KR970007944B1 - Apparatus of filtration - Google Patents

Abstract

The waste water processing filter is intended to provide a filtering net which is used for a long period of time, without any exchange. The waste water processing filter comprises: a cylindrical closed case; a filtering part comprised of a fixed disc plate, a moving disc plate fixed on a driven shaft, and a cylindrical filtering net formed by means of a plurality of filtering threads; and a driving part for driving the driven shaft to twist the filtering net, whereby the waste water within the closed case is filtered by means of the filtering net and is discharged to a discharge pipe.

Description

Wastewater Treatment Filtration Device

1 is a schematic view of a wastewater treatment apparatus showing an embodiment of the present invention.

2 is a cross-sectional view showing the main portion of the present invention.

3 is a side cross-sectional view of the main part of FIG.

4 is a perspective view of the filtering mechanism.

* Explanation of symbols for main parts of the drawings

21, 22, 23, 24: valve 25: porous pipe

30: filtering mechanism 31: thread

32: fixed disk 33: floating disk

40: drive means 42: driven shaft

43: spiral groove 44: driven spur gear

45: prime spur gear 46: prime shaft

47: Worm Gear 48: Worm

49: stopper 50: motor

80: cylindrical sealing case 81: inflow pipe

82: outflow pipe 83: oil pipe

84: return pipe

The present invention relates to a filtration device of a wastewater treatment device.

In general, the wastewater treatment process is carried out several times in various ways, and mainly adopts a filtration method. Such a conventional filtration device is not only difficult to repeatedly use the filtration network, but even if used again, Since they are almost impossible to clean together, they need to be replaced frequently and are expensive.

Therefore, the present invention is to provide a new type of filtration device, the main object of the invention to enable long-term use of the life of the filter network, on the other hand to allow the washing of the filter network itself, and on the other hand Is to freely control the density of the network.

A specific configuration for doing this is an oil pump having a hydraulic valve having a first valve, an outlet pipe having a second valve, a backing pipe having a fourth valve, and a third valve connected to the inlet pipe and the outlet pipe. A cylindrical sealed case to which the pipe is connected; A fixed disk provided inside the cylindrical sealed case and attached to one side wall, the floating disk opposing and spaced apart from the fixed disk and fixed on a driven shaft movable in an axial direction, and the spaced fixed disk A filtration mechanism connected to the fluid disk, the filter mechanism including a filtration net and a plurality of threads forming a cylindrical shape; Driving means for rotating the driven shaft only by a predetermined rotational angle to twist the filter net and driving the driven shaft to be transferred toward the flow disc along the axial direction by a predetermined distance; The waste water in the cylindrical sealed case introduced into the inlet pipe is filtered by the filtration mechanism to be discharged into the outflow pipe.

Referring to the first configuration showing the use example of the present invention and a detailed view according to Figures 2 to 4 are as follows.

Figure 1 is an embodiment showing the wastewater treatment process, there is a primary sump (11) on one side to collect the wastewater generated in other places, the wastewater pumped by the first pump 12 from the sump It is sent to the centrifugal separator 13 of the present invention, the agitator 14 for coagulant administration is provided between the primary sump container 11 and the first pump 12 to mix the chemical for sludge flocculation in the waste water in advance. .

The wastewater mixed with the coagulant is divided into sludge and water by centrifugation of the centrifugal separator (13), and the sludge is collected in the sludge tank 15 below, and the water is collected in the secondary sump (16) for the next process. Is sent.

The water pumped by the second pump 17 is sent to the filtration device 8, which is the main part of the present invention, to filter out fine foreign matter again. The detailed configuration can be seen through FIG.

2, there is a cylindrical sealing case 80, as shown in the drawing, in which an inlet pipe 81 having a first valve 21 is connected from below and a second valve 22 to the right. Is connected to the outflow pipe 82, and the return pipe 84 having the fourth valve 24 is connected to the upper side thereof.

In addition, the inner side of the second valve 22 of the outlet pipe 82 is connected to the inside of the second pipe 22 from the bottom of the eleventh valve 21 of the inlet pipe 81 with the circulating pipe 83, but the third valve 23 Is attached.

On the other hand, the cylindrical sealing case 80 is built in the filtration mechanism 30, the basic form of this filtration mechanism, as shown in Figure 4 there are a myriad of threads between the disk 32, 33 on both sides (31) connected to each other, and these threads are arranged in a cylinder along the periphery of the disc to form a hollow cylindrical filtering net.

In addition, in order to form a plurality of such a filtering network, as shown in FIG. 2, the both side disks 32 and 33 are formed in multiple stages, and at each end thereof, if the threads are connected to each other so as to have a cylindrical shape, the filtration is performed. The effect can be further doubled.

In addition, a method of embedding the filtration mechanism 30 having the filter net having such a shape is to attach the disc on one side to the side wall to which the outlet pipe 82 is connected to make the fixed disc 32, and the disc on the other side is a cylindrical sealed case. The flow disc 33 is made to rotate and move along the axis by affixing the center on the driven shaft 42 fitted along the center of 80.

At this time, it is preferable to attach the porous pipe 25 in the axial direction to the inside of the outlet pipe 22 so that the tip of the driven shaft 42 fitted at the opposite side thereof is supported on the inner surface of the porous pipe 25. The porous pipe 25 is in the form of being opened with the outflow pipe 82 through the center of the stationary disk 32.

The driving means 40 is provided on the side of the cylindrical sealing case 80. As shown in FIG. 2, the driven spur gear 44 in which the driven shaft 42 is formed in the driven shaft 42 is formed. ), And the driven spur gear is engaged with the primary spur gear 45 on the primary shaft 46 on which the worm gear 47 is accumulated.

Cylindrical spur gear 45 is rotated by the driving force of the stepping motor 50, the worm 48 meshed with the worm gear 47, the guide groove 43 of the driven spur gear 44 is moved If the fastener 60 is not engaged and the driven spur gear 44 rotates, the spur gears can move forward and backward in the longitudinal direction of the driven shaft 42 gear shaft at the same time as the rotation. Because it is wide, it is possible to move within its width.

In order to move the driven shaft 42 in the longitudinal direction, the filter network is prevented from being excessively twisted by detecting the contact between the stopper 49 and the fixture 60 to stop driving of the driving means 40. Movement detection sensor (not shown) and a bearing (not shown) suitable for movement is required.

Next will be described the operating state of the present invention configured as described above, first the normal filtration operation, and then the washing operation of the filter network will be described.

The normal filtration operation begins by pumping the water of the second sump 16 shown in FIG. 1 into the cylindrical sealing case 80 with the second pump 17. The first valve 21 of the inlet pipe 81 ), And the third valve 23 of the circulating pipe 83 is closed to directly flow into the cylindrical sealing case 80.

After the filtration, the water flowing into the cylindrical sealing case 80 is discharged to the outflow pipe 82 on the side, of course, the second valve 22 must be opened, and the upper side is the fourth valve 24 of the return pipe 84. ) Must be closed.

In other words, after the wastewater enters the inlet pipe 81 and is filtered, the wastewater has to be discharged through the porous pipe 25 to the outflow pipe 82, and the water introduced into the cylindrical airtight case 80 is filtered. The filter mechanism 30 has a myriad of seals 31 having a cylindrical shape, and since it is formed in multiple stages as shown in FIG. 3, the waste water passes through these gaps, and the foreign matter forms a filtering network. It is caught in the gaps of the threads and filtered.

When the flow disc 33 of the filtration mechanism 30 as described above is rotated by the driving means 40 to cause torsion, the density of the filtration chambers 31 is adjusted, and the degree of filtration is selected according to the nature of the wastewater. Can be.

That is, when the drive shaft 46 is properly decelerated by the worm 48 and the worm gear 47 connected to the shaft of the stepping motor 50, the coaxial motive spur gear 45 returns, which is a spiral groove ( The driven spur gear 44 with 43 is returned.

Therefore, the driven spur gear 44 is moved in proportion to the rotation due to the fixture 60 caught in the spiral groove 43, which compensates for the length reduced by the twisting and rotating at the same time by rotating the flow disc 33. In this way, the flow disc can be moved, and as the flow disc 33 rotates in this way, the gaps of the threads are gradually in close contact with each other. The degree of filtration can be adjusted according to the degree of rotation.

In this way, the wastewater introduced into the cylindrical sealing case 80 through the inlet pipe 81 is filtered while passing through the filtering mechanism 30 and purified by the outflow pipe 82 again through the porous pipe 25. In this way, if the filter for a long time, the filtration mechanism 30 is gradually attached to the foreign matter, the gap is filled, the filtration performance is reduced, so the cleaning operation should be performed.

This washing operation is to pump wastewater from the secondary sump 16 to the inlet pipe 81 as the second pump 17, but close the second valve 22 of the first valve 21 and the outlet pipe 82. When the third valve 23 of the oil pipe 83 and the fourth valve 24 of the return pipe 84 are opened to flow into the cylindrical sealing case 80 through the oil pipe 83 connected to the side, the filtering mechanism Wastewater is ejected into the holes of the porous pipe 25 provided in (30), so this time water flows from the inside of the filtering network to the outside as opposed to the previous one, so that foreign substances adhering to the seal and the gap are separated by this water pressure. With the precious pipe 84 at the top is to be sent back to the secondary sump (11).

In this case as well, if the moving disk 33 is moved by the driving means 40, the density of the filtration net is changed, and thus the washing effect is improved by changing the passage speed of the wastewater quickly or slowly.

As described in detail above, the present invention filters wastewater, but it is not a general filtration means but can be used for a long time without replacement by using a new filtration device in which a myriad of chambers are cylindrically connected on two discs. It is a good thing that can be cleaned by itself because the foreign matter to fall back to the flow flow, in particular can be used according to the nature of the waste water because the density of the filtration chamber can be adjusted freely.

Claims (3)

Cylindrical hermetically connected to the inlet pipe having a first valve, the outlet pipe having a second valve, the backing pipe having a fourth valve, and the circulating pipe having a third valve connected to the inlet pipe and the outlet pipe. A case; A fixed disk provided inside the cylindrical sealed case and attached to one side wall, the floating disk opposing and spaced apart from the fixed disk and fixed on a driven shaft movable in an axial direction, and the spaced fixed disk A filtration mechanism connected to the fluid disk, the filter mechanism including a filtering network having a plurality of threads forming a cylindrical shape; Driving means for driving the driven shaft to rotate the driven shaft only by a predetermined rotational angle to twist the filter net and to transfer the driven shaft toward the flow disc along the axial direction by a predetermined distance; The wastewater treatment filtration device, characterized in that the wastewater in the cylindrical sealed case introduced into the inlet pipe is filtered by a filtration net formed of the seal member of the filtration mechanism to be discharged to the outflow pipe. According to claim 1, To form a helical groove on the outer circumferential surface of the driven spur gear to limit the axial feed of the driven shaft and to receive the free end of the fastener having a fixed end in the spiral groove and the fastener in the spiral groove Filtration device for wastewater treatment, characterized in that the movement detection sensor is installed to stop the drive means by detecting the contact of the. According to claim 2, wherein the washing in the filter network is driven by releasing the twisted state of the filter network by reverse driving the drive means to supply water to pass through from the inside of the filter network to the outside and to be discharged through the return pipe. Filtration device for wastewater treatment.