KR200448590Y1 - a dissoving apparatus of flocculant - Google Patents

Abstract

The present invention relates to a flocculant dissolving device, a body in which the melted water inlet, the flocculant inlet and the chemical supply unit is installed, a drive motor installed on the upper portion of the body, a drive shaft connected to the drive motor and a propeller installed on the drive shaft In the dissolving device is configured to dissolve the flocculant to form a floc in the dissolved water, the inner cylinder in the form of a cylindrical tube through a plurality of connecting plates fixed to the inner surface of the body in the center of the body is installed vertically, the propeller It includes a first propeller installed in the inner cylinder, and a second propeller penetrating the inner cylinder to be installed on the outside of the inner cylinder, the connecting plate is installed to be inclined upward toward the inner cylinder in the form of a twisted flat plate shape. The coagulant inlet may include a coagulant inlet and a liquid coagulant inlet. Characterized by each installed, the turbulence of the fluid flow through the inner cylinder and the two propellers and the connecting plate installed in the center of the body can be mixed well with the dissolved water and flocculant has the advantage that can be dissolved uniformly at a high concentration.

Flocculant floc sludge water treatment

Description

A dissoving apparatus of flocculant

The present invention relates to a flocculant dissolving device, and more particularly, to a flocculant dissolving device, which can be supplied by dissolving a flocculant in liquid or powder form in high concentration in dissolved water.

In order to remove the suspended solids in the wastewater and water by flocculation and precipitation, a flocculation agent is added to the flocculation tank and the flocculation reaction is required.

In order to dissolve the flocculant used at this time, the flocculant dissolving apparatus was used.

In the conventional flocculant dissolving apparatus, when water is injected at a high pressure from one side of a cylindrical dissolution tank having a hopper, the flocculant introduced from the flocculant supply unit dissolves as it vortexes inside the cylinder and flows out to an outlet downward.

However, in the above dissolution apparatus, since the supplied flocculant is discharged to the outlet of the outlet before being dissolved by the water in the dissolution tank, the flocculant which is not dissolved is entangled and attached to the inner wall of the outlet so that the outlet is gradually narrowed.

In addition, when the deposition of the flocculant is accelerated, the supply of water is often stopped and the flocculant adhered to the dissolution tank needs to be cleaned, so that the dissolution time is long and the amount of the flocculant was wasted.

In order to solve this problem, a propeller type dissolver was used, and FIG. 1 is a conceptual diagram of a conventional propeller type dissolution device.

As shown in FIG. 1, in the related art, a propeller-type dissolver dissolves a coagulant introduced through a coagulant inlet 60 through a propeller 50 installed at a center of the tank 10 through a melted water inlet 12. It was dissolved using water.

Such a propeller type dissolver has a problem in that the chemical structure of the flocculant is broken due to the strong friction in the process of whipping the flocculant and the warm-water water by using a drive motor to rotate with strong power.

 And because the propeller dissolver is installed and rotated in the center of the dissolution device, the dissolution action is made only in the part where the stirring blades touch from the center, the portion of the dissolving device that does not reach the stirring blade is still not well mixed with the flocculant and the dissolved water dissolution rate There was this low issue.

In addition, since the dissolution rate of the flocculant and the dissolved water decreases as it moves away from the center of the dissolution apparatus, it is difficult to dissolve it in a high concentration, and there is a problem in that the flocculant that is not dissolved in a uniform concentration as a whole is wasted.

The present invention has been made to solve the above problems, the object of the present invention is to provide a flocculant dissolving apparatus capable of dissolving the flocculant in a uniform concentration within a short time.

Another object of the present invention is to provide a flocculant dissolving apparatus capable of dissolving the flocculant at a high concentration.

The flocculant dissolving device according to the present invention comprises a body in which a melted water inlet, a flocculant inlet, and a chemical supply part are installed, a drive motor installed on an upper portion of the body, a drive shaft connected to the drive motor, and a propeller installed on the drive shaft. In the dissolution device for dissolving the flocculant to form a floc in the dissolved water, the inner cylinder in the form of a cylindrical tube is installed vertically through a plurality of connecting plates fixed to the inner surface of the body at the center of the body, the propeller And a first propeller installed inside the inner cylinder, and a second propeller penetrating the inner cylinder and installed outside of the inner cylinder, wherein the connecting plate is installed to be inclined upward toward the inner cylinder in a flat twisted shape in the shape of a pretzel. The coagulant inlet is provided with a powder coagulant inlet and a liquid coagulant inlet. It is characterized by.

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The flocculant dissolving device according to the present invention has the advantage that the dissolved water and the flocculant can be mixed well by turbulent fluid flow through the inner cylinder and the two propellers and the connecting plate installed at the center of the body, so that it can be dissolved uniformly at a high concentration. .

In addition, since the flocculant in the liquid or powder form according to the present invention can be dissolved within a short time, there is an advantage of improving the treatment efficiency of the overall system.

Hereinafter, with reference to the accompanying drawings will be described in more detail the flocculant dissolution device according to the present invention.

2 is a conceptual diagram illustrating a flocculant dissolving apparatus according to a preferred embodiment of the present invention, and FIG. 3 is a cross-sectional view taken along the line AA ′ of FIG. 2.

The flocculant dissolving apparatus according to one embodiment of the present invention is used to dissolve the flocculant for forming the floc in the dissolved water, and as shown in FIG. 2, the body 10, the inner cylinder 20, the connecting plate 30, It consists of a drive motor 40, a drive shaft 42 and propellers 50a, 50b.

The body 10 has a dissolved water inlet 12, a coagulant inlet 16 and the drug supply unit 14 is installed, the coagulant is dissolved in the dissolved water therein, and serves to store it.

Next, the inner cylinder 20 is installed in the form of a cylindrical tube perpendicular to the center of the body 10, a plurality of connecting plates fixed to the outer circumferential surface of the inner cylinder 20 and the inner surface of the body 10, respectively ( Is installed through 30).

Here, the connecting plate 30 is in the shape of a twisted flat plate shape, it is preferable to be installed to be inclined upward toward the inner cylinder 20 side, as shown in Figure 2, flowing through the connecting plate 30 It can turbulent flow of fluid.

And as shown in Figure 3, the connecting plate 30 may be installed in the appropriate number (30a, 30b, 30c, 30d) according to the processing capacity, such as the size of the body 10 and the inner cylinder 20, the connecting plate The width of 30 and the spacing between each connecting plate should also be appropriately designed in consideration of the flow of fluid flowing inside the body 10.

Next, the drive motor 40 is installed on the upper portion of the body 10 to provide power, the drive shaft 42 connected to the drive motor 40 is inserted into the center of the inner cylinder 20.

The propeller installed on the drive shaft 42 includes a first propeller 50a installed inside the inner cylinder 20 and a second propeller penetrated by the inner cylinder 20 and installed outside the inner cylinder 20. 50b).

Next, the fluid flow in the flocculant dissolving device according to an embodiment of the present invention will be described.

Figure 4 is a flow chart of the interior of the flocculant dissolution device according to a preferred embodiment of the present invention.

As shown in FIG. 4, the fluid moves vertically downward in the inner cylinder by the first propeller 50a rotated in the inner cylinder 20, and is rotated in a state protruding to the lower portion of the inner cylinder 20. 2 propeller (50b) is raised while moving to the outside while hitting the bottom surface of the body (10).

As the rising fluid passes through the connecting plate 30 twisted into the pretzel again, the flow is turbulent to dissolve the coagulant well, and the raised fluid is introduced into the inner cylinder 20 again.

By repeating the above process, the flocculant and the dissolved water are well mixed without increasing the propeller speed, and the dissolution rate can be increased, and the dissolution time can be reduced as compared with the conventional dissolution apparatus.

In addition, the flocculant is installed in the upper portion of the body 10, the flocculent inlet 16 through which the flocculant flows from the flocculent feeder 60 in the form of powder so as to use the product in the form of powder or liquid, The storage tank 70 may be connected to the molten water inlet 12 to be used.

As described above, it can be seen that the present invention has a basic technical idea to provide a flocculant dissolving device capable of dissolving a flocculant at a high concentration, and within the scope of the basic idea of the present invention, a conventional Of course, many other variations are possible for the knowledgeable.

1 is a conceptual diagram of a conventional propeller dissolution device.

Figure 2 is a conceptual diagram showing a flocculant dissolving apparatus according to a preferred embodiment of the present invention.

3 is a cross-sectional view taken along the line AA ′ of FIG. 2;

4 is a flow chart of the interior of the flocculant dissolution device according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

10: body

12: melted water inlet

14: drug supply

16: flocculant inlet

20: inner tube

30,30a, 30b, 30c, 30d: connecting plate

40: drive motor

42: drive shaft

50a: first propeller

50b: second propeller

60: flocculant feeder

Claims (4)

Dissolved flocculant to form a floc consists of a body in which the melted water inlet, the flocculant inlet and the chemical supply unit is installed, a drive motor installed on the upper portion of the body, a drive shaft connected to the drive motor and a propeller installed on the drive shaft In the dissolving apparatus to dissolve in water, The inner cylinder of the cylindrical tube form is installed vertically in the center of the body through a plurality of connecting plates fixed to the inner surface of the body, The propeller includes a first propeller installed inside the inner cylinder, and a second propeller penetrating the inner cylinder and installed outside the inner cylinder, The connecting plate is installed to be inclined upward to the inner cylinder side in the form of a twisted flat plate shape, The flocculant inlet portion, a flocculant inlet portion of the powder form, the flocculant dissolving apparatus, characterized in that the liquid inlet portion is installed. delete delete delete

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