channel is not guaranteed. Simultaneous installation of ground drainage culverts of tubular drainage culverts The culvert installation device for excess water drainage forms a drainage path as if you cut the ground by moisturizing, so that the furnace wall is smooth and the directional pressure of the boom attached to the backhoe is adjusted. In addition to maintaining a constant, the backhoe's straight running can create a good, linear drainage channel, and at the same time, drainage culverts can be installed in a straightforward manner to ensure a smooth drainage.

1 and 2, the tubular drainage culvert installation device according to the present invention is composed of a moisturizing 10 and a reel (20).

Moisturizing (10) is to form a narrow tube-shaped drainage culvert installation drainage cautiously simply by pressing the ground of the wetlands vertically, the side profile is a four semi-circular plate and narrow but looks like a thick day line.

The culvert guide 11 is attached to the front of the upper surface of the moisturizing 10, and the bracket 12 is attached to the rear of the culvert guide 11. The culvert guide 11 fixes the angle at which the tubular drainage culvert enters the moisturizing 10 and always enters the tip of the culvert guide tube of the moisturizing 10 in a stable posture at any angle of the reel 20. In order to be installed, a pair of in situ rotary rolls 13, which are lightly encircled so as not to be displaced so as not to be distorted to become drainage culverts on both sides of the cross-sectional direction, stand side by side in the same direction as the movement direction of the moisturizing 10. It is installed on the attached bracket 14. Even when the culvert guide 11 is configured in the form of a fallopian tube, the guide drawing for the tubular drainage culvert is the same.

The bracket 12 is attached to the boom tip of the back boom of the backhoe (for example, a forkine removed with shovel) to stabilize the mounting state by attaching a pin to the blade boom in the direction of the moisturizing 10. On the upper side of the bracket 12, a pin hole 15 corresponding to the pin hole of the boom is drilled.

The moisturizing 10 is also provided with a blade 16 and a culvert guide pipe 17. The blade 16 is streamlined and easy to dig out like a deep cut in the ground.

The culvert induction pipe 17 guides the drainage culverts passing through the culvert guides 11 to be formed in the drainage path to be formed, and the tubular drainage culverts are circular arcs that can be guided without bending or creasing. In order to prevent friction with the ground in the process of forming the drainage channel, the furnace wall is formed into a smooth drainage channel.

Although the culvert induction pipe 17 is illustrated as having a plurality of stepped up and down steps in one moisturizing 10, the culvert induction pipe 17 is designed to install one drainage culvert per drain. Only one set.

As such, the culvert induction pipe 17 can be modified according to the number of culverts to be installed per drain.

The reel 20 is wound around a long tubular drainage culvert 30 to be released according to the speed at which the drainage path is formed. Rotate in place. Considering the drainage culverts installed in the vast low-wetland, the reel 20 is removable and easy to load on the cradle 21 in view of the convenience of reloading subsequent drainage culverts and replacing them with other reels in which the drainage culverts are wound. This is more useful.

When the culvert induction pipe 17 is configured in plural, the culvert guide 11 is installed back and forth, and the reel 20 has half the width to wind the culvert induction pipe 17 and the same number of culverts and install them simultaneously. have.

In FIG. 3, the shovel is removed from the tip of the boom 41 of the backhoe 40 and the bracket 12 is placed in place so that the tip of the blade 16 of the moisturizing 10 faces the driver's seat of the backhoe 40. The pin hole 15 is aligned with the pin hole (not shown) at the tip of the boom 41, and then the pin 42 is inserted to stabilize the mounting state.

The reel 20 is loaded with the drainage culvert 30 wound on the holder 21. At this time, the entrance angle of the drainage culvert 30 with respect to the culvert guide 11 is made small so as not to be bent, so that it can be installed correctly in the form close to a true circle. The preferred loading of the reel 20 is that the drainage culvert 30 is released to the rear of the reel 20 to be guided out of the culvert guide tube 17.

In FIG. 4, the backhoe 40 is moved to the starting point of the drainage channel based on the drainage schematic in the wetland where the drainage culvert 20 is to be installed, and at that point, the drainage culvert 30 is further loosened so that the tip thereof is the culvert guide tube 17. ) Shortly (approximately 50cm) to the rear end (17a). Subsequently, the boom 41 is operated to apply the moisturizing 10 to the ground so as to correspond to the depth at which the drainage culvert is to be installed. The degree to which the moisturizing 10 is driven is adjusted to the installation depth of the drainage culvert 30.

The backhoe 40 is first retracted. Then, by the moisturizing 10 is formed in the ground drainage path (B) corresponding to the width and depth of the moisturizing (10). The reverse length at this time is enough to be fixed to the anchor by putting the tip of the drainage culvert in the formed drainage. It is about 50150 cm. The tip of the drainage culvert 30 protruding into the rear end 17a of the culvert induction pipe 17 is fixed to the appropriate height of the drainage path B with an anchor 43. At this time, fixing the anchor 43 at a height equivalent to that of the rear end 17a of the culvert guide tube 17 of the boss 10 embedded in the ground is advantageous for maintaining the equilibrium of the drainage culvert that is later installed.

In FIG. 5, the backhoe 40 is then driven to the end point of the drainage channel to execute the simultaneous formation of the drainage passage B and the drainage culvert 30. At the end of the drainage passage, the backhoe 40 stops running for a while, lifts the moisturizing 10 and the reel 20 with the boom 41, and moves the drainage culvert 30 to a length corresponding to the drainage passage B. Cut and leave in drain channel B, withdraw or transfer backhoe 40 to the subsequent drain culvert installation position.

In FIG. 6, the installed drainage culvert 30 is squeezed between the furnace walls C to remain in place.

FIG. 7 illustrates the backfill container 50 for dropping the backfill material into the drainage passage B. As shown in FIG. The back filling container 50 is fitted between the drainage culvert and drainage culvert formed by moisturizing while aligning the fastening hole 53 with the fastening hole 53 to the fastening hole of the moisturizing side bracket 12 connected to the boom tip of the backhoe. The backfill material is dropped into the drainage-side surplus space and filled, and on one side, a bracket 51 having a large backhoe mounting pin hole 53 connected to the boom tip of the backhoe is attached.

In the discharge port 55, the damper 51 which adjusts the discharge amount of the backfill material with the handle 54 is also provided.

As shown in FIG. 8, the backfill material 60 is charged into the backfill container 50 to which the brackets 52 are connected together at the point where the bracket 12 of the moisturizing 10 is attached to the tip of the boom together with the bracket 12. The drainage culvert 30 is installed while the drainage passage B is formed on the ground with the moisturizing 10 in the state, and the drainage culvert 30 occupies by simultaneously adjusting the amount of the backfill material 50 with the damper 51. When the backfill material 60 is filled in the space of the remaining drainage passage B, as shown in FIG. 9, the drainage culvert 30 is stabilized in the drainage passage B and the collapse of the drainage passage B can be prevented. do.

As described above, the tubular drainage culvert installation device for ground surplus water of the present invention can simultaneously proceed with the operation of installing a drainage culvert and a tubular drainage culvert on the drainage path to promote the drainage of the ground surplus water, particularly to promote early stability of the wetland. Therefore, it is possible to drastically shorten the air for installing the tubular drainage culvert in the drainage passage, compared to the conventional post drainage culvert installation in the conventional drainage, and the construction cost reduction effect is also very large.

In addition, unlike the conventional excavation method in which the wall of the drainage wall is easily collapsed due to the surplus of surging water, when the drainage path is formed, there is a possibility of collapse of the furnace wall and the quality of the drainage is not guaranteed. As the ditches are formed as if they are cut and cut, the walls of the furnace are smooth and the booms attached to the backhoe can be manipulated to control the depth of the moisturizers that are embedded in the ground to maintain the depth of the ditches and drainage culverts.

In addition, since the furnace wall of the drainage channel is compacted to correspond to the width of the moisturizing, it is possible to form a drainage channel that does not collapse quickly even by surplus water. It is also possible to install drainage culverts.

1 is a partial cutaway side view of the tubular drainage culvert installation device of the present invention

2 is a partial cutaway side view of the same

Figure 3 is an exemplary side view of a backhoe equipped with the present invention on the tip of the boom

4 is an exemplary view of an initial drainage culvert installation state

5 is the installation completion diagram of the drainage culvert

6 is an enlarged cross-sectional view taken along the line D-D of FIG.

7 is an exemplary view of backfilling

8 is an action diagram of the backfill container mounted on the backhoe with moisturizing

9 is a reference diagram when the backfill is filled in the drainage channel immediately after the drainage culvert installation

[Code Description of Important Parts of Drawing]

10: moisturizing

11: culvert guide

12,52: bracket

16: day

17: culvert guide tube

20: reel

30: (tube type) drainage culvert

40: backhoe

41: boom

50: refill

51: damper

Claims (8)

It is connected to the boom tip of the backhoe on which the long tubular drainage culvert 30 storage reel 20 is mounted with a bracket to form a drainage passage, A tubular drainage culvert installation device characterized by a moisturizing (10) having a culvert drainage forming blade (16), a culvert guide for culvert guide (11), and a culvert induction pipe (17). The tubular drainage culvert installation device according to claim 1, wherein the moisturizing (10) is an inverted right triangle having a hypotenuse curve. delete delete Moisturizing the tip of the blade toward the driver's seat of the backhoe, aligning the pin ball of the mounting bracket with the tip of the boom of the backhoe, and inserting a pin to stabilize the moisturizing installation; Loading a reel wound around the cradle of the boss; Moving the backhoe to the starting point of the drainage channel based on the design of the ground on which the drainage culvert will be installed; Releasing the drainage culvert a little more so that its tip shortly protrudes into the rear end of the culvert induction pipe, and operating the boom to moisturize the ground to meet the depth to install the drainage culvert; Forming a part of the drainage path by first reversing the backhoe, and anchoring the tip of the drainage culvert that protrudes into the rear end of the culvert guide tube with an anchor on the drainage path; Moving the backhoe to the end point of the drainage channel to simultaneously form the drainage channel and install the drainage culvert; Stopping the backhoe from the end of the ditches and cutting the sewage culvert to a length corresponding to the ditches; A method of installing a tubular drainage culvert, characterized in that the moisturizing with the boom after the drainage culvert cutting and lifting the reel to the ground. delete delete delete

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