KR100656990B1 - A high-efficiency apparatus for cleansing filter-bed in the filtration plant - Google Patents

Abstract

A surface washing equipment for washing a filter basin in a water purification plant is provided to wash the filter sand while circulating, mixing or agitating filter sand by integrally forming, rotary devices, rotary pipes, rotary vanes and spray nozzles, and accelerating spraying of washing water from the spray nozzles so that the spray nozzles and the rotary vanes are rotated by propelling power. A surface washing equipment(10) for washing a filter basin in a water purification plant comprises: rotary devices(20) rotatably connected to final pipes(3-3) of the surface washing equipment; a plurality of rotary pipes(21) which are in communication with the rotary devices and horizontally formed such that the rotary pipes are spaced from one another in a predetermined equal distance; rotary vanes(22) respectively formed on the rotary pipes; and spray nozzles(23) formed in the same direction on ends of the respective rotary pipes such that the spray nozzles form a predetermined angle to a circumferential direction of the ends of the rotary pipes.

Description

Surface cleaner in water purification plant {A high-efficiency apparatus for cleansing filter-bed in the filtration plant}

1 is a block diagram of a filter paper of a conventional water purification plant

Figure 2 is a cross-sectional view of the present invention from the front

Figure 3 is a rotation state of the present invention when washing water spray

Figure 4 is a perspective view of the rotary blade of the pitch paddle shape of the present invention

Figure 5 is a perspective view of the propeller-shaped rotary wing of another embodiment of the present invention

Figure 6 is a perspective view of the rotor wing of the anchor paddle shape according to another embodiment of the present invention

* Description of the main parts of the drawing

10: surface cleaner 20: rotary ball

21: rotary piping 22: rotary wing

23: spray nozzle 24: vertical wing

30: Pitch paddle-shaped rotary blade 40: Propeller-shaped rotary blade

50: Anchor paddle-shaped rotary wing

The present invention relates to a surface washer for washing filter paper of a water purification plant, and more particularly, to a surface washer that is properly circulated by rotation of a blade and separates foreign matters adhered to the filter sand by washing water sprayed from a spray nozzle. It is about.

In general, a water purification plant is a facility for purifying water. The filter paper, which is a part of the water purification plant, includes a filtration layer for purifying water and a surface washer for washing the filtration sand of the filtration layer.

By the way, looking at the configuration of the conventional water purification plant filter paper of Figure 1 generally showing an embodiment of a conventional water purification plant filter paper,

Generally, the filter paper 1 is a rectangular structure in which side and bottom surfaces are sealed and the top is open. A filter layer 2 having a multi-layer having a smaller particle size from the bottom surface of the filter paper 1 toward the top is formed and the filter layer. In the upper part of (2), the surface washer 3 which wash | cleans the filter sand of the filtration layer 2 is formed.

The filtration layer 2 is generally formed of the first, second and third filtration layers 2-1, 2-2 and 2-3, while the first filtration layer 2-1 is gravel having a diameter of 2 to 50 mm. It is a gravel layer formed with a thickness of 30 to 50 cm, while supporting the sand layer, the fine grain gravel is laid on the upper layer so that the filter sand does not intrude into the gravel layer, and the granulated gravel is formed toward the lower layer.

The second filtration layer 2-2 is a sand layer having a diameter of 0.45 to 1.0 mm and a thickness of 60 to 120 cm. It is composed of quartz, solid and uniform sand with few impurities such as dust or clay.

The third filtration layer (2-3) is an anthracite layer having an anthracite, an activated carbon filter yarn having a diameter of 0.9 to 1.4 mm, having a thickness of 20 to 50 cm, and suspended by sieving suspended substances such as impurities in raw water. The particle is fixed on the surface of anthracite to remove turbidity by filtering raw water to improve turbidity, and buffer function by detention of turbidity and fluctuation of water quality and quantity so that turbidity does not flow into the mammary gland.

A plurality of drainage passages are formed in the longitudinal direction at a predetermined interval on the upper portion of the third filtration layer 2-3, and drainage holes are formed at the end of the drainage passage to discharge the washing discharged water to the outside.

The third filtration layer (2-3) is made of anthracite with fine particles and light weight. Therefore, when used for a long time, suspended materials are adhered to the anthracite particles, resulting in a decrease in filtration efficiency. do.

In order to clean the anthracite, a surface washer 3 formed of a plurality of spray nozzles 3-1 for spraying high-pressure water is formed between the third filtration layer 2-3 and the drain passage.

The surface washer 3 has a plurality of final pipes 3-3 vertically connected to a horizontally distributed distribution pipe 3-2, and at the end of each final pipe 3-3, an injection nozzle 3 1) is formed.

In order to prevent contamination or filtration failure due to the infiltration of algae or small animals in the filter layer, the washing water in which chlorine remains is suctioned and pressurized by a washing pump and sprayed through the distribution pipe (3-2) and the final pipe (3-3). The nozzle (3-1) is sprayed at 15 ~ 20m surface spray water pressure to clean the surface of anthracite.

In the surface cleaning method, the water level of the filter paper 1 is adjusted to the height of the drainage, and then the washing water is sprayed from the injection nozzle 3-1 to lift off the foreign matter stuck to the third filtration layer 2-3 to support the drainage. It is discharged through the outside.

In the conventional surface cleaning method, since the washing water sprayed from the spray nozzle 3-1 only washes the upper portion of the third filtration layer 2-3, the surface cleaning operation is performed over the entire portion of the third filtration layer 2-3. This was not done there was a problem that the washing effect is reduced.

In addition, as the washing water only washes the upper layer of the third filtration layer 2-3, the turbidity remains on the surface of the third filtration layer 2-3, and as a result, the third filtration layer 2- 3) There was a problem in that a mud ball is formed in the filtration yarn, that is, anthracite, in which mud-like substances accumulate and agglomerates together, thereby increasing the size of the anthracite.

In addition, the mud ball is formed to reduce the suspended solids retention capacity of the filtration layer and shorten the life of the filtrate, and the mud is attached to the anthracite, thereby making the weight heavier and the anthracite sinking downward, thereby lowering the filtration efficiency. there was.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of which is that the rotary blade and the injection nozzle is formed integrally and rotated by the driving force by the classification of the injection nozzle during spraying water to circulate the filter yarn In addition, the present invention provides a surface washer of a water purification plant for washing filtered sand while mixing or stirring.

In order to achieve the above object, the present invention is a surface washing machine of a water purification plant; Rotating rotatable connected to the final pipe of the surface washer, a plurality of rotary pipes formed at regular equal intervals horizontally with the rotary ball, the rotary blades formed in each of the rotary pipe, and the end of the rotary pipe at the end of the rotary pipe Consists of a spray nozzle formed in the circumferential direction and the vertical horizontal inclination angle of a constant angle and direction, when spraying the surface washing water from the spray nozzle, the rotary nozzle, the rotary pipe, the rotary blades and the spray nozzle is formed integrally and the spray nozzle It is rotated by the driving force by the classification is characterized in that to wash the filter sand while circulating, mixing or stirring the filter sand,

 In addition, the present invention is characterized in that the rotary blade has a rectangular pitch paddle shape in which the pitch angle of the blade section is inclined with respect to the rotating surface.

 In addition, the present invention is characterized in that the rotary blade has an elliptical propeller shape having a pitch angle in which the blade section is inclined with respect to the rotation surface.

 In addition, the present invention is characterized in that the anchor feather paddle shape is further added to the vertical blade is formed at the end of the rotary blade pitch angle of the blade section is inclined with respect to the rotation surface.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Looking at Figure 2 is a cross-sectional view of the present invention from the front,

The surface washer 10 of the water purification plant has a rotary hole 20 connected to the last pipe 3-3 of the prior art in which a plurality of vertical pipes 3-3 connected to the distribution pipes are vertically connected. ) Is rotatably configured.

The rotary sphere 20 is connected to the final pipe (3-3) while being configured to be connected to the rotary movement to the axis of the final pipe (3-3) by a bearing or the like.

The rotary hole 20 may be directly connected to the injection nozzle (3-1) connected to the final pipe (3-3) of the prior art, or the final pipe (3-) in the state of removing the injection nozzle (3-1) in the prior art You can also configure direct connection to 3).

The rotating sphere 20 may be configured in one piece or divided into upper and lower parts by assembling the upper and lower parts, the upper and lower rotating sphere 20 is connected to the injection nozzle (3-1) and the upper and lower parts are bearings It can also be set as the structure by which the lower part rotates.

The bearing may be a thrust bearing or the like in consideration of the rotational force and the thrust according to the rotation of the rotary ball 20 and the like.

A plurality of rotary pipes 21 are in communication with the rotary hole 20 and formed horizontally and are formed at regular equal intervals.

Since the rotary pipe 21 is integrally formed at the end of the rotary sphere 20, when the rotary sphere 20 rotates, the rotary tube 21 rotates integrally.

Rotating blades 22 are configured in each of the rotary pipe 21, the rotary blade 22 may be configured integrally or assembled to the rotary pipe (21).

The rotary pipe 21 may be configured at the center of the horizontal direction of the rotary blade 22 or eccentrically above the center of the horizontal direction of the rotary blade 22.

The rotary blade 22 is configured to be eccentric because the lower portion of the rotary blade 22 is in contact with the anthracite, and thus receives a lot of force during the rotation, that is, the resistance of the rotary blade 22 around the rotary pipe 21. This is to make it uniform.

The rotary pipe 21 and the rotary hole 20 may be assembled by screws, but the screw thread may be tightened according to the upper and lower resistances of the rotary blades 22 when the rotary hole 20 rotates. You can also decide the direction.

In other words, when the rotary blade 22 rotates, the lower portion of the rotary blade 22 is in contact with anthracite and the upper portion is in contact with the raw water, so that the lower portion of the rotary blade 22 receives more resistance than the upper portion. The rotary blade 22 is to be rotated to tighten the screw thread in the rotating direction of the rotary blade 22.

Injection nozzles 23 are formed in the same direction while forming a constant angle with the circumferential direction of the end of the rotary pipe 21 at each end of the rotary pipe 21.

The spray nozzle 23 is a spray nozzle for spraying the surface washing water, and is assembled by rotating the blade 22 and a screw thread.

The injection nozzle 23 may not only be formed at a predetermined angle with the circumferential direction of the end of the rotary pipe 21, but may also be configured at an inclination angle to inject the washing water inclined toward the filtrate yarn, the constant angle and the inclination angle are mixed It may be configured at an angle.

The reason for allowing the assembly of the rotary pipe 21, the rotary blade 22 and the injection nozzle 23 is that the life of the surface cleaner 10 is not replaced when the whole life of one component is over. This is to enable economical maintenance by allowing only parts to be replaced.

In the present invention, the rotary sphere 20, the rotary pipe 21, the rotary blade 22 and the injection nozzle 23 is composed of an integrated or assembled type, the rotary sphere 20, the rotary pipe 21, the rotary blade 22 ) And injection nozzles 23 are always integrally operated.

When the surface washing water is pumped by the washing pump in the water purification plant and pumped to the final pipe 3-3 vertically through the horizontally distributed distribution pipe 3-2, the surface washed water is transferred to the surface cleaner 10 of the present invention. Passed through the rotary sphere 20 is distributed to the plurality of rotary pipes 21 in the rotary sphere 20 is passed through the injection nozzle 23 is injected from the end of the injection nozzle 23.

Looking at Figure 3 which is a rotation state diagram of the present invention at the time of spraying the surface wash water,

When the surface washing water pumped from the injection nozzle 23 is injected from the injection nozzle 23, since the injection nozzle 23 is formed horizontally at a predetermined angle with the circumferential direction of the end of the rotary pipe 21, the injection nozzle 23 The injection nozzle 23 is moved in the direction opposite to the spraying direction of the surface washing water by the reaction force of the hydraulic pressure injected from.
That is, when the washing water is accelerated to eject the jet from the injection nozzle 23 is called classification, when the body water is classified, reaction force corresponding to the force of the classification is generated, and this reaction force is the driving force and the injection nozzle 23 is moved.

Since the injection nozzle 23 is composed of the rotary pipe 21 and the rotary pipe 21 connected to the rotary blade 22 and the rotary hole 20, the rotary nozzle 21 rotates by rotating the injection nozzle 23. (22) and the rotating hole 20 is rotated about the final pipe (3-3), so that the surface cleaner of the present invention rotates.

That is, since the rotary pipe 21 and the injection nozzle 23 are formed radially at equal intervals with the rotary sphere 20 as the center point, when the surface washing water is injected in the dotted arrow direction from the injection nozzle 23, the injection pressure Due to the force generated by the surface cleaner 10 is rotated in the direction of the solid arrow.
When the injection nozzles 23 are one, the injection nozzles 23 are moved by the propulsion force by the reaction force, but when the injection nozzles 23 are formed radially at the same interval, each of the injection nozzles 23 The thrust force by the classification of E is the pairing force, the right force acts as the vector, and the force as the vector is rotated about the rotation axis, that is, the final pipe (3-3).
When the manual force by the classification of the injection nozzle 23 is greater than the sum of the rotational force of the rotary blade 22 and the resistance of the washing discharge water, the injection nozzle 23 rotates, and the filtration yarn is anthracite with fine particles and light weight. Since the position can be changed even by a light change of water, the surface washing water sprayed from the spray nozzle 23 hits the filter sand and washes the filter sand.

In FIG. 3, the rotary pipe 21, the rotary blades 22, and the injection nozzles 23 are shown as three, but the number is not limited thereto, and may be changed to two, four, five, six, and the like.

At this time, the rotary blade 22 is in contact with the filtration yarn, that is, anthracite, while stirring the filtration yarn to circulate it, and the circulated filtration yarns are mixed with each other, the surface washing water sprayed from the injection nozzle (923) is stirred, purified or mixed filtration The filter sand is washed in contact with the yarn, ie, anthracite.

In other words, by rotating the washing water supplied from the washing pump in the injection nozzle, the rotary pipe 21 and the rotary blade 22 obtain the rotational force by the hydraulic energy generated by the driving force generated by the classification of the injection nozzle and the rotary blade 22. The filter sand is properly stirred and circulated by the rotation of and the foreign matter stuck to the filter sand is separated by the surface washing water sprayed from the spray nozzle 23.

 Therefore, the present invention is excellent in its effect because it separates the foreign matter adhered to the filter sand by the surface washing water while stirring, purifying or blending the filter sand by the rotary blade (22).

In addition, it is rotated by the driving force by the classification of the injection nozzle is circulated, mixed or stirred by the filtration yarn, the washing and stirring effect is excellent.

In addition, the mud ball has excellent surface cleaning effect by destroying the aggregated foreign matter so that foreign matters stuck to the filter yarn can be separated or easily separated even by friction between the filter yarns even when the filter yarn is stirred, purified or mixed. This is not formed.

Since the mud ball is not formed, it is possible to maintain the suspended retention capacity of the filtration layer as it is, as well as to use the filter yarn up to its life, and to maintain the initial filtration efficiency.

Looking at Figure 4 is a perspective view of the pitch blade-shaped rotary wing 30 of the present invention,

Rotating blade 22 is a pitch paddle-shaped rotary blade 30 is a pitch pitch of the rectangular shape and the pitch angle of the blade section is inclined with respect to the rotating surface is formed.

The end of the pitch blade-shaped rotating blade 30 may be a straight line, a C curve or an S curve.

The end of the pitch paddle-shaped rotary blade 30 is curved to push the filter yarn back by the rotation of the pitch paddle-shaped rotary blade 30 as the raw water occurs while the pitch paddle-shaped rotary blade 30 rotates. This is to make it easy to stir, purify or mix the filtrate.

  Looking at Figure 5 is a perspective view of a propeller-shaped rotary blade 40 of another embodiment of the present invention,

Rotating blade 22 is a propeller-shaped rotary blade 40 that is an elliptical propeller shape and the pitch angle of the blade section is inclined with respect to the rotation surface.

Looking at Figure 6 is a perspective view of an anchor paddle-shaped rotary blade 50 of another embodiment of the present invention,

At the end of the pitch paddle shape, a vertical blade of the pitch paddle having a pitch angle in which a blade section is inclined with respect to the plane of rotation of the pitch paddle is further added.

In other words, a rectangular pitch paddle-shaped vertical wing perpendicular to the end of the horizontal rectangular pitch paddle-shaped rotary blade 30 is formed.

 The vertical wing of the pitch feather-shaped rotor blade 30 is also a pitch-feather-type rotor blade having a pitch pitcher shape of a rectangular shape and a pitch angle having an inclined blade section with respect to the rotating surface.

The vertical blade may be directed upward or downward in the pitch feather-shaped rotary blade 50 to which the vertical blade of the pitch blade-shaped rotary blade 30 is attached.

The end of the propeller-shaped rotary blade 40 and the end of the anchor-feathered vertical wing 30 may also be a straight line, a C curve or an S curve, because the pitch blade of the blade 30 This is the same as the reason why the terminal is curved.

 In consideration of the characteristics of the stirring, purifying or admixture of the filter sand, the vertical wing can be manufactured to the upper or lower portion appropriately.

Therefore, the surface washer 10 of the water purification plant of the present invention separates the foreign matter stuck to the filter sand by the surface washing water while stirring, purifying or blending the filter sand by the rotary blade 22, and destroys the foreign matter aggregated in the filter sand. By doing so, mud balls are not formed.

As described above, in the present invention, since the washing is performed simultaneously with the circulation of the filter sand, the foreign matters stuck to the filter sand are separated and destroyed within a short time without generating blind spots that cannot be cleaned, thereby completely removing the whole portion of the filter sand of the filter bed. It can be washed easily, so the effect is excellent.

In addition, the present invention is excellent in the washing and stirring effect by being rotated by the driving force by the classification of the injection nozzle for spraying the surface washing water to circulate, mix or stir the filtration yarn.

In addition, the present invention also has the effect that the mud ball (Mud Ball) is not formed to maintain the suspended retention capacity of the filter layer as it is.

In addition, the present invention can increase the water purification capacity by making the filter sand available up to the service life, there is an effect that can reduce the cost of replenishment of the filter sand.

Claims (4)

In the surface washing machine of the water purification plant, Rotating orifice connected to the final pipe of the surface cleaner: A plurality of rotary pipes formed at constant equal intervals while communicating with the rotary hole and formed horizontally; Rotary blades configured in each of the rotary pipes; Each end of the rotary pipe is composed of a spray nozzle formed in the circumferential direction of the end of the rotary pipe and a vertical horizontal inclination angle of a constant angle and direction, when the surface washing water is sprayed from the spray nozzle, the rotary hole, rotary pipe, rotary blades and injection The surface washing machine of the water purification plant, characterized in that the nozzle is formed integrally and is rotated by the driving force by the classification of the injection nozzle when spraying the washing water to wash the filtered yarn while circulating, mixing or stirring the filtered yarn. According to claim 1, The rotary blade is a surface cleaner of a water purification plant, characterized in that the rectangular pitch paddle shape is formed with a pitch angle of the blade cross section with respect to the rotation surface. According to claim 1, The rotary blade is a surface washing machine of the water purification plant, characterized in that the propeller shape of the elliptical formed pitch angle of the blade cross section with respect to the rotation surface. The method of claim 2, The surface of the water purification equipment, characterized in that the anchor feather paddle shape is further added to the end of the rotary blade is a vertical blade with a pitch angle of the blade section is inclined with respect to the rotation surface.

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