KR200199553Y1 - Dredging apparatus - Google Patents

Abstract

The present invention is a simple structure, dredging to enable the dredging of soil, sand, sludge, sludge, manure in rivers and sewers, etc. using a vacuum, continuous dredging operation, and easy movement and installation Provide the device.

The dredging device is for pumping out and discharging soil, sand, sludge, sludge, manure, etc., such as rivers and sewers: driven by driving means 12 such as an engine, a hydraulic motor, an electric motor, and the like. A vacuum pump (11) for generating a vacuum via the (13); Connected to the vacuum pump 11 at the upper side, a vacuum is formed therein, and soil, sand, sludge, sludge, manure, etc. mixed with air are suspended and introduced, and air is discharged through the vacuum pump 11. Collecting tank 20; One end is connected to the collection tank 20 so that a vacuum force is applied, and the inlet for easily inhaling soil, sand, sludge, sludge, manure, etc., such as a river or sewage, mixed with external air at the other end by the vacuum force. Tube 21; And water is ejected at a high pressure to the portion that needs airtight to maintain the vacuum force of the collection tank 20, the collection tank 20 to discharge soil, sand, sludge, sludge, manure, etc. settled in the lower portion by weight It characterized in that it comprises a rotary discharge pump 30 installed in the lower portion.

Description

Dredging apparatus

The present invention relates to dredging devices such as soil, sand, sludge, sludge, and manure, such as rivers and sewers, and more specifically, soil, sand, sludge, sludge, manure, etc. The present invention relates to a dredging device such as soil, sand, sludge, sludge, manure, etc., which enables dredging such as dredging, continuous dredging work, and enables easy movement and installation.

In order to discharge sludge such as underground waste water, the conventional pump system is pumped by mixing with 60% or more of liquid so that the concentration of liquid can pass through the impeller of the pump, and also limit the particles of the dirt to pass through the impeller. It is composed.

In addition to the inconvenience of supplying water for mixing with 60% or more of the liquid, there is a problem that a complex facility is required to supply water to the place where sludge such as a river is located. In order to limit the particles of particles, various facilities such as a filtration device are required, and the maintenance of the pump is complicated by sludge contaminating the pump and shortening the life of the pump, or clogging by the solid mass. .

On the other hand, in order to discharge the liquid in the vacuum state, the suction force must be higher than the vacuum pressure of the tank to be discharged. In addition, it is impossible to discharge the dirt from the vacuum because it must be attached to the check valve or other various facilities.

Therefore, the present invention is intended to solve such a problem, it is possible to dredge the soil, sand, sludge, sludge, manure, etc. in the river and sewer using a simple structure and vacuum, and to enable continuous dredging work It is an object of the present invention to provide a dredging device such as soil, sand, sludge, sludge, manure, etc., which makes it possible to move and install easily.

1 is a schematic configuration diagram showing the configuration of a dredging device such as soil, sand, sludge, sludge, manure, such as rivers and sewers according to an embodiment of the present invention,

FIG. 2 is a detailed enlarged view of the circle of FIG. 1 showing an enlarged inlet pipe structure of the dredging device of FIG.

3 is a cross-sectional view showing the configuration of a vacuum holding rotary discharge pump suitable for the dredging device of FIG.

4 is a cross-sectional view taken along line 4-4 of FIG.

<Description of the symbols for the main parts of the drawings>

11: vacuum pump 12: drive means

13: strainer 20: collection tank

21: inlet tube 25: inlet

26: Interior 27: Appearance

28: V-shaped end 29: air inlet

30: Rotary discharge pump 31: Casing

32: axis 33,35,38: channel

34: side plate 36,39: through groove

37: Rotary Edition 40: Couplings

41: water supply pipe 51: solid-liquid separator

52: liquid collecting / discharging device 53: solids collecting device

60: vehicle

In order to achieve this purpose, the dredging device according to the present invention, in the dredging device for pumping out and discharge the soil, sand, sludge, sludge, manure, such as rivers and sewers: driving such as engine, hydraulic motor, electric motor, etc. A vacuum pump driven by means and generating a vacuum via a strainer; A collection tank connected to the vacuum pump at an upper portion thereof to form a vacuum therein, after which soil, sand, sludge, sludge, and manure mixed with air are introduced, and air is discharged through the vacuum pump; One end is connected to the collection tank so that the vacuum force, the inlet pipe to easily suck the soil, sand, sludge, sludge, manure and the like mixed with the outside air at the other end by the vacuum force; In addition, water is ejected at a high pressure to a portion where airtightness is required to maintain the vacuum force of the collection tank, and rotary is installed at the lower portion of the collection tank to discharge soil, sand, sludge, sludge, and manure, which are settled at the bottom by weight. It characterized in that it comprises a discharge pump.

With this structure, the soil, sand, sludge, sludge, manure, etc. are dredged into the collection tank using vacuum, and the soil, sand, sludge, and sediment deposited on the bottom of the collection tank without destroying the vacuum of the collection tank. Sludge, manure, etc. can be discharged by the rotary discharge pump, it is possible to continuous work with a simple configuration.

In this case, a solid-liquid separator such as a mesh belt conveyor for separating solids and liquids from the sludge discharged from the rotary discharge pump, a liquid collecting / draining device for re-separating the separated liquid and the solid-liquid separator And a solids collecting device for collecting, compressing and discarding solids from the liquid collecting / draining device, and further, the dredging device is integrally mounted to facilitate movement and is easily accessible to a river. It is preferable to further comprise a moving means having a grounding portion to dredge in a fixed state.

In addition, the vacuum holding rotary discharge pump of the dredging device, the soil, sand, sludge, sludge, manure, etc. of the river or sewage pumped to the collection tank by a vacuum pump, and the soil, sand which is settled in the lower portion of the collection tank. In the dredging device for discharging sludge, sludge, manure, etc .: A casing is connected to the upper inlet of the lower portion of the collection tank, the outlet is formed in the lower portion; A shaft supported in the casing and connected to rotate by a driving means such as an engine, a hydraulic motor, an electric motor, etc., and having a water channel connected to the water supply pipe via a coupling; A pair of side plates formed with at least one channel communicating with the channel of the shaft; And a rotary plate which is hermetically fixed between the pair of side plates to form a plurality of spaces and has a channel formed therein; In addition, the water channel is communicated with a gap with the casing in order to maintain the airtight between the casing and the side plate and the rotary plate so as not to destroy the vacuum of the collection tank. In this case, it is preferable that a through groove communicating the channel of the side plate and the rotary plate is formed on the outer periphery of the side plate and the rotary plate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a schematic configuration diagram of a dredging device such as soil, sand, sludge, sludge, manure, such as a river or sewage according to an embodiment of the present invention, a schematic enlarged view of the original portion of Figure 1 As shown.

Dredging device such as soil, sand, sludge, sludge, manure, such as a river or sewage according to an embodiment of the present invention, the driving means 12, such as an engine, a hydraulic motor, an electric motor, basically in Figures 1 and 2 And a vacuum pump 11, a collection tank 20, an inlet pipe 21, and a rotary discharge pump 30, and solid-liquid separator 51 such as a mesh belt type conveyor as shown in the drawing. In addition, the liquid collecting / draining device 52 and the solid collecting device 53 are preferably mounted on the moving unit 60 so that they can be easily transported and dredged.

In FIG. 1, the vacuum pump 11 is driven by driving means 12 such as an engine, a hydraulic motor, an electric motor, etc., and collects the vacuum pump 11 so as to generate a vacuum in the collection tank 20 via a strainer 13. It is connected to the top of the tank 20. In order to maintain the uniformity of the vacuum force, a vacuum tank may be provided.

The inlet pipe 21, one end is connected to the collection tank 20, the vacuum force is applied, the soil, sand, sludge, sludge, such as a river or sewage mixed with the outside air at the other end by the vacuum force, Manure and the like is easily inhaled. As an example of this specific configuration, the inlet pipe 21 of FIG. 2 is formed of an air inlet double tube having an inner tube 26 and an outer tube 27 whose ends extend above the water surface, and further, an end portion of the inner tube 26. Is preferably formed by including an inlet mechanism 25 having at least one V-shaped end 28 so as to form an air inlet 29.

The rotary discharge pump 30, after the soil, sand, sludge, sludge, manure, etc. mixed with air in the collection tank 20, the air is discharged through the vacuum pump 11, the airtight state It is installed on the lower portion of the collection tank 20 so as to discharge only the soil, sand, sludge, sludge, manure, etc. precipitated at the bottom by the weight.

In the dredging device having such a structure, when the vacuum pump 11 is operated, a vacuum is generated in the inflow pipe 21 to introduce soil, sand, sludge, sludge, manure, etc. through the inner pipe 26. At this time, the outside air is also sucked by the strong vacuum force through the air inlet 29 of the V-shaped end 28 of the inner tube 26 between the inner tube 26 and the outer tube 27, and the air sucked in this way The soil, sand, sludge, sludge, sludge, manure, etc. collide or penetrate and infiltrate the soil, sand, sludge, sludge, manure, etc. Dredging can be done easily. In addition, in the inflow process, the soil, sand, sludge, sludge, manure, etc., through the inlet pipe 21 can be easily flowed into the collection tank 20 by being mixed with the inhaled air and introduced at low vacuum pressure. .

In this way, the soil, sand, sludge, sludge, manure and the like introduced into the collection tank 20, the air in the collection tank 20 is sucked to the upper vacuum pump 11 side, mainly made of liquid and solids , Sand, sludge, sludge, and manure are settled downward by their own weight.

Soil, sand, sludge, sludge, manure, etc. precipitated to the bottom can be easily discharged to the solid-liquid separator 51, such as a mesh belt-type conveyor by the rotary discharge pump (30).

In the solid-liquid separator 51, the liquid flows out to the lower part by the mesh belt and is separated from the solid component, and the solid component falls along the solid-liquid separator 51 to the solid-content collecting apparatus 53.

The liquid flowing out from the solid-liquid separator 51 is discharged back to the river by the liquid collecting / draining device 52, or centrifugal where the illustration is omitted depending on the conditions of soil, sand, sludge, sludge, manure, etc. It may be dewatered by a separator or the like.

The solid content collecting device 53 may be detachably installed on the moving means 60 or may be installed outside the moving means 60, and a vehicle or a cart such as a truck may be used at all. Thus separated solids collecting device 53 is installed, it is possible to discard the solids discharged continuously through the rotary discharge pump 30 and the solid-liquid separation device 51, accordingly, dredging operation is dredged continuously Can be discharged / disposal. In addition, the solid content collecting device 53 may compress and discard the collected solid content.

In addition, the dredging device having such a structure is preferably mounted on the moving means 60 so as to easily move integrally, and the moving means 60 can easily approach the river and the like to dredge in a fixed state. It is preferable to have a structure that does not fall on the floor of the water, and further has a ground portion of the structure that can be mounted on a transport vehicle such as a trailer.

In addition, the present invention, so as not to weaken the vacuum of the collection tank 20 in the lower portion of the above-described collection tank 20 to easily discharge the soil, sand, sludge, sludge, manure, etc. deposited on the lower portion 3 and 4, the rotary discharge pump 30 includes a driving means 42 such as an engine, a hydraulic motor, an electric motor, or the like connected to one side of the shaft 32. It is driven by, the channel 33 is formed in the shaft 32, the channel is penetrated to the other side of the shaft 32, the other side is connected to the water supply pipe 41 via the coupling 40. The casing 31 of the rotary discharge pump 30 has an inlet IN connected to the collection tank 20 at an upper portion thereof, and an outlet OT at a lower portion thereof.

In addition, between the pair of side plates 34 on both sides, a plurality of rotary plates 37 which are hermetically installed between the side plates 34 so as to form a plurality of separate spaces in the circumferential direction, and rotate together with the shaft 32. ) Is installed inside the casing 31, the rotary plate 37 and the side plate 34, the gap CL of the portion except for the inlet IN and the outlet OT of the casing 31, respectively, during rotation. A plurality of channels 35 and 38 are formed, including micropores in communication with the channel 33 of the shaft 32 so that the water can be ejected to maintain the vacuum.

These channels 35 and 38 also communicate with each other at the outer periphery of the side plate 34 and the rotary plate 37 so that the through grooves 36 and 39 communicate with the channels 35 and 38 so that a similar pressure is applied. It is preferable that it is formed in the outer periphery of the side plate 34 and the rotary plate 37.

In order to facilitate discharge according to various concentrations such as soil, sand, sludge, sludge, and manure, the rotation speed of the shaft 32 and the rotary plate 37 of the rotary discharge pump 30 can be adjusted. It is preferable that the drive means 42 is a hydraulic motor.

In the rotary discharge pump 30 configured as described above, water is supplied at high pressure through the water supply pipe 41, and the side plate 34 and the rotary plate 37 are driven together with the shaft 32 by the driving means 42. When rotated, the side plate 34 and the rotary plate 37 and the casing rotated together with the shaft 32 by ejecting water from the water supply pipe 41 through the channels 33, 35, and 38 into the clearance CL. The gap CL between the 31 is hermetically sealed so as not to destroy the vacuum of the upper collection tank 20, and thus, soil, sand, sludge, and the like, into the collection tank 20 through the inlet pipe 21, Soil, sand, sludge, sludge, manure and the like deposited on the lower part can be precipitated into the space between each rotary plate 37 by its own weight while allowing sludge and manure to be introduced. 37) Soil, sand, sludge, sludge, manure, etc., which have settled between the spaces between them, are discharged through the outlet OT when rotated downward. This becomes possible. That is, while using the vacuum inlet and discharge can be made at the same time continuous dredging and discharge of soil, sand, sludge, sludge, manure, etc. are realized.

According to the configuration and operation of the dredging device according to the embodiment of the present invention described above, it is possible to dredge the soil, sand, sludge, sludge, manure, etc. of the bottom of rivers and sewers, etc. There is no need to spray water on the suction part, and there is no need to limit the size of the particles. Furthermore, the soil, sand, sludge, sludge, manure, etc. are mixed with the air and sucked, so that the soil, sand with low vacuum force , Sludge, sludge, manure and the like can be sucked, and also, by spraying the water inside the portion that needs to be airtight of the rotary discharge pump 30 installed in the lower portion of the collection tank 20 of the collection tank 20 While not destroying the vacuum, it is possible to discharge soil, sand, sludge, sludge, manure, and the like deposited on the lower portion of the collection tank 20, so that dredging and discharge operations can be continuously performed. Further, there is an effect such that can be easily moved to the installation for dredging by mounting the moving means (60).

Claims (4)

In the dredging device to pump and discharge soil, sand, sludge, sludge, manure, etc. in rivers and sewers: A vacuum pump 11 driven by driving means 12 such as an engine, a hydraulic motor, an electric motor, and the like, to generate a vacuum via the strainer 13; Connected to the vacuum pump 11 in the upper portion is a vacuum is formed therein, the soil, sand, sludge, sludge, manure, etc. mixed with air is introduced, the air is collected through the vacuum pump 11 Tank 20; One end is connected to the collection tank 20 so that a vacuum force is applied, and the inlet for easily inhaling soil, sand, sludge, sludge, manure, etc., such as a river or sewage, mixed with external air at the other end by the vacuum force. Tube 21; And The water is ejected at a high pressure to a portion where airtightness is required to maintain the vacuum force of the collection tank 20, and the soil, sand, sludge, sludge, manure, etc. deposited on the lower part by weight of the collection tank 20 Dredging device, characterized in that it comprises a rotary discharge pump 30 installed in the lower portion. The casing (31) of claim 1, wherein the rotary discharge pump (30) has an upper inlet (IN) connected to a lower portion of the collection tank (20), and an outlet (OT) formed at a lower portion thereof. It is supported in the casing 31 and connected to rotate by a driving means 42 such as an engine, a hydraulic motor, an electric motor, etc., and a water channel connected to the water supply pipe 41 through which the water is supplied at high pressure via a coupling 40. A pair of side plates 34 on which the shaft 32 on which the 33 is formed is formed, at least one channel 35 communicating with the channels 33, 35, 38 of the shaft 32, and the pair of side plates ( It is configured to include a rotary plate 37 is formed between the casing 31 and the side plate 34 and the rotary plate 37 is formed between the casing 31 and the side plate 34 is formed in a plurality of spaces and secured between the 34 and the channel 38 formed. The channels 33, 35, 38 are communicated with the clearance CL with the casing 31 so as not to destroy the vacuum of the collection tank 20; The inlet pipe 21 is formed as an air inlet double tube so as to suck the outside air between the inner tube 26 and the exterior 27 at the other end, at least the end of the inner tube 26 to form an air inlet 29 An inlet 25 having one V-shaped end 28; Solid-liquid separator 51, such as a mesh belt conveyor for separating solids and liquids from the sludge discharged from the rotary discharge pump 30, and a liquid collecting / discharging device 52 for collecting and discharging the separated liquid And a solids collection device 53 for collecting solids from the solid-liquid separator 51; Dredging devices such as soil, sand, sludge, sludge, manure, etc. are mounted to facilitate the movement integrally, and further comprises a moving means 60 having a grounding portion to easily dredging in a fixed state by access to the river easily And, the dredging device, characterized in that the solids collection device 53 is installed to be separated from the moving means 60 so that dredging operation can be carried out continuously. Soil, sand, sludge, sludge, manure, such as rivers and sewers, are pumped to the collection tank 20 by the vacuum pump 11, and the soil, sand, sludge, sludge settled below the collection tank 20. In dredging equipment to discharge manure, etc .: A casing 31 having an upper inlet IN connected to a lower portion of the collection tank 20, and an outlet OT formed at a lower portion thereof; It is supported in the casing 31 and connected so as to be rotated by a driving means 42 such as an engine, a hydraulic motor, an electric motor, etc., and a water channel 33 is connected to the water supply pipe 41 via a coupling 40. Axle 32; A pair of side plates 34 formed with at least one channel 35 communicating with the channels 33, 35, 38 of the shaft 32; And A rotary plate 37 which is hermetically fixed between the pair of side plates 34 to form a plurality of spaces and has a water channel 38 formed therein; The channels 33, 35, and 38 are casings to maintain watertightness between the casing 31 and the side plate 34 and the rotary plate 37 so as to eject water so as not to destroy the vacuum of the collection tank 20. Dredging device characterized in that it comprises a vacuum holding rotary discharge pump 30 in communication with the clearance (CL) and (31). 4. The through grooves 36 and 39, which communicate the channels 35 and 38 of the side plate 34 and the rotary plate 37, are formed on the outer circumference of the side plate 34 and the rotary plate 37. Dredge device, characterized in that.