KR101676046B1 - Apparatus for dissolving flocculant - Google Patents

Abstract

(assignment)
A coagulant dissolving device capable of preventing the occurrence of " core " caused by a coagulant and capable of efficiently dissolving the coagulant.
(Solution)
A flocculant supply device and a pressure water supply pipe are provided on the upper surface plate of the dissolving tank and a fixed amount supply port of the flocculant is provided on the upper surface plate, Wherein a downward feed water nozzle of the pressure water feed pipe is provided in the vicinity of one side of the fixed amount feed port and a lower end jet port of the downward feed water nozzle is provided so as to be close to the water surface, the coagulant dissolving device comprising: Wherein a water spray nozzle for forming a water film directed from the lower end injection port of the downward feed water nozzle to the lower water feed nozzle is provided in an oblique direction in the vicinity of the fixed feed port and the water surface in the vicinity of the feed port, And is guided directly below the lower end injection port by the lower end injection port.

Description

[0001] APPARATUS FOR DISSOLVING FLOCCULANT [0002]

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

Conventionally, the water supply to the flocculant dissolving apparatus is performed by spraying water by a spray nozzle through a distance corresponding to an obliquely downward direction from the upper part of the dissolving tank, spreading and spreading the flocculant on the water surface by the spray water from the spray nozzle (For example, Patent Documents 1, 2 and 3). Therefore, the powder coagulant adhered to the wall surface of the melting vessel or the ceiling surface by water scattered by reflection from the water surface, and "core" was generated. Further, since the flocculant diffuses and moves on the water surface, it is difficult to efficiently dissolve the flocculant. &Quot; Core " means that the coagulant in the form of a powder contains water and does not completely dissolve in water, so that it is adhered to the wall surface or top surface of the dissolution tank and grows into a lumpy form, and a powder type coagulant And it is said that it is floated in the water and the water surface.

In order to prevent this, as shown in Fig. 7, the downward feed water nozzle 5 'of the pressure water feed pipe 5 is provided in the vicinity of one side of the fixed feed port 7 of the coagulant to be close to the water surface, (Hereinafter, referred to as " patent literature ") discloses that the above-mentioned coagulant is caused to enter under a constant water surface by the pressure of water ejected from the water inlet 5 ' 4)

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

In the coagulant dissolver of Patent Document 4, it is possible to prevent the occurrence of the above-mentioned "core", but since the coagulant drops directly on the water surface, the influence of the stirring water by the stirrer in the dissolving tank is eliminated, Is required to enter under the water level to efficiently dissolve the flocculant.

The object of the present invention is to provide a coagulant dissolving device capable of preventing the occurrence of " core " caused by a coagulant to dissolve the coagulant efficiently.

In order to achieve the above object,

1. A water level holding partition plate is provided inside a dissolution tank so as to maintain a water level of the dissolution tank, an agitator is provided on the water level maintenance side of the dissolution tank, and an upper surface plate of the dissolution tank is supplied with an amount- Wherein a water supply pipe is provided in the top plate, a fixed amount supply port of the flocculating agent is opened in the top plate, a downward feed water nozzle of the pressure water feed pipe is provided in the vicinity of one side of the fixed amount feed port, A water film which is directed to the vicinity of the other side of the fixed amount supply port and directly below the lower-end water jetting port of the downward feed water nozzle in the vicinity of the one side from between the fixed amount supply port and the water surface is provided in the coagulant dissolution apparatus And formed by a coagulant dissolving device formed by providing a water spray nozzle formed in an oblique direction do.

Therefore, the coagulant supplied from the fixed amount supply port to the dissolving tank is guided directly below the lower-end injection port of the downward feed water nozzle by the water film from the water film spray nozzle, so that the coagulant does not fall directly onto the water surface of the melting tank, It is possible to enter under the water surface of the water level of the dissolution tank by the pressure water jetted from the lower nozzle of the water supply nozzle, and the flocculant can be efficiently dissolved. For example, when the lower jet opening is located close to the water surface, the lower jet opening is positioned at a position within a range of 50 mm above the water surface to 150 mm above the water surface (for example, at a position of 50 mm above the water surface, 130 mm above the water surface, . The water film directly below the lower jet opening port means a water film directly below the lower jet port and slightly higher than the water surface (for example, a height of 10 mm above the water surface L).

2. A water film spraying apparatus according to claim 1, wherein a water film guide plate is provided from the position of the water spray nozzle toward the immediate lower side of the lower nozzle opening of the downward feed water nozzle in the vicinity of the one side, The coagulant dissolving apparatus described in (1) above is configured to form the coagulant dissolver.

According to this construction, since the flocculant supplied from the fixed amount supply port to the dissolving 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 fall directly onto the water surface of the melting tank, It is possible to enter under the water surface of the water level of the dissolution tank by the pressure water jetted from the lower nozzle of the water supply nozzle, and the flocculant can be efficiently dissolved.

3. The flocculant dissolving apparatus according to 1 or 2 above, wherein the width of the water film ejected from the water film spray nozzle corresponds to the width of the pressure water sprayed downward from the lower nozzle opening of the downward feedwater nozzle in the vicinity of the one side. .

With this configuration, the coagulant can be efficiently introduced into the water surface by dissolving it by the pressure water sprayed downward from the lower jet opening.

4. The flocculant dissolving apparatus according to 1 or 2 above, wherein the lower injection hole of the downward feed water nozzle and the lower injection hole of the water film spray nozzle are elongated holes in substantially parallel directions.

5. The coagulant dissolving apparatus according to the above item 3, wherein the lower jet opening of the downward feed water nozzle and the lower jet opening of the water film spray nozzle are elongated holes in substantially parallel directions.

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

The pressure water is ejected from the lower end injection port of the downward feed water nozzle near the water surface and a water film is formed from the water film spray nozzle in the vicinity of the other side of the fixed amount supply port directly below the lower end injection port of the downward feed water nozzle , The flocculant falling from the fixed amount supply port is guided by the water film directly beneath the lower end injection port of the downward feed water nozzle and the induced flocculant enters the vertical water line under the water surface by the pressure number of the downward feed water nozzle .

According to the present invention, since the flocculant supplied from the feed port of the flocculant is guided directly below the lower end injection port of the downward feed water nozzle by the water film from the water film spray nozzle, the flocculant falling down to the water surface directly from the fixed feed port is suppressed And the coagulant led directly below the downward feed water nozzle surely enters under the water surface of the melting tank by the pressure water jetted from the downward feed water nozzle so that even if the water flow is confused by the stirrer, The flocculant supplied from the fixed amount supply port can be surely entered under the water surface without being influenced by the confusion so that the flocculant can be efficiently dissolved.

In addition, since the coagulant supplied from the fixed amount supply port can be prevented from falling directly on the water surface, the occurrence of the so-called " core " can be effectively prevented.

1 is a front view showing a flocculant dissolving apparatus according to the present invention.
2 is a right side view of Fig.
3 is a right side view of the vicinity of one side and the vicinity of the other side of the fixed amount supply port of the coagulant.
Fig. 4 is a right side view of the vicinity of the supply port and the water level guide plate provided at an intermediate level between the supply port and the water level in the oblique direction.
FIG. 5A is a schematic sectional view taken along the line AA in FIG. 3, FIG. 5B is a front view taken along line BB in FIG. 4A, (D) is a schematic perspective view of the water film spray nozzle.
6 is a conceptual perspective view of a state where the water spray nozzle is directly below the downward water supply nozzle of the water film.
Fig. 7 is a right side view of the vicinity of one side and the vicinity of the other side of the fixed amount supply port of the coagulant.
Fig. 8 is a right side view of the above-mentioned amphibious room in which a guide plate of water film is installed in an oblique direction at an intermediate level between the supply port and a certain level.
9 is a side view of the vicinity of a water supply nozzle of a conventional coagulant dissolving apparatus.

The top surface of the cylindrical water tank supported on the bottom surface 8 is closed with the top plate 1 'to form the melting tank 1 of the powdery coagulant 6 and the water 10.

A container 11 having a rectangular shape is formed on the upper plate 1 'and a receiving hopper 12 for powdery coagulant 6 is provided on the upper surface of the container 11, A fixed quantity supply device 13 (for example, Japanese Patent Laid-Open Publication No. 2001-278453) of the coagulant 6 is installed in the device case 11 and a constant speed rotating electric motor of the fixed quantity supply device 13 is installed in the device case 11, So as to form a powder type flocculant quantity feeder 4.

The fixed amount discharge port 13 'of the fixed quantity supply device 13 is opened in the supply container 7' provided in the device case 11 and the fixed quantity supply port 7 at the lower end of the supply container 7 ' And opens to the upper surface plate 1 '.

A pressurized air pipe is introduced into the rectangular device box 11 and the vertical pressure water supply pipes 5 and 14 piped into the device box 11 are connected to the supply pipe 7 ' (X ') and the other side (Y) (see FIG. 2) of the pressure water supply pipe 7 in the vicinity of the upper surface plate 1' Down spray nozzle 5 at the lower end of the vertical pressure water supply pipe 14 of the other side Y and the lower spray nozzle 15 at the lower end of the lower side water supply nozzle 5 ' As shown in Fig. The pressure water supply pipe 5 and the pressure water supply pipe 14 are provided at both sides of the fixed amount supply port 7 so as to be connected to the water supply pipe 5, 7), and the water supply pipe 14 is positioned on a straight line (FIGS. 1 and 2).

A partition plate 2 for holding a certain level of water level L 'is provided in the melting vessel 1 and a static level maintenance plate 16 is provided along the partition plate 2 (See Fig. 1).

The upper end of the water level holding plate 16 protrudes on the floating water surface L to prevent overflow caused by the water surface fluctuation by the stirrer 3 and the lower end of the water level holding plate 16 has a bottom surface 1 The water level L 'of the water level can be maintained between the upper end of the partition plate 2 and the water level holding plate 16 via the inflow gap S above the water level holding plate 16.

The lower end injection port 5 "of the downward feed water nozzle 5 'is connected to the fluidized water surface (water surface) L, which is slightly higher than the water level L' of the water level, 5 '' is fixed to a position spaced apart from the water surface L by a predetermined distance, that is, a water surface L having a certain water level, , And the injection port 5 '' shares an axis with the vertical axis a of the nozzle 5 '(see FIG. 3). The gap between the floating water surface L and the lower jet opening 5 '' is, for example, 50 mm (see FIG. 3) and 130 mm (see FIG. 7).

The agitator 3 has a rotary shaft 18 of an electric motor 17 provided on the upper surface plate 1 'extending below the water surface L and provided with agitators 3' and 3 ' The water level L on the side of the holding plate 16 (the water level holding side) is stirred and the water level L decreases around the rotating shaft 18. As shown in Fig. 2, The positions of the supply port 7 and the lower injection port 5 "are set at positions isolated from the agitator 3.

Each of the vertical axes a and c of the vertical pressure water supply pipes 5 and 14 is disposed on both sides of the vertical axis d of the fixed amount supply port 7 And the lower end of the pressure water supply pipe 5, that is, the lower end injection opening 5 '' of the downward feed water nozzle 5 'is provided so as to approach the floating water surface L, that is, a certain water level, (15) is formed at the lower end of the pressure water supply pipe (14) of the nozzle (Y), and the nozzle (15) is connected to the supply port (7) And a height slightly lower than the water level L from the level position Z (between the fixed amount supply port 7 and the water surface L) just below the lower nozzle opening 5 "of the downward water supply nozzle 5 ' For example, a height of about 10 mm above the water surface L) (see FIGS. 2, 3, and 7). The inclination angle? Of the vertical axis c of the water spray nozzle 15 and the vertical pressure water supply pipe 14 is, for example, about 60 degrees (see FIG. 3).

The inclined angle θ of the water spray nozzle 15 is about 60 degrees with the vertical axis c as described above and the opening 15 ' The water film 15 "or the rectangular water film 15 " is ejected or injected from the opening 15 'as a long hole in the horizontal direction as shown in Fig. The width e of the supply port 7 is equal to or larger than the inner diameter of the supply port 7 just below the fixed amount supply port 7. As described above, The powder coagulant 6 falling from the fixed amount supply port 7 is dropped and supplied onto the water film 15 "so that the water stream 15" flowing through the water film 15 " Of the downward feed water nozzle 5 'and is slightly higher than the water surface L. The height of the lower surface of the lower water feed nozzle 5' 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 end injection port 5 "of the downward feedwater nozzle 5 'is smaller than the width of the lower end of the water film 15" as shown in FIG. 5 (A) , A film-like pressure water 19 is jetted in a fan shape downward with respect to the water surface L from the lower jet opening 5 "and a pressure (pressure) 19 ejected from the opening 15 'of the water film spray nozzle 15 The width e 'of the water film 15' is set to be smaller than the width e 'of the membrane-shaped pressure water 19 sprayed downward from the lower end injection port 5 "of the downward feed water nozzle 5' (For example, the width e 'and the width e' are substantially matched as shown in Fig. 6). [0041] With this configuration, the water flow of the water film 15 " The flocculant 6 guided to the lower side of the lower injection opening 5 "by the passage E is changed in the direction of the water surface L by the water flow in the vertical direction of the pressure water 19 Enters downward, said water surface (L).

(Opening) 5 '' of the downward feed water nozzle 5 'and the lower end injection opening (opening) 15' of the water film spray nozzle 15 are formed into an elongated hole in a substantially parallel direction 6, pressure water having a predetermined film thickness is ejected from each of the ejection openings 5 "and 15 ', so that the falling powdery coagulant 6 is appropriately discharged from the downward feed water nozzle 5 ', And can be reliably entered under the water surface L by the pressure water 19. [

Of course, the water film 15 "supplies all of the powdery coagulant 6 falling down from the fixed amount supply port 7 to the level immediately below the lower jet opening 5" (L), and maintains sufficient water pressure and water quantity.

As shown in Figs. 4 and 8, the lower end injection port 5 "of the downward feed water nozzle 5 'in the vicinity of the one side (X) from the position of the opening 15' (A water film guide plate) 15a (shown in Fig. 5 (C)) directly below the water surface L and slightly higher than the water surface L (for example, a height of 10 mm above the water surface L) And a water film 15 '' directed directly below the lower jet opening 5 '' is formed on the induction plate 15a from the water film spray nozzle 15. FIG. 4 is a cross- Fig. 8 shows a case where the lower jet opening 5 '' is installed at about 50 mm above the water surface L, and the lower jet opening 5 '' is provided at about 130 mm above the water surface L '.

Therefore, as shown in FIGS. 3, 4, 5, 6, 7, and 8, the water supply port 7 located near the other side (Y) Since the water film 15 "ejected from the spray nozzle 15 is inclined in the direction of the downward feed water nozzle 5 ', a fixed drop is supplied from the fixed amount feed port 7 in the direction of the water surface L The powder coagulant 6 drops onto the water film 15 "(Fig. 3) and is discharged from the lower end jetting opening 5" of the downward feed water nozzle 5 'by the water stream E of the water film 15 " (L ') or the level at the level near the floating water surface (L), since the pressure of the water jetted from the lower jet opening 5 " Enters the water surface L by the number 19 and is injected into the water without scattering on the water surface L and is dissolved in the stirring water 10. [

The lower jet opening 5 "is provided at a position spaced upward from the supply position of the coagulant (the position immediately below the lower jet opening 5" and about 10 mm above the water surface L). The installation position of the lower jet opening 5 "is a position close to the water surface L and is located at any position within a range of 50 mm above the water surface L to 150 mm above the water surface L (A position within a range of 100 mm to 140 mm on the water surface L), for example, 130 mm above the water surface L (see Figs. 7 and 8).

The water level L substantially coincides with or slightly crosses the water level L 'of the water level between the partition plate 2 and the water level holding plate 16. [

1, the coagulant solution 10 'passing over the partitioning plate 2 is introduced into the dissolved solution liquid reservoir 9, and the water level sensor 20 supplies the water level to the partitioning plate 2 To the next process by the pump from the discharge port 21 so as to keep it below the water surface L '

As described above, according to the present invention, the coagulant 6 supplied from the fixed amount supply port 7 is supplied to the lower end injection port 5 'of the downward feed water nozzle 5' by the water film 15 '' from the water film spray nozzle 15 The flocculant falling on the water surface L directly from the fixed amount supply port 7 can be suppressed and almost all of the flocculant 6 can be prevented from falling down on the water surface L, Can be guided directly below the lower nozzle opening 5 '' of the downward feed water nozzle 5 '.

The coagulant 6 guided directly below the lower end injection port 5 "of the downward feedwater nozzle 5 'is connected to the lower end of the dissolution tank 1' by the pressure water 19 injected from the downward feedwater nozzle 5 ' (For example, the lower water surface L of the fixed water supply port 7 in Fig. 3) in the downward feed water nozzle 5 (Fig. 3) The coagulant 6 supplied from the supply port 7 can be reliably introduced under the water surface L without being influenced by such turbulent flow of the water flow, The flocculant can be dissolved.

In addition, since the coagulant 6 supplied from the fixed amount supply port 7 can be prevented from falling directly on the water surface L, the occurrence of so-called " cores " can be effectively prevented.

Although the position of the flocculant supplied just below the lower jet opening 5 "by the water film 15" is set to a position of 10 mm above the water surface L, the position is not limited to this and the lower jet opening 5 (For example, 5 mm to 20 mm above the water surface L) between the water surface L and the water surface L. In the figure, 22 is a control panel.

The present invention can dissolve and adjust the polymer powder type coagulant (6), which is easy to absorb moisture and hardly, without generating "core".

1: Melting tank 1 ': Upper plate
2: Water level holding partition plate (partition plate)
3: Stirrer
4: Powder type flocculant dispensing device (coagulant dispensing device)
5, 14: Vertical pressure water supply pipe (pressure water supply pipe)
5 ': Lower downward feed water nozzle (downward feed water nozzle)
5 ": lower jet opening (opening) 6: powder type coagulant (coagulant)
7: Quantitative supply port 15: Water film spray nozzle
15 ': lower jet opening (opening)
15 ": Fan-shaped or rectangular-shaped pressure water film (water film)
15a: inclined water film guide plate (water film guide plate) 19: pressure water
X: One side near Y: Near side
L: Floating water surface (water surface) e ': Water film width
e ": the width of the pressure water

Claims (5)

A water level holding partition plate is provided inside the dissolution tank so as to maintain the water level of the water level of the dissolution tank,
An agitator is provided on the water level holding side of the dissolution tank,
A coagulant quantity supply device and a pressure water supply pipe are provided on an upper surface plate of the melting tank,
A flocculating agent supply port for the flocculating agent is provided in the upper plate and a downward feed water nozzle of the pressure water feed pipe is provided near one side of the fixed feed port and a lower end jet opening of the downward feed water nozzle is provided close to the water surface, In the apparatus,
And a water film spray nozzle for forming a water film that is directed from the fixed amount supply port to the water surface and directly below the lower nozzle opening of the downward feed water nozzle in the vicinity of the one side is provided in the vicinity of the other side of the fixed amount supply port in an oblique direction,
Wherein a width of the water film ejected from the water film spray nozzle is made to correspond to a width of a pressure water sprayed downward from the lower end injection port of the downward feed water nozzle in the vicinity of the one side. The water spraying apparatus according to claim 1, wherein a water film guide plate is provided from a position of the water spray nozzle toward a position directly below the lower nozzle hole of the downward feed water nozzle in the vicinity of the one side,
And form a water film from the water film spray nozzle toward the downward feed water nozzle on the water film induction plate. 3. The flocculant dissolving apparatus according to claim 1 or 2, wherein the lower injection port of the downward feed water nozzle and the lower end injection port of the water film spray nozzle are elongated holes in a parallel direction. delete delete

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