KR20090007026A - Blade for thickening filter - Google Patents

Abstract

A blade of a concentrating apparatus is provided to reduce load when the blade is rotated, to administrate filter because moment back washing is well performed, not to leak lubricating oil from a bearing because continued vacuum condition is not maintained and to improve filtering capacity. A blade of a concentrating apparatus is rotated by a rotation axis(12) of a cylinder filter(11) inside the concentrating apparatus. The blade of the concentrating apparatus comprises a blade body(20) and a bracket(50) for setting up the blade in the rotation axis. A pressurization plate pushing raw water is formed at a front part of rotational direction of the blade body. A vacuum creation side forming predetermined angle with an inner surface of the cylinder filter comprised is formed on outer the blade body.

Description

Blade for thickening filter

The present invention can be used in the water purification pretreatment, sedimentation tank, aeration tank of the water treatment plant, the concentration of the filtration device to remove the impurities in the sauna facility, swimming pool, fish farm or to filter sludge in industrial water, industrial water, recycled water, streams and rivers More particularly, the blade relates to a blade of a concentrated filtration device in which a vacuum portion is created by rotation of a blade disposed inside a cylindrical filter, and backwashing is enabled by the vacuum portion.

Applicant's patent "concentration filtration apparatus (registration number 10-0722255)" is disclosed in the domestic registered patent publication.

In the filtration device, a cylindrical housing is divided into an inner and an outer chamber by a metal filter, an impeller is disposed in an inner chamber, raw water flows into the inner chamber, and filtered water discharged through the metal filter is discharged through the filtered water outlet. The sludge outlet is disposed in the lower cover, and the sludge concentrated by the impeller is discharged through the sludge outlet.

This is caused by the rotation of the impeller to generate the self-suction force forcing the raw water into the inner chamber of the housing through the raw water inlet, and can backwash the metal filter by the impeller itself and push the raw water introduced into the inner chamber into the metal filter to filter the filtered water. The sludge can be concentrated by filtering the sludge of the sludge, and the concentrated sludge can be discharged through the outlet by opening and closing the solenoid valve at regular intervals.

However, the concentrated filtration device has the following problems.

1] The raw water was self-suctioned by the vacuum force, so there was no need for the supply pump, but there were problems in backwashing and filtration.

2] There is a loss of filtration time due to the suction force of the impeller, but the self-absorption must be blocked.

3] The filtration efficiency was lowered due to the inflow of the treated water which passed through the filter due to the continuous vacuum inside the filter.

4] Lubrication of bearings and mechanical seals is lost due to continuous vacuum.

5] Rotary valves should be fitted to the sludge discharge line with continuous vacuum.

6] The 15 ° torsion angle of the impeller was significant for sludge discharge, but there was a detrimental effect on centrifugal force and backwash.

7] The impeller was made to be full, so the rotational load was very high.

Therefore, an object of the present invention is to reduce the load during rotation by binding the blade to the bracket of the flat plate in order to solve the problems of the prior art as described above, to maximize the suction force by making the blade vertically up and down and a plurality of blades The guide sheet is installed to push the sludge out, and the rotation of the blades causes cavitation, and a water wall is formed inside the filter to provide the blade of the concentrated filtration device that enables absolute suction force due to air blocking. have.

In addition, the object of the present invention is to provide a vacuum generating unit on the outside of the blade to prevent the phenomenon of cavitation in this part to achieve instant backwash by continuous suction, and to form a tapered portion on the back of the blade to block the backflow of the vortex to maximize the backwash function In addition, the present invention provides a blade of the concentrated filtration apparatus which solves the sealing of the driving unit due to the internal cavitation phenomenon.

The present invention for achieving the above object,

A blade rotated by a rotating shaft inside a cylindrical filter of a concentrated filtration device, the blade comprising a blade body and a bracket for installing the blade body on a rotating shaft, wherein a pressure surface for pushing raw water is formed at the head of the blade body in a rotational direction. And a vacuum generating surface forming a predetermined angle with the inner surface of the cylindrical filter on the outer side of the blade body, and the upper and lower ends of the vacuum part made of the cylindrical filter and the vacuum generating surface on the upper and lower ends of the blade body. There is a feature of providing a shielding plate to shield.

The present invention is characterized in that the guide sheet for removing the sludge from the inner surface of the cylindrical filter on the rear of the rotation direction of the blade body.

The present invention has another feature that the blade body is separated from the rotating shaft in order to reduce the load during high speed rotation, and the space between the blade body is installed on the rotating shaft by a flat bracket.

As described above, the present invention reduces the load during rotation of the blades, facilitates instant backwashing, facilitates the management of the filter, and does not maintain the continuous vacuum, so that lubricant does not escape from the bearings, the filtration performance is greatly improved, and the microminiature compared to the efficiency. There is an advantage such that it can be produced.

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

1 is a schematic cross-sectional view of a concentrated filter device employing a blade, FIG. 2 is a plan view of a cylindrical filter and a blade disposed therein, FIG. 3 is a partially cutaway perspective view of the blade, and FIG. 4 is a longitudinal cross-sectional view of the blade. 5 is a plan view of various embodiments of a blade bracket.

The blade of the present invention is employed in a concentrated filtration apparatus having a housing 10, a cylindrical filter 11 and a rotating shaft 12 installed therein as shown in FIG.

 The blade of the present invention, the blade body 20, the upper and lower shield plate 30 is attached to the upper and lower ends of the blade body 20, and a plurality of guides attached to the rear of the blade body 20 A seat 40 and a bracket 50 for binding the blade body 20 is included.

As shown in FIGS. 2 to 3, the blade body 20 is formed with a pressing surface 21 for pushing and rotating the raw water at the forefront when viewed in the rotational direction a. A vacuum generating surface 22 facing 11) is formed. The vacuum generating surface 22 is such that the vacuum portion b is made between the cylindrical filter 11 when the blade rotates, and the edge 23 leading to the pressing surface 21 is close to the cylindrical filter 11. From this, it is configured to open at a predetermined angle toward the rear.

In addition, the inner surface 24 of the blade body 20 is composed of an arcuate surface based on the center of rotation to reduce the resistance of the raw water during rotation, the rear surface 25 is formed as an inclined surface to block the backflow of the vortex backwash The function was improved.

In addition, the blade body 20 has a hollow portion 26 and attached to the upper and lower reinforcing plate 26 to reduce the weight and at the same time to further reduce the load by buoyancy action in the raw water. The reinforcing plate 27 may be replaced by the shielding plate 30.

The upper and lower shielding plate 30 is attached to the upper and lower ends of the blade body 20, as shown in Figure 4, while maintaining the same width as the width of the pressing surface 21, the rear surface 25 It is formed to extend further by a predetermined length and serves to increase the degree of vacuum of the vacuum part (b) by shielding the upper and lower parts of the vacuum part (b).

As shown in FIG. 4, the guide sheet 40 has a right side thereof installed at the rear surface 25 of the blade body 20. An inclined surface 42 having a bent portion 41 in the middle and a downwardly bent portion thereof is bent downward. ) Is formed, and serves to push the sludge released from the cylindrical filter 11 toward the outlet.

3 and 5, the bracket 50 is coupled to two, three, four, etc. of the blade body 20 to be installed on the rotary shaft 12, the shaft hole 51 in the center ) Is formed and the tip 52 of the bracket 50 extending in both, three, and four directions about the shaft hole 51 is formed in an arc so as to be attached to the inner surface 24 of the blade body 20. . This bracket 50 is upper. medium. It is preferable to provide three bottoms.

In addition, the bracket 50 has a space (c) between the blade body 20 and the rotating shaft 12 (see Fig. 1) to reduce the load of the drive unit when the blade rotates at high speed, flat plate type It is formed.

In the present invention configured as described above, when the raw water is introduced into the cylindrical filter 11 and the blade is rotated at high speed, the pressing surface 21 of FIG. 2 rotates while pushing the raw water while rotating in the direction of the arrow (a), and the raw water rotates. The blade rotates at a high speed as in the filter 11, and the hollow water is formed at the center by the action of centrifugal force.

In this state, once the raw water is forced out of the filter 11 by the action of centrifugal force, at this time, since the pressing surface 21 pushes the raw water at a strong pressure, it is in a high pressure state immediately before the pressing surface 21 to discharge the raw water. This is done quickly.

In addition, when the pressing surface 21 passes quickly, the instantaneous low-pressure state (here referred to as a vacuum state) is generated between the filter 11, that is, the vacuum portion b, by the vacuum generating surface 22 formed behind the pressing surface 21. The sludge adhering to the filter 11 is drawn out (backwashing), and the sludge thus released is scattered downward by the following guide sheet 40.

When the above instantaneous vacuum is generated, the shield plate 30 attached to the upper and lower ends of the blade body 20 shields the upper and lower parts of the vacuum part b to increase the degree of vacuum therein.

1 is a schematic cross-sectional view of a concentrated filtration device employing a blade according to the present invention.

2 is a plan view of a cylindrical filter of the present invention and a blade disposed therein

3 is a partially exploded perspective view of the blade according to the present invention

4 is a longitudinal cross-sectional view of a blade according to the present invention.

5 is a plan view of various embodiments of a blade bracket according to the present invention.

<Code Description of Main Parts of Drawing>

11; Cylindrical filter

20; Blade body 21; Pressing surface 22; Vacuum generating surface 24; Front

25; Rear 26; Hollow part 27; Gusset

30; Shielding plate

40; Guide sheet 42; incline

50; Bracket 51; Axle 52; point

Claims (4)

In the blade which rotates by the rotating shaft 12 inside the cylindrical filter 11 of the concentration filtration apparatus, It includes a blade body 20 and a bracket 50 for installing the blade body 20 on the rotary shaft 12, A vacuum generating surface forming a pressing surface 21 for pushing raw water at the head of the rotational direction of the blade body 20 and forming an angle with an inner surface of the cylindrical filter 11 on the outside of the blade body 20 ( 22), At the upper and lower ends of the blade body 20, a shielding plate 30 for shielding the upper and lower sides of the vacuum part b made of the cylindrical filter 11 and the vacuum generating surface 22 is installed. Blades of concentrated filter. The method of claim 1, Blade of the concentrated filtration device, characterized in that it comprises a guide sheet for removing the sludge from the inner surface of the cylindrical filter (11) at the rear end of the rotation direction of the blade body (20). The method of claim 1, The blade body 20 is to be isolated from the rotating shaft 12 to reduce the load at high speed with a space (c) therebetween and the blade body 20 is to be installed on the rotating shaft with a flat bracket 50 Blade of the concentration filtration device characterized in that. The method of claim 1, The blade body of the concentrated filtration device is formed by the center of the blade body 20 hollow portion 26.

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