KR100777594B1 - Pressure floating device of sludge - Google Patents

Abstract

An apparatus for dissolved air floatation of sludge is provided to improve the floating effect of the sludge and prevent the sludge from being deposited on a bottom surface within the tank, by using an air injecting unit and a stirrer installed within the tank so as to prevent the sludge from agglomerating. An input portion(11) is installed at a lower portion of a tank(10) such that the input unit communicates with an inside of the tank. An output portion(12) is installed at an upper portion of the tank. Sludge is inputted into the tank through the input portion, and outputted from the tank through the output portion. A stirrer(20) is composed of a stirring pole(21) inserted in the tank along a length of the tank, and a stirring wing(22) joined to an outer circumferential surface of a lower portion of the stirring pole. A reduction member(30) is installed on the tank. The reduction member has a motor(31) joined to one side of the stirrer to supply a rotation force to the stirrer. An air injecting unit(40) is installed at a lower portion within the tank to inject air into the tank.

Description

PRESSURE FLOATING DEVICE OF SLUDGE

1 is a configuration diagram showing an example of the sludge pressurization apparatus of the present invention.

Figure 2 is a cross-sectional view showing a configuration in which the present invention is applied to the condenser pressurization apparatus of sludge.

Figure 3 is a partially omitted configuration diagram showing the main components of the pressurized flotation device of the sludge according to the present invention.

Figure 4 is a cross-sectional view showing another embodiment of the pressurized flotation device of the present invention sludge.

Figure 5 is a partially omitted configuration diagram showing the main components of another embodiment of the sludge pressurization apparatus of the present invention.

Figure 6 is a partially omitted sectional view showing the configuration according to another embodiment of the sludge pressurization apparatus of the present invention.

Figure 7 is a plan view showing a configuration according to another embodiment of the sludge pressurization apparatus of the present invention.

<Description of the symbols for the main parts of the drawings>

10 tank 11 input unit

12: outlet 20: agitator

21: stirring rod 22: stirring blade

30: reduction unit 31: motor

40: air injection unit

411: acid film 412: air supply unit

421: air injection pipe 422: air flow path

423: air distributor

The present invention relates to a pressurized flotation device for sludge, and more particularly, in order to concentrate the sludge contained in the waste water, an air spraying unit and an agitator are further provided inside the tank into which the sludge is introduced, so that the sludge does not aggregate. It is related with the sludge pressurization apparatus which raises the sludge pressurization effect and prevents sludge settled in the inner bottom of a tank.

With the rapid development of modern industry, livestock, chemical, paper, food waste and domestic sewage are generated a lot, and the sludge contained in such waste water has a huge impact on water pollution, so the sludge contained in the waste water is treated. There is an active research on.

Wastewater treatment refers to the removal of foreign substances in the dissolved and particulate state in water, and solidifying the foreign substances by various methods such as chemicals and microorganisms, and separating the solidified foreign substances by physical methods to separate them into supernatant and sludge. Say the process.

The sedimentation method is the most common method of separating sludge, which is a solidified foreign matter, during the wastewater treatment process, but this sedimentation method occupies a large area for the installation of the facility, and the sedimentary sediments are decayed. There has been a disadvantage, in view of these disadvantages, a pressure injury has been developed.

The principle of the pressurized part is that when air is injected into the container at the pressure of the water, the air melts more than the atmospheric pressure, so that it is not dissolved and exists in the water in a molecular state. When it is lowered, the air that existed in the molecular state in the water is discharged back to the atmosphere. For example, when the tap is turned on as pressurized water, white milky tap water may come out. Because it was.

Pressurized float concentrator using the principle of pressurized injury is used, one side of the concentrator is provided with a pressure flotation device for floating the sludge by the pressure injury principle, the sludge is pressurized by the pressure injury device The concentrator makes it easy to separate the sludge from the wastewater.

However, in the conventional pressurization apparatus, since the pressurization of the sludge injected into the tank is not easily performed, a phenomenon occurs in which the sludge settles on the bottom of the tank, and the inside of the tank is removed to remove the sludge. There is an inconvenience to be cleaned.

In addition, by adding a separate detergent for the flotation efficiency of the sludge, the operating cost is increased to increase the economic burden and there is a problem that bubbles are generated in the treated water when the detergent is added.

The present invention has been made to solve the problems of the conventional sludge pressurization device, having a stirrer rotated by the power of the motor inside the tank into which the waste water is introduced, and the air injection unit for branching air in the tank In addition, the sludge is agitated through the stirrer and the waste water and the sludge are floated by the pressure floating method by the air branched through the air injection unit, so that the sludge separation operation in the concentrator is easily performed, and the sludge is formed on the bottom of the tank. It is an object of the present invention to provide a sludge pressurization apparatus that can prevent sedimentation.

The sludge pressurization apparatus of the present invention as a means for achieving the above object, the tank is provided with an inlet portion communicated with the inside so that the sludge is injected on the lower side and the discharge portion is discharged by the sludge injected into the upper side; A stirrer having a stirring rod inserted into the tank in the longitudinal direction and having a stirring blade coupled to a lower outer circumferential surface thereof; A reduction unit having an upper portion of the tank and having a motor coupled to one side of the stirrer to supply a rotational force of the stirrer; The air injection unit is charged to the lower side of the inside of the tank to branch the air into the tank, the air injection unit is connected to one side of the acid vapor membrane and the acid vapor barrier charged to the bottom of the tank inside the tank It is provided with an air supply unit for supplying air to the acid film.

Accordingly, in the sludge pressurization apparatus of the present invention, since the stirrer and the air injection unit are provided in the tank into which the sludge is introduced, the pressurization action of the sludge is caused by the stirring action of the air and the stirrer injected through the air injection unit. It is made smoothly and the separation of the sludge and wastewater of the concentrator is easy, so that the sludge thickening effect can be increased, and the sludge is prevented from settling on the bottom of the tank.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings, and the terminology or words used in the specification and claims are used to explain the invention in its best way. Based on the principle that the concept of can be properly defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

1 is a configuration diagram showing an example of the pressurized flotation device of the sludge of the present invention, Figure 2 is a cross-sectional view showing a configuration applied to the condenser pressurized flotation device of the present invention sludge, Figure 3 is a pressurized flotation device of the sludge of the present invention. 4 is a schematic cross-sectional view showing another embodiment of the sludge pressurization apparatus of the present invention, and FIG. 5 is a partially omitted construction diagram showing another example of the pressurization apparatus of the sludge. 6 is a schematic cross-sectional view showing a configuration according to another embodiment of the sludge pressurization apparatus of the present invention, Figure 7 is a plan view showing a configuration according to another embodiment of the pressurization apparatus of the sludge of the present invention. .

As shown, the sludge pressurization apparatus of the present invention is to pressurize the sludge before concentrating the sludge contained in the waste water to increase the thickening effect of the sludge. 11) is provided on one side of the lower side and the tank 10 having a discharge portion 12 is discharged by pressing the sludge injected into the upper side, and the stirring rod 21 is charged in the longitudinal direction inside the tank (10) and Stirrer 20 having a stirring blade 22 coupled to the lower outer circumferential surface of the stirring rod 21 and the upper side of the tank 10, one side of the stirrer 20 is coupled to the rotational force of the stirrer 20 It is composed of a reduction unit 30 having a motor 31 for supplying the air, and an air injection unit 40 is charged to the lower side of the tank 10 to branch the air into the tank 10.

In the sludge pressurization apparatus of the present invention configured as described above, the sludge injected into the tank 10 is agitated by the stirring movement of the stirrer 20 and the air spraying of the air spraying unit 40. It does not settle to the inner bottom and is pressurized to the upper side of the tank 10 to be easily discharged to the discharge part 12 side of the tank 10.

Therefore, the sludge floated by the pressure flotation device of the present invention sludge is discharged to the inside of the concentrator 50 through the discharge portion 12 and rotated by a cylindrical network 51 configured in the concentrator 50, Since the wastewater and sludge contained in the sludge are separated smoothly, the concentration of the sludge is made easier by the concentrator 50.

In addition, since the sludge is prevented from being deposited on the inner bottom of the tank 10, the workability is improved as the inconvenience of having to frequently clean the inside of the tank in order to remove conventionally deposited sludge disappears.

As shown in FIG. 2, the air injection part 40 is connected to one side of the acid vapor barrier 411 and the acid vapor barrier 411 which is charged to the bottom of the tank 10, and is connected to the tank 10. It may be configured as an air supply unit 412 provided to the outside to supply air to the acid barrier film 411.

Therefore, the air supplied through the air supply unit 412 is delivered to the acidic membrane 411 to enable the branching of air into the tank 10 by the acidic membrane 411, and the acidic membrane 411 is In addition, the air passage 411a is formed as a membrane in the form of a membrane which is formed to be opened outwardly depending on whether air is supplied therein.

In addition, the stirrer 20, the stirring rod 21, the stirring rod 21 is fastened to the lower end as shown in FIG. ) Is coupled to the upper side, and the stirring bar 21 is rotated by the rotational force of the rotating body 32 to rotate the stirring blade 22.

The sludge pressurization apparatus of the present invention can variously modify the air injection unit 40 for branching air into the tank 10.

That is, as illustrated in FIGS. 4 to 7, the air injection unit 40 includes an air injection pipe 421 inserted into the deceleration unit 30 and a lower side of the deceleration unit 30. It is fastened and rotated to be in communication with the air inlet pipe 421, the air flow path portion 422 hollowed in the longitudinal direction of the stirring rod 21 and the air flow passage 422 is fastened to the lower end of the stirring rod 21 Branched into the tank 10 into the inside of the tank 10, by the stirring rod 21 is rotated may be made of the air branch pipe 423 branching the air causing vortex.

In addition, the air distributor 423 may be formed in a rod shape that is installed to cross the stirring blade 22 coupled to the lower outer peripheral surface of the stirring rod 21.

Therefore, when the stirring blade 22 of the stirrer 20 is rotated to agitate the sludge introduced into the tank 10, the air is injected into the air injection pipe 421 charged into the deceleration part 30. When injected, air is supplied through the inner air flow path 422 of the stirring rod 21 communicating with the air injection pipe 421 to open the air branch pipe 423 fastened to the lower end of the stirring rod 21. Through the air is branched to the inside of the tank 10, as the stirring rod 21 is rotated at this time, the air branch pipe 423 fastened to the lower end of the stirring rod 21 is also rotated tank 10 ) As the air branches into the vortex phenomenon inside, the sludge agitation as well as the sludge flotation are made easier.

The air supply unit (not shown) for supplying air to the air injection pipe 421 or the air supply unit 412 for supplying air to the air diffusion membrane 411 is not limited, but is made of a means such as an air compressor. Of course it can.

In addition, the air branch pipe 423 can be fastened to a position crossing with respect to the stirring blade 22 of the stirrer 20, the fastening position of the air pipe 423 is not limited.

As described above, the sludge pressurization apparatus of the present invention can be variously modified in addition to those shown and described, and all the modified embodiments should be interpreted as being included in the scope of the present invention without departing from the scope of the present invention. .

As described above, according to the sludge pressurization apparatus of the present invention, since the stirrer and the air injection part are provided in the tank into which the sludge is introduced, the pressurization action of the sludge is smoothly performed, and the separation operation of the sludge and the wastewater is performed. Not only can the sludge thickening effect be increased, but the sludge is prevented from being deposited on the bottom of the tank.

Claims (4)

A tank (10) having an inlet (11) communicating with the inside so that the sludge is introduced thereon, and an outlet (12) on the upper one side where the injected sludge is pressurized and discharged; An agitator 20 having a stirring rod 21 charged in the longitudinal direction of the tank 10 and a stirring blade 22 coupled to a lower outer circumferential surface of the stirring rod 21; A reduction unit 30 having an upper portion of the tank 10 and having a motor 31 coupled to one side of the stirrer 20 to supply a rotational force of the stirrer 20; The air injection unit 40 is charged to the lower side of the tank 10 to branch the air into the tank 10, the air injection unit 40 is charged to the inside of the deceleration unit 30. The air inlet pipe 421 is fastened to the lower side of the reduction portion 30 is rotated and the air flow path 422 hollowed in the longitudinal direction of the stirring rod 21 to communicate with the air injection pipe 421 Is fastened to the lower end of the stirring rod 21, branching the air supplied through the air flow path 422 into the tank 10, the air is branched by the stirring rod 21 is rotated causing the swirl Pressurized flotation device of the sludge, characterized in that it comprises an air branch (423) . delete delete The method of claim 1 , The air outlet pipe 423, the sludge pressurization device, characterized in that is installed to intersect with the stirring blade 22 coupled to the lower outer peripheral surface of the stirring rod (21).

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