KR20120033217A - Apparatus for dissolving flocculant - Google Patents

Abstract

PURPOSE: A device for dissolving flocculant is provided to prevent direct dropping of a flocculant to water from a fixed quantity supplier by being directed to drop under a nozzle. CONSTITUTION: A device for dissolving flocculant comprises a lower nozzle(5"), a partition plate(2) for water level conservation, an agitator(3), flocculant apparatus supplier in fixed quantity(4), confined water pipes(5,14), a fixed quantity suppling opening(7), and a downstream water supply nozzle(5'). The partition plate for water level conservation keeps water level on water surface(L) of a dissolver(1). The agitator is installed in the side of water level conservation of the dissolver. The downstream water supply nozzle is installed in one side(X) of the fixed quantity supply opening.

Description

Flocculant dissolving device {APPARATUS FOR DISSOLVING FLOCCULANT}

The present invention relates to a flocculant dissolving apparatus for dissolving a flocculant such as powder flocculant and the like in water.

Conventionally, the water supply to a flocculant dissolving apparatus sprays water with a spray nozzle through the distance which is obliquely downward from the upper part of a dissolution tank, and spreads and spreads a flocculant on the water surface by the spray water from the said spray nozzle. It was (for example, patent document 1, 2, 3). Therefore, the powder flocculant adhered to the wall surface or the ceiling surface of the dissolution tank by the water which reflected and scattered from the water surface, and the "coagulation" produced. In addition, since the flocculant diffuses and moves on the water surface, it is difficult to efficiently dissolve. The term “core” refers to a powdery coagulant that contains water and is not completely dissolved in water, adheres to the wall or ceiling surface of the dissolution tank, grows into agglomerates, and is a powdery coagulant that is not completely dissolved in water. Say that they cling to each other and are floating underwater, the surface of the water.

In order to prevent this, as shown in FIG. 7, the downward water supply nozzle 5 'of the pressure water supply pipe 5 is provided near the water surface near one side of the fixed amount supply port 7 of the flocculant, and the downward water supply nozzle It has been proposed to prevent the occurrence of the "cold" and to dissolve the flocculant efficiently by entering the flocculant under the purified surface by the jet pressure water from (5 ') (patent document). 4)

[Patent Document 1] Japanese Patent Laid-Open No. 2001-87603 [Patent Document 2] Japanese Patent Laid-Open No. 2005-118732 [Patent Document 3] Japanese Patent Laid-Open No. 2005-169169 [Patent Document 4] Japanese Patent Laid-Open No. 2008-93530

In the flocculant dissolving apparatus of the said patent document 4, although generation | occurrence | production of the said "core" can be prevented, since the flocculant falls directly on the water surface, the influence of the stirring water flow by the stirrer in the said dissolution tank is eliminated, and a flocculant is efficiently carried out. There is a need for an apparatus capable of dissolving flocculent under water level and efficiently dissolving flocculant.

In order to solve the said subject, it aims at providing the flocculant dissolving apparatus which can prevent generation | occurrence | production of "coking" by a flocculant, and can melt | dissolve a flocculant efficiently.

In order to achieve the above object,

1. A water level maintenance partition plate is installed inside the dissolution tank to maintain the water level of the water surface of the dissolution tank, an agitator is installed on the water level maintenance side of the dissolution tank, and a flocculant quantitative supply device and pressure are provided on the top plate of the dissolution tank. A water supply pipe is installed, the fixed quantity supply port of the coagulant is opened in the upper plate, a downward water supply nozzle of the pressure water supply pipe is installed near one side of the fixed amount supply port, and the lower injection port of the downward water supply nozzle is close to the water surface. In the flocculant dissolving apparatus provided so that the water film | membrane which flows just below the said lower injection port of the said downstream water supply nozzle from the said one side vicinity between the said fixed quantity supply port and the said water surface near the other side of the said fixed amount supply port. It is comprised by the flocculant dissolving apparatus formed by providing the water film spray nozzle to form in diagonal direction. do.

Therefore, since the flocculant supplied to the dissolution tank from the fixed-quantity supply port is guided directly below the lower injection port of the downward feed water nozzle by the water film from the water film spray nozzle, the flocculant does not directly fall on the water surface of the dissolution tank, The pressure water injected from the lower end injection port of the feed water nozzle can enter under the water surface of the dissolution tank, so that the flocculant can be dissolved efficiently. Providing the lower injection port in close proximity to the surface of the water is, for example, the position of the lower injection port within the range of 50 mm on the water surface and 150 mm on the water surface (e.g., 50 mm on the water surface, 130 mm on the water surface, etc.) Says to install on. The water film directed directly below the lower injection port means a water film directly below the lower injection port and directed to a height slightly above the water surface (for example, 10 mm above the water surface L).

2. A water film guide plate is provided from the position of the water film spray nozzle directly below the lower injection port of the downward water supply nozzle near the one side, and the water film directed from the water film spray nozzle toward the downward water supply nozzle on the guide plate. It is comprised by the flocculant dissolving apparatus as described in said 1. comprised so that this may be formed.

In such a configuration, since the flocculant supplied from the metering supply port to the dissolution tank is guided directly below the lower injection port of the downward feed water nozzle by the water film guide plate, the flocculant does not directly fall on the water surface of the dissolution tank. The pressure water injected from the lower end injection port of the feed water nozzle can enter under the water surface of the dissolution tank, so that the flocculant can be dissolved efficiently.

3. The flocculant dissolving apparatus as described in said 1. or 2. formed with the width | variety of the water film sprayed from the said water film spray nozzle corresponding to the width | variety of the pressure water ejected downward from the said lower injection port of the said downward water supply nozzle of the said one side. It is composed by.

If comprised in this way, a flocculant can enter and melt under water efficiently by the pressure water sprayed downward from a lower injection port.

4. The said bottom injection port of the said downward water supply nozzle and the bottom injection port of the said water film spray nozzle are comprised by the flocculant dissolving apparatus as described in said 1. or 2. which is a long hole of a substantially parallel direction.

5. The said bottom injection port of the said downward water supply nozzle and the bottom injection port of the said water film spray nozzle are comprised by the flocculant dissolving apparatus as described in said 3. which is a long hole of a substantially parallel direction.

Therefore, when the water level is maintained by the partition plate in the dissolution tank, the water on the constant water level side is stirred, and the flocculant is quantitatively supplied from the quantitative supply port toward the water surface of the water level.

In this state, the pressure water is ejected from the lower injection port of the downward water supply nozzle close to the water surface, and a water film is formed from the water spray spray nozzle near the other side of the fixed quantity supply port just below the lower injection port of the downward water supply nozzle. , The flocculant falling from the fixed-quantity supply port is guided directly below the lower injection port of the downward water supply nozzle by the water film, and the induced flocculant enters along the vertical line under the water surface by the pressure water of the downward water supply nozzle. .

According to the present invention, since the flocculant supplied from the fixed-quantity supply port of the flocculant is guided directly below the lower injection port of the downward feed water nozzle by the water film from the water film spray nozzle, the flocculant that falls directly under the water from the fixed-quantity supply port is suppressed. The coagulant guided directly below the downward water supply nozzle can be reliably entered under the water surface of the dissolution tank by the pressure water sprayed from the downward water supply nozzle, so that even if confusion of the water flow by the stirrer occurs, It is not affected by the confusion, and the flocculant supplied from the quantitative supply port can be reliably entered into the water to dissolve the flocculant efficiently.

Moreover, since it can suppress that the flocculant supplied from the fixed-quantity supply port falls directly on the water surface, generation | occurrence | production of what is called a "core" can be prevented effectively.

1 is a front view showing a flocculant dissolving device according to the present invention.
2 is a right side view of FIG. 1.
3 is a right side view of the quantitative supply port of the flocculant and one side vicinity and the other side vicinity thereof.
Fig. 4 is a right side view of the vicinity of the above in which the guide plate of the water film is installed in the oblique direction at an intermediate level between the supply port and the constant water level.
5A is a schematic sectional view taken along line AA of FIG. 3, (B) is a front view taken along line BB of (A), (C) is a schematic sectional view taken along line A′-A 'of FIG. 4, (D) is a schematic perspective view of a water film spray nozzle.
FIG. 6 is a conceptual perspective view of a state entering from the water film spray nozzle directly under the water supply nozzle of the water film. FIG.
7 is a right side view of the quantitative supply port of the coagulant, and one side vicinity and the other side vicinity thereof.
Fig. 8 is a right side view of both of the neighbourhoods in which a guide plate of a water film is installed in an oblique direction at an intermediate level between the supply port and a predetermined water level.
It is a side view of the water supply nozzle vicinity of the conventional coagulant dissolving apparatus.

The upper surface of the cylindrical water tank supported by the bottom surface 8 is closed by the top plate 1 'to form the dissolution tank 1 of the powdered coagulant (coagulant) 6 and the water 10.

A rectangular equipment box 11 is formed on the top plate 1 ', and a receiving hopper 12 of powdered flocculant 6 is provided on the top surface of the equipment box 11, and the lower end of the hopper 12 is provided. The fixed quantity supply device 13 (for example, Unexamined-Japanese-Patent No. 2001-278453) of the said coagulant 6 is installed in the said apparatus box 11, and the electric motor for constant speed rotation of the said fixed amount supply device 13 is provided. It installs in the inside and forms the powder type coagulant metering supply device 4.

The fixed-quantity discharge port 13 'of the fixed-quantity supply device 13 is opened in the supply container 7' installed in the equipment box 11, and the fixed-quantity supply port 7 at the lower end of the supply container 7 'is opened. It opens in the upper surface plate 1 '.

A compressed air pipe is introduced into the rectangular equipment box (equipment box) 11, and the vertical pressure water supply pipes 5 and 14 piped in the equipment box 11 are supplied to the supply container 7 ′ and a fixed-quantity supply port. In one side (X) of the side (7) and the other side (Y) (refer FIG. 2), respectively, it extends downward and is installed below the upper surface plate 1 ', and the said pressure water supply pipe of one side (X) is respectively provided. The bottom downward water supply nozzle 5 'is provided in (5), while the water film spray nozzle 15 is attached to the lower end of the vertical pressure water supply pipe 14 near the other side Y. Install by tilting toward the bottom of the The pressure water supply pipe 5 (one side vicinity X) and the pressure water supply pipe 14 (the other side Y) are provided on both sides of the fixed-quantity supply port 7, and the water supply pipe 5 and the supply port ( 7) The water supply pipe 14 is disposed so as to be located in a straight line (FIGS. 1 and 2).

Inside the dissolution tank 1, a partition plate 2 for maintaining the water surface L 'at a constant level is provided, and a positive water level holding plate 16 is provided along the partition plate 2. (See Figure 1).

The upper end of the water level holding plate 16 protrudes on the flow water surface L to prevent overflow due to water fluctuations caused by the stirrer 3, and the lower end 1 of the bottom surface 1 of the dissolution tank 1. The surface L 'of the purified water level can be maintained between the upper end of the partition plate 2 and the purified water level holding plate 16 via the inflow gap S above the "

The lower end injection port 5 "of the downward water supply nozzle 5 'has the injection port (the water surface L) slightly higher than the water surface L' at the purified water level, that is, the water injection port L at a constant water level L. 5 "), the injection hole 5" is fixed to a position close to the water surface L to some extent and spaced apart from the water surface L by a predetermined distance, that is, the water surface L of a constant water level And the injection port 5 "shares the axis with the vertical axis a of the nozzle 5 '(see FIG. 3). The distance between the flow surface L and the lower end injection port 5 "is, for example, 50 mm (see FIG. 3) and 130 mm (see FIG. 7).

The stirrer 3 extends the rotating shaft 18 of the electric motor 17 provided on the upper surface plate 1 ′ under the water surface L, and provides stirrers 3 ′, 3 ′ to the arrow b direction. The water reservoir L on the holding plate 16 side (water level holding side) is stirred, and the water surface L is lowered around the rotating shaft 18. As shown in FIG. The position of the supply port 7 and the lower injection port 5 "is provided in a position isolated from the stirrer 3.

Each vertical axis (a, c) of the vertical pressure water supply pipes (5, 14) is on both sides (one side (X) and the other side (Y)) of the vertical axis (d) of the fixed amount supply port (7) Located in the vertical plane, the lower part of the pressure water supply pipe 5, that is, the lower end injection port 5 "of the downward water supply nozzle 5 ', is provided to be close to the flow water surface L, that is, a predetermined level, and near the other side. The water film spray nozzle 15 is formed in the lower end of the said pressure water supply pipe 14 of (Y), and the said nozzle 15 is substantially halfway between the said supply port 7 and the flow water surface L of the said constant water level. From the level position Z (between the metered supply port 7 and the water surface L), just below the lower injection port 5 "of the downward water supply nozzle 5 'and a height slightly above the water surface L ( For example, it installs in the downward inclination direction (tilt direction) toward the height 10 mm above the water surface L (refer FIG. 2, FIG. 3, FIG. 7). The inclination angle θ of the vertical axis c of the water film spray nozzle 15 and the vertical pressure water supply pipe 14 is, for example, about 60 degrees (see FIG. 3).

The inclination angle θ of the water film spray nozzle 15 is about 60 degrees to the vertical axis c as described above, and the opening 15 ′ of the nozzle 15 is (a) in FIG. 5. As shown in (d), it is a long hole in a horizontal direction, and blows or injects the fan-shaped water film 15 "or the rectangular water film 15" from the opening part 15 ', and the said water film 15 ". Is equal to or larger than the inner diameter of the supply port 7. Immediately below the metering supply port 7, the water film 15 " Since it passes just below (bottom), all the powdered flocculant 6 falling from the said fixed-quantity supply port 7 falls on the said water film 15 ", and supplies the water flow E of the water film 15". ) Is directly below the lower injection port 5 "of the downward feedwater nozzle 5 'and led to a height slightly above the water surface L. The induced height is in phase with the flow water surface L. If the interval of the bottom opening (5 ") of 50 ㎜, 130 ㎜ both upward from the water surface (L) is in position of 10 ㎜.

The diameter or width of the lower injection port 5 "of the downward water supply nozzle 5 'is smaller than the width of the lower end of the water film 15", as shown in FIG. 5A, but as shown in FIG. And a pressure ejected from the opening 15 'of the water film spray nozzle 15 in a membrane-shaped pressure water 19 is ejected in a fan shape downward from the lower injection port 5' 'with respect to the water surface L. The width e 'of the water film 15 "of the film-like pressure water 19 ejected downward from the lower injection port 5" of the downward water supply nozzle 5' near the one side X. It corresponds to the width "e" (for example, approximately equal to the width "e" and the width "e" as shown in Fig. 6.) In this configuration, the water flow of the water film 15 " The coagulant 6 guided directly under the lower injection port 5 "by (E) is changed in the water direction L direction by the water flow in the vertical direction of the pressure water 19. Enters downward, said water surface (L).

Moreover, so that the said lower injection port (opening part) 5 "of the said downward water supply nozzle 5 'and the lower injection port (opening part) 15' of the water film spray nozzle 15 become a long elongate hole in a substantially parallel direction. Therefore, as shown in Fig. 6, each of the injection ports 5 " and 15 " is jetted with a thin film-like pressure water, and the drop powder type flocculant 6 is appropriately downwardly fed to the water supply nozzle 5 ') Can be guided directly below, so that the pressure water 19 can reliably enter the water surface L.

Of course, the water film 15 "supplies all of the powdered flocculant 6 dropped and supplied from the fixed quantity supply port 7 to the level just below the lower injection port 5", and thus the water film 15 ". Sufficient water pressure and water volume are maintained without dropping to the water surface L in the middle of).

In addition, as shown in FIG. 4, FIG. 8, from the position of the opening part 15 'of the water film spray nozzle 15, the lower end injection port 5 "of the said downstream water supply nozzle 5' of the said one side X is provided. The inclined meninges guide plate (meninge guide plate) 15a (see FIG. 5C) to be directly below and above a height above the water surface L (for example, 10 mm above the water surface L). ) And a water film 15 "directly below the lower injection hole 5" on the guide plate 15a from the water film spray nozzle 15. FIG. When the lower injection hole 5 "is installed at about 50 mm above the water surface L, FIG. 8 is a case where the lower injection hole 5" is installed at about 130 mm above the water surface L. As shown in FIG.

Therefore, as shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, and Fig. 8, the water film in the vicinity of the other side of the metering supply port 7 immediately below the metering supply port 7 is shown. Since the water film 15 "sprayed from the spray nozzle 15 is inclined in the direction of the downward water supply nozzle 5 ', it is fixed-dropped and supplied from the fixed-quantity supply port 7 in the direction of the water surface L. The powdered flocculant 6 falls on the water film 15 "(FIG. 3), and the lower end injection port 5" of the said downward water supply nozzle 5 'is carried out by the water flow E of the water film 15 ". Pressure being ejected from the lower injection hole 5 "at the level position close to the water surface L 'or the flow water surface L because it is directly below the water surface and is led to a position of about 10 mm above the water surface L. The water 19 enters below the water surface L, is pressed into the reservoir without scattering on the water surface L, and is dissolved in the stirred water 10.

The lower injection port 5 '' is provided at a position spaced apart by a predetermined interval upward from the supply position of the coagulant (a position just below the lower injection port 5 '' and about 10 mm above the water surface L). The installation position of this lower injection port 5 "is a position near the water surface L, and any one position within the range of the position of 50 mm above the water surface L to 150 mm above the water surface L (preferably What is necessary is just to set it as the position within the range of 100 mm-140 mm on the water surface L, for example, 130 mm (refer FIG. 7, FIG. 8) on the water surface L. FIG.

The water surface L approximately coincides or slightly intersects the water surface L 'at the water level between the partition plate 2 and the water level holding plate 16.

As shown in FIG. 1, the flocculant dissolution liquid 10 'beyond the partition plate 2 enters into the dissolution completion liquid storage tank 9, and the water level is sent to the partition plate 2 by the water level sensor 20. As shown in FIG. It is transported by the pump from the outlet 21 to the next process so as to keep it below the water surface L 'at the purified water level.

As described above, according to the present invention, the flocculant 6 supplied from the metering supply port 7 is the lower injection port 5 of the downward feed water nozzle 5 'by the water film 15 "from the water film spray nozzle 15. Since it is directly below ") and guided to a height slightly above the water surface L, the flocculant which falls on the water surface L directly from the said fixed-quantity supply port 7 can be suppressed, and almost all flocculant 6 is carried out. May be led directly below the lower injection port 5 "of the downward water supply nozzle 5 '.

In addition, the flocculant 6 guided directly below the lower end injection port 5 "of the downward feed water nozzle 5 'is dissolved in the dissolution tank 1 by the pressure water 19 sprayed from the downward feed water nozzle 5'. Since it enters certainly under the water surface L of (), the said water supply nozzle 5 in the water surface turbulence by the stirrer 3 (for example, the lower surface L of the lower surface L of the fixed-quantity supply port 7 in FIG. 3). Water flow in the direction of arrow F in the opposite direction to ')', the coagulant 6 supplied from the supply port 7 can be reliably entered under the water surface L without being affected by the confusion of the water flow. The flocculant can be dissolved.

Moreover, since it can suppress that the flocculant 6 supplied from the fixed-quantity supply port 7 falls directly on the water surface L, generation | occurrence | production of what is called a "core" can be prevented effectively.

Although the position of the coagulant supplied just below the lower end injection port 5 "by the said water film 15" was made into the position of 10 mm above the water surface L, the said position is not limited to this, and the lower injection port 5 "" And the height L slightly above the water surface L (for example, 5 mm-20 mm above the water surface L) between the water surface L. What is shown in FIG. 22 is a control panel.

This invention can melt | dissolve and adjust the polymeric powder type | mold flocculent 6 which is easy to moisture-absorb and solidify, without generating "coking".

1: Dissolution tank 1 ': Top plate
2: partition plate for water level maintenance (partition board)
3: stirrer
4: powder type flocculant quantitative supply device (coagulant quantitative supply device)
5, 14: vertical pressure water supply pipe (pressure water supply pipe)
5 ': Lower downward water supply nozzle (downward water supply nozzle)
5 ": Lower injection hole (opening part) 6: Powder type flocculant (coagulant)
7: fixed-quantity supply port 15: water film spray nozzle
15 ': Lower injection port (opening)
15 ": Flat or rectangular pressure film (water film)
15a: inclined water film guide plate (water film guide plate) 19: pressure water
X: Near one side Y: Near other side
L: Floating water surface (water surface) e ': Width of water film
e ": width of pressure water

Claims (5)

Installing a partition plate for maintaining the water level inside the dissolution tank is formed to maintain the water level of the water surface of the dissolution tank,
A stirrer is installed on the water level holding side of the dissolution tank,
A flocculant quantitative supply device and a pressure water supply pipe are installed on the upper plate of the dissolution tank,
A coagulant dissolution formed by opening a fixed amount supply port of the coagulant to the upper plate, installing a downward water supply nozzle of the pressure water supply pipe near one side of the fixed amount supply port, and installing a lower injection port of the downward water supply nozzle to approach the water surface. In the device,
A flocculant dissolution formed by installing a water film spray nozzle in the inclined direction near the other side of the metered supply port, from the between the metered supply port and the water surface, to form a water film directly below the lower injection port of the downward water supply nozzle near the one side. Device. The water film guide plate according to claim 1, wherein a water film guide plate is provided from a position of the water film spray nozzle directly under the lower injection port of the downward water supply nozzle near the one side.
And a coagulant dissolving device configured to form a water film directed from the water film spray nozzle to the downward water supply nozzle on the water film guide plate. The flocculant dissolving apparatus of Claim 1 or 2 which made the width | variety of the water film sprayed from the said water film spray nozzle correspond with the width | variety of the pressure water ejected downward from the said lower injection port of the said downward water supply nozzle of the said one side. . The flocculant dissolving apparatus of Claim 1 or 2 in which the said lower injection port of the said downward water supply nozzle and the lower injection port of the said water film spray nozzle are long holes in a parallel direction. 4. The flocculant dissolving apparatus according to claim 3, wherein the lower injection port of the downward water supply nozzle and the lower injection port of the water film spray nozzle are long holes in a parallel direction.

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