KR200166674Y1 - Solid-liquid separating rotary drum filter with capacity enhancer - Google Patents

Abstract

The present invention relates to an apparatus for increasing the processing capacity of the rotary drum filter for separating solids for filtering solids contained in waste water and industrial process water. In general, the Filtha drum is laid horizontally, rotated around a horizontal axis of rotation, and the inflow water flowing into one end of the inflow water flows down to the outside of the drum through the filament opening of the surface of the drum. Is a rotary drum wheel type for the separation of wastewater and industrial process water solids, which are entangled inside the drum and gradually flowed out to the opposite end of the inlet, the wedge wire having an inverted triangular cross section, whether the mesh type is a mesh or a perforated plate. Regardless, the inflow water that flows down the side of the drum and is not passed out to the outside and collects inside the drum immediately flows out through the straight bottom of the drum towards the outlet on the opposite side of the inlet. Ryu flows through the filterta surface It is a phenomenon that occurs because the actual throughput is very small because the weight of the water and gravity of the shallow depth is very small, and the wastewater or process water is concentrated and the smaller the opening of the filter, the lower the fluid viscosity and the surface tension. There is a problem that is sharply reduced.

The present invention was devised to solve this problem, and the spiral drum blades corresponding to about half the height of the drum radius are rotated around the middle of the drum of the drum filter, and when the openings are alternately mounted, the inlet drum part The inlet is operated with the inflow of water up to the height of the water barrier, and the wheeling is performed at a pressure of 10 times or more than that of the existing filter. Increase is possible. In addition, by adjusting the rotational speed of the drum by using a variable speed motor, it is also possible to obtain an effect that can be controlled to a certain degree of the solid sludge discharged. The drum filter produced in this way is used for filtration and concentration of various industrial process waters and wastewaters, such as filtering the white water in the papermaking process, concentrating and recovering the raw materials, recycling the water, or concentrating the sludges of the initial and final sedimentation basins in the sewage treatment plant. Can be.

Description

Rotary drum filter for separating solid-liquid with filtration capacity increasing device

The present invention relates to an apparatus for increasing the processing capacity of the rotary drum filter for separating solids for filtering solids contained in waste water and industrial process water. In the pretreatment section of the conventional wastewater treatment plant, the filtera drum is used in various industrial filtration processes, such as to remove the solids in the wastewater in advance or refilter the final effluent after the wastewater treatment and to concentrate the white water during the papermaking process. A solid-liquid separation drum filter that is installed horizontally and is rotated about a horizontal axis of rotation and flows in and out through the filter drum surface has been widely used.

In general, however, the filter drum is laid horizontally, rotated about a horizontal axis of rotation, and water inflowed into one end and flowed into the lower part of the drum through the opening of the surface filter of the drum cannot pass through the opening. In the case of a rotary drum wheel type for separating solid waste and industrial process water solids, which are solidified by being caught inside the drum and gradually flowed out to the opposite end of the inlet, the wedge of the inverted triangular cross section, whether the mesh type is wire mesh or perforated plate Regardless of the wire, the inflow water that flows down the side wheel surface of the drum and does not pass outside and collects inside the drum immediately flows out through the straight bottom of the drum towards the outlet opposite the inlet, which overflows. The wheel rudder will Filtering is performed by using the weight and gravity of the extremely shallow water flowing, and the actual throughput is very small. This is caused by the high concentration of wastewater or process water and the smaller the opening of the filter, the lower the fluid viscosity and surface tension. Is a problem that is rapidly reduced.

Figure 1 is a side cross-sectional view showing an example of the use state of the rotary drum filter for separating solid-liquid with the filtration capacity increasing device of the present invention.

2 is a front view showing the state of use of the rotary drum filter for separating solid-liquid with the present invention filtration capacity increasing device.

FIG. 3, FIG. 4, FIG. 5 is an example of the manufacture of a water blocking wing.

* Explanation of symbols for main parts of the drawings

1: horizontal axis of rotation 2: driving motor

3: drive chain 4: sprocket

5: wheel drum 6: height

7a, 7b: clasp wing 8: opening

The present invention was devised to solve this problem, and the spiral drum blades corresponding to about half the height of the drum radius are rotated around the middle of the drum of the drum filter, and when the openings are alternately mounted, the inlet drum part The inlet is operated with the inflow of water up to the height of the water barrier, and the wheeling is performed at a pressure of 10 times or more than that of the existing filter. Increase is possible. In addition, by adjusting the rotational speed of the drum by using a variable speed motor, it is also possible to obtain an effect that can be controlled to a certain degree of the solid sludge discharged. The contents will be described in detail with reference to the drawings.

Referring to FIGS. 1 to 5, the horizontal drum is installed horizontally and is rotated by a driving action of the driving motor 2, the driving chain 3, and the sprocket 4 about the horizontal rotation axis 1. In the inside of (5) the water drums (7a, 7b) having a height (6) about half of the radius of the wheel drum (5) about the middle of the length of the wheel drum (5) the wheel drum (5) ) Spiral mounting along the inner circumferential surface. In the case of long mounting with one blade wing 7a, 7b, the inflow water 9 suddenly flows into the opening 8 only when some sections are overlapped even after turning the entire 360 ° of the inner circumferential surface of the wheel drum 6. In this case, at least 480 ° should be installed in this case. However, since one length is too long, it is very inconvenient for welding or bolting. It is preferable to mount the opening 8 alternately circumferentially. However, when the two blades 7a, 7b are mounted in a pair, as shown in FIG. 3, one length may be installed at a length corresponding to 5/6, or 300 °, of the entire circumference of the inner drum. 3 for the 4/6 circumference of the circumference as shown in FIG. Since the inflow water 9 can be prevented from flowing out only when the dogs are alternately attached, the opening 8 is arranged so that the opening 8 is arranged in a circumferentially opposite direction with two sets of 300 °. When (8) is located in the lower part of the wheel drum (5), the other is the most recommended because it serves to block the progress of the influent (9) to flow out. In addition, the spiral rotation direction at the time of attachment of the water blocking blades 7a and 7b is such that the end of the solid discharge port 10 side of the water blocking blades 7a and 7b is solid when the wheeled drum 5 is rotated up. It should be directed toward the outlet 10 of 5).

The present invention configured as described above is operated in such a way that the inflow of the water inside the blade wing does not flow directly to the outlet of the wheela drum, but is almost filled up to a level of about 1/2 the height of the wheela drum's radius. High pressure filtration occurs on the lower rudder side of the rudder drum by the pressure of more than 10 times of the pressure by shallow water of -10mm thickness. Since the filtration process is possible, the machine becomes compact and economical. In addition, when the drive motor is adopted as a variable speed type to control the rotational speed of the wheel drum, the concentration of the discharged solid sludge can be controlled to some extent. You can get it. In the drawings, reference numeral 11 denotes filtered water filtered through the wheel surface, 12 is concentrated solids, 13 is an inflow flange, 14 is a frame, 15 is a filtrate bucket, 16 is a filtered water discharge flange, 17 is a drum support roller, 18 is Both covers and 19 are shower pipes with drum cleaning nozzles.

Claims (2)

The filter drum (5) is laid horizontally and is rotated by driving means such as the driving motor (2), the drive chain (3) and the sprocket (4) around the horizontal rotation axis (1) and flows into one end of the inside Water flowing into the inflow (9) flows down to the outside of the drum (5) through the circumferential surface opening of the filter drum (5) and the solids 12 that do not pass through the opening is caught inside the filter drum (5) In a well-known, common liquid-liquid rotary drum filter device configured to flow into the distal end outlet 10 opposite to the inlet part gradually, the inner circumferential surface of the filter drum 5 has a predetermined height 6. The cladding blades 7a and 7b rotate in a spiral and the openings 8 are alternately attached to each other so that the cladding blades 7a and 7b are directly introduced into the outlet 10 toward the outlet 10. Prevent the flow out of the filter The water level at the inlet side of the drum 5 is always operated in a state of raising the height of the water blades 7a and 7b to about the height 6 and the openings of the water blades 7a and 7b according to the rotation of the wheel drums 5. A rotary drum filter with a filtration capacity increasing device, characterized in that the influent (9) and the solid (12) sludges flow out gradually toward the outlet only when 8) returns to the lower end of the circumference. The rotation for solid-liquid separation with a filtration capacity increasing device according to claim 1, characterized in that the water curtain vanes (7a, 7b) are composed of one and a portion thereof is helically attached so as to overlap over a 360 ° circumferential surface. Drum filter.