KR100257861B1 - Automatic filter - Google Patents

Abstract

PURPOSE: Provided is an automatic filter which removes various kinds of extraneous matter contained in petrochemical wastewater, chemicals or sewage and can easily eliminate waste precipitated on the filter or scale. CONSTITUTION: A partition wall(2) formed with a perforated hole(3) is installed inside a housing(1), wherein an inflow part(4) and an outflow part(6) are set around the partition wall(2). The inflow part(4) is connected with an inflow pipe(5) and has a first filter net(8) and a discharge valve(15), while the outflow part(6) is connected with an outflow pipe(7) and has a second filter net(11). A hollow rotary rod(12) passing through the perforated hole(3) is installed in the middle of the housing(1), being equipped with suction rods(13), wherein one end of the hollow rotary rod(12) is connected with a driving motor(14) mounted on one side of the housing(1). A differential pressure switch(17) connected to the inflow part(4) and the outflow part(6) through by-pass pipes(18,19) is installed outside the housing(1), being connected with an operation pipe(16) of the discharge valve(15).

Description

Auto filtration device

The present invention is to remove various kinds of foreign substances contained in the fluid, such as petrochemicals, chemicals, water, sewage treatment apparatus, and to easily and easily remove the waste or water that settles or accumulates in the filtration device when the foreign substances are removed. It relates to an automatic filtration device.

Conventionally, an automatic filtration device that removes various kinds of foreign matters contained in fluids such as petrochemicals, chemicals, water and sewage treatment devices, and removes wastes or water accumulated or accumulated in the filtration device when the foreign matters are removed. Has been devised, which is a cylindrical housing in which the hydraulic pipe and the outflow pipe are installed, a cylindrical filtering net installed in the housing, a motor and a rotating shaft installed on the housing, a brush supporting shaft connected to the rotating shaft, and a brush installed therein. The end of the mock was in close contact with the inner surface of the filter net, and was formed by installing a foreign matter storage container at the lower part of the housing and a spiral brush, and the fluid entered the inlet pipe and the foreign material was filtered by the filter net in the housing. It is discharged to the apparatus of the next process.

When the filtration device is used for a certain period of time, foreign matter accumulates on the inner surface of the filtration network, which reduces the filtration effect and blocks the holes of the filtration network, so that the fluid flow is not smooth. Accordingly, when the motor for cleaning the filtration network is operated, As the brush rotates, foreign substances accumulated in the filter net are removed, and the removed foreign substances are stored in a foreign substance storage container installed under the housing, and the foreign substances stored therein were removed out of the housing by manual operation at regular intervals.

However, such a conventional method is to remove the foreign matter accumulated in the filtering network while rotating the brush, if the brush bristles of the brush is relatively soft, the foreign matter accumulated in the filtering net in the solid state is properly removed. If the brush was hard, the foreign matter could be removed, but there was a closed end that would damage the filtering net. If the fluid was viscous and the foreign substance caused chemical reaction, the brush alone could smooth the foreign matter of the filtering net. There was a lung that could not be removed.

In addition, the prior art as described above was to be introduced only by the pressure of the supply line when the fluid is introduced into the housing, and the introduced fluid is filtered through the filter network while performing a simple circulation operation by the inlet pressure. Therefore, if the foreign matter accumulates to some extent in the filtering network, there is a drawback in that a resistance to the flow of the fluid is generated and the filtered fluid cannot be discharged smoothly. Since the foreign matter storage container is installed inside the housing, the removed foreign matter is removed. If not properly removed, there is a problem such that the foreign matter is scattered from its reservoir to block the outside of the filter net to greatly reduce the filtration efficiency.

The present invention has been made in view of the above-mentioned conventional problems, and the filter network and various kinds of foreign substances contained in the fluid such as petrochemicals, chemicals, water and sewage treatment devices are installed between the protection net and the filter network. It is to provide an automatic filtration device to improve the filtration efficiency by the differential pressure formed on the outside and to easily and easily remove foreign matters, such as waste or water, which are deposited or accumulated in the filtering network, by the suction force of the foreign material removal rod installed on the rotating rod. On the basis of the accompanying drawings, it will be described in detail as follows.

1 is a perspective view showing a part of the case of the present invention by cutting off.

2 is a side view of the present invention.

3 is a cross-sectional view showing the fluid flow of the present invention and the internal structure.

4 is a cross-sectional view showing a washing action state of the present invention.

5 is a cross-sectional view showing an extract of the washing means of the present invention.

6 is a conceptual diagram illustrating the concept of the present invention.

* Explanation of symbols for main parts of the drawings

1 housing 2 partition wall

3: through-hole 4: inflow

5: inlet pipe 6: outlet

7: Outflow pipe 8: Primary filtration network

9,10: protection network 11: secondary filtration network

12: rotary rod 13: suction rod

14: drive motor 15: discharge valve

16: operating tube 17: differential pressure switch

18,19: bypass tube 20: cont box

21: strainer

A partition wall 2 having a through hole 3 formed therein is formed in the housing 1, and an inlet part 4 and an outlet part 7 connected to the inlet pipe 5 are connected to both sides thereof. 6) respectively installed and the primary filtration network (8) is installed on the inlet (4), the secondary filtration network (11) having the protection nets (9, 10) of the network is installed on both sides of the outlet (6). And a hollow rotary rod 12 penetrating through the through hole 3 of the partition wall 2 in the central portion of the housing 1, and the rotary rod 12 includes the filter nets 8 and 11; Install radial suction rods 13 having an appropriate interval and one end of the rotary rod 12 is connected to the drive motor 14 installed on one side of the housing 1 to be rotated by the drive motor. To install, one side of the inlet 4 is provided with a discharge valve (15) operated by a solenoid.

On the outside of the housing 1 is provided a differential pressure switch 17 connected to the inlet part 4 and the outlet part 6 by bypass pipes 18 and 19, respectively, and the differential pressure switch 17 is controlled. To the operating tube 16 of the discharge valve 15 having the box 20 and the strainer 21 interposed therebetween, and the operating tube 16 is connected to operate the solenoid of the discharge valve 15. The drive motor 14 is configured in connection with a controller for controlling in accordance with the pressure in the housing (1).

The filtration apparatus configured as described above may be installed in a fluid tube vertically or horizontally, and may be configured by installing several in parallel in the fluid tube.

According to the present invention configured as described above, the inlet portion 4 and the outlet tube 7 connected to the inlet pipe 5 on both sides of the partition wall 2 in which the through hole 3 is formed in the housing 1 are provided. Each of the outlets 6 connected to each other is installed and the primary filter network 8 is installed on the inlet part 4, and the networked protection nets 9 and 10 are installed on both sides of the outlet part 6. In the state where the filtration net 11 is installed, a hollow rotary rod 12 penetrating through the through hole 3 of the partition wall 2 is installed at the center of the housing 1, and the rotary rod 12 has the filter net ( 8) (11) are provided with suction rods 13 which are radially formed with a proper distance, and one end of the rotary rod 12 is connected to the drive motor 14 is installed on one side of the housing (1) And a discharge valve 15 operated by a solenoid on one side of the inlet part 4 and installed on the one side of the inlet part 4. On the outside, the inlet part 4 and the outlet part 6 are provided with a differential pressure switch 17 and a control box 20 and a strainer 21 which are connected to the bypass pipes 18 and 19, respectively. 16) are connected to each other and the operation pipe 16 is connected to operate the solenoid of the discharge valve 15, and the drive motor 14 is connected to a controller for controlling according to the pressure in the housing (1). When the inflow pipe and the outflow pipe are installed in the fluid pipe to be used, the fluid flowing through the fluid pipe flows into the inlet part 4 through the inlet pipe 5 installed in the housing 1 through the fluid pipe. The incoming fluid is first filtered in the primary filtration network 8 installed in the inlet 4, and the filtered fluid is passed to the outlet pipe 7 through the through hole 3 formed in the partition wall 2. Will flow.

As described above, the fluid filtered first by the primary filtration network 8 performs two stages of filtration in the secondary filtration network 11 installed as the protection nets 9 and 10 in the outlet 6. The filtered fluid flows out through the outflow pipe 7 and flows back to the fluid pipe, and the fluid in the fluid pipe passes through the housing 1 of the filtration device so that the purified and purified fluid flows back to the fluid pipe.

When water or foreign matter accumulates and accumulates in the filtering nets in the process of filtering as described above, a difference occurs in the pressure between the inlet part 4 and the outlet part 6, and when the pressure difference occurs, these pressures are The driving motor of the rotary rod 12 installed in the center of the housing 1 while being applied to the differential pressure switch 17 through the pass pipes 18 and 19 and controlling the control box 20 according to the applied differential pressure signal. The rotary rod 12 is rotated by the driving of the driving motor while contacting the solenoid 14 and the solenoid of the discharge valve 15.

When the rotary rod 12 is rotated as described above, the suction rods 13 rotate together in a position close to the filter net, and when they rotate, the hollow portion of the suction rod 13 and the hollow of the rotary rod 12 are rotated. Part and the discharge valve 15 is opened to generate a suction force in the hollow portion, so that the foreign matter accumulated on the inner wall of the filter net is sucked into the suction rod (13).

At this time, the suction force can be understood through the concept of FIG.

As shown in Figure 6, the suction nozzle with small cross section is installed very close to the screen.

When the valve is opened, the outside is at atmospheric pressure, so water is discharged at a high speed due to a large pressure difference inside and outside the filter.

Since the suction rod is close to the screen, the water on the other side of the screen is discharged, and the turbulence phenomenon and the strong shear force remove the contaminants attached to the screen.

Since only the partial area around the suction rod is cleaned, the backwash water is very small (typically within 1 to 3%, which can be controlled by the suction rod's inlet diameter), so that the entire water supply Since there was a closed end that the filtration operation was stopped when backwashing was performed in the conventional filtration device because it does not affect the cost of having a separate spare unit and the high cost of the automatic valve device required to switch it. To perform this partial backwash over the entire filtration area, the suction rod may be moved on the screen.

In this apparatus, such a function is achieved by the combined action of the rotational motion of the drive motor 14 and the axial linear motion of the lead screw.

The sucked foreign matter and the like is introduced into the hollow portion of the rotary rod 12 through the suction rod 13 and discharged through one discharge hole of the rotary rod 12, wherein the inlet and outlet and the inside and outside of the filtering network The difference in pressure generated is generated and this pressure difference flows through the bypass pipes 18 and 19 to drive the differential pressure switch 17 and the control box 20. As it is filtered again at), the operating force due to the pressure difference is applied to the discharge valve 15 to operate its solenoid. When the solenoid of the discharge valve 15 is operated as described above, foreign matter accumulated in the filter net and removed is discharged through the discharge valve.

The filtration device of the present invention operated as described above may be installed in a horizontal state and connected to a fluid pipe composed of vertical pipes, or may be installed vertically in a fluid pipe installed in a horizontal state. When installed in parallel, it is possible to further increase the filtration efficiency because the continuous filtration is made.

The present invention as described above forms the inlet part 4 and the outlet part 6 in which the primary and secondary filtration networks 8 and 11 are installed in the housing 1 of the filtration device. The foreign matter of the fluid flowing through it can be filtered reliably and smoothly, the foreign matters accumulated in the filtration net, etc. during the filtration is effectively removed by the operation of the rotary suction rod 13 and the rotary rod 12, In addition, when the pressure difference caused by the accumulation of foreign matters in the inlet part 4 and the outlet part 6 of the inside of the housing 1 by the differential pressure switch, it is possible to quickly detect and eliminate the filtration device. It is effective to remove foreign matters without stopping the operation, and it is possible to greatly increase the filtration efficiency.

Claims (4)

A partition wall 2 having a through hole 3 formed therein is formed in the housing 1, and an inlet part 4 and an outlet part 7 connected to the inlet pipe 5 are connected to both sides thereof. 6) respectively, and the inlet part 4 is provided with a primary filtration network 8, and the outlet part 6 is provided with a secondary filtration network 11 having networked protection nets 9 and 10 installed on both sides. And a hollow rotary rod 12 penetrating the through hole 3 of the partition wall 2 in the central portion of the housing 1, and the rotary rod 12 has a proper distance from the filtering nets 8 and 11, respectively. While installing the suction rod washing rods 13 formed radially and one end of the rotary rod 12 is connected to the drive motor 14 installed on one side of the housing 1 to be installed to rotate by this drive motor On one side of the inlet 4, a discharge valve 15 operated by a solenoid is installed, and an outer side of the housing 1 is provided at the inlet 4 and the outlet 6. The differential pressure switch 17 is connected to each of the pass pipes 18 and 19, and the differential pressure switch 17 is used to control the operation pipe of the discharge valve 15 through which the box 20 and the strainer 21 are interposed. 16 and the operating tube 16 is connected to operate the solenoid of the discharge valve 15, the drive motor 14 is connected to the controller to control in accordance with the pressure in the housing (1) Automatic filtration device, characterized in that configured. The automatic filtration device according to claim 1, wherein the filtration device is configured to be installed in a fluid pipe vertically. The automatic filtration device according to claim 1, wherein the filtration device is configured to be installed horizontally. 2. The automatic filtration apparatus according to claim 1, wherein a plurality of filtration apparatuses are installed in parallel in the fluid pipe.