KR100398490B1 - Pressurized uprising tank - Google Patents

Abstract

The present invention relates to a pressurized flotation tank, and more particularly, to a pressurized flotation tank capable of smoothing sludge settling of wastewater and improving the efficiency of removing scum formed on the upper surface of the wastewater.

It is an object of the present invention to provide a pressurized flotation tank configured to not only improve the discharge efficiency of scum, but also to improve the efficiency of forming air bubbles in a bubble barrel through which pressurized water is supplied.

In order to realize the above object, the present invention provides a floatation tank (50) having a bubble container (59) therein, through which a waste water is supplied through an inlet pipe (1), and pressurized water to the bubble container (59). The pressurized water generating device 56 installed to supply and the scum floating by the air bubbles formed by the pressurized water supplied from the pressurized water generating device 56 are installed to push the outer side of the floating tank 50 and rotate. In the pressure flotation tank characterized in that it comprises a scum discharge container 60 installed in the flotation tank 50 to discharge the scum pushed by the blade 64 and the blade 64,

The impingement plate 5 is formed so that pressurized water is introduced into the bubble container 59 separately from the waste water, and pressurized water introduced into the bubble container 59 through each of the plurality of supply pipes 2 forms an air bubble. It characterized in that it comprises a plurality of nozzles 3 consisting of the formed body (4).

Description

PRESSURIZED UPRISING TANK

The present invention relates to a pressurized flotation tank, and more particularly, to a pressurized flotation tank capable of smoothing sludge settling of wastewater and improving the efficiency of removing scum formed on the upper surface of the wastewater.

In general, pressurized flotation is made by removing chemicals such as flocculants into the wastewater to make the pollutants into small lumps (FLOC), and then supplying bubbles to the lower part of the flotation tank to remove the contaminant mass while removing them. to be.

In order to remove contaminants in the wastewater by the above-mentioned pressure flotation method, a pressure flotation tank as shown in FIGS. 6 and 7 is used.

It is installed so as to form a cylindrical floating tank 50, the chamber 51 in the upper inside of the above-mentioned floating tank 50, and the inner partition 52 formed higher than the water level of the floating tank 50, and The reservoir 54 formed to receive the overflowed water from the floating tank 50 and the treated water discharged from the reservoir 54 are partially supplied to the pressurized water generator 56 through the circulation pipe 55 and the rest of the treated water is discharged. Is composed of a discharge tank 57 for discharging, and a bubble container 59 is fixed to the inside of the floating tank 50 is connected to the inlet pipe 58 so that the waste water is introduced.

In addition, the motor 62 is provided on the upper cover 61 of the storage tank 54 to push the scum floating by the air bubbles generated in the bubble tank 59 to the scum discharge cylinder 60, and the motor ( 62) and the rotary shaft 63 installed to rotate in a state penetrating the center of the floating tank 50, and is connected to the rotating shaft 63, and to push out the scum floating on the upper surface of the floating tank (50). A scum skimmer 65 provided with a plurality of blades 64 is provided.

The bottom plate of the rotary shaft 63 is installed to be lowered toward the center of the flotation tank 50 to discharge the sludge that sinks to the bottom surface of the flotation tank 50 and the sludge outflow pipe 66 is installed. (67), the bottom rotation bar 69, which is connected to the rotary shaft 63 and rotated, and the blade 68 is installed to collect the sludge falling on the bottom plate 67, and the bottom rotation bar 69 A wire 70 provided to connect and support the end of the crankshaft and the rotation shaft 63 is provided.

In addition, the pressurized water generating device 56 is connected to the inlet pipe 58 and is provided to supply pressurized water to the pressurized water pipe 72 in which the pressure reducing valve 71 is installed, and the pressurized water pipe 72. The pressure pump 73, the pressure tank 74, etc. are comprised.

When describing the wastewater treatment state by the flotation tank, when the wastewater treated with chemicals in the flotation tank 50 is introduced through the inlet pipe 58, foreign substances are entangled by the above-mentioned chemicals to form scum, The scum floats with the air bubbles formed by the pressurized water.

When the scum floats, the scum skimmer 65 and the blade 64 are rotated to push the scum to the outside of the flotation tank 50. When the force F of the blade 64 is viewed, approximately the blade 64 45 degrees direction, and the scum is pushed by the above-mentioned force and is filled into the scum discharge cylinder 60, is discharged to the outside through the scum discharge pipe (75).

At this time, the treated water from which the scum is removed is introduced into the storage tank 54 through the communicating portion 76 formed in the inner partition wall 52, and a part of the water flows into the circulation pipe 55 through the discharge tank 57, and the other is discharged. do.

The treated water introduced into the pressurized water generator 56 through the circulation pipe 55 is pressurized again and is supplied to the bubble container 59 through the pressurized water pipe 72 to circulate.

Of course, the heavy foreign matter is not floated in the tangled state to sink to the bottom of the floating tank 50, the sludge outflow pipe 66 while being collected by the bottom plate 67 and the bottom rotating bar 69 and the blade 68 Is discharged through.

Here, the pressurized water pipe 72 is connected to the inlet pipe 58 is supplied to the bubble container 59 together with the bottled water and pressurized water to form an air bubble by the pressurized water.

However, since the scum skimmer is arranged in a straight line, the pressure flotation tank as described above is removed because the rotation bar and the scum move in the same direction because the force F that pushes the outer portion of the scum skimmer is rotated when the blade attached to the scum skimmer is rotated. In addition to the difficulty of the scum, the scum is sticky, and is attached to the blade or rubbed, so it is not easily pushed.

That is, since the direction of the force F that pushes the scum to the outside of the flotation tank is about 45 degrees, the scum tends to be concentrated in the center of the flotation tank because it does not exhibit a force enough to overcome the friction between the scum and the blade. As a result, the scum discharge efficiency of the scum is lowered because it is not effectively put into the scum discharge bin.

In addition, when the air bubble is formed by directly connecting the pressurized water pipe to the inlet pipe, there is a problem that the air bubble formation efficiency is low due to the coupling between the air bubbles while passing through the inlet pipe.

Accordingly, an object of the present invention is to solve the above problems, to provide a pressurized flotation tank configured to not only improve the discharge efficiency of scum but also to improve the efficiency of the formation of air bubbles in the bubble barrel supplied with pressurized water. Is in.

In order to realize the above object, the present invention provides a flotation tank having a foam container supplied with waste water through an inlet pipe, a pressurized water generating device installed to supply pressurized water to the foam container, and the pressurized water. It is installed to push the scum raised by the air bubble formed by the pressurized water supplied from the generator, and the scum discharge container installed in the flotation tank to discharge the scum that is rotated by the blade and the scum pushed by the blade. In the pressure flotation tank characterized in that,

It characterized in that it comprises a plurality of nozzles made of a main body formed with a collision plate to form a bubble by the pressurized water introduced into the bubble tank through each of the plurality of supply pipes and the pressurized water flows separately from the waste water. do.

1 is a cross-sectional view showing a pressure flotation according to the present invention;

2 is a plan view of FIG.

3 is a plan view showing the arrangement of the nozzles in FIG.

4 is a sectional view of the nozzle in FIG. 3;

FIG. 5 is a partially enlarged view illustrating a connection state of a rotating shaft part of the scum skimmer in FIG. 2; FIG.

6 is a cross-sectional view showing a general pressure flotation;

Figure 7 is a plan view of Figure 6;

* Explanation of symbols for the main parts of the drawings

1: inlet pipe 2: supply pipe

3: nozzle 4: body

5: crash plate 6: bar

7: through hole 8: contact material

50: floating tank 56: pressurized water generator

59: bubble container 64: blade

65: scum skimmer T: tank

1 and 2 are a cross-sectional view and a plan view showing a pressure flotation tank according to the present invention, the inlet pipe (1) is connected to the foam container 59 through the upper one side of the flotation tank 50, and separately pressurized water In the generator device 56, a plurality of supply pipes 2 are introduced into the bubble container 59, and air bubbles are formed at the end of the supply pipe 2 located inside the bubble container 59 by collision of pressurized water. The nozzles 3 which are configured to form the recesses are respectively provided.

As shown in Figs. 3 and 4, the nozzles 3 are arranged in a plural number, and each of the nozzles 3 has a cylindrical body 4 in which a supply pipe 2 is connected to a bottom surface thereof. ), A triangular collision plate 5 formed on the upper surface of the main body 4 and configured to form air bubbles while colliding with pressurized water, and installed to connect the main body 4 and the collision plate 5 upright. It is composed of a plurality of bars (6) is to escape the air bubbles between the bars (6).

That is, a large amount of air bubbles are generated while the pressurized water collides with the triangular collision plate 5 at a predetermined pressure, thereby improving the air bubble generation rate.

Of course, the wastewater flowing into the inlet pipe 1 and the pressurized water supplied through the nozzle 3 are not mixed with each other as in the prior art, so that more air bubbles adhere to the foreign matter mixed in the wastewater, thereby causing foreign matter. This floating efficiency is improved.

The position of the scum skimmer 65 and the blade 64 is installed so as to be spaced apart from each other by a distance D from each other to increase the force pushing the scum.

That is, as shown in FIG. 5, the scum skimmer 65 and the blade 64 are installed so as not to be on the center extension line C of the rotation shaft 63, and the scum skimmer 65 and the blade 64 are formed at an angle between the center extension line C and θ, thereby pushing out the scum Force F 'is near the center extension to push the scum with greater force.

In addition, the tank T of the pressurized water generating device 56 is filled with a cylindrical contact member 8 having a plurality of passage holes 7 formed therein to form air bubbles while water passes therethrough, so that the water As it passes, it forms air bubbles.

Referring to the operation and effect of the present invention as described above, when the waste water treated with chemicals through the inlet pipe (1) in the state in which water is filled in the floating tank 50, the bubble tank (59) Is filled in.

When the waste water is filled with foreign matters, the pressurized water generator 56 is operated to supply pressurized water to the nozzle 3. When pressurized water is supplied to the nozzle 3, the collision plate 5 is provided. Will crash.

At this time, the water passing through the tank T of the pressurized water generator 56 forms a large amount of air bubbles while passing through the contact material 8, and thus the pressurized water supplied to the nozzle 3 If a large amount of air bubbles are formed in the air, the air bubble forming efficiency at the nozzle 3 is further increased.

When pressurized water collides with the impingement plate 5, a large amount of air bubbles are generated in the impingement plate 5 to be discharged into the bubble container 59, and air bubbles adhere to the foreign matter.

Here, since the plurality of nozzles 3 are arranged in a circular shape on the entire bottom of the bubble container 59, the generated air bubbles are uniformly formed in the entire bubble container 59, and thus the bubble container 59 It is more effectively attached to foreign matter in the wastewater that flows in.

When air bubbles adhere to foreign matters, they float to the upper surface of the floatation tank 50, and small foreign matters float to the upper surface of the floatation tank 50 to form a scum, and large foreign matters are dropped as the air bubbles fall out, resulting in an injury vessel ( It will fall to the bottom plate 67 provided in the bottom face of 50).

At this time, as the scum skimmer 65 is rotated, the blade 64 pushes the scum of the upper surface of the floating tank 50, and thus the direction of the force F 'that the scum is pushed by the blade 64 is the blade ( By being substantially parallel to 64), the scum is more easily pushed outwards and is discharged while being stored in the scum discharge container 60 at the same time.

That is, since the angle of the scum skimmer 65 and the blade 64 is inclined by the center extension line C and θ, the scum skimmer 65 and the blade 64 are installed so as to coincide with the normal direction (C direction) of the rotating shaft. By pushing with greater force to the outer portion, the friction between the scum and the blade 64 is more effectively overcome, thereby preventing the scum from being driven into the center of the floating tank 50.

When the scum is removed by the blade 64, the scum-free water moves and fills the reservoir 54 through the communication portion 76 formed slightly below the upper end of the inner partition wall 52.

The water filled in the storage tank 54 is a treated water, which is introduced into the discharge tank 57 while being partially used through the circulation pipe 55 and used again.

As described above, the present invention has the advantage of improving the discharge efficiency of the scum by changing the blade installation angle at a predetermined angle with the normal direction of the rotation axis so as to push the scum formed on the upper surface of the floating tank with a larger force. .

In addition, when the pressurized water is supplied to the bubble box, the nozzle is introduced separately from the wastewater, and the nozzles collide with the impingement plate to generate air bubbles, thereby forming more air bubbles.

Claims (3)

It is formed by the floating tank in which the bubble tank through which the waste water is supplied through the inlet pipe is installed, the pressurized water generator installed to supply pressurized water to the bubble tank, and the pressurized water supplied from the pressurized water generator. In the pressurized flotation tank characterized in that it is installed to push the scum floated by the air bubbles to the outside of the flotation tank, and the scum discharge container installed in the flotation tank to discharge the scum pushed by the blade, It characterized in that it comprises a plurality of nozzles made of a main body formed with a collision plate to form a bubble by the pressurized water introduced into the bubble tank through each of the plurality of supply pipes and the pressurized water flows separately from the waste water. Pressurized flotation tank. The method of claim 1, Pressure blades, characterized in that the blade is installed so as not to be on the center extension line of the rotation axis, so as to form a predetermined angle with the center extension line C so that the force for pushing the scum is near the center extension line. The method according to claim 1 or 2, Pressurized flotation tank, characterized in that the tank is filled with a plurality of the pressurized water generating device and a plurality of through-holes are continuously formed on the side to form a cylindrical contact material when air bubbles are formed.