KR100663230B1 - Microdrum filtration appratus of foul, waste and discharge water using a cylinder drum and pricipalaxisless cylinder rotation - Google Patents

Abstract

A micro-drum filtration apparatus of foul, waste and discharge water by using a cylinder drum having the curvature and a principal-axis-less cylinder rotation are provided to enhance the water quality of the piped water. A frame(10) has an inlet(11). The center of the inlet is opened. A rotary type cylindrical drum(20) is installed at the inside of the frame and rotated. Plural curvature type extension members(21) are protruded to the circumference of the cylindrical drum so that the filtering area is increased. A micro filtering net encapsulates the entire of the rotary cylindrical drum. A cyclo-nozzle(13) is rotatably installed at the upper portion of the rotary type cylindrical drum. A washing pump(12) is installed at the rear lower portion of the frame and provides the rotation force and the injection pressure to the cyclo-nozzle.

Description

MICRODRUM FILTRATION APPRATUS OF FOUL, WASTE AND DISCHARGE WATER USING A CYLINDER DRUM AND PRICIPALAXISLESS CYLINDER ROTATION}

1 is a perspective view showing an embodiment of the present invention.

2 is a front view showing the configuration of the present invention.

Figure 3 is a side view showing the installation state of the rotating cylindrical drum.

4 is a schematic view showing the configuration of a rotating cylindrical drum.

5 is an enlarged view showing an enlarged main portion of a microfiltration network;

Figure 6 is a front view showing the configuration of a rotary micronozzle.

Explanation of symbols on the main parts of the drawings

10-Frame 11-Inlet

20-Cylindrical Drum 21-Extensions

22-Microfiltration Network 30-Drive Motor

31-Timing Belt

The present invention relates to a sewage and wastewater filtration apparatus, and more particularly, by using a cylindrical drum having a curved surface and a spindleless cylindrical rotation, the invention can effectively improve the filtration area most important in the filtration efficiency of the filter. It is.

In general, the filtration device may be divided into a pressure filtration device using a pump and a gravity filtration device using natural gravity in a method of introducing water into the filter.

The water quality of the treated water is generally compared to the pressure type gravity filter device can guarantee a better water quality and has the advantage that the power ratio is very low because no pump is used compared to the pressure type.

This is because the gravity filtration device has a slower filtration rate and a larger filtration area than the pressure type.

Therefore, when using a pressure filtration device using a pump in a large sewage treatment plant requires a very high operating cost, the situation is mainly using a gravity filtration device.

On the other hand, the filtering device using a gravity filter cloth installed in the sewage treatment plant has a rotating spindle and a large amount of filtering net is attached around the rotating spindle, and the sewage and wastewater is washed or filtered by the rotation of the rotary spindle. Doing.

However, the filtration device of the above configuration has a problem that the installation area of the filtration net is limited by the length of the main shaft, the load is concentrated on the main shaft and requires a high torque for rotation, the operation cost is high, the main shaft during the rotation There was a problem that the wear and breakage of the reduction gear and the rotating part can easily occur due to the change of the load on the gear.

In addition, due to these problems, there was a problem that vibration of the rotating part and deviation of the main shaft may occur while the filtration device is in operation.

In particular, the filtering network installed on the main shaft has a flat plate structure and is fastened by bolts, which makes it difficult to expand the filtering area and to replace the filtering network.

Such a conventional filtration device is connected to the gear of the reducer and the gear of the rotating spindle to the chain to transfer the power of the drive unit to the main shaft, and using lubricant such as grease to prevent noise and smooth rotation during rotation, When lubricating oil is injected, the lubricating oil may be introduced into the filter, causing the filter network to be closed, thereby preventing sufficient filtration ability.

Various problems as described above may cause a very serious condition in the function of the filtration device, thereby leading to a closed end that may become poor or impossible filtration of sewage and wastewater.

Accordingly, an object of the present invention is to solve the above problems and to effectively improve the filtration area most important in the filtration efficiency of the filter by using a cylindrical drum and a spindleless cylindrical rotation.

It is an object of the present invention to provide a sewage and wastewater effluent microdrum filtration device using a cylindrical drum having a curved surface and a non-spindle cylindrical rotation having a curved surface to increase the filtration efficiency of the filter by expanding the filtration area.

Another object of the present invention is to provide a sewage and wastewater effluent microdrum filtration device using a cylindrical drum having a curved surface and a non-spindle cylindrical rotation to provide convenience according to the replacement of the filtering network.

Still another object of the present invention is to use a cylindrical belt and a cylinder-less cylindrical rotation that have a curved surface to prevent environmental pollution by using a timing belt type power transmission device without using lubricants that cause environmental pollution. The present invention provides a sewage and wastewater effluent microdrum filtration device.

The present invention for achieving the above object, the frame having an inlet opening in the center;

A rotatable cylindrical drum installed and rotated inside the frame;

A microfiltration network surrounding the entire rotating cylindrical drum;

A drive motor installed at a side of the frame and driven by an external power source;

In the configuration of the power transmission device for rotating the rotating cylindrical drum when the drive motor is driven,

The rotatable cylindrical drum is formed with a plurality of convex extension parts convex so as to enlarge the filtration area, the power transmission device is supported by a bearing installed in the rotatable cylindrical drum frame, one side of the rotatable cylindrical drum In this case, the timing belt is connected to the driving motor with the entire outer body wrapped to achieve the rotation of the rotatable cylindrical drum.

Therefore, the flow rate of the sewage and wastewater effluent and the filtration treatment efficiency are improved at a small installation area, and as the driving method is changed to the no-axis and the timing belt, there is no failure of the filtration device and the reliability can be improved. By not using lubricating oil through the change of, the microfiltration network is not closed, and the life and contamination of the microfiltration network can be prevented in advance.

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

1 is a perspective view of an embodiment of the present invention, Figure 2 is a front view showing the configuration of the present invention, Figure 3 is a side view showing the installation state of the rotating cylindrical drum, Figure 4 is a rotating cylindrical drum 5 is a schematic view of the constitution, and FIG. 5 is an enlarged view of the main portion of the microfiltration network, and FIG. 6 is a front view of the constitution of a rotatable cyclonozzle.

That is, as shown in Figures 1 to 3, the rotary cylindrical drum 20 is installed and rotated inside the frame 10 having the inlet 11 open in the front center, the rotary cylindrical drum ( The upper part of the frame 10 is configured to be openable and closed for easy installation.

The rotary cylindrical drum 20 is installed in the longitudinal direction inside the frame 10, and the polymer synthetic resin bearings 10a are respectively installed on the left and right sides of the frame 10 and then rotated. By supporting the cylindrical drum 20 to attenuate the flow or impact caused by the inflow of sewage and wastewater discharge water, it is to induce smooth rotation of the rotary cylindrical drum (20).

Outside of the rotary cylindrical drum 20, as shown in FIG. 4, a plurality of curved extension portions 21 are formed convexly so as to enlarge the filtration area of the sewage and wastewater discharged water.

That is, the curved expansion portion 21 is formed in the rotary cylindrical drum 20 to greatly increase the filtration area which is very important in the filtration performance of the present invention filtration device 1, the rotary cylindrical drum 20 By forming a plurality of convex curved extensions 21 on the outside, the filter area is more than doubled compared to the rotary cylindrical drum 20 without the curved extensions 21, and the sewage and wastewater at a small installation area is increased. It will be possible to improve the flow rate and filtration efficiency of the effluent.

The microfiltration network 22 is fixed to the rotatable cylindrical drum 20 through a known bolt or the like while covering the entire rotatable cylindrical drum 20 including the curved extension 21. The sewage and wastewater effluent flowing through) is filtered and discharged.

The microfiltration network 22 may be configured to selectively use at least one of 10 μ, 20 μ, 50 μ, and 100 μ, as shown in FIG. 5, according to the concentration of influent water flowing through the inlet 11. do.

The filtration of sewage and wastewater effluents is performed by selecting and using a microfiltration network 22 having an appropriate filtration diameter 23 among the 10, 20, 50, and 100 micrometers, depending on the inflow quality of the sewage and wastewater effluent. This is because the efficiency can be increased.

In the process of filtration of sewage and wastewater effluent through the microfiltration network 22, foreign matter adhering to the microfiltration network 22 is detached through the micronozzle 13 which sprays the filtered water at a high pressure by the washing pump 12. Done.

That is, the micronozzle 13 is rotatably installed on the upper portion of the rotating cylindrical drum 20 by using the frame 10, and the rotational force is applied to the micronozzle 13 on the lower back side of the frame 10. A washing pump 12 is provided to provide the injection pressure so that the micronozzle 13 rotates 360 ° in the downward direction by the water pressure generated by the operation of the washing pump 12. By spraying on the debris will be desorbed.

The micronozzle 13 and the washing pump 12 are connected through a transfer hose 14 so that the filtered water of the washing pump 12 is transferred into the micronozzle 13, and the micronozzle 13 As shown in FIG. 6, a plurality of injection holes 15 for injecting filtrate water are rotatably coupled to the lower part of the to remove the foreign matter adhering to the microfiltration network 22 through the injection hole 15. .

On the other hand, the drive motor 30 is installed on the side of the frame 10 is driven by an external power source, the one side of the rotary cylindrical drum 20, the timing belt 31 is wrapped around the entire outside the drive motor It is connected to 30 to rotate the rotatable cylindrical drum (20).

The connection between the rotary cylindrical drum 20 and the timing belt 31 surrounds the one side of the rotary cylindrical drum 20 with the timing belt 31 with the belt surface convexly protruding. One side of the drum 20 is machined to be recessed for connection with the timing belt 31 so that the timing belt 31 is easily removed from the rotating cylindrical drum 20 during rotation or flow of the rotating cylindrical drum 20. So that it doesn't break out.

Here, the drive motor 30 and the timing belt 31 may be directly connected to rotate, but more preferably, the constant tension of the timing belt 31 and the smooth rotation of the rotating cylindrical drum 20 are achieved. It is preferable to couple the auxiliary roller 32 between the drive motor 30 and the timing belt 31 in order to maintain.

Therefore, the tension of the timing belt 31 is always maintained by using the auxiliary roller 32, and the constant rotational speed is transmitted to the rotating cylindrical drum 20 to rotate.

The process of filtration of sewage and wastewater effluent through the present invention configured as described above is described in detail.

First, the sewage and wastewater effluent introduced through the inlet 11 is supplied into the rotary cylindrical drum 20, and the supplied sewage and wastewater effluent is discharged in a filtered state through the microfiltration network 22. .

The foreign matter adheres to the surface of the microfiltration network 22 during the filtration process of the sewage and wastewater effluent through the microfiltration network 22. When the differential pressure for filtration rises above a certain level, the rotary motor is driven by driving the driving motor 30. The drum 20 is rotated.

At this time, it is preferable to install a water gauge 16 in the front center of the frame 10 so as to automatically rotate the rotary cylindrical drum 20 according to the level of water level so as to detect the degree of water pressure.

That is, when the level gauge 16 is installed at the front center of the frame 10, the level gauge 16 detects the degree of water pressure to drive the driving motor 30, and when the driving motor 30 is driven, a timing belt ( 31, the rotary cylindrical drum 20 is rotated, and the microfiltration network 22 to which foreign matter is attached by the rotation of the rotary cylindrical drum 20 is moved upward by the rotation of the rotary cylindrical drum 20. Will move.

Frame 10 when the microfiltration network 22 attached to the foreign matter is close to the washing rotating micronozzle 13 installed on the upper portion of the frame 10 by the rotation of the rotating cylindrical drum 20 as described above. As the injection port 15 of the rotary micronozzle 13 rotates by the operation of the washing pump 12 installed on the lower back side of the back side, the filtrate of high pressure is sprayed onto the microfiltration network 22 to which the foreign matter is attached to remove the foreign matter. Will be done.

The washing liquid detached from the microfiltration network 22 by the strong pressure filtered water sprayed by the micronozzle 13 passes through the washing water discharge part 24 inside the rotating cylindrical drum 20 of the filtration device 1. It is discharged to the outside and returned to unfiltered raw water.

On the other hand, by repeating the above series of processes through the filtration device 1 of the present invention, the sewage and wastewater discharged water is continuously filtered to improve the water quality.

According to the configuration of the present invention as described above, the flow rate and filtration treatment efficiency of the sewage and wastewater is improved in a small installation area, and as the driving method is changed to the no-axis and the timing belt, there is no failure of the filtration device to improve reliability. It becomes possible.

By changing the driving method, the lubricant is not used, so that the microfiltration network is not closed and the life and contamination of the microfiltration network can be prevented in advance.

In addition, it is possible to uniformly wash the filtration surface with foreign substances through the installation of the rotary type micro nozzle, thereby providing a state that can always be filtered, thereby improving the water quality and maintaining a clean water supply and drainage to create a pleasant environment. It is a very useful invention such as being able to.

Claims (3)

A frame 10 having an inlet 11 open in the center; A rotating cylindrical drum 20 which is installed inside the frame 10 and rotates and has a plurality of curved extension portions 21 convex so as to enlarge the filtration area; A microfiltration network 22 covering the entirety of the rotating cylindrical drum 20; A micronozzle (13) installed on the rotatable cylindrical drum (20) so as to rotate using the frame (10); A washing pump 12 installed below the rear surface of the frame 10 to provide rotational force and injection pressure to the micronozzle 13; A drive motor 30 installed at a side of the frame 10 and driven by an external power source; It is composed of a timing belt 31 is connected to the drive motor 30 in a state surrounding one side of the rotary cylindrical drum 20 to rotate the rotary cylindrical drum 20 when the drive motor 30 is driven. In A plurality of injection holes 15 for finely spraying filtrate water in different directions are rotatably coupled to the lower part of the micronozzle 13 so that each injection hole 15 is rotated by the hydraulic pressure of the washing pump 12. While spraying the filtrate of the strong pressure to the micro filtration network 22 to remove the foreign matter, the bearing 10a is installed to rotate on the left and right over the upper and lower portions of the frame 10, respectively, the rotary cylindrical drum 20 A sewage / wastewater effluent microdrum filtration device using a cylindrical drum having a curved surface and a non-spindle cylindrical rotation, characterized by supporting a periphery of the circumference thereof so that the circumferential edge thereof does not flow in the process of rotating by the timing belt. delete delete

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