KR101461223B1 - Elimination device of floating matter - Google Patents

Abstract

The present invention relates to a floating scum removing device, and more particularly, to a floating scum removing device capable of removing floating matters such as foam and scum floating on a surface of a sedimentation tank such as a water purification plant or a sewage treatment plant.
To this end, the present invention provides a method of manufacturing a microfluidic device, A hollow vertical frame having a first moving guide hole formed at an upper portion thereof so as to be moved up and down while being supported by the support bracket portion and a second moving guide hole formed at a lower portion thereof for vertically moving the buoyant body; Buoyancy adjusting means installed inside the vertical frame and coupled to the buoyant body to adjust buoyancy through variable length; A buoyancy member coupled with the buoyancy adjusting means through a second moving guide hole of the vertical frame and being moved up and down on the second moving guide hole according to the length of the buoyancy adjusting means; A hoop purge zone installed below the vertical frame to receive floating matters floating on the water surface and to be discharged to the outside and coupled to the outer peripheral surface of the vertical frame below the second moving guide hole, A scum discharger including a discharge hopper and a scoop pipe installed between the hopper and the scum discharge hopper for increasing the amount of scum when the scum is filled in the scum discharge hopper, .

Description

[0001] Elimination device of floating matter [0002]

The present invention relates to a floating scum removing device, and more particularly, to a floating scum removing device capable of removing floating matters such as foam and scum floating on a surface of a sedimentation tank such as a water purification plant or a sewage treatment plant.

Generally, algae that cause scum is a growing group of organisms that ingest carbonic acid gas and organic salts in the water and act as photosynthesis. It is widely distributed in improved sedimentation basins such as water purification plants and sewage treatment plants, to provide.

In order to remove the scum in the ordinary water treatment process or the sewage treatment process, an operation method of suppressing the generation of air bubbles that affect the scum generation is applied, or a method in which chemicals are supplied and processed is used. The treatment efficiency is extremely low, and it is economically disadvantageous because it requires a small amount of expenses such as operation cost and drug use cost.

At present, the removal of scum is a gradual move from the past due to the manual operation, and gradually progressed to the use of mechanical equipment.

However, existing facilities for removing scum have a problem of not being able to appropriately cope with a change in the water level of the treatment tank because the scum floated by simple up-and-down movement operation is removed.

Open No. 2009-0001645 (automatic scum eliminator, Feb. 20, 2009) and Shinan Publ. No. 0376637 (scum removing apparatus for sedimentation paper) are disclosed as a conventional scum removing device.

The above-described technique allows the floors on the water surface to be removed through the up-and-down movement of the discharge and reception unit and the collection hopper.

However, since the scum remover is fixed type, the above-described technique requires a rising or falling operation according to the water level after detecting the change of the water level after the installation, thereby causing unnecessary energy waste.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a flotage discharge hopper which is installed floating on a water surface, And an object of the present invention is to provide a floating scum removing device capable of reducing loss of treated water by removing scum.

According to an aspect of the present invention, there is provided a plasma processing apparatus comprising: a supporting bracket unit installed on a wall surface of a settling basin; A hollow vertical frame having a first moving guide hole formed at an upper portion thereof so as to be moved up and down while being supported by the support bracket portion and a second moving guide hole formed at a lower portion thereof for vertically moving the buoyant body; Buoyancy adjusting means installed inside the vertical frame and coupled to the buoyant body to adjust buoyancy through variable length; A buoyancy member coupled with the buoyancy adjusting means through a second moving guide hole of the vertical frame and being moved up and down on the second moving guide hole according to the length of the buoyancy adjusting means; A hoop purge zone installed below the vertical frame to receive floating matters floating on the water surface and to be discharged to the outside and coupled to the outer peripheral surface of the vertical frame below the second moving guide hole, A scum discharger including a discharge hopper and a scoop pipe installed between the hopper and the scum discharging hopper for increasing the amount of scum when the scum is filled in the scum discharging hopper, .

The buoyancy adjusting means may include a handle installed at the upper end of the vertical frame, a handle shaft installed in the vertical frame so that the upper end thereof is coupled to the handle, and the length thereof is adjusted by rotation, And a buoyancy adjusting shaft to which the buoyant body is coupled at a lower portion thereof.

The buoyant body includes a buoyant body connecting port formed at the center of the vertical frame and connected to the buoyancy adjusting means and having at least two or more connecting rods formed on the outer side thereof and a buoyant force provided on the end of the connecting rod for providing buoyancy .

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A lower end of the vertical frame is installed to be positioned in the lower side of the float discharge hopper and a hopper guide pipe is formed inside the float discharge hopper so as to guide the float discharge hopper up and down through the vertical frame .

The support bracket includes a fixing plate fixed to a wall surface of a settling plate, a pair of coupling pieces spaced apart from each other on one side of the fixing plate, a frame fixing pipe installed between the coupling pieces to vertically penetrate the vertical frame, And a fixture which fixes the frame fixing pipe to the engagement piece and is fitted in the first movement guide hole to guide the vertical movement of the vertical frame.

And the engaging piece is formed with a fastening hole in a longitudinal direction so as to adjust the engaging position of the frame fixing pipe.

According to the floating scum removing device having the above-described structure, since it is installed on the water surface in a floating manner, it is unnecessary to adjust the height separately when the water level is changed, and unnecessary waste of manpower and time due to the height adjustment can be reduced, So that the loss of the treated water can be minimized when the scum is removed.

1 is a perspective view of a floating scum removing device according to the present invention,
FIG. 2 is an enlarged view of the 'A' portion in FIG. 1,
FIG. 3 is a view showing a support bracket part in a floating scum removing device according to the present invention,
4 is a cross-sectional view of a floating scum removing device according to the present invention.
5A to 5C are diagrams illustrating a process of removing floating matters using a floating scum removing device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for removing suspended solids according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a floating scum removing device according to the present invention, FIG. 2 is an enlarged view of a portion 'A' in FIG. 1, FIG. 3 is a view showing a supporting bracket portion in a floating scum removing device according to the present invention, FIG. 4 is a sectional view of a floating scum removing device according to the present invention, and FIGS. 5a to 5c are views illustrating a method of removing scum by using the floating scum removing device according to the present invention.

As shown in the drawings, the floating scum removing device according to an embodiment of the present invention includes a support bracket 10 installed on a wall surface of a settling basin, A vertical frame 20, a buoyancy adjusting means 30, a buoyant body 40, and a suspended body discharge portion 50 for discharging suspended body above the water surface to the outside.

The supporting bracket unit 10 includes a fixing plate 12 fixed to the wall surface of the settling basin by an anchor bolt, a pair of coupling pieces 14 formed on one side of the fixing plate 12 and spaced apart from each other, The frame fixing pipe 16 is fixed to the coupling piece 14 so that the vertical frame 20 can pass through the vertical movement of the vertical frame 20, And a fixture 18 fitted in the guide hole 22 and guiding the up and down movement of the vertical frame 20.

The fastening hole 18 is formed in the coupling piece 14 and the fastening hole 15 is formed in the longitudinal direction so as to adjust the coupling position of the frame fixing pipe 16 and fix it at a proper position.

The support bracket 10 is installed on the upper part of the vertical frame 20 to support the upper part of the vertical frame 20. The lower part of the vertical frame 20 can be moved, A separate bracket can also be installed at the bottom. Of course, as shown in FIG. 4 of the accompanying drawings, the discharge section bracket 60 may be provided to bind the suspension discharge section 50 without providing a bracket at a lower portion of the vertical frame.

The vertical frame 20 is made of a hollow body having a space formed therein with a predetermined length and a first movement guide hole 22 is formed in the upper portion of the vertical frame 20 so as to pass through the fixture 18 of the support bracket portion 10 And a second movement guide hole 24 is formed in a lower portion thereof for movement of the buoyant body 40.

At this time, the first movement guide hole 22 and the second movement guide hole 24 are formed to have a predetermined length, and when the water level changes, the vertical frame 20 is supported by the support bracket portion 10, And is vertically moved through the first movement guide hole (22) and the second movement guide hole (24).

The buoyancy adjusting means 30 is installed inside the vertical frame 20 and adjusts the buoyancy by adjusting the position of the buoyant body 40 through a variable length.

Specifically, the buoyancy adjusting means 30 includes a handle 32 installed at an upper end of the vertical frame 20, a handle shaft 32 installed at an upper end of the vertical frame 20 to be coupled to the handle 32, 34 and a buoyancy adjusting shaft 36 screwed to a lower portion of the handle shaft 34. [

The handle 32 may be coupled with the handle shaft 34 in a variety of ways and may be any structure that can be rotated together with the handle 32 to transmit the rotational force of the handle to the buoyancy adjusting shaft 36 Do.

A thread formed on the inner circumferential surface of the handle shaft or a nut having a thread formed on the inner circumferential surface is coupled to the buoyancy adjusting shaft 36 at a lower portion of the handle shaft 34.

In the accompanying drawings, a nut having a threaded portion formed at the lower end of the handle shaft 34 is integrally formed.

The buoyancy adjusting shaft 36 is installed such that the upper portion of the buoyancy adjusting shaft 36 is screwed to the handle shaft 34 and is inserted or drawn into the handle shaft 34 by rotation to vary its length. ).

Therefore, the buoyancy adjusting shaft 36 is rotated through the rotation of the handle 32 to thereby raise or lower the buoyancy body 40.

Since the buoyant body 40 is coupled with the buoyancy adjusting means 30 through the second moving guide hole 24 of the vertical frame 20, So that it is moved upward or downward within the length of the hole 24.

The buoyant body 40 includes a buoyant body connector 42 coupled to the buoyancy adjusting means 30 with a central portion thereof penetrating the vertical frame 20 and having at least two or more connecting rods 43 formed on the outer side thereof, And a buoyant force (45) installed at an end of the linkage (43) to provide buoyancy.

1, three or four connecting rods 43 may be installed to increase the buoyancy or the number of the buoyant water 45 to be installed The buoyancy can be controlled through.

The suspended body discharge part 50 is installed under the vertical frame 20 and discharges suspension floating on the water surface to the outside.

The float discharge unit 50 includes a hopper zone 52 coupled to an outer circumferential surface of the vertical frame 20 below the second moving guide hole 24 and a valve member A float discharge hopper 54 formed, and a corrugated pipe 56.

The hoop purge zone 52 is fixed to the outer circumferential surface of the vertical frame 20 by a wrench bolt or the like.

The float discharge hopper 54 preferably has a large open area for the effective introduction of the float.

At this time, the corrugated pipe 56 is installed between the hoop purge zone 52 and the suspended-material discharge hopper 54.

When the float 56 is filled with a large amount of float into the float discharge hopper 54, the length of the float is varied by the load of the float, so that the amount of float is increased, .

When the float discharge hopper 54 is lowered due to the expansion of the corrugated pipe 56, the float discharge hopper 54 can be moved. At this time, the float discharge hopper 54 is smoothly moved downward A hopper guide pipe 55 penetrating the vertical frame 20 is installed in the suspended matter discharge hopper 54. [

That is, the hopper guide pipe 55 is installed to guide smooth up and down movement of the float discharge hopper 54.

At this time, since the vertical frame 20 must support the hopper guide pipe 55 even when the float discharge hopper 54 descends, the lower end of the vertical frame 20 is positioned at the lower inner side of the float discharge hopper 54 As shown in Fig.

According to the floating type scum skimmer of the present invention constructed as described above, since the scum scavenging unit 40 is suspended by the buoyant body 40 while being supported by the support bracket unit 10, even if a change occurs in the water level, It is raised or lowered while appropriately responding.

Therefore, even if the water level change occurs, it is not necessary to perform an operation such as adjusting the height separately, so that manpower and time are not wasted.

When the suspended body on the water surface is discharged to the outside, the floating body 40 is lifted by rotating the handle 32 to move the suspended body discharge hopper 54 connected to the vertical frame downward to move the suspended body to the suspended body discharge hopper And the discharge of the suspended solids is controlled by controlling the position of the suspended solids discharge hopper 54. The discharge of the suspended solids can be controlled by controlling the position of the suspended solids discharge hopper 54, You may.

5A to 5C, before the buoyant body 40 is moved up or down, the buoyant body 40 of the buoyant body 40 is moved upward or downward in order to move the buoyant discharge hopper up or down. (42) is positioned at the intermediate position of the second movement guide hole (24) (Figure 5 (a)).

In this state, when the float is to be discharged to the outside, the handle 32 is rotated forward to draw the buoyancy adjusting shaft 36 into the handle shaft 34 so that the length of the buoyancy adjusting shaft 36 is shortened The buoyant body 40 coupled to the buoyancy adjusting shaft 36 is raised. As the buoyant water 45 is floated on the water surface, the vertical frame 20 is finally lowered. Due to the descent of the vertical frame 20, the float discharge hopper 54 also descends downward below the water level, so that the float residing on the water surface is introduced into the float discharge hopper 54 5b)

The buoyant body 40 is lowered and the float discharge hopper 54 is raised in the opposite direction to the above process when the handle 32 is reversely rotated after the floatation of the float discharge hopper 54 is completed And is located at a position higher than the water level (Fig. 5C)

Since the float discharge hopper 54 of the present invention is not directly connected to the handle, it is possible to minimize the swinging occurring during the ascending or descending movement.

As described above, according to the present invention, the floating body is installed regardless of the water level change, and by controlling the minute position of the float discharge hopper through the rotation of the handle, it is possible to effectively remove only the floating body while minimizing the amount of treated water. By adjusting the position of the hopper, the amount of suspended matter can be controlled.

10: Support bracket part 12: Fixing plate
14: coupling piece 15: coupling hole
16: frame fixing pipe 18: fastener
20: vertical frame 22: first movement guide hole
24: second movement guide hole 30: buoyancy adjusting means
32: handle 34: handle shaft
36: buoyancy adjustment shaft 40: buoyancy body
42: Buoyancy connection 43: Connecting rod
45: Buoyant water 50: Suspended water discharge part
52: Hofflodge District 54: Suspended discharge hopper
55: Hopper guide pipe 56:
60: discharge bracket

Claims (8)

A support bracket portion 10 installed on the wall surface of the sedimentation paper;
A first movement guide hole 22 is formed at an upper portion of the support bracket 10 so as to be moved up and down while a second movement guide hole 24 is formed at a lower portion thereof for vertically moving the buoyant member 40 A hollow vertical frame 20;
Buoyancy adjusting means (30) installed in the vertical frame (20) and coupled with the buoyant body (40) to adjust buoyancy through variable length;
Is coupled with the buoyancy adjusting means 30 through the second moving guide hole 24 of the vertical frame 20 and is moved upward and downward along the second moving guide hole 24 in accordance with the length of the buoyancy adjusting means 30. [ A buoyant body 40 to be moved;
A hoop purge zone 52 installed below the vertical frame 20 to be floated on the water surface and discharged to the outside and coupled to the outer circumferential surface of the vertical frame 20 below the second movement guide hole 24, A float discharge hopper 54 integrally formed at a lower portion of the hopper earth 52 and a float discharge hopper 54 installed between the hopper 25 and the float discharge hopper 54 to supply a float A float discharge portion 50 including a corrugated pipe 56 for increasing the amount of the float when the length of the float is changed by the load;
And a suction port for discharging the suspended solids. The method according to claim 1,
The buoyancy adjusting means 30 includes a handle 32 mounted at an upper end of the vertical frame 20 and a handle shaft 34 installed at an upper end of the vertical frame 20 in the vertical frame 20, And a buoyancy adjusting shaft (36) which is screwed to the lower portion of the handle shaft (34) and whose length is adjusted by rotation and to which the buoyant body (40) is coupled. Device. The method according to claim 1,
The buoyant body 40 includes a buoyant body connector 42 coupled to the buoyancy regulating means 30 through a central portion of the vertical frame 20 and having at least two or more connecting rods 43 formed on the outer side thereof, And a buoyant (45) provided at an end of the linkage (43) to provide a buoyancy force. delete delete The method according to claim 1,
The lower end of the vertical frame 20 is installed to be positioned below the inside of the float discharge hopper 54,
Wherein the hopper guide pipe (55) is formed inside the suspension hopper (54) so as to guide the vertical movement of the suspension hopper (54) through the vertical frame (20). The method according to claim 1,
The support bracket portion 10 includes a fixing plate 12 fixed to the wall surface of the sedimentation chamber 12, a pair of coupling pieces 14 formed on one side of the fixing plate 12 and spaced apart from each other, A frame fixing pipe 16 fixed to the engaging piece 14 and fitted in the first moving guide hole 22 so as to be perpendicular to the vertical frame 20, And a fixture (18) for guiding vertical movement of the frame (20). 8. The method of claim 7,
Wherein the engaging piece (14) is formed with an engaging hole (15) in the longitudinal direction so that the fixture (18) is penetrated and the engaging position of the frame fixing pipe (16) is adjusted.

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