KR101863078B1 - Floating type scum eliminator - Google Patents

Abstract

The present invention relates to a scum removing device. More specifically, the floating type scum removing device prevents a scum suction from being tilted due to the imbalance of a floating port and effectively draws in and removes scum floating on the water surface. According to the present invention, the floating type scum removing device includes: a suction port including a direct pipe unit which has an upper end diameter larger than a lower end diameter, has a diameter narrowing in a downward direction, and has a lower end maintaining a predetermined diameter while sucking the scum floating on the water surface to the upper part; a lower floating port coupled to the outer periphery of the upper end of the suction port; an upper floating port which is arranged on the upper part of the lower floating port while being spaced apart therefrom; a hollow shaft interconnecting the upper and lower floating ports; a guide plate which is formed on the peripheral rim of the lower floating port to guide the scum floating on the water surface toward the suction port by using the height difference; a side surface floating port coupled to the outer periphery of the guide plate; a pump connected to the lower part of the suction port; and a support supporting the pump from the lower part.

Description

[0001] Floating type scum eliminator [0002]

The present invention relates to a scum removing device, and more particularly, to a floating scum removing device capable of effectively absorbing and removing scum floating on a water surface by preventing a phenomenon in which a scum suction part is tilted due to unbalance of a floating port.

Generally, water (wastewater) mixed with liquid or solid dirt discharged from a bathroom, bathroom, kitchen, etc., discharged from factories and livestock facilities is purified to below the discharge quality standard set by the law on sewage, manure and livestock wastewater And then discharged. Recently, sewage and wastewater treatment facilities for biological sewage and wastewater generated in residential buildings and industrial facilities have been installed to purify the wastewater to a level below the discharge allowance level. In this general wastewater treatment facility, a relatively large floating material (hereinafter, scum) of wastewater discharged from a home or an industrial facility should be removed. To this end, a floating scum removing device as shown in FIG. 1 is used.

1, the floating scum removing device includes a pump 2 disposed at the center of the support 1, a suction unit 3 connected to the pump 2, and the suction unit 3, (4) for maintaining the water level at the water level. As a result, the scum floating on the water surface is sucked and removed by the suction force of the pump 2 through the suction portion 3. At this time, in order to balance the pump 2 with the suction unit 3 and the support base 1, a total of three floating supports 4 are connected to the support base 1 by the vertical connection base 5, Respectively.

However, in the conventional float type scum removing device, when the floating port 4 is aged, there occurs a difference in the buoyancy of each floating port, and a phenomenon that the balance is broken in the water and tilts to one side frequently occurs. The suction portion 3 is also inclined together, which causes a problem that the scum floating on the water surface over the entire area can not be effectively sucked and removed.

Further, as shown in Fig. 1, since the three floats having relatively large volume surround the suction breech 3 in three directions, the suction unit 3 is arranged in the corner of the water tank There has been a problem in that scum floating in the corner of the water tank can not be removed.

Korean Patent No. 10-1556558

Disclosure of the Invention The present invention was conceived to solve the problems of the conventional floating scum removing device as described above, and it is an object of the present invention to prevent inclination due to imbalance of a floating port and effectively remove a scum floating at all positions including corners of a water storage tank And a floating scum removing device for removing the floating scum.

In order to accomplish the above object, the floating scum removing device according to the present invention comprises a straight pipe portion whose upper end diameter is larger than the lower end diameter but smaller in diameter toward the lower end and whose lower end is maintained at a constant diameter, A suction port through which floating scum is sucked; A lower floating port coupled to an outer periphery of an upper end of the suction port; An upper floating unit spaced apart from the upper side of the lower floating unit; A hollow shaft for interconnecting the upper floating member and the lower floating member; An induction plate formed around an edge of the lower part of the lower part to guide the scum floating on the surface of the water into the suction port by using a drop; A side wall attached to the outer periphery of the guide plate; A pump connected to a lower portion of the suction port; And a support for supporting the pump from below.

The lower float has a flat upper surface and an inclined lower portion toward the lower side to form a conical shape. The lower float has a generally conical shape, and an opening is formed through the central portion to allow the suction port to be inserted and coupled. Is formed corresponding to the outer shape of the suction port.

In addition, the guide plate is formed so as to extend outward from the edge of the lower end portion toward the upper side.

Preferably, the lower floating sphere and the upper floating sphere are formed of a hollow metallic material housing.

In addition, the hollow shaft has a lower end coupled to the upper surface of the lower part mouth, an upper end penetrating the upper end upward from the lower side, and exposed to the outside, a thread is formed on the inner peripheral surface, A stopper plate is disposed on an upper end of the upper end portion of the stopper plate, a bolt is passed downward from the upper side of the stopper plate, and the bolt is coupled to an upper end inner circumferential surface thread of the hollow shaft .

A drain pipe for discharging the scum to the outside is formed on the other side of the pump, and an upper end of the inlet pipe is connected to the upper end of the inlet pipe by a flexible connection pipe .

Further, it is preferable that the lower float and the support are connected by a wire.

According to the present invention as described above, it is possible to prevent the floating port from being tilted due to imbalance of the floating port by disposing the floating port vertically and parallel to the upper and lower sides without disposing the floating port in three directions, The horizontal portion of the suction portion is maintained at the same time even when the lower structure such as the pump and the support frame is connected, thereby effectively removing the scum floating on the water surface.

1 is a perspective view of a conventional floating scum removing device,
2 is a front sectional view of a floating scum removing device according to the present invention,
3 is an exploded perspective view of the floating scum removing device according to the present invention,
4 is a schematic view of a flexible connector of a floating scum removing device according to the present invention;
5 is an operational state diagram illustrating the principle of maintaining the suction portion of the floating scum removing device according to the present invention in a horizontal position.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure and operation of a floating scum removing device according to the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

1 and 2, the floating scum removing device according to the present invention includes a suction unit 100 and a pump 200. The suction unit 100 includes an inlet 110, And includes a lower sub-port 120, an upper sub-port 130, an induction plate 150, and a side port 160.

As shown in FIG. 2, the suction port 110 is a portion that sucks the scum by the suction force of the pump 200. The suction port 110 generally has an upper end diameter that is larger than a lower end diameter but has a smaller diameter as it goes downward and a lower end portion as a constant diameter And has a straight pipe portion, and is configured as a funnel or a trumpet as a whole. Here, the scum is sucked from the upper end portion having a relatively large diameter, and the scum is transferred to the pump 200 through the lower end straight pipe portion having a small diameter.

The lower end mouth 120 is a buoyant body that is coupled to the upper end of the intake port 110 having a relatively large diameter. The lower end mouth 120 may be formed of a hollow hollow metal housing or may be made of a buoyant material such as styrofoam have. In the present specification, the main embodiment mainly consists of hollow hollow metallic material enclosures. As shown in FIGS. 2 and 3, the lower sidewall 120 is formed to have a flat upper surface, and a lower portion thereof is inclined inwardly toward a lower side toward the lower side so as to have a generally flat conical shape, 110 are inserted and coupled with each other, and the shape of the opening is formed corresponding to the outer shape of the inlet 110. The upper end of the suction port 110, which has a relatively large diameter in a state in which the lower end of the suction port 110 is inserted into the central opening of the lower suction port 120, can be caught by the edge of the opening, And a fastener such as welding or bolt. As shown in FIG. 2, the lower end mouth 120 is designed to remain submerged in water at all times with a buoyancy of zero in the water.

And the upper end portion 130 is spaced apart from the upper end portion of the lower end portion. As shown in FIGS. 2 and 3, the top end stop 130 is formed of a generally flat cylindrical or disc-like material, and may be made of a buoyant material such as a styrofoam or a hollow hollow metal enclosure . The upper float 130 is designed to float on the surface of the water present between the lower floodgate 120 and the upper floodgate 130 as shown in FIG.

The top end stop 130 is interconnected by the bottom end stop 120 and the hollow shaft 140. 2, the lower end portion of the hollow shaft 140 is coupled to the upper surface of the lower end portion 120, and the upper end portion of the hollow shaft 140 passes through the upper end portion of the upper end portion 130 upwardly, do. At this time, a thread is formed on the inner circumferential surface of the hollow shaft 140, and is fixed to the lower end of the hollow shaft 140 by a screw connection to a bolt 144a penetrating from the inside to the outside of the lower end hole 120, (Not shown). 2, a compression spring 142 is disposed on the outer peripheral surface of the upper end of the hollow shaft 140, a stopper plate 143 is disposed above the upper end of the hollow shaft 140, The bolt 144b is pierced from the upper side and is coupled to the upper end inner circumferential surface thread of the hollow shaft 140. [

In this way, since the lower part mouth 120 and the upper part mouth 130 are arranged in parallel vertically, the entire apparatus can be prevented from being balanced and tilted. The hollow shaft 140 is slidably moved in the state of being coupled to the upper end stop 130 and the elastic force of the compression spring 142 is applied to the lower end of the hollow shaft 140, As the upper part inlet 130 is pressed downward, the upper part inlet 130 floats at a constant level without up-down flow. As the upper edge portion 130 is kept horizontal by the compression spring 142 disposed on the left and right or both sides of the upper edge portion 130 and the lower edge portion 120 connected to the hollow shaft 140, The suction port 110 can be held horizontally and stably.

An induction plate 150 is additionally provided around the periphery of the lower end mouth 120. 2 and 3, the guide plate 150 guides the scum floating on the water surface to the suction port 110 by using a fall foot. And is formed so as to extend toward the outside while forming a gentle curved surface or an inclined surface. In addition, a lateral side mouth 160 is additionally provided on the outer side of the guide plate 150. The side portion mouth 160 may also be constructed of a float body of a general styrofoam or a hollow body of metal.

Here, the height of the upper end of the guide plate 150 is designed to be substantially equal to or slightly lower than the water surface of the water reservoir (not shown), as shown in FIG. This can be accomplished by adjusting the buoyancy of the lower empties (120) and the upper empties (130) and side empties (160) in consideration of the total weight of the apparatus Installation).

As described above, the upper end of the guide plate 150 is designed to be positioned substantially equal to or lower than the water level of the water reservoir while being positioned higher than the bottom height of the upper water inlet 130. 2, a relatively large height difference is formed between the water surface of the water reservoir and the lower inlet port 120 and the inlet port 110. As shown in FIG. When the water in the water storage tank flows into the guide plate 150 due to the difference in height, a relatively large fall occurs and the flow velocity is increased. Therefore, the scum floated outside the guide plate 150 smoothly flows into the guide plate 150 do. As water is introduced into the guide plate 150, water is caught between the lower part emptier 120 and the upper part emptier 130, so that the upper part emptier 130 floats at the corresponding water level. Since the pump 200 connected to the inlet 110 continuously sucks the water, the water is continuously sucked into the induction plate 150 through the pump 200 and then discharged to the outside. 130 are always kept floating at a constant water level.

The suction unit 100 having the above-described structure is connected to the pump 200. 2, the pump 200 is connected to the inlet pipe 210 by the flexible connector 300 while being supported on the support 400 below the suction unit 100. As shown in FIG. One end of the inflow pipe 210 is connected to the suction side of the pump 200 and the other end is connected to the lower end of the suction port 110. Between the lower end of the suction port 110 and the end of the inflow pipe 210, The flexible connector 300 is interposed. The flexible connector 300 may be formed of a general flexible rubber hose or the like and may have a special structure as shown in FIGS. 2 and 4.

The flexible connector 300 shown in FIG. 4 includes a first sealing portion 320 having a hollow inside and contacting the outer peripheral surface of the lower end of the suction port 110 on the inner peripheral surface of the lower end of the longitudinally extending body 310 And a second sealing part 330 protruding from the upper surface of the body 310 to be in contact with the inner circumferential surface of the inflow pipe 210 which is larger than the lower end diameter of the suction port 110. [ The upper end of the flexible connection pipe 300 is formed with an outwardly bent latching part 340 so as to be hooked on the outwardly bent part of the upper end of the inflow pipe 210. The bent portion is formed in a substantially 'C' shape.

The lower end of the suction port 110 is inserted into the hollow of the flexible connector 300 from above and the upper end of the suction pipe 210 is inserted into the bent portion of the flexible connection pipe 300, The inlet pipes 210 are interconnected. In order to prevent the suction port 110 from slipping downward from the inside of the flexible connection port 300, a locking protrusion 110a protruding from the outer circumferential surface of the suction port 110 is formed on the upper end of the flexible connection port 300 .

Since the flexible connector 300 is made of a flexible material, the suction port 110 and the inlet pipe 210 can be independently changed in position, and the first and second sealing parts 320 and 320 (Sealing) of the connection portion is performed by the sealing member 330 (see FIG.

2, a suction pipe 110 and a discharge pipe 220 for discharging the scum flowing through the suction pipe 210 to the outside are connected to one side of the pump 200. As shown in FIG. A plurality of loops are formed on the support base 400 and the lower drain port 120 for supporting the pump 200 from below and the wire 410 is connected to the loop, The supports 400 are interconnected by wires 410. Accordingly, the pump 200 and the support table 400 can be maintained at a predetermined height in the water by the lower inlet port 120, the upper port port 130, and the side port port 160.

5, even when the lower pump 200, the inflow pipe 210, and the supporter 400 are vertically or horizontally moved, the flow of air between the inflow pipe 210 and the inlet 110 The suction port 110 can be maintained in a stable equilibrium state due to the flexible connection port 300, so that the suction unit 100 can stably suck the scum without tilting to one side.

Since the floating scum removing device according to the present invention is formed on the upper, lower and outer peripheries of the floating scoops, the floating scoops are prevented from being tilted to one side, and the suction port 110 The scum positioned at the corner of the water tank can be effectively sucked and removed because the introduction of the scum from the induction plate 150 is prevented without being disturbed and the suction pipe 110 of the suction pipe 110 and the pump 200 are connected to the flexible connection pipe 300 so that the upper suction unit 100 can always maintain a balance even if the lower structure such as the pump 200 flows.

Although the present invention has been described in detail with reference to the embodiments of the present invention, the scope of the present invention is not limited thereto and may be substantially equivalent to the embodiments of the present invention.

100: Suction part 110: Suction part
120: Habubu et al. 130:
140: hollow shaft 142: compression spring
143: stopper plate 144a, 144b: bolt
150: guide plate 160:
200: pump 210: inlet pipe
220: outlet pipe 300: flexible connector
310: body 320: first sealing portion
330: second sealing part 340:
400: support 410: wire

Claims (7)

A suction port (110) having an upper end portion having a diameter larger than the lower end diameter but smaller in diameter toward the lower end, and a lower end portion having a constant diameter;
A lower part mouth 120 coupled to an outer periphery of an upper end of the suction opening 110;
An upper sump 130 spaced above the lower sump 120;
A hollow shaft 140 interconnecting the upper and lower droplets 130 and 120;
An induction plate 150 formed around an edge of the lower sphere inlet 120 for guiding the scum floating on the water surface to flow into the suction port 110 using a drop;
A side wall 160 coupled to the outer periphery of the guide plate 150;
A pump 200 connected to a lower portion of the suction port 110;
And a support base (400) for supporting the pump (200) from below;
The lower part mouth (120) and the upper part mouth (130) are made of a hollow metal material housing;
The lower end portion of the hollow shaft 140 is coupled to the upper surface of the lower end portion 120 and the upper end portion of the hollow shaft 140 passes through the upper end portion of the upper end portion upward to be exposed to the outside, A compression spring 142 is disposed on the outer circumferential surface of the upper end portion, a stopper plate 143 is disposed on the upper end of the upper end portion of the stopper plate 143, Is engaged with the inner peripheral surface thread of the upper end of the hollow shaft (140) after the bolt (144b) penetrates downward from the upper side of the hollow shaft (143). The method according to claim 1,
The lower part of the lower mouth part 120 is flat and the lower part is curved inwardly toward the lower side so as to be conical in its entirety. The central part of the lower part mouth 120 has an opening through which the inlet 110 is inserted And the shape of the opening is formed corresponding to an outer shape of the suction port (110). The method according to claim 1,
Wherein the guide plate (150) is formed so as to extend outwardly from the edge of the lower end opening (120) toward the upper side. delete delete The method according to claim 1,
A discharge pipe 220 for discharging the scum to the outside is formed at one side of the pump 200 and an inflow pipe 210 through which the drawn scum is introduced is formed at the other side of the pump 200. A discharge pipe 220 for discharging the scum to the outside is formed, (210) is connected by a flexible connector (300). The method according to claim 1,
Wherein the lower limb (120) and the support (400) are connected by a wire (410).

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