KR101562145B1 - Waste water treatment device for continuous ship unloader - Google Patents

Abstract

Disclosed is an invention related to a wastewater treatment device for a continuous ship unloader. The wastewater treatment device for a continuous ship unloader according to the present invention comprises: a rail unit in which a wastewater penetration hole unit is formed; a transfer unit for transferring wastewater while moving along the rail unit; a hopper unit which is installed on an upper portion of the transfer unit, receives wastewater from a boom of the continuous ship unloader, and has a discharge door installed on one side portion thereof facing the wastewater penetration hole part; a discharge guide unit which is installed in the transfer unit, and guides wastewater on the transfer unit toward the wastewater penetration hole unit; a drive unit for providing power which moves the discharge door and the discharge guide unit; and power transmission unit which connects the discharge door and the discharge guide unit to the drive unit, opens the discharge door while moving in connection with the operation of the drive unit, and brings the discharge guide unit into contact with the transfer unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a wastewater treatment device for a continuous unloading machine,

More particularly, the present invention relates to a continuous water tank treatment apparatus for treating sewage water generated in a process of removing accumulated light from washing water in a continuous unloading unit.

Generally, iron ore and coal used as raw fuel in steel mills during blast furnace operation are transported by ship, unloaded at the pier, and then transported to the yard of the factory through conveying equipment such as belt conveyor. The raw materials such as coal and iron ore that are loaded on the ship are transported to the outside of the ship by a continuous unloading machine.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2000-0020731 (published on Apr. 15, 2000, entitled " Burst Elevator Type Offloader ").

An object of the present invention is to provide a continuous wastewater treatment device for treating wastewater generated in a process of removing accumulated light from washing water in a continuous unloading machine.

In accordance with the present invention, there is provided a sewage water treatment apparatus for a continuous cargo handling machine, comprising: a rail part formed with an abrasion water passage hole part; A conveyance part for conveying the polluted water while being moved along the rail part; A hopper unit installed at an upper portion of the conveyance unit and having a drain door installed at one side of the boom of the continuous unloading unit, A discharge guide provided at the transfer unit for guiding the contaminated water on the transfer unit to the contaminated water passage hole side; A drive unit for providing power for moving the discharge door and the discharge guide unit; And a power transmitting portion connecting the discharge door and the discharge guide portion to the drive portion and opening the discharge door while being moved in conjunction with the operation of the drive portion and closely fitting the discharge guide portion to the transfer portion. do.

The conveying unit may include a bogie portion traveling along the rail portion; A conveyor unit having a belt member rotated in an infinite orbit and mounted on the bogie portion; And a control unit for controlling driving of the bogie unit and the conveyor unit.

The hopper unit may include a hopper body having a lower opening; A discharge opening formed to be laterally opened in a lower portion of the hopper main body and opened and closed by the discharge door; And a door connecting part that rotatably connects the discharge door to the hopper main body.

The hopper may further include: a supply opening formed on the hopper body to open laterally toward a raw material through hole formed in the rail portion; And a supply door for opening and closing the supply opening portion.

The discharge guide portion may include a guide plate supporter fixed to the bogie portion; And an inclined guide portion rotatably installed on the guide plate support portion and guiding the contaminated water on the conveyor portion to the contaminated water passage hole portion in a state of being in contact with the conveyor portion.

The discharge guide unit may further include a buffer unit coupled to the inclined guide unit and configured to absorb an impact upon contact with the conveyor unit.

The power transmission unit may include a first link member connecting the driving unit and the discharge door, and rotating the discharge door upward when the drive unit is driven; And a second link member connecting the drive unit and the discharge guide unit and rotating the discharge guide unit toward the transfer unit when the drive unit is driven.

According to the sewage water treatment apparatus for a continuous unloading machine according to the present invention, the sewage supplied from the boom of the continuous unloading machine can be seated on the upper surface portion of the conveying portion through the hopper portion, flows to the discharge guide portion side through the side portion of the hopper portion, And can flow and discharge continuously to the side of the dirt water passage hole portion formed in the rail portion.

In addition, according to the present invention, by operating the driving unit, the discharge door provided in the hopper portion is opened, and at the same time, the discharge guide portion for guiding the polluted water to the contaminated water passage hole portion side, It is possible to continuously form an abundant water flow path from the hopper portion to the contaminated water passing hole portion.

FIG. 1 is a view schematically showing an installation position of a sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing a sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention.
FIG. 3 is a side view schematically showing a state before operating the driving unit of the continuous water tank washing machine for unloading equipment according to an embodiment of the present invention.
FIG. 4 is a side view schematically showing a state in which a driving unit of a sewage water treatment apparatus for a continuous unloading machine is operated according to an embodiment of the present invention.
5 is a side view schematically showing a use state of supplying a raw material to a ground belt conveyor by using a sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention.
FIG. 6 is a side view schematically showing a state in which a continuous water tank for a cargo handling machine according to an embodiment of the present invention is moved to a discharge position for discharging sewage water.
FIG. 7 is a side view schematically illustrating a state of using the sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention to discharge sewage water to the sewage water reservoir.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an embodiment of an apparatus for treating sewage water for a continuous cargo handling machine according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a view schematically showing an installation position of a sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention.

1, the continuous unloading machine 1 is connected to a boom 103 in a horizontal direction on the upper side of a running portion 102 moving along the wharf 101, 104) are installed. The excavator 105 is located below the synchronous motor 104 and the bucket 106 moving along the excavator 105 enters the ship's reservoir 107 to excavate the raw material such as iron ore or coal To the boom (103).

The raw material conveyed through the boom 103 is moved to the yard by a ground belt conveyor 108 provided below the running part 102. The sewage water treatment apparatus 2 for the continuous unloading machine 1 according to the embodiment of the present invention is installed in the running section 102 to supply the raw material supplied from the boom 103 to the plurality of ground belt conveyors 108 in a selective manner And also treats the polluted water discharged through the cleaning of the inside of the boom 103 to prevent the polluted water from being introduced into the ground belt conveyor 108. [

FIG. 2 is a perspective view schematically showing a sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention, and FIG. 3 is a perspective view of a continuous water tank for an unloading machine according to an embodiment of the present invention, FIG. 4 is a side view schematically showing a state in which a driving unit of a continuous water tank washing machine for an undercarriage according to an embodiment of the present invention is operated. Referring to FIG.

FIG. 5 is a side view schematically showing a use state of supplying a raw material to a ground belt conveyor by using a sewage water treatment apparatus for a continuous unloading machine according to an embodiment of the present invention. FIG. 6 is a cross- FIG. 7 is a side view schematically showing a state in which a sewage water treatment apparatus for a continuous type unloading machine is moved to a discharge position for discharging sewage water. FIG. 7 is a side view of the sewage water treatment apparatus for a continuous unloading machine, To the sewage water storage tank.

2 to 4, the waste water treatment apparatus 2 for a continuous unloading machine 1 according to an embodiment of the present invention includes a rail part 10, a conveying part 20, a hopper part 30, A driving unit 50, and a power transmitting unit 60. The power transmitting unit 60 includes a driving unit 50,

The rail portion 10 is mounted to the traveling portion 102 and disposed between the boom 103 and the ground belt conveyor 108. [ The rail part 10 is formed so as to extend along a traveling path of the conveying part 20 and the conveying part 20 is horizontally moved along the rail part 10 to convey the raw material or polluted water to a desired position. The rail portion 10 according to an embodiment of the present invention includes a rail plate portion 11, a raw material passing hole portion 12, and a dirty water passage hole portion 13.

The rail plate portion 11 is provided so as to extend in the horizontal direction with a plate shape that blocks the passage of the soft raw material and polluted water. Although not shown in the figure, a rail for guiding the conveyance unit 20 is formed on the upper portion of the rail plate 11. [ The traveling wheels provided at the lower part of the transfer unit 20 are moved in the horizontal direction along the rails.

The soft raw material passing hole portion 12 is a portion constituting a passage through which the soft raw material can pass. The openings 12 are formed at positions corresponding to the ground belt conveyor 108, and a plurality of pieces proportional to the number of the ground belt conveyors 108 are disposed apart from each other. The raw material supplied to the side of the raw material passing hole portion 12 through the feeding portion 20 is fed to the ground belt conveyor 108 located below the rail plate portion 11 through the raw material passing hole portion 12 as shown in FIG. As shown in FIG.

The sewage through-hole portion 13 is a portion constituting a passage through which the sewage water can pass. The sludge passage hole portion 13 is formed at a position spaced apart from the soft raw material passage hole portion 12 such that the sludge flowing from the transfer portion 20 to the sludge passage hole portion 13 side is not introduced into the soft material passage hole portion 12 side . As shown in FIG. 7, the abraded water supplied to the abrading water passage hole portion 13 through the transfer portion 20 flows through the abrading water passage hole portion 13 into the abrading water reservoir 70 located below the rail plate portion 11, And stored. The contaminated water stored in the polluted water reservoir 70 may be processed or discarded later.

The transfer unit 20 is moved along the rail part 10 to transfer the raw material supplied from the boom 103 to the raw material passing hole part 12 as shown in FIG. 5, And transfers the water to the sludge passage through hole 13 side. The conveyance unit 20 according to an embodiment of the present invention includes a conveyance unit 21, a conveyor unit 22, and a control unit 23.

The bogie portion 21 is a portion that runs along the rail portion 10. The bogie portion 21 includes a main body portion provided with a seating surface on which the conveyor portion 22 can be seated and a traveling wheel disposed below the main body portion, a conveyor portion 22 mounted on the main body portion, a hopper portion 30, 50), and the like. The support portion is provided on the upper portion of the main body portion so as to extend in the vertical direction. The support portion includes a roller support portion for supporting the roller member of the conveyor portion 22, a hopper support portion for supporting the hopper portion 30, and a drive support portion for supporting the drive portion 50. [

The conveyor unit 22 is mounted on the carriage unit 21 with a belt member rotated in an endless track and a roller member rotationally driven in a state of being coupled to both ends of the belt member. When the roller member is driven to rotate forward, the belt member rotates in the forward direction, and when the roller member is driven to rotate in the reverse direction, the belt member rotates in the reverse direction. The raw material or polluted water that has passed through the hopper portion 30 is seated on the upper surface portion of the conveyor portion 22 and is conveyed to one end portion or the other end portion of the conveyor portion 22 in accordance with the rotation direction of the belt member.

The control unit 23 controls the driving of the conveyance unit 21 and the conveyance unit 21. The control unit 23 controls the drive motors for driving the carriage unit 21 and the conveyor unit 22 to perform forward rotation drive, reverse rotation drive, and stop. For example, when the raw material is supplied through the boom 103, the control unit 23 controls the flow of the raw material through one of the plurality of raw material through holes 12 formed on the left side of the rail part 10 as shown in FIG. 5 The ground belt conveyor 108 is controlled to rotate the conveyor unit 22 in the forward direction so that the upper surface portion of the conveyor unit 22 on which the soft raw material is placed is moved toward the left side after running the truck unit 21, The raw material is supplied.

6, the control unit 23 travels the bogie portion 21 toward the contaminated water passage hole portion 13 formed on the right side of the rail portion 10 as shown in Fig. 6 The waste water is discharged to the contaminated water storage tank 70 while keeping the conveyor unit 22 in a stopped state or rotating the conveyor unit 22 in the reverse direction.

Since the washing water naturally flows toward the discharge guide portion 40 on the upper surface portion of the conveyor portion 22 when the ratio of the washing water to the accumulated light is large, the conveyor portion 22 It is possible to transfer the contaminated water to the contaminated water passage hole portion 13 side. In addition, when the ratio of the accumulated light to the washing water is large, the contaminated water can smoothly flow toward the discharge guide portion 40 while rotating the conveyer portion 22 in the reverse direction.

The hopper portion 30 is a portion for guiding the dirty water supplied downward from the boom 103 of the continuous unloading machine 1 so as to fall down stably to the upper surface portion of the conveyor portion 22 without being dispersed and lost, Respectively. 2 to 4, a hopper unit 30 according to an embodiment of the present invention includes a hopper body 31, a discharge opening 32, a discharge door 33, a door connecting portion 34, A portion 35, and a supply door 36. Fig.

The hopper main body 31 has a shape in which upper and lower portions thereof are open so that the raw material or polluted water can pass through the inside downward. The lower portion of the hopper main body 31 has a smaller width than the upper portion. The contaminated water flowing into the hopper main body 31 passes through the hopper main body 31 having an inner shape narrower than the upper part, and is denser and seated on the conveyor part 22.

The supply opening 35 is formed to open sideways at a lower portion of one side of the hopper body 31 toward the raw material through hole 12. The supply door 36 is rotatably installed on the supply opening 35 and is rotated upward and downward to open and close the supply opening 35. When the conveyor portion 22 is driven in the forward direction with the supply door 36 upwardly rotated to open the supply opening 35 as shown in Figs. 3 and 7, The raw material can be transferred to the raw material through hole portion 12 side through the supply opening portion 35. [

The supply door 36 may be manually rotated upward and then caught by an engaging means provided on the hopper main body 31 so that the downward rotation can be maintained in a restrained state. When the restricting force for restraining the supply door 36 in the upward rotating state is released, the supply door 36 is rotated downward by its own weight to close the supply opening 35. Further, the supply door 36 is automatically rotated upward or downward by the actuator, and the rotation state thereof may be kept constant.

The discharge opening portion 32 is formed to be laterally opened at the lower portion of the other side portion of the hopper body 31 toward the contaminated water passage hole portion 13. [ The discharge door 33 is installed on the discharge opening 32 and rotates up and down to open and close the discharge opening 32. The discharge door 33 is connected to the driving portion 50 by the power transmitting portion 60 and is rotated upward or downward in conjunction with the operation of the driving portion 50. When the discharge door 33 is upwardly rotated to open the discharge opening 32 as shown in FIGS. 2, 4 and 7, the waste water supplied to the hopper main body 31 is discharged to the discharge opening 32 To the contaminated water passage hole portion (13) side.

 The door connecting portion 34 is a portion connecting the discharge door 33 to the hopper main body 31 and hinges the upper portion of the discharge door 33 to the hopper main body 31. The door connecting portion 34 is not limited to a particular structure and shape as long as the discharge door 33 can be rotatably connected to the hopper main body 31, and a detailed description thereof will be omitted.

The gap between the hopper main body 31 and the conveyor section 22 can be adjusted by providing the hopper section 30 with a lifting and moving apparatus for vertically moving the hopper main body 31. [ Accordingly, when the conveyor section 22 is driven, the conveyor section 22 can be prevented from being damaged due to friction with the hopper section 30 at a predetermined distance from the conveyor section 22. The hopper main body 31 is brought into close contact with the conveyor portion 22 in a state where the driving of the conveyor portion 22 is stopped to discharge the sewage water to the outside of the continuous type unloading machine 1, It is possible to prevent the leakage of the polluted water into the clearance between the conveyor portions 22.

Further, even if the horizontal movement device for moving the hopper main body 31 in the longitudinal direction of the conveyor part 22 is provided in the hopper part 30, even if the position of the dropping of the raw material from the boom 103 is fixed, Can be selectively supplied to the plurality of openings for the raw material through holes 12 while being adjusted in various manners in accordance with the drop position of the raw material.

 The discharge guide portion 40 is a portion for guiding the contaminated water supplied to the upper surface portion of the conveyor portion 22 through the hopper portion 30 to the side of the contaminated water passage hole portion 13 and is provided on the bogie portion 21 in an inclined manner . The discharge guide portion 40 is kept spaced apart from the conveyor portion 22 in the state where the sewage water is not treated and is moved so as to be in close contact with the conveyor portion 22 when the sewage water is treated. 2 to 4, the discharge guide unit 40 according to an embodiment of the present invention includes a guide plate support unit 41, a warp guide unit 42, and a buffer unit 43.

The guide plate support portion 41 is a portion for supporting the inclined guide portion 42 in a rotatable manner. The guide plate support portions 41 are provided on the upper portion of the truck 21 and are arranged so that a pair of the guide plate support portions 41 are opposed to each other on both sides of the inclined guide portion 42. The inclined guide portion 42 is pivoted in a state where both side portions thereof are hinged to the guide plate support portion 41. [

The inclined guide portion 42 is a portion for guiding the contaminated water on the conveyor portion 22 to the contaminated water passage hole portion 13. The inclined guide portion 42 is formed to be inclined downward so that the abraded water can naturally flow to the side of the rail portion 10 with the inclined guide portion 42. The inclined guide portion 42 includes a guide plate formed to extend downward from the conveyor portion 22 toward the rail portion 10 and a blocking protrusion protruding from the edge portion of the guide plate to block the flow of abundant water.

The liquid polluted water reaching the upper surface portion of the conveyor portion 22 is not lost to the outside by the blocking jaws formed on the both side portions of the inclined guide portion 42 but is conveyed along the upper surface portion of the inclined guide portion 42, And can stably flow into the hole 13 side. The blocking portion is formed on both sides of the inclined guide portion 42 so as to extend along the inclined guide portion 42 and is connected to the second link member 62 of the power transmitting portion 60.

The cushioning portion 43 is a portion for absorbing the impact acting on the conveyor portion 22 when the inclined guide portion 42 contacts the conveyor portion 22. The cushioning portion 43 is made of a soft material capable of absorbing shock and is joined to the contact portion of the inclined guide portion 42 with the conveyor portion 22. The buffer part 43 may be replaced if it is worn out due to friction with the conveyor part 22. [

The driving portion 50 provides power for moving the discharge door 33 and the discharge guide portion 40. The power transmission portion 60 opens the discharge door 33 in a closed state when the drive portion 50 is driven and the discharge guide portion 40 in a state of being separated from the conveyor portion 22 is brought into close contact with the conveyor portion 22 The discharge door 33 and the discharge guide portion 40 are connected to the driving portion 50. [

In the embodiment of the present invention, the driving part 50 is provided on the bogie part 21 including a cylinder member whose length is contracted and deformed. The power transmitting part 60 connects the rod of the cylinder member and the discharge door 33 And a second link member 62 connecting the rod of the cylinder member and the discharge guide portion 40. [

The first link member 61 is formed to extend from the driving portion 50 to the discharge door 33 and both ends thereof are rotatably hinged to the driving portion 50 and the discharge door 33 respectively. The second link member 62 is formed to extend from the driving part 50 to the discharge guide part 40 and both ends thereof are rotatably hinged to the driving part 50 and the discharge guide part 40 respectively.

The first link member 61 and the second link member 62 are simultaneously moved and rotated in association with the movement of the rod during the extension operation of the drive unit 50 so that the discharge door 33 At the same time, the upper portion of the discharge guide portion 40 is rotated toward the conveyor portion 22, and is brought into close contact with the conveyor portion 22.

The sewage water supplied from the boom 103 of the continuous unloading unit 1 is discharged through the hopper unit 30 to the conveying unit 2, A dirty water bottle formed in the rail part 10 and being guided by the discharge guide part 40 to the discharge guide part 40 through the side part of the hopper part 30, And can flow and discharge continuously to the hole 13 side.

According to the waste water treatment apparatus 2 for a continuous unloading machine 1 according to the present invention, by driving the drive section 50, the discharge door 33 provided in the hopper section 30 is opened, The discharge guide 40 for guiding the water from the hopper portion 30 to the contaminated water passage hole portion 13 to the contaminated water passage hole portion 13 is brought into close contact with the casing portion 22, .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

1: continuous type unloading machine 2: dirty water treatment device
10: rail part 11: rail plate
12: soft raw material passing hole part 13: dirty water passing hole part
20: conveying unit 21:
22: Conveyor part 23: Control part
30: hopper part 31: hopper body
32: discharge opening portion 33: discharge door
34: door connecting portion 35: supply opening portion
36: Supply door 40: Discharge guide
41: guide plate supporting portion 42: inclined guide portion
43: buffer section 50:
60: power transmitting portion 61: first link member
62: second link member 70: sewage water reservoir
101: Pier 102:
103: Boom 104: Shanghai Synchronization
105: excavator 106: bucket
107: reservoir 108: ground belt conveyor

Claims (7)

A rail portion on which an abrasion water passage hole is formed;
A conveyance part for conveying the polluted water while being moved along the rail part;
A hopper unit installed at an upper portion of the conveyance unit and having a drain door installed at one side of the boom of the continuous unloading unit,
A discharge guide provided at the transfer unit for guiding the contaminated water on the transfer unit to the contaminated water passage hole side;
A drive unit for providing power for moving the discharge door and the discharge guide unit; And
And a power transmission unit that connects the discharge door and the discharge guide unit to the drive unit and opens the discharge door while being moved in conjunction with the operation of the drive unit to closely contact the discharge guide unit with the transfer unit. Continuous sewage water treatment system for unloading machine.
The method according to claim 1,
The transfer unit
A bogie portion traveling along the rail portion;
A conveyor unit having a belt member rotated in an infinite orbit and mounted on the bogie portion; And
And a control unit for controlling the driving of the conveyance unit and the conveyance unit.
The method according to claim 1,
The hopper unit includes:
A hopper body formed to be opened at a lower portion thereof;
A discharge opening formed to be laterally opened in a lower portion of the hopper main body and opened and closed by the discharge door; And
And a door connecting part for rotatably connecting the discharge door to the hopper main body.
The method of claim 3,
The hopper unit includes:
A supply opening formed on the hopper body to open laterally toward a raw material through hole formed in the rail portion; And
And a supply door for opening and closing the supply opening portion.
3. The method of claim 2,
The discharge guide portion
A guide plate supporter fixed to the bogie portion; And
And a tilting guide portion rotatably installed on the guide plate support portion and guiding the contaminated water on the conveyor portion to the contaminated water passing hole portion in a state of being in contact with the conveyor portion. .
6. The method of claim 5,
The discharge guide portion
And a shock absorbing portion coupled to the inclined guide portion and absorbing an impact upon contact with the conveyor portion.
The method according to claim 1,
The power transmission unit includes:
A first link member connecting the drive unit and the discharge door, and rotating the discharge door upward when the drive unit is driven; And
And a second link member connecting the drive unit and the discharge guide unit and rotating the discharge guide unit toward the transfer unit when the drive unit is driven.

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