KR100560056B1 - Vacuum inhalation apparatus for dredging - Google Patents

Abstract

According to the present invention, various types of dredges such as sludge and sand, gravel, etc., which are stored and deposited on the bottom surface of the sea or river, or on the reservoir 1 of land, can be collected by vacuum suction method. It relates to a vacuum suction device for dredging, the air is drawn in by the high pressure pump 20 which is driven by the drive of the engine device 10, the air to be transmitted at high pressure, high speed to the inside of the side end of the high-pressure water supply pipe 24 is supplied At the same time as the jet nozzle 40 having the inlet port 26 is provided with a discharge pipe 33 connected to the discharge pipe 32 on the outside, the dredging suction pipe 35 is connected to the suction port 34 downward The combination of the jet device 30, the high-pressure water supplied from the high-pressure water supply pipe 24 through the jet nozzle 40 having the air intake port 26 at the time of high pressure transmission at a strong flow rate and at the same time the air intake port 26 Air is sucked through the ship As the high pressure water is forcibly discharged to the outlet pipe 32 side, the interior of the jet device 30 is vacuumed and various dredged water 3 is sucked through the dredged suction pipe 35 connected to the lower side of the jet device 30 to discharge the discharge pipe. It can be discharged to the (32) side can easily and safely dredging various dredges (3) such as sludge and sand, gravel, etc., and can be used for a long time without failure due to the solid coupling configuration, in the installation place of the present invention Therefore, it was invented so that it could be used for amphibious use without being tied to any place underwater or on the ground.

Description

Dredging vacuum suction device {VACUUM INHALATION APPARATUS FOR DREDGING}             

1 is a schematic diagram of a use state using the vacuum suction device of the present invention.

FIG. 2 is an enlarged cross-sectional view of part “A” of FIG. 1;

Figure 3 is a schematic diagram of a use state using a conventional vacuum suction device.

Explanation of symbols on the main parts of the drawings

1 Reservoir 3 Dredge 5 Freshwater Tank

10 Engine unit 20 High pressure pump 22 High pressure water intake pipe

23 strainer 24 high pressure water supply line 25 air supply line

26 Air intake 27 Air supply balance hole 30 Jet system

32 Outlet tube 33 Outlet tube 34 Inlet port

35 Dredge Water Suction Pipe 36 Balance Hole 40 Jet Nozzle

42 air inlet

The present invention provides a dredging vacuum suction device which can collect various dredged materials such as sludge and sand, gravel, etc., which are stored by depositing in the bottom surface of the sea or river, or on the reservoir of the land by vacuum suction method. The present invention relates to a jet nozzle having an air inlet for high pressure and high speed flow into a side end of a high pressure water supply pipe supplied with a high pressure water supplied by a high pressure pump operated by driving of an engine device, and connected to a discharge pipe to the outside. Discharge pipe is provided, characterized in that the configuration coupled to the jet device connected to the dredging suction pipe downwards.

Dredging vacuum suction device of the present invention configured as described above is the high pressure water supplied from the high pressure water supply pipe through the jet nozzle having the air intake at high pressure and at the same time the air is sucked through the air inlet to the high pressure to the discharge pipe As the water is forcibly discharged, the inside of the jet apparatus is evacuated and various dredged water is sucked through the dredging suction pipe connected to the lower side of the jet apparatus to be discharged to the discharge tube side.

Therefore, by using the vacuum suction device for dredging using the jet apparatus of the present invention, it is possible to easily and safely dredge various dredged materials, such as sludge and sand, gravel, etc. deposited on the bottom surface of the water, and use for a long time without failure. According to the installation place of the present invention, it is invented so that it can be used for amphibious water without being bound to any place underwater or on the ground.

In the dredging suction device used in the related art, as shown in FIG. 3, the various dredged water 3 sucked by the submersible pump 130 having the suction port 134 driven by the supply of external power is discharge pipe 133. It is generally configured to be discharged to a suitable place (for example, the dredger 110 deck) through the yard.

The conventional suction device configured as described above has a risk of electric shock because external power must be supplied to the water, and an impeller (not shown) installed inside the submersible pump 130 generates wear due to passage of the dredging 300. In addition, the sludge is caught, which causes a breakdown, requires frequent maintenance, and the weight of the submersible pump 130 is heavy.

In addition, as the underwater pump 130 is installed in the water, the discharge pressure required to push up the various dredging (3) from the bottom of the water to the surface of the water is low, it is not easy to discharge the various dredging (3) dredging a large amount of dredging The dredging operation took a long time because the water (3) could not be discharged, resulting in an uneconomical defect.

Accordingly, the present invention provides a jet nozzle having an air inlet for high pressure and high speed into the side end of the high-pressure water supply pipe is driven by the drive of the engine device and introduced by the high pressure pump to supply the high pressure water to solve the above drawbacks. At the same time, the discharge pipe which is connected to the discharge pipe is provided on the outside, and is configured to be coupled to the jet device connected to the dredging suction pipe to the suction inlet downward, and is supplied from the high pressure water supply pipe through the jet nozzle having the air suction port. While generating high pressure water with a strong flow rate, the air is sucked through the air intake port, and the high pressure water is forced out to the discharge pipe side, and the inside of the jet device is vacuumed, and the dredged water suction pipe connected to the lower part of the jet device is used. To dredging various dredged water to discharge to the discharge There is a purpose.

When described in detail by the accompanying drawings to achieve the above object is as follows.

1 is a schematic diagram of a use state using the vacuum suction device of the present invention. FIG. 2 is an enlarged cross-sectional view of the portion “A” of FIG. 1, in which a high pressure pump 20 which is driven by driving of the engine device 10 is installed, and one side of the high pressure pump 20 is a strainer 23. The installed high pressure water suction pipe 22 is installed, the other side is connected to the high pressure water supply pipe 24 which is sucked by the operation of the high pressure pump 20 is supplied with a high pressure water jet device 30 is configured.

A side end portion of the high-pressure water supply pipe 24 connected to the high-pressure pump 20 for transmitting high pressure water at high pressure and high speed is formed by double covering an air supply pipe 25 having an air inlet 26. There are a plurality of air supply balance holes (27) are formed by drilling at an appropriate interval.

One side end of the high-pressure water supply pipe 24 formed as described above is fitted with a jet nozzle 40 formed with a plurality of air inlets 42 at appropriate intervals at the periphery, and is coupled to the high-pressure water supply pipe 24. A plurality of air supply balance holes 27 formed at the periphery of the) and the air inlet 42 formed at the periphery of the jet nozzle 40 are formed so as to fit and fit.

One side of the jet apparatus 30 is coupled to one end of the high pressure water supply pipe 24, and the other side discharge pipe 32 through which the high pressure water supplied through the jet nozzle 40 passes through the high pressure water supply pipe 24. This is formed and the discharge pipe 33 is formed to be combined.

In addition, the suction device 34 is formed below the jet device 30 to form a dredging suction pipe 35 through which various dredges 3 and sludge are sucked and transported.

The dredging suction pipe 35 may be generally used a synthetic resin or metal straight pipe, but the present invention shows that the corrugated pipe is used in combination, the corrugated pipe at the time of use is excellent in flexibility and ease of shock and height adjustment. .

Therefore, the jet apparatus 30 as described above may include external air that is introduced into the jet nozzle 40 through the air inlet 26 at the moment when the high pressure water passing through the high pressure water supply pipe 24 passes through the jet nozzle 40. While mixing, the inside of the jet apparatus 30 is to be in a vacuum state.

On the other hand, the upper portion of the jet device 30 is provided with a balance hole 36, the high pressure water supplied to the inside of the jet device 30 through the jet nozzle 40 passes quickly toward the discharge pipe 32 side of the balance hole Vortex is generated by the 36 to make the vacuum state inside the jet apparatus 30 more effectively, thereby facilitating the collection or collection of various dredging 3.

At this time, the inside of the jet apparatus 30 is a vacuum because the Bernoulli's theorem increases the speed when the fluid flows through the narrow passage and decreases the speed when flowing through the wide passage, the faster the fluid velocity The lower the pressure, conversely, the slower the fluid, the higher the pressure.

As such, the high pressure water supplied from the high pressure water supply pipe 24 through the jet nozzle 40 having the air suction port 26 by the jet nozzle 40 having a diameter smaller than the diameter of the high pressure water supply pipe 24 generates a strong flow rate. At the same time, the high pressure water is generated and the air is sucked through the air suction port 26 to forcibly discharge the high pressure water to the discharge pipe 32, and the inside of the jet device 30 is vacuumed to the lower portion of the jet device 30. Through the connected dredging suction pipe 35, the sludge, such as sludge, which is stored in the water or the reservoir 1, sinks, and various dredged materials such as sand or gravel are strongly sucked and discharged together with the high pressure water. It is to be discharged to the (32) side.

The present invention configured as described above is used to collect various dredged water (3) stored and stored in the bottom surface of the sea or river, or in the reservoir of the land, and in the following description of the effect of the land reservoir (1) For example, the collection or collection state of the various dredged (3) stored and precipitated as follows.

The present invention configured as shown in Figure 1 is driven by the supply of a separate power to the engine device 10 installed in a suitable stable place to operate the high-pressure pump 20 coupled to one side is desalted in the high-pressure water freshwater tank (5) Inhale high pressure water.

The high pressure water sucked by the high pressure pump 20 is transmitted to the jet nozzle 40 formed on one side of the jet apparatus 30 through the high pressure water supply pipe 24 while passing through the jet nozzle 40 and air at the same time. By suctioning the outside air through the suction port 26, the high pressure water and the outside air are mixed and discharged to the discharge pipe 32 side.

At this time, the inside of the jet apparatus 30 is in a vacuum state, connected to the bottom to suck the various dredged water (3) through the dredging suction pipe 35 is installed to reach the bottom surface of the reservoir (1) discharge pipe ( 32) is discharged to the discharge pipe 33 to be deposited in a separate place.

As such, the dredged water suction pipe 35 coupled to the inside and the bottom of the jet device 30 and the discharge pipe 33 coupled to the discharge pipe 32 side are penetrated without blocking so as to pass in one direction, and the dredged water suction pipe 35 is opened. At the time of transporting and discharging various dredged material 3 sucked through, the jet device 30 can be quickly and easily collected and collected without being caught.

The present invention as described above is connected to the high-pressure water supply pipe is supplied by the high-pressure water pump is driven by the drive of the engine device is connected to the high-pressure water supply pipe to the high pressure, high speed by the jet nozzle and the jet device having an air intake to one side The feed water supplied from the water supply pipe generates a high pressure water having a strong flow rate through the jet nozzle and at the same time sucks air through the air intake port and the high pressure water is forcibly discharged to the discharge pipe, and the inside of the jet device is vacuumed, Various dredged water is sucked smoothly through the dredged water suction pipe connected to the lower side and discharged to the discharge pipe, and dredging various dredged water deposited on the bottom surface of the water such as sea or river or on the reservoir of land Can be used for a long time without failure, the installation site of the present invention Some cows have the advantage that they can be used for amphibious purposes anywhere in the water or on the ground.

Claims (2)

The high pressure pump 20 which is driven by the driving of the engine device 10 is installed, and one side of the high pressure pump 20 is provided with a high pressure water suction pipe 22 in which a strainer 23 is installed. The jet nozzle 40 is fitted into one side end of the high pressure water supply pipe 24 through which the high pressure water sucked by the operation of the high pressure pump 20 is fixed, and the other side of the high pressure water supply pipe 24 is outside the one end. A discharge device 32 having a discharge pipe 33 coupled thereto is formed, and a jet device 30 having a suction port 34 coupled with a dredging suction pipe 35 for suctioning and transporting various dredged goods 3 downward. In the combined suction vacuum suction device, An air supply balance hole 27 is formed on one side end circumferential surface of the high pressure water supply pipe 24, and an air supply pipe 25 having an air inlet 26 formed at a circumference of the air supply balance hole 27 is doubled. It is configured to cover, the vacuum suction device for dredging, characterized in that formed in the periphery of the jet nozzle 40, the air inlet 42 is formed so as to communicate with the air supply balance hole (27). The method of claim 1, Dredge vacuum suction device, characterized in that the upper portion of the jet device 30 formed a vortex generating balance hole (36).

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