KR101507544B1 - Water treatment device - Google Patents

Abstract

The present invention relates to a water treatment device which can prevent foreign substances from being stuck. The water treatment device comprises: a housing having a certain internal space and arranged in water as a cutting surface is formed on the side and an opened surface is formed on an upper surface; an elongation member where one end is fixed on the upper surface of the housing, and the other end is enlarged and formed to the upper side to be adjacent to the surface of the water, and a hollow connected with the opened surface is formed; a rotation fan rotationally arranged inside the housing and allowing water around the surface of the water supplied to the inside of the housing through the hollow of the elongation member to be discharged to the outside of the housing through the cutting surface; a driving motor arranged inside the housing and having a rotation axis in which the rotation is combined to rotate and drive the rotation fan; and a grinding unit formed on the rotation axis, rotating with the rotation fan, and grinding foreign substances included in water around the surface of the water supplied to the inside of the housing. The water treatment device allows foreign substances supplied in a water treatment process to be cut and discharged to the outside, and rapidly and uniformly mix air to water. Accordingly, dissolved oxygen in water is increased, and air can be mixed in the deep region, and convection current occurs over wide ranges, thereby increasing mixing efficiency in water treatment.

Description

[0001] WATER TREATMENT DEVICE [0002]

The present invention relates to a water treatment apparatus, and more particularly, to a water treatment apparatus capable of cutting foreign substances flowing in a water treatment process and discharging the foreign substances to the outside, thereby rapidly and uniformly mixing air into water, To a water treatment apparatus capable of improving water quality.

Mixing is a very important unit operation in the water treatment field. Generally, various components are often mixed thoroughly with different components, and impellers are commonly used as a typical mixing means. As the impeller rotates in the fluid, turbulence is generated around it and the fluid is mixed by the turbulence. In addition to this, turbulence can be caused by diffusion or air-water jet pump.

If an impeller is used for mixing, mixing will occur only around the surface where the impeller is in fluid contact. In order to prevent this phenomenon, when the impeller is rotated at a low speed, the boundary layer is increased due to the low speed motion of the impeller, and the fluid flows to a long distance. In this case, the turbulence is reduced by the laminar flow, .

On the other hand, the use of a high-speed impeller increases the turbulence intensity and shortens the mixing time, but the boundary layer is further reduced so that the flow is confined only to the periphery of the impeller, resulting in only a more local mixture, .

In addition, when the impeller is used, the vortex or mass-swirling phenomenon of the fluid occurs due to the rotation of the impeller, so that the difference between the fluid velocity and the impeller velocity is reduced, and the mixing effect is significantly lowered. .

In order to prevent this, an additional measure such as a bias of the impeller on the one hand or the installation of a baffle plate is required, and the energy loss is further increased.

The most common use of liquid-gas mixtures in water treatment is oxygen transfer in biological water treatment. Because of the low solubility of oxygen, sufficient oxygen is not delivered to the water through the normal water-air interface for aerobic water treatment.

Therefore, it is necessary not only to introduce air or pure oxygen bubbles into the water in order to transfer necessary oxygen to the water, but also to prevent foreign substances introduced into the inside of the apparatus from being discharged to the outside, It is necessary to increase the water treatment efficiency.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for removing foreign matter, The present invention aims to provide a water treatment apparatus capable of improving the stirring efficiency in the water treatment by allowing the air to be mixed up to a deep water area at the same time as convection occurs over a wide area.

In order to solve the above-described problems, the present invention provides a method of manufacturing a semiconductor device, comprising: a housing having an incision surface provided with a predetermined internal space and formed on a side surface thereof and having an opening surface opened on an upper surface thereof; An extension member having one end fixed to the upper surface of the housing and the other end extending upward to be close to the water surface and communicating with the opening surface; A rotating fan rotatably disposed on the inside of the housing for discharging water near the water surface introduced into the housing through the hollow of the extending member to the outside of the housing through the cut surface; A driving motor disposed inside the housing and having a rotary shaft to which the rotary fan is coupled to rotate the rotary fan; And a crushing unit provided on the rotating shaft and rotating together with the rotating motion of the rotating fan to crush foreign substances contained in water near the water surface introduced into the housing.

Here, the crusher may include a cutter fixedly coupled to the rotary shaft and rotatably driven by rotation of the rotary shaft, and a plurality of cutters disposed below the cutter and having a through hole formed at the center thereof, And a latching plate having a latching groove formed therein.

The diameter of the through hole may be smaller than the diameter of the cutter.

The crusher may be disposed in the same space as the rotary fan, and may include a cutter located on the upper side of the rotary fan, and a fastening plate disposed on the cutter and hooking the foreign material.

A separate air inlet may be provided on the upper side of the crusher inside the housing to allow external air to flow into the water.

In addition, the air inlet includes a suction fan fixed on the rotary shaft and driven to rotate by rotation of the rotary shaft, a cylindrical inner housing having a bottom opened to surround the periphery of the suction fan, And a suction pipe communicating with one side of the upper surface and extending to the outside of the water surface.

An end of the suction pipe may be provided with an air control valve capable of controlling an amount of external air flowing through the suction pipe.

The water treatment apparatus according to any one of claims 1 to 5, further comprising a flow rate control valve at an end of the extension member to adjust the amount of water flowing into the housing through the extension member.

In addition, the end of the extension member may be connected to a plurality of floats floating on the water surface, and the end of the extension member may be disposed at a predetermined depth from the water surface.

The extension member may be formed of a flexible material.

In addition, a screen may be provided at an end of the extension member so as to primarily filter foreign substances contained in the water flowing through the extension member.

In addition, a separate mooring line may be connected to one end of the extension member to pull the end of the extension member to a desired position to remove foreign substances adhered to the screen.

In the present invention, the foreign matter introduced during the water treatment process is cut and discharged to the outside, and the air can be rapidly and uniformly mixed into the water, thereby increasing the amount of dissolved oxygen in the water, So that the convection phenomenon is generated over a wide area, thereby improving the stirring efficiency in the water treatment.

1 is a perspective view showing a structure in which a water treatment apparatus according to an embodiment of the present invention is installed in water,
Fig. 2 is a longitudinal sectional view showing the internal structure of the water treatment apparatus of Fig. 3,
3 is a sectional view taken along line III-III in FIG. 2,
4 is a longitudinal sectional view showing the structure of a water treatment apparatus according to another embodiment of the present invention,
FIG. 5 is an operation diagram showing a flow of fluid by operation of the water treatment apparatus according to an embodiment of the present invention.

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

FIG. 1 is a perspective view showing a structure in which a water treatment apparatus according to an embodiment of the present invention is installed in water, FIG. 2 is a longitudinal sectional view showing the internal structure of the water treatment apparatus of FIG. 3, FIG. 4 is a longitudinal sectional view showing the structure of a water treatment apparatus according to another embodiment of the present invention, and FIG. 5 is a sectional view of a fluid Fig.

As shown in these drawings, the water treatment apparatus according to the present invention is provided with an opening surface 130 provided with a cut-out surface 120 having a predetermined internal space 110 and a cut- An extension member having one end fixed to the upper surface of the housing 100 and the other end extending upward to the water surface and having a hollow 210 communicating with the opening surface 130, And the water near the water surface introduced into the interior of the housing 100 through the hollow 210 of the extension member 200 is rotatably disposed inside the housing 100 through the cut- A rotary shaft 300 coupled to the rotary fan 300 so that the rotary fan 300 is rotatably driven is provided in the housing 100, A driving motor 400, and a driving motor 400, which are provided on the rotating shaft 410, And to the rotational motion, and is configured to include a milling unit 500 for milling the foreign substances contained in the water near the surface of the water entering the inside of the housing 100.

The housing 100 is a member having a plurality of cylinders stacked on one another with a predetermined inner space 110 formed therein. The cutout surface 120 has a cut-out portion formed on the side surface thereof. An opening surface 130 having an opening is provided.

The incision surface 120 serves as an outlet through which the water introduced into the housing 100 is discharged to the outside of the housing 100 and the opening surface 130 serves to allow water to flow into the housing 100 It serves as an entrance.

The incision surface 120 is formed so as to allow the water introduced to the outside of the housing 100 to be discharged to the maximum and at the same time to minimize the area where the foreign matter introduced into the internal passage can be adhered, And a pin-shaped support member is formed at a plurality of locations on the circumferential surface for engagement between the upper side and the lower side of the housing 100.

A hollow 210 communicating with the opening surface 130 formed in the upper surface of the housing 100 is formed in the interior of the elongated member 200. The hollow 210 is formed in the inside of the housing 100, As shown in FIG.

A flow control valve 220 is provided at an end of the elongated member 200 to regulate the amount of water flowing into the housing 100 through the elongate member 200. The flow regulating valve 220 is connected to the extension member 200, Like member that is formed in the same shape as the end face of the disc-shaped member 200 and is rotatably installed on the extending member 200, and a disc-shaped member that is fixedly coupled to one side of the disc- And an adjusting knob provided outside the housing 200.

With such a configuration, the closer the angle between the disc-like member and the central axis of the elongated member 200 is, the greater the degree of closing the disc-shaped member closes the end of the elongated member 200 becomes, The flow rate can be adjusted by increasing the degree of opening that opens the flow path.

The end of the extension member 200 is connected to a plurality of floatings 230 floating on the water surface so that the end portion thereof is disposed at a certain depth from the water surface so that water near the water surface is introduced into the interior of the housing 100 desirable.

The end of the elongated member 200 is provided with a screen 240 for primarily filtering the foreign substances contained in the water flowing through the elongated member 200.

Such an elongated member 200 is formed of a flexible material so that not only the end portion of the elongated member 200 can be easily moved to a desired position but also the end portion of the elongated member 200 is pulled to a desired position, It is effective to easily remove the adhered foreign matter. To this end, a separate mooring line 250 is provided on the outer surface of the end portion of the extension member 200.

A rotating fan 300 is provided inside the housing 100 to allow water near the water surface to flow into the inner space 110 of the housing 100 through the end of the extending member 200, Is fixedly coupled to a rotary shaft 410 of a driving motor 400 mounted on a bottom surface of the housing 100.

The crushing unit 500 cuts a small amount of foreign matter contained in the water near the water surface into the interior of the housing 100 through the elongated member 200 to prevent the internal part of the housing 100 from being caught do.

The grinding unit 500 includes a cutter 510 fixedly coupled to the rotating shaft 410 and driven to rotate by the rotation of the rotating shaft 410 and a cutter 510 disposed below the cutter 510 and having a through hole 521 And a latching plate 520 having a plurality of latching grooves 522 around which the foreign substances are caught.

The diameter of the through hole 521 is preferably smaller than the diameter of the cutter 510 in order to cut foreign matter by rotating the cutter 510 while the foreign material is caught and held in the catching groove 522 Do.

4, in the water treatment apparatus according to another embodiment of the present invention, when the cutter 510 and the rotary fan 300 are disposed together in the same space, And the engaging plate 520 may be disposed on the upper side of the cutter 510.

The structure of the crushing unit 500 can be simplified and the distance between the cutter 510 and the rotary fan 300 can be set to be closer to each other so that the foreign matter crushed by the cutter 510 can be separated from the housing 100 So that it is prevented from being caught on one side of the inside of the housing 100.

Meanwhile, a separate air inflow part 600 for introducing outside air into the water may be provided on the upper side of the crushing part 500 inside the housing 100.

The air inflow part 600 may be constructed so that water having relatively high dissolved oxygen near the water surface is sucked by using the water treatment apparatus according to the present invention and then discharged to a deep water area, And the air is forced to be mixed in the water, thereby enhancing water treatment efficiency.

The air inlet 600 includes a suction fan 610 fixed on the rotary shaft 410 and driven to rotate by the rotation of the rotary shaft 410 and a suction fan 610 surrounding the periphery of the suction fan 610, A cylindrical inner housing 620 and a suction pipe 630 communicating with one side of the upper surface of the inner housing 620 and extending to the outside of the water surface.

The suction fan 610 is formed to have a size smaller than the size of the rotary fan 300 that allows water to flow into the interior of the housing 100 in consideration of the density of air being lower than the density of water.

The inner housing 620 is provided to surround the periphery of the suction fan 610. The inner housing 620 serves to mix air with water while discharging the sucked air without mixing the air with water at the time of sucking the air.

The suction pipe 630 serves to allow the outside air to flow into the interior of the housing 100 by the rotation of the suction fan 610. To this end, the suction pipe 630 has an end protruding to the outside So as to have such a length as to be able to be formed.

The suction pipe 630 is attached to one side of the inside of the extension member 200 along the height direction of the extension member 200 to prevent the flow and at the same time is formed of the same flexible material as the extension member 200, 200 can be easily moved together with the elongated member 200 as the end of the elongated member 200 moves.

At the end of the suction pipe 630, an air control valve 631 for controlling the amount of external air flowing through the suction pipe 630 is provided to appropriately control the ratio of air mixed with water.

That is, when the amount of air is too small, the amount of dissolved oxygen is decreased, so the water treatment efficiency is lowered. On the contrary, when the amount of air is too large, the distance of air can be shortened, Therefore, it is to control this.

The operation of the water treatment apparatus according to one embodiment of the present invention having the above-described configuration will be described with reference to FIG.

The rotation fan 300 is fixed to the rotating shaft 410 of the driving motor 400 when the water treatment apparatus according to the present invention is disposed in the water requiring water treatment and the driving motor 400 is driven by applying power. The cutter 510 and the suction fan 610 are rotated.

The water in the vicinity of the water surface is introduced into the interior of the housing 100 through the hollow 210 of the extension member 200 by the driving of the rotary fan 300 and is then supplied to the housing 100 through the incision surface 120 formed in the housing 100, And is discharged to the outside of the heat exchanger (100), thereby causing a convection phenomenon.

The foreign matter contained in the water flowing into the interior of the housing 100 due to the rotation of the cutter 510 is cut by the cutter 510 in a state of being hooked on the engagement groove 522. Therefore, The foreign matter can be discharged to the outside without being caught by one side of the housing 100, so that the water treatment apparatus of the present invention can be continuously used.

In addition, by driving the suction fan 610, outside air is introduced into the housing 100 through the suction pipe 630 and discharged therefrom, thereby mixing with water. Thus, The water treatment efficiency can be increased.

At this time, not only the amount of air flowing through the suction pipe 630 but also the amount of water flowing into the interior of the housing 100 through the extension member 200 is reduced by using the air control belt 631 and the flow control valve 220 So that the mixing of air and water can be performed over a wide area, so that the water treatment can be efficiently performed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: housing 110: inner space
120: incision surface 130: opening surface
200: extension member 210: hollow
220: Flow control valve 230: Float
240: Screen 250: Mooring line
300: rotating fan 400: driving motor
410: rotating shaft 500: crushing part
510: Cutter 520: Retaining plate
521: latching groove 600: air inlet portion
610: Suction fan 620: Inner housing
630: suction pipe

Claims (12)

A housing (100) having an incision surface (120) having a predetermined internal space (110) and having a cut - out side surface and an opening surface (130)
An extension member 200 having one end fixed to the upper surface of the housing 100 and the other end extended upward to close the water surface and having a hollow 210 communicating with the opening surface 130;
The water in the vicinity of the water surface introduced into the housing 100 through the hollow 210 of the extension member 200 is rotatably disposed inside the housing 100, A rotary fan 300 for discharging the air to the outside of the housing 100;
A driving motor 400 disposed inside the housing 100 and having a rotary shaft 410 to which the rotary fan 300 is coupled to rotate the rotary fan 300;
A crushing unit 500 provided on the rotary shaft 410 and rotating together with the rotary motion of the rotary fan 300 to crush foreign substances contained in water near the water surface introduced into the interior of the housing 100, , ≪ / RTI &
The crusher 500 includes a cutter 510 fixedly coupled to the rotary shaft 410 and driven to rotate by the rotation of the rotary shaft 410 and a cutter 510 disposed below the cutter 510, And an engagement plate (520) having a plurality of engagement grooves (522) formed around the through holes (521) to engage the foreign substances. delete The method according to claim 1,
Wherein the diameter of the through hole (521) is smaller than the diameter of the cutter (510). The method according to claim 1,
The crusher 500 is disposed in the same space as the rotary fan 300 and is disposed on the upper side of the rotary fan 300 and a cutter 510 disposed on the upper side of the cutter 510, And an engagement plate (520). The method according to claim 1,
Wherein a separate air inflow part (600) is provided on the upper side of the crushing part (500) inside the housing (100) so that external air can be introduced into the water. 6. The method of claim 5,
The air inlet 600 includes a suction fan 610 fixed on the rotary shaft 410 and driven to rotate by the rotation of the rotary shaft 410 and a suction fan 610 surrounding the periphery of the suction fan 610, And a suction pipe (630) communicating with one side of the upper surface of the inner housing (620) and extending to the outside of the water surface. The method according to claim 6,
And an air control valve (631) is provided at an end of the suction pipe (630) to adjust the amount of external air flowing through the suction pipe (630). The method according to claim 1,
Wherein a flow control valve (220) is provided at an end of the extension member (200) to adjust the amount of water flowing into the housing (100) through the extension member (200). 9. The method according to any one of claims 1 to 8,
Wherein the end of the extension member (200) is connected to a plurality of float (230) floating on the water surface, and the end of the extension member (200) is disposed at a certain depth from the water surface. 10. The method of claim 9,
Wherein the extension member (200) is made of a flexible material. 11. The method of claim 10,
Wherein a screen (240) is provided at an end of the extension member (200) to primarily filter foreign substances contained in water flowing through the extension member (200). 12. The method of claim 11,
Wherein a separate mooring line (250) is connected to one end of the end of the extension member (200) to pull the end of the extension member (200) to a desired position to remove foreign matter adhered to the screen (240) Device.

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