KR102160967B1 - Stirring Device For Wastewater Treatment - Google Patents

Abstract

The present invention relates to a stirring apparatus for water treatment to provide a sufficient stirring effect even if a reaction tank is deep. More specifically, according to the present invention, the stirring apparatus for water treatment comprises a first air injection unit (100) for supplying first air at a predetermined depth inside a water tank and a second air injection unit (200) for supplying second air at a deeper position than that of the air discharged from the first air injection unit (100).

Description

Stirring Device For Wastewater Treatment {Stirring Device For Wastewater Treatment}

The present invention relates to a stirring device for water treatment, and more particularly, to a stirring device for water treatment equipped with two air outlets having different heights capable of stirring target raw water while minimizing the melting of air during sewage treatment.

A large amount of sewage, wastewater, and sewage containing various pollutants are generated daily from households, restaurants, livestock farms, factories, etc., and the concentration is below the prescribed concentration through physical, chemical and biological methods for the conservation of the ecosystem and health and hygiene. Contaminants are being removed.

A biological method that has been widely used for a long time is a method of removing pollutants by using useful microorganisms, and is very useful for purifying sewage containing a large amount of organic pollutants.

In particular, recently, a continuous batch sewage treatment process (SBR; Sequencing Batch) in which the steps of Fill, Microbial Reaction, Settle, Decant and Idle are repeatedly performed in one reactor. Reactor) is attracting attention.

On the other hand, when nitrogen and phosphorus, which are nutrients, are removed, that is, during denitrification or dephosphorization, an oxygen-free/anaerobic condition must be maintained, and thus the water to be treated in the reaction tank must be stirred while minimizing the melting of oxygen in the air.

Of course, it is also possible to use a known aeration-type aeration device or a mechanical stirrer, but the aeration-type aeration device has a weak agitation effect, but it is difficult to meet the specified oxygen-free conditions or anaerobic conditions because a large amount of oxygen in the air is dissolved. Also, in the case of a mechanical stirrer, there is a problem that excessive power costs and installation and maintenance costs are expensive.

As a prior document for solving the above problems, Korean Patent No. 1347269 is known, and by installing a forming plate on a bridge across the entire width of the tank, it is installed without draining water in the tank for installing the forming plate. In addition, a bridge-type stirring device for water and sewage treatment using a forming plate is disclosed that makes it possible to eliminate the uncertain distance between the bottom of the tank and the top of the wall by piping using a flexible hose in the external piping.

According to the prior literature, there is an advantage that it is possible to agitate the target raw water of the reaction tank while minimizing the melting of oxygen, but when the depth of water is deep, it is difficult to expect a sufficient stirring effect, so a stagnant zone that is not stirred occurs, and the forming plate There is a problem that it may damage the stirring device or the water tank by hitting it.

Korean Patent Registration No. 1347269

The present invention was conceived to solve the above-described problems, and an object of the present invention is to provide a stirring device for water treatment that can expect a sufficient stirring effect even when the water depth of the reaction tank is deep, and can easily respond when the water depth changes.

Another object of the present invention is to provide a stirring device for water treatment that can minimize the impact of the stirring device and the bottom of the reaction tank.

The agitating device for water treatment of the present invention for solving the above problem includes: a first air injection unit 100 for supplying first air to a predetermined depth inside a water tank; And a second air injection unit 200 for supplying second air to be discharged at a position relatively deeper than the air discharged from the first air injection unit 100.

In addition, in the stirring device for water treatment of the present invention, the first air injection unit 100 includes a first pipe 110 with an empty inside, and a first discharge through which air supplied to the first pipe 110 is discharged. Including a portion 120, the second air injection unit 200, a second pipe 210 having an empty inside, and a second discharge portion for discharging the air supplied to the second pipe 210 ( 220), wherein a part of the second pipe 210 is located inside the first pipe 110.

In addition, in the stirring device for water treatment of the present invention, the first pipe 110 is an expansion part 111, a reduction part 112 having a relatively smaller cross-sectional area than the expansion part 111, and one side of the expansion part 111 And a plurality of bar-shaped connecting members 113 connecting one side of the reduced part 112, and an opening 114 through which first air can move is formed near the connecting member 113. .

In addition, in the stirring device for water treatment of the present invention, the first discharge unit 120 is provided with a plurality of first guide vanes 121 (b) spaced apart a predetermined distance on the upper surface, and a first through hole 121 ( a)) the first lower plate 121 is formed; A first upper plate 122 having a second through hole 122 (a) formed at the center thereof and coupled to an upper portion of the first lower plate 121; And a first fastening part 123 communicating with the second through hole 122(a) of the first upper plate 122 and extending to a predetermined height to surround the expansion part 111, wherein the connecting member It is characterized in that the first grid (122 (b)) through which 113 is seated and through which the reduction part 112 can penetrate is provided in the second through hole 122 (a).

In addition, in the stirring apparatus for water treatment of the present invention, the second discharge unit 220 includes a second lower plate 221 having a plurality of second guide vanes 221 (a) spaced apart a predetermined distance on the upper surface; A second upper plate 222 having a third through hole 222(a) formed in the center and coupled to an upper portion of the second lower plate 221; And a second fastening part 223 in communication with the third through hole 222(a) of the second upper plate 222 and extending upward at a predetermined height and positioned inside one end of the reduction part 112 However, the second pipe 210 located inside the reduced part 112 is characterized in that it is located inside the second fastening part 223.

In addition, in the stirring device for water treatment of the present invention, at least one elastic member 221 (b) is further provided on a lower surface of the second lower plate 221.

In addition, in the stirring apparatus for water treatment of the present invention, the reduction part 112 is characterized in that the length can be adjusted.

In addition, in the stirring apparatus for water treatment of the present invention, the reduction unit 112 includes a first reduction unit 112 (a), and a second reduction unit 112 having a larger cross-sectional area than the first reduction unit 112 (a). (b)), and one or more protrusions 112(a') protruding at a predetermined height are formed on the outer surface of the first reduction part 112(a), and the second reduction part 112(b) has It is characterized in that a slit groove 112 (b') to which the protrusion part 112 (a') can be fastened is formed.

In addition, in the stirring device for water treatment of the present invention, the plurality of first guide vanes 121 (b) are located in a radial shape, but each first guide vane 121 (b) has a predetermined radius of curvature. To do.

In addition, in the stirring device for water treatment of the present invention, the plurality of second guide vanes 221 (a) are located in a radial shape, but each second guide vane 221 (a) has a predetermined radius of curvature. To do.

According to the agitating device for water treatment of the present invention, there is an advantage that a sufficient stirring effect can be expected even when the water depth is deep because two discharge portions having different heights are provided.

In addition, according to the agitating device for water treatment of the present invention, since separate pipes are used for air supplied to the two discharge units, the user can select the air discharge location, so that even if the water level changes, there is an advantage that it can actively respond.

In addition, according to the agitating device for water treatment of the present invention, an elastic member is provided on the bottom of the discharge portion located relatively below, so that failure or damage of the device, damage to the reaction tank, and the like can be prevented.

1 is a schematic diagram showing a state in which a stirring device according to the prior art is mounted in a reaction tank.
2 is a schematic diagram showing a state in which a stirring device according to a preferred embodiment of the present invention is mounted in a reaction tank.
3 is an enlarged cross-sectional view of a stirring device according to a preferred embodiment of the present invention.
4 is an exploded perspective view of a stirring device according to a preferred embodiment of the present invention.
5 is an enlarged perspective view at a position where the expanded part and the contracted part of the first pipe meet in the stirring device according to a preferred embodiment of the present invention.
6 is an exploded perspective view and a combined perspective view of a first discharge unit in a stirring device according to a preferred embodiment of the present invention.
7 is an exploded perspective view and a combined perspective view of a first discharging portion modified in a stirring device according to a preferred embodiment of the present invention.
8 is an exploded perspective view and a combined perspective view of a second discharge unit in a stirring device according to a preferred embodiment of the present invention.
9 is a perspective view of a reduced portion modified in the stirring device according to a preferred embodiment of the present invention.

In the present application, terms such as "include", "have" or "have" are intended to designate the presence of features, numbers, steps, components, parts, or combinations thereof described in the specification, but one or more other It is to be understood that the presence or addition of features, numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of being excluded.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. Should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle. Other expressions describing the relationship between components, such as "between" and "just between" or "adjacent to" and "directly adjacent to" should be interpreted as well.

Hereinafter, the stirring device for water treatment according to the present invention will be described. The same reference numerals are used for the same elements in the drawings, and duplicate descriptions for the same elements are omitted.

2 is a schematic view showing a state in which a stirring device according to a preferred embodiment of the present invention is mounted in a reaction tank, Figure 3 is an enlarged cross-sectional view of a stirring device according to a preferred embodiment of the present invention, and Figure 4 is a preferred embodiment of the present invention. It is an exploded perspective view of the stirring device according to.

As shown in these Figures 2 to 4, the stirring device according to the present invention includes a first air injection unit 100 for supplying the first air to a predetermined position inside the water tank, and the second air to a predetermined position inside the water tank. A second air injection unit 200 for supplying, and a compressor P supplying air to the first air injection unit 100 and the second air injection unit 200 are included.

Here, the outlet of the first air injector 100 is located relatively above the outlet of the second air injector 200, and therefore, it is possible to secure a sufficient stirring force even when the depth of the water filled in the water tank is deep. . In addition, when the water depth is relatively shallow, the first valve V1 supplied to the first air injection unit 100 may be blocked, and air may be injected only through the second air injection unit 200 to be stirred. It is also possible to block the valve V2 and inject air only to the first air injection unit 100, thereby increasing the utility of the device.

5 is an enlarged perspective view of a location where the expanded part and the reduced part of the first pipe meet in the stirring device according to the preferred embodiment of the present invention, and FIG. 6 is an exploded view of the first discharge part in the stirring device according to a preferred embodiment of the present invention It is a perspective view and a combined perspective view.

Referring to FIGS. 5 and 6 together, when the first air injection unit 100 is described in detail, the first air injection unit 100 includes a first pipe 110 and a first pipe 110 having an empty inside. ) Is configured to include a first discharge unit 120 through which the air supplied to is discharged.

The first pipe 110 may be formed in a long cylindrical shape with an empty inside, and one side is connected to the compressor P and the other side extends to the second discharge unit 220. In addition to the function of discharging air through the first discharge unit 120, the first pipe 110 also serves as a guide for the second pipe 210. Although not specifically shown in the drawings, a through hole through which the second pipe 210 can be inserted is provided in a predetermined portion of the first pipe 110, and the through hole and the second pipe 210 are kept airtight. It is fixed.

Here, the first pipe 110 is composed of two pipes having different inner diameters. That is, the upper part corresponds to the expansion part 111, and a reduction part 112 having a relatively smaller cross-sectional area than the expansion part 111 is located at the lower part, and one side of the expansion part 111 and one side of the reduction part 112 are plural. They are fixed to each other by a connecting member 113 having a bar shape. In addition, a plurality of opening holes 114 are formed between the connecting members 113 so that the first air can be discharged to the outside.

The above configuration is for discharging the first air supplied to the first pipe 110 only through the first discharge unit 120, and a more detailed description will be provided later.

The first discharge part 120 includes a pair of plates made of a first lower plate 121 and a first upper plate 122 and a first fastening part 123. A first through hole 121 (a) is provided in the center of the first lower plate 121 so that the outer surface of the reduced portion 112 of the first pipe 110 is in close contact and penetrates, and the first through hole ( A plurality of first guide vanes 121 (b) spaced apart a predetermined distance around 121 (a)) are arranged in a radial shape.

The first upper plate 122 fixed in position above the first lower plate 121 has a second through hole 122 (a) formed therein, and a reduction part 112 at the center of the second through hole 122 (a) ), and a first grid network 122 (b) connecting the edge of the circular band and the second through hole 122 (a) are additionally provided.

The first fastening part 123 is in communication with the second through hole 122(a) of the first upper plate 122 and extends upward at a predetermined height, which is configured to wrap and fix the expansion part 111 to be.

The first air supplied to the first pipe 110 by the first pipe 110 and the first discharge unit 120 having the above configuration is discharged through the first discharge unit 120 and is supplied to the inner space. 2 While the pipe 210 is accommodated, the reduction part 112 extends to the second discharge part 220. That is, although the expansion part 111 is coupled to the first fastening part 123, the second through hole 122 (a) of the first upper plate 122 and the first through hole 121 of the first lower plate 121 (a)) can penetrate only the reduced portion 112. Therefore, the first air supplied through the expansion part 111 is outside the circular band of the opening 114 formed at the boundary point between the expansion part 111 and the reduction part 112, and the second through hole 122(a). It is discharged to the outside while passing through the formed pores and the space between the first guide vanes 121 (b) sequentially.

Of course, it is natural that the first lower plate 121 and the first upper plate 122 must be fixed by a separate fixing means while spaced apart by the height of the first guide vane 121 (b), and the reduction part 112 ) And the first through hole 121 (a) must be kept airtight. In addition, although the drawing shows that the first guide vane 121 (b) is provided on the first lower plate 121, the first guide vane 121 (b) is formed on the first upper plate 122 or , It may be provided on both the first lower plate 121 and the first upper plate 122.

7 is an exploded perspective view and a combined perspective view of a first discharging portion modified in a stirring device according to a preferred embodiment of the present invention. Since only the outer shape of the first guide vane 121 (b) is different and the remaining configuration is the same as the configuration described with reference to FIG. 6, only the first guide vane 121 (b) will be described below.

As described above, the first guide vane 121 (b) in the shape of a straight bar shown in FIG. 6 is disposed in a radial shape around the first through hole 121 (a), and thus, the first guide vane 121 The first air is discharged between the (b)) to induce a circular flow to stir the water in the water tank.

On the other hand, when the cross-sectional area of the tank is large, the water at the edge of the tank may not be stirred unless the amount of air supplied from the compressor P, that is, the pressing force of air, is sufficiently increased.

However, the deformed first guide vane 121 (b) of FIG. 7 is arranged to have the same curvature in a clockwise or counterclockwise direction, that is, a curved shape having a predetermined radius of curvature rather than a straight line. Can be produced, which can be expected to improve the stirring effect.

8 is an exploded perspective view and a combined perspective view of a second discharge unit in a stirring device according to a preferred embodiment of the present invention.

With reference to FIGS. 2 to 5 and FIG. 8 together, the second air injection unit 200 will be described in detail. The second air injection unit 200 includes a second pipe 210 having an empty interior and a second discharge unit 220 through which air supplied to the second pipe 210 is discharged.

One side of the second pipe 210 is connected to the compressor P and the other side extends to the second discharge unit 220, and a predetermined portion is located in the space of the first pipe 110. Of course, it is obvious that the inside is empty so that the second air can move, and may have various cross-sectional shapes such as a long cylindrical shape.

Here, it is preferable that the second pipe 210 is made of a flexible material, which has to be bent down again after passing through the side of the first pipe 110, so it is advantageous in terms of ease of operation that the second pipe 210 is made of a flexible material. There is an advantage of being able to easily respond to variations in the length of the reduction unit 112 to be described later.

Subsequently, the second discharge part 120 includes a pair of plates made of the second lower plate 221 and the second upper plate 222, and a second fastening part 223. On the upper surface of the second lower plate 221, a plurality of second guide vanes 221 (a) spaced apart from the center by a predetermined distance are arranged in a radial shape, and at least one elastic member 221 (b) is provided on the lower surface thereof. have.

Since the second guide vane 221 (a) has the same function as the first guide vane 121 (b) described above, overlapping descriptions are omitted, and may be a curved shape having a predetermined radius of curvature shown in FIG. 7. Do.

When high-pressure air is intermittently supplied through the compressor (P), the second discharge unit 120 including the first pipe 110 may flow up and down by the transport pressure of the air, and in some cases, a water tank The device may be damaged or damaged by hitting the floor strongly. In order to minimize the impact as described above, it is preferable that an elastic member 221 (b) such as a spring is provided on the bottom surface of the second lower plate 221, and thus, failure or damage of the device can be prevented.

The second upper plate 222 positioned and fixed above the second lower plate 221 has a third through hole 222 (a) formed therein. In addition, the second fastening part 223 is in communication with the third through hole 222(a) of the second upper plate 222 and extends upward at a predetermined height, and is reduced on the outer surface of the second fastening part 223 The part 112 is fixed. Of course, the second pipe 210 located in the space portion of the reduced portion 112 is closely fixed to the inner surface of the second fastening portion 223.

The second air supplied to the second pipe 210 by the second pipe 210 and the second discharge part 220 as described above is the second lower plate 221 and the second upper part of the second discharge part 220. It is discharged through the space between the second guide vanes 221 (a) located between the plates 222.

Of course, it is natural that the second lower plate 221 and the second upper plate 222 must be fixed by a separate fixing means while spaced apart by the height of the second guide vane 221(a), and the second fastening part (223) The airtightness should be maintained between the outer surface and the inner surface of the reduced portion 112, the inner surface of the second fastening portion 223 and the outer surface of the second pipe 210.

Although FIG. 8 shows that the second lower plate 221 is provided with the second guide vane 221 (a), the second guide vane 221 (a) is formed on the second upper plate 222 Alternatively, it may be provided on both the second lower plate 221 and the second upper plate 222.

On the other hand, the outer diameters of the second lower plate 221 and the second upper plate 222 constituting the second discharge unit 220 are the first lower plate 121 and the first lower plate constituting the first discharge unit 120 It is preferable that it is larger than the outer diameter of the upper plate 122. This is to prevent the second air discharged from the second discharge part 220 from colliding with the first discharge part 120 and becoming fine when the second air discharged from the second discharge part 220 floats.

9 is a perspective view of a reduced portion modified in the stirring device according to a preferred embodiment of the present invention. The deformed reduction part 112 may be formed of a first reduction part 112 (a) and a second reduction part 112 (b) that can be separated and combined with each other and thus have a length adjustable.

Specifically, one or more protrusions 112(a') protruding at a predetermined height are formed on the outer surface of the first reduction part 112(a), and the first reduction part 112(a) has a relatively larger cross-sectional area than the first reduction part 112(a). 2 A slit groove 112(b') having one or more bent portions to which the protrusion portion 112(a') can be fastened is formed in the reduced portion 112(b).

When the length of the reduction unit 112 is adjustable as described above, there is an advantage that it can actively cope with fluctuations in the water level of sewage water filled in the water tank, that is, the reaction tank.

The compressor P is for supplying air to the first pipe 110 and the second pipe 210 and is not particularly limited as long as it is a known device capable of injecting air.

Specific parts of the present invention have been described in detail above. For those of ordinary skill in the art, these specific descriptions are only preferred embodiments, and the scope of the present invention is not limited thereby, It is obvious to those skilled in the art that various changes and modifications are possible within the scope and scope of the technical idea, and it is natural that such modifications and modifications fall within the appended claims.

100: first air inlet
110: first pipe
111: extension
112: reduction part
112(a): first reduction part 112(a'): protrusion
112(b): second reduction part 112(b'): slit groove
113: connecting member 114: opening hole
120: first discharge part
121: first lower plate
121(a): first through hole 121(b): first guide vane
122: first upper plate
122(a): second through hole 122(b): first grid
123: first fastening part
200: second air injection unit
210: second pipe
220: second discharge part
221: second lower plate
221(a): second guide vane 221(b): elastic member
222: second upper plate
222(a): 3rd through hole
223: second fastening part
V1: 1st valve V2: 2nd valve
P: Compressor

Claims (10)

In a water treatment stirring device for stirring water provided in the water treatment tank,
A first air injection unit 100 for supplying first air to a predetermined depth inside the water tank; And
Including; a second air injection unit 200 for supplying second air to be discharged from a position relatively deeper than the air discharged from the first air injection unit 100,
The first air injection unit 100 includes a first pipe 110 having an empty interior, and a first discharge unit 120 through which air supplied to the first pipe 110 is discharged,
The second air injection unit 200 includes a second pipe 210 partially located inside the first pipe 110 and empty inside, and the air supplied to the second pipe 210 is discharged. Including a second discharge unit 220,
The first pipe 110 connects an expansion part 111, a reduction part 112 having a relatively smaller cross-sectional area than the expansion part 111, and one side of the expansion part 111 and one side of the reduction part 112 A stirrer for water treatment comprising a plurality of bar-shaped connecting members 113, wherein an opening 114 through which first air can move is formed near the connecting member 113.
delete delete The method of claim 1,
The first discharge unit 120 includes a plurality of first guide vanes 121 (b) spaced apart a predetermined distance on an upper surface thereof, and a first lower plate having a first through hole 121 (a) in the center thereof ( 121); A first upper plate 122 having a second through hole 122 (a) formed at the center thereof and coupled to an upper portion of the first lower plate 121; And a first fastening part 123 communicating with the second through hole 122 (a) of the first upper plate 122 and extending to a predetermined height to surround the expansion part 111,
The connection member 113 is seated, characterized in that the first grid (122 (b)) through which the reduced portion 112 can penetrate is provided in the second through hole (122 (a)) Stirring device for water treatment.
The method of claim 4,
The second discharge part 220 may include a second lower plate 221 having a plurality of second guide vanes 221 (a) spaced apart by a predetermined distance on an upper surface thereof; A second upper plate 222 having a third through hole 222(a) formed in the center and coupled to an upper portion of the second lower plate 221; And a second fastening part 223 in communication with the third through hole 222(a) of the second upper plate 222 and extending upward at a predetermined height and positioned inside one end of the reduction part 112 But,
A stirring device for water treatment, characterized in that the second pipe 210 located inside the reduction part 112 is located inside the second fastening part 223.
The method of claim 5,
A stirring device for water treatment, characterized in that at least one elastic member (221(b)) is further provided on a lower surface of the second lower plate 221.
The method of claim 1,
The reduction unit 112 is a stirring device for water treatment, characterized in that the length is adjustable.
The method of claim 7,
The reduction part 112 is composed of a first reduction part 112 (a) and a second reduction part 112 (b) having a larger cross-sectional area than the first reduction part 112 (a),
One or more protrusions 112(a') protruding at a predetermined height are formed on the outer surface of the first reduction part 112(a), and the protrusion 112(a') is formed on the second reduction part 112(b). Agitating device for water treatment, characterized in that the slit groove 112 (b') that can be fastened is formed.
The method of claim 1,
The plurality of first guide vanes 121 (b) are located in a radial shape, but each of the first guide vanes 121 (b) has a predetermined radius of curvature.
The method of claim 4,
The plurality of second guide vanes (221(a)) are located in a radial shape, but each second guide vane (221(a)) has a predetermined radius of curvature.

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