KR100486903B1 - Vacuum intake dredging bucket and reservoir dredging method by using a vacuum intake dredging bucket - Google Patents

Abstract

The present invention relates to a vacuum suction dredging barrel for dredging foreign matter in the settlement and the settlement method using the same, conventionally dredging vehicles located at high depths (more than 40m) or roads or roads or dredges 50m horizontally due to obstacles Since the dredging work is dependent on the manual work in the place where it can not be entered, there is a problem in that the construction cost is excessively increased due to a lot of manpower consumption and a lot of working time.

Therefore, the present invention forms a dredging cylinder 20 in which a vacuum pressure acts through a vacuum hose 11 connected to the vacuum suction device 10, and a suction hose 22 is formed at one side of the dredging cylinder 20. The suction port 21 is installed to suck the soil / sand into the dredging cylinder 20, and the other side of the dredging cylinder 20 discharges water outlets 25a and 25b and soil / sand of different heights. After installing the lid 27 to form a vacuum suction dredger for the settlement, the dredging tank is placed near the 2 ~ 5m from the difficult to settle the work place and the vacuum pressure is applied to the inside of the dredging body with less manpower As the soil / sand of the settlement can be quickly and easily sucked into the dredging cylinder, construction costs can be considerably reduced by manpower reduction and air shortening.

Description

Vacuum intake dredging bucket and reservoir dredging method by using a vacuum intake dredging bucket}

The present invention relates to a vacuum suction dredging barrel for dredging foreign matter in various settlements, and to a settlement method using the same, in particular, such as a settlement or road located at a considerable depth (for example, more than 40m) from the ground or unobstructed Due to the vacuum suction dredging container that can dredge foreign matter accumulated in the sedimentation area where the vehicle cannot enter more than 50m horizontally with a small capacity suction device that is easy to move regardless of its depth or distance, and the method of dredging method using the same will be.

In general, tanks of sedimentation sites and sewage treatment plants such as relay pump stations, subway stations, water purification plants, and large plants are located at a considerable depth from the ground. have.

By the way, in the dredging method of the settlements located at a high depth as described above, the suction dredger is mostly used in the related art. However, in the conventional dredging method using the suction dredger, the efficiency of the suction dredger is only 15m, the efficiency is considerably lowered, if more than 15m it can be said that the suction of soil sand or sludge of the settlement.

Therefore, in the case of the high-depth settled paper located at a considerable depth as described above, most of the workers have descended to the settled paper in the high-depth position, and the soil, sand, sludge, etc. accumulated in the settled paper are poured into the bucket by manpower. There is a problem that the construction cost is excessively required because it takes a lot of manpower and considerable work time by working in the process of lifting up using the lifting equipment.

In addition, the conventional suction dredger in the case of the immersion site is located in the ground where it is not possible to enter the dredging vehicle more than 50m horizontally due to obstacles, etc., although it is not a high-depth immersion site, but is located on the ground. Since the furnace does not work at all, in this case, a lot of manpower must be put into the site and dredged by hand, which also causes excessive manpower consumption and time-consuming problems.

Therefore, the present invention was developed to solve the above conventional problems, the object of the present invention is to not enter the vehicle more than 50m horizontally due to the unopened and obstacles of the settlement or road located at a high depth of 40m or more. Vacuum suction dredging can be dredged quickly and easily to settle the soil, sand, sludge, etc. (hereinafter referred to as "soil / sand") of the sedimentation ground with small number of personnel at the local settlement. To provide.

Hereinafter, described in detail by the accompanying drawings the technical configuration and operation of a preferred embodiment that can effectively achieve the above object of the present invention.

1 is a perspective view illustrating the vacuum suction dredger of the present invention as an example, Figure 2 is a state diagram used to install the vacuum suction dredger of the present invention in the settlement, the vacuum suction dredger of the present invention shown in this Through the vacuum hose 11 connected to the suction device 10 to form a dredging cylinder 20 in which a vacuum pressure acts, and on one side of such dredging cylinder 20 soil / sand through a suction hose 22 The suction port 21 is provided to suck into the dredging cylinder 20, and the water outlets 25a and 25b and the other ends of the different heights are opened on the other side, so that the lid 27 is discharged to discharge the soil / sand. Characterized in that the installation.

And, one surface of the dredging cylinder 20 is characterized in that to form a transparent see-through window 28 so that the amount of soil / sand that is put into the inside can be seen from the outside. Here, the pair of water outlets (25a, 25b) is preferably installed in the lid 27, the lid 27 is opened and closed in a state where one end is suspended in the dredging cylinder 20 by the hinge (26). Good to do.

In addition, the vacuum suction device 10 may use a conventional suction dredger or a generator, but may use a barking pump having a small capacity of about 180 hp that is easy to move.

In the figure, reference numeral 23 denotes a pressure gauge of the dredging cylinder 20, 24 denotes a valve installed to open and close the suction port 21 and the water discharge port 25a and 25b, respectively, and the reference numeral 30 denotes a manhole. , 31 is a settled basin formed in the bottom of the manhole (30).

Using the vacuum suction dredger of the present invention will be described the process of dredging in a vertical high depth settlement or a horizontal settlement settled in a region where the vehicle does not enter more than 50m as follows.

Step 1 (Installation of Dredging Cylinder)

The dredging cylinder 20 is pulled by a lifting mechanism such as an electric winch, hoist, crane, and inserted into a manhole 30 having a high depth, and then from the settling basin 31 formed at the bottom of the manhole 30 as shown in FIG. 2. The dredging cylinder 20 is fixedly installed at a position 2-5 m away from the bottom (manhole bottom).

2nd process (maintain pressure of dredging cylinder)

Dredging is performed until the pressure gauge 23 installed in the dredging cylinder 20 reaches the prescribed pressure by operating the vacuum suction device 10 while the valves 24 of the water discharge ports 25a and 25b are closed. The inside of the cylinder 20 is kept in a vacuum state. At this time, if the valve 24 of the inlet 21 is also closed, the vacuum pressure in the dredging cylinder 20 can reach the prescribed pressure within a faster time.

3rd process (vacuum suction of soil / sand)

When the vacuum pressure in the dredging cylinder 20 reaches the prescribed pressure by the above process, the vacuum pressure in the dredging cylinder 20 acts while maintaining the vacuum pressure in the dredging cylinder 20 through the vacuum hose 11. Using the suction hose 22 of the suction port 21 to be sucked into the dredging cylinder 20 with the soil / sand of the settlement (31) as shown in Figure 3a.

That is, when the valve 24 of the suction port 21 is opened, the worker picks up the suction hose 22 lowered on the settling basin 31 in the dredging cylinder 20, and the suction hose is placed on the dirt / sand pile of the settling basin 31. The soil / sand of the clarifier 31 is sucked into the dredging cylinder 20 together with water by the vacuum pressure in the dredging cylinder 20 acting through the suction hose 22 when facing the tip of the 22.

4th process (water discharge in dredging cylinder)

Looking at the process of filling the dredging cylinder 20 in the dredging cylinder 20 through the viewing window 28, the water level of the water is lower than the lower water outlet 25b, the soil / sand is lower than the lower water outlet 25b If higher than 25b, the vacuum suction action through the vacuum hose 11 is temporarily suspended, and the valve 24 of the water outlet 25b is opened as shown in FIG. 3A while the vacuum pressure in the dredging cylinder 20 is released. Then, the water at a position higher than the water outlet 25b in the dredging cylinder 20 is discharged to the outside through the water outlet 25b and flows back to the settlement paper 31. After that, when the valve 24 of the water outlet 25b is closed and sucked back through the vacuum hose 11, the vacuum pressure inside the dredging cylinder 20 increases, and the soil / sand of the settlement 31 goes together with the water suction hose. The soil / sand flowing into the dredging cylinder 20 is gradually increased by repeating this process as being introduced back into the dredging cylinder 20 through (22).

Then, when the soil / sand filled in the dredging cylinder 20 accumulates higher than the lower water outlet 25b and the water level of the water continuously flowing is higher than the upper water outlet 25a, the suction action through the vacuum hose 11 is temporarily suspended. In this state, the valve 24 of the upper water outlet 25a is opened as shown in FIG. 3B while the pressure inside the dredging cylinder 20 is released to discharge water at a higher level than the upper water outlet 25a. The process is repeated until the soil / sand builds up to the height of the upper water outlet 25a.

When the soil / sand gradually reaches the height of the upper water outlet 25a, the soil / sand is almost filled in the dredging cylinder 20, and the operation of the vacuum suction device 10 is immediately stopped.

5th process (lift of dredging cylinder)

The dredging container 20 filled with the soil / sand of the settled land 31 is lifted to the ground using a lifting device such as a hoist, electric winch, or crane, and then moved onto the transport vehicle so that the lid 27 faces downward. When the lid 27 is opened while the 20 is towed at an angle, the soil / sand inside is discharged to the cargo compartment of the transport vehicle as shown in FIG. 4, and the empty dredging cylinder 20 is re-injected and then the above process is repeated. You can work continuously.

In the present invention, as described above, the dredge cylinder 20 is placed on the horizontal settlement 2 to 5 meters as described above even in the horizontal settlement 25 located in an area where a vehicle cannot be entered more than 50 meters due to obstacles or the like. When installed in a position close to the degree, the interior of the dredging cylinder 20 is made into a vacuum state, and then work with the suction hose 22, the soil / sand of the settlement (31) by the vacuum suction force of the dredging cylinder (20) Quickly and easily sucked in, the present invention has the advantage that it can be used regardless of the depth of the high depth and the distance of the horizontal settlement 31 in any place.

As described above, the present invention is a dredging body even if it is a high-depth immersion site located deep from the ground, or even if the suction dredging vehicle is located where it cannot enter more than 50m horizontally due to unopened road or obstacle. By using it can quickly and easily remove the soil / sand accumulated in the settlement, there is an effect that can be efficient work with only a small number of people.

In addition, the dredging cylinder is manufactured and used according to the work site conditions. The suction device may use an existing suction dredger or a generator, but the dredging can be dredged by a small (180 hp) barking pump. In addition to the suction means (barking pump) and the lifting means (hoist or crane), only the dredging cylinder and the hose (for vacuum and suction), so the movement is easy to perform the next operation more quickly.

In addition, since the work can be performed quickly with a small number of people as described above, it is possible to reduce a lot of manpower and shorten the air, thereby significantly reducing the construction cost.

1 is a perspective view illustrating the vacuum suction dredge of the present invention as an example

Figure 2 is a state diagram used by installing the vacuum suction dredger of the present invention on the settlement

3a and 3b is a state diagram selectively using the upper and lower outlets in accordance with the water level of the water filled in the dredger of the present invention

Figure 4 is a state of pouring foreign matter such as soil / sand inside the dredging container of the present invention to the ground.

Explanation of symbols for main parts of the drawings

10: vacuum suction device 20: dredge cylinder

21: suction port 22: suction hose

25a, 25b: water outlet 27: lid

28: see-through window

Claims (3)

One surface of the dredging cylinder 20 is provided with a vacuum hose 11 connected to the vacuum suction device 10 to form a vacuum pressure therein, and one side of the dredging cylinder 20 has a suction hose 22. A suction port 21 having a valve 24 is installed to suck soil / sand into the dredging cylinder 20 through the water outlet having the valve 24 at the other side opening of the dredging cylinder 20. Vacuum suction dredge, characterized in that the lid (27) is formed to be opened and closed by the hinge (26) is formed with a different height (25a) (25b) The dredge barrel according to claim 1, wherein a see-through window is formed on one surface of the dredging cylinder 20 so that the amount of soil / sand introduced into the dredge can be seen from the outside. A first process of towing the dredging cylinder of claim 1 to a traction device and installing the dredging cylinder 20 on the bottom of the manhole 30 separated by about 2 to 5 m from the settling base 31 formed on the bottom of the manhole 30 of high depth; 2nd process of maintaining the inside of the dredging cylinder 20 in a vacuum state until the vacuum pressure inside the dredging cylinder 20 reaches | attains the predetermined pressure in the state which closed the valve 24 of the water discharge ports 25a and 25b. and; While maintaining the inside of the dredging cylinder 20 at a vacuum of a predetermined pressure, the suction hose 22 of the dredging cylinder 20 sucks soil / sand of the sedimentation basin 31 to be vacuum sucked into the dredging cylinder 20. A third step of performing; While viewing the height of the soil / sand and water being sucked into the dredging cylinder 20 through the see-through window 28, the valves 24 of the lower water outlets 25a and 25b and the upper water outlets 25a and 25b are opened. A fourth step of selectively opening and discharging the water in the dredging cylinder 20 to the outside; The fifth step of pulling up the dredging cylinder 20, the input of the soil / sand is completed to the ground and then pouring the soil / sand, etc. inside the dredging cylinder 20 to the transfer means Vacuum suction dredging barrel characterized in that it is repeated sequentially and the settlement method using the same ..