KR101451643B1 - Dredged transfering device with ventury tube - Google Patents

Abstract

The present invention relates to a dredged soil transfer device. Provided is a dredged soil transfer device using a venturi pipe which includes a water supply unit; a soil transfer pipe; a sand discharge pipe; and a venturi pipe. According to the present invention, the dredged soil transfer device using a venturi pipe improves fluidity of dredged soil using seawater to solve the problem in which the dredged soil is deposited at a pipe line on a transfer path or a clod of dredged soil closes the pipe line. A venturi pipe is used during a process in which the dredged soil is mixed with the seawater to secure transfer energy of the dredged soil without any additional pressing equipment and prevent sedimentation or blockage of the dredged soil inside the pipe line. Also, fluidity of the dredged soil is improved using the seawater to enable relatively long-distance transportation, and the dredged soil moves through continuous pipe lines to improve efficiency of working and management. Also, the pipe line supplying the seawater sprinkled to the dredged soil during a process of absorbing the dredged soil on a barge is provided to reduce waste of energy and improve working efficiency.

Description

[0001] The present invention relates to a dredged transferring device with a venturi tube,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dredged soil transfer apparatus, and more particularly to a dredged soil transfer apparatus capable of moving a dredged soil loaded on a barge or the like through a fluid movement path.

Generally, in order to dred sand accumulated on the bottom of a river or ocean, a barge with a dredging facility is operated on the working surface to dredge the bottom sand and shipped to the barge. To remove foreign matter and mud from the sand, And then to the ship that carries it to the Orthodox facility.

In the process described above, an excavator or a conveyor belt is used to transport the dredged sand. However, since the shipment process by the excavator is not continuous, the operation efficiency is low.

The Korean Registered Utility Model No. 20-0358071 (inventor: Kim Yong-eun) is intended to provide an aggregate conveying device for efficiently and efficiently conveying the aggregate carried on a barge or the like to the land without having to carry it all by an excavator. And a moving device for controlling the angle of the up and down and left and right, and the upper and lower and left and right sides of the conveyor are controlled by the adjusting part. The present invention provides an aggregate conveying device capable of adjusting an angle.

However, the above-mentioned design has a problem in that the duct is closed due to aggregation in the duct where the aggregate is sucked and transported, and since the aggregate close to the solid state needs to be transported through the duct, the conveying speed is slow and the efficiency of long- .

In order to solve the above-mentioned problems, the present invention provides a dredged soil transferring apparatus capable of preventing pipeline closure by using seawater which can be easily used on shore where dredged soil is transported and loaded. In particular, by applying the venturi pipe to pressurize using the fluid transfer pressure in the course of mixing the seawater with the dredged soil, the dredged soil in the conveyance pipe can be transported to the bottom without accumulation or agglomeration.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, there is provided a water supply system comprising: a water supply unit provided to supply water from a sea surface; A discharge pipe provided at one end thereof with a discharge section and provided at the other end thereof so that the discharge section is inserted into a rear end of the water supply section to supply the dredged soil; A discharge pipe for mixing the water supplied from the water supply unit and the dredged soil supplied from the shipper pipe to be transferred at a low altitude; And a venturi pipe having one end connected to the rear end of the water supply unit, the other end connected to the front end of the discharge pipe, and the discharge part of the pipeline inserted into the water supply part being positioned in the neck part. Device is provided.

Wherein the water supply unit comprises: a water intake pipe provided to take water from the sea surface; A water feed pump for sucking water from the water intake pipe and feeding the water to the rear end; And a water pipe provided as a channel through which water moves to a rear end of the water feed pump.

Wherein the water pipe is provided such that the discharge pressure of the water pipe is higher than the discharge pressure of the pipeline.

The conveyance pipe is provided to be capable of being vertically and laterally driven by a driving means and is provided with a water spray pipe which is supplied with seawater from the water feed pump and is sprayed on the dredged soil.

According to the present invention, there is provided an apparatus for conveying dredged soil from a barge in the sea, wherein the dredged soil is fluidized by using seawater so that the dredged soil is deposited on the conveying path on the conveying path, And the venturi pipe is used in the process of mixing the dredged soil with the seawater so that the transferring energy of the dredged soil can be secured without additional pressurizing facility and deposition and clogging of the dredged soil in the pipeline can be prevented.

In addition, by increasing the fluidity of dredged soil by using seawater, relatively long distance transportation is possible. By moving continuous pipeline, it is possible to increase the efficiency of operation and maintenance, and to reduce the wear of the moving pipe, .

In addition, a pipeline for supplying seawater sprayed on the dredged soil is provided in the process of sucking the dredged soil on the barge, thereby reducing waste of energy and improving work efficiency.

1 is a side view showing an embodiment of a dredged soil transfer apparatus using a venturi pipe of the present invention.
2 is a cross-sectional view showing the structure of a venturi pipe of a venturi pipe-using dredged material transfer apparatus according to the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

FIG. 1 is a side view showing an embodiment of a venturi pipe-using dredged soil transfer device according to the present invention, and FIG. 2 is a sectional view showing the structure of a venturi pipe of a venturi pipe-using dredged material transfer device according to the present invention.

1, the present invention may include a water supply unit 110, a conveyance pipe 120, a discharge pipe 130, and a venturi pipe 140.

The water supply unit 110 is provided to supply water to the apparatus, and may be provided to supply seawater from the water surface near the eyepiece facility by the water supply pump 112. The water supply unit 110 includes a water intake pipe 111 for receiving water from the sea surface, a water supply pump 112 for sucking water from the water intake pipe 111 to the rear end thereof, And a water pipe 113 provided as a channel through which water moves to the rear end of the water pipe 113.

The conveyance pipe 120 is provided with a suction part 121 and a dredging pump 123 at one end and a discharge part 122 at the other end to provide a pipeline through which the dredged material is conveyed. The conveyance pipe (120) is a conduit provided to convey materials such as sand or coal as dredged. The dredged soil or coal ash conveyed through the pipeline 120 is mixed with the seawater in the water pipe 113 by being installed to be inserted into the water pipe 113. The water feed pipe 113 feeds the seawater at a relatively high pressure by a water feed pump 112. The dredged soil or coal ash injected into the water pipe 113 by the water pipe 120 is mixed with the seawater It can be transported at a high speed.

Referring to FIG. 2, the dredged soil or coal ash mixed with seawater is transported through the discharge pipe 130 and transported to the bottom. At this time, a discharge part 122 is provided at one end of the pipeline pipe 120 inserted into the pipeline 113 so that the dredged soil or coal ash can be injected in the pipeline 113, A venturi tube 140 is provided. That is, the venturi pipe 140 is provided between the water pipe 113 and the discharge pipe 130, and the discharge part 122 of the pipe 120, which is inserted into the water pipe 113, (T) of the main body 140. [ At this time, the discharging part 122 is formed in a shape of a curved line, so that the dredged soil can be injected in a direction consistent with the direction of the water supply pipe 113.

The dredged soil or the coal ash discharged from the discharge portion 122 by the seawater flowing in the low pressure state formed at the rear end of the venturi pipe 140 can be discharged to the outside of the venturi pipe 140 by the end portion of the discharge portion 122 being located at the neck portion t And is diffused into the discharge tube 130 faster than the discharge pressure of the transfer tube 130.

The flow rate of the seawater formed on the side of the water pipe 113 is slower than the flow rate of the seawater flowing through the neck portion t of the venturi pipe 140 in accordance with the effect of the general venturi pipe, Lower. At this time, since the pressure formed in the neck portion t is lower than the pressure of the pipeline 120, dredged soil or coal ash in the pipeline 120 is discharged to the discharge pipe 130 side. That is, the flow rate of the seawater is increased by the venturi pipe 140, and at the same time, the pressure is low, so that the dredged soil or coal ash flowing out from the pipeline pipe 120 is smoothly stirred with the seawater, You can move up to the point where you do not.

By installing the venturi pipe 140 in the water pipe 113 as described above, even if the discharge pressure in the water pipe 120 is kept relatively small, the dirt or coal ash in the water pipe 120 and the water pipe 113 It is possible to prevent the problem that the pipeline is clogged due to accumulation or agglomeration. That is, the venturi pipe 140 is provided to act as a pump for smoothly injecting dredged soil or the like supplied from the pipeline 120 into the water pipe 113. Further, since the dredged soil is sprayed to the rear end side of the venturi pipe 140, the venturi pipe 140 hardly wears due to the movement of the dredged soil, so that the necessity of replacement is small. Since the dredged soil moving through the discharge tube 130 is agitated and moved together with the seawater, abrasion of the discharge tube 130 is reduced, which is economical.

In addition, by using seawater as described above, the dredged soil or coal ash can be transported farther with less energy, which is efficient. Generally, when the dredged soil or coal ash is to be moved through the above-mentioned channel, the dredged soil is mixed with water to have a proper fluidity. Since the channel moves in a shape similar to the sol, a lump is formed or deposited, Is likely to be blocked. Therefore, the conveyance pipe 120 is preferably used only for a relatively short distance, and a conveyor belt or the like must be used when conveying the dredged soil to a relatively long distance such as a landfill on the ground. Such changes in the transportation medium are factors that slow down the operation speed and efficiency.

Therefore, by feeding the dredged soil into the discharge pipe 130 having a larger flow rate and transferring it together with the seawater, it is possible to transfer the dredged soil to the lower limb of a long distance without clogging, thereby efficiently utilizing the energy, The work process can be simplified.

The discharge pressure of the discharge pipe 113 must be relatively higher than the discharge pressure of the pipeline 120 so that the venturi pipe 140 generates a pressurized pressure to discharge the dredged material. At this time, as one embodiment of the discharge pressure, the discharge pressure of the feed pump 120 is to be the 7 ~ 8kg / cm ^2, and the discharge pressure of the dredging pump 123 can be provided with 1 ~ 3kg / cm ² have. Since the dredged soil or coal ash in the conveyance pipe 120 is low in fluidity, the discharge pressure is lowered to move at a relatively slow flow rate, and the water pipe 113 to which the seawater is moved has a high flow rate by a relatively high pressure, 140). ≪ / RTI > Since the discharge pressure of the water pipe 113 is relatively higher than the discharge pressure of the pipeline 120 when the discharge pressure is set as in the above embodiment, Lt; / RTI > However, as described above, since the venturi pipe 140 is positioned at the discharge part 122 of the conveyance pipe 120, the backflow can be prevented.

The above-mentioned numerical values are used to describe a state in which the discharge pressure in the water pipe 113 by the water supply pump 112 is relatively higher than the discharge pressure in the pipeline 120 by the dredge pump 123 , The present invention is not necessarily implemented by the above-described numerical values. For example, when the dredged soil is to be conveyed to a long distance by the discharge pipe 130, the discharge pressure of the water supply pump 112 should be set higher than in the embodiment. In other words, the lowest value should be set so that the discharge pressure of the water supply pump 112 is relatively higher than the discharge pressure of the dredge pump 123, and the maximum value should be set so as to be changed according to the conveyance distance of the dredged soil. Therefore, it should be understood that the above-described embodiment is based on the intention to explain the functional coupling relationship between the water feed pump 120 and the dredging pump 123, and is not limited to the specific numerical values of the components .

The conveyance pipe (120) is provided with a suction unit (121) provided on the other side so as to be movable up and down and left and right by a driving unit (125). Referring to FIG. 1, a crane may be provided as an embodiment of the driving unit 125. The driving unit 125 adjusts the suction unit 121 according to the loading form of the dredged soil so that the dredged soil can be properly sucked. And a water spray pipe 126 is provided on one side to receive seawater from the water feed pump 112 and spray it on dredged soil or coal. In order to inhale the dredged soil loaded on the barge 200 as described above, the dredged soil should be sprayed with water so as to have appropriate fluidity. Generally, water is supplied to the dredged soil using a water feeder or the like equipped on the barge line 200. A water spray pipe 126 is attached to the suction pipe 121 side of the water pipe 120 This operation can be performed at the same time and the sea water is supplied from the water supply pump 112 operated to supply the water to the water pipe 113 and supplied to the water spray pipe 126,

Also, the dredged soil on the barge line 200 is processed to have fluidity by supplying water, but it is effective that the slurry pipe 120 is provided so as to be able to move upwardly or downwardly in a planar manner for smooth suction. Therefore, the other side of the conveyance pipe 120 is extended by a sleeve 124 provided in a bellows shape or a bendable material, and is installed on the driving means 125, for example, an arm of a crane, The dredging pump 131 and the suction unit 133 may be installed. By doing so, the suction portion 133 can be moved on the dredged soil to suck the dredged soil.

The operation of the venturi pipe-use dredged soil transfer apparatus according to the present invention will now be described.

When the barge 200 is docked in the harbor, the driving means 125, for example, the cargo pipe 120 attached to the crane is moved to move the dredged soil (o) on the barge line 200 to the suction So that the portion 121 is positioned. Then, when the water feed pump 112 is operated, seawater is supplied onto the dredged soil o through the water spray pipe 126, and the dredged soil o is in a fluid state so as to be sucked.

When the dredging pump 123 is operated, the dredged soil o is sucked into the conveyance pipe 120 through the suction unit 121 and moved. The suction unit 121 may be provided in a bell-mouth shape to smoothly suck the dredged soil. At this time, the discharge pressure of the dredging pump 123 is 1 to 3 kg / cm < ² >, and the dredged soil o moves along the pipeline and is supplied into the water supply pipe 110 at a relatively low pressure. The position of the suction portion 121 of the conveyance pipe 120 can be moved so that the arm of the crane 125 can be adjusted to suck the dredged soil o. A portion where the conveyance pipe (120) is operated may be provided with a rubber sleeve (124) and may be moved according to the range of movement of the crane (125).

The other end of the conveyance pipe 120 is provided to be introduced into the water supply pipe 113 and one side of the conveyance pipe 120 which is to be introduced into the water supply pipe 113 is moved in the progress of the sea water flowing in the water supply pipe 113 And discharging the dredged soil o to the downstream side along the direction of the discharge. The neck portion t of the venturi tube 140 is positioned at a position where the tip of the discharge portion 122 is positioned so that the dredged object o is pressed by the venturi tube 140, And then flows along the discharge tube 130 while being mixed with seawater.

The discharge pressure of the seawater moving in the water pipe 113 by the water pump 112 is 7 to 8 kg / cm ² , and the dredge pump 123 supplies the water The discharging pressure of the dredged soil moving in the discharge port 120 is set to 1 to 3 kg / cm ² , so that the discharge pressure of the conveyance pipe 120 is relatively small. Therefore, the pressurization is formed by the venturi pipe 140, so that the seawater of the discharge pipe 130 can be conveyed without flowing back to the pipeline 120.

The dredged soil o discharged into the discharge tube 130 has a relatively high fluidity while being mixed with seawater and can be rapidly transferred to the bottom of the discharge tube 130, The friction between the inner wall of the discharge tube 130 is reduced and the durability of the water supply pipe 110 can be increased.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

110: Water supply unit 111: Water intake pipe
112: water pump 113: water pipe
120: Tube 121: bell mouth
122: discharging section 123: dredging pump
124: rubber sleeve 125: driving means
126: water pipe 130: pipe pipe
140: Venturi tube 200: Barge
t: neck

Claims (4)

A water supply unit provided to supply water from the sea surface;
A dredging tank provided with a suction unit and a dredging pump at one end and a discharge unit provided at the other end, the discharge unit being inserted into a rear end of the water supply unit to supply dredged soil;
A discharge pipe for mixing the water supplied from the water supply unit and the dredged soil supplied from the shipper pipe to be transferred at a low altitude; And
And a venturi tube having one end connected to the rear end of the water supply part, the other end connected to the front end of the discharge pipe, and a discharge part of the gas pipe inserted into the water supply part,
The water supply unit,
A water intake pipe adapted to receive water from the sea surface;
A water feed pump for sucking water from the water intake pipe and feeding the water to the rear end; And
And a water pipe provided as a channel through which water moves to a rear end of the water feed pump,
The water pipe,
The discharge pressure of the water pipe is higher than the discharge pressure of the gas pipe,
The discharge unit
And is formed in a curved shape parallel to the direction of the water pipe,
[0027]
A water spray pipe provided on one side so as to be able to be driven up and down and left and right by the drive means and sprayed on the dredged soil by receiving seawater from the water feed pump,
The suction unit
And is formed in a bell mouth shape that widens toward the end facing the dredged soil,
The water spraying pipe,
Wherein one end of the venturi tube is provided so as to be spaced apart from the suction portion. delete delete delete

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