KR850001001Y1 - Automatic water controller for back washing water - Google Patents

Abstract

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Description

Raw water inlet and backwash water discharge system with automatic flow control

Figure is a partial cross-sectional view showing the configuration of the device,

Figure 1 shows the state when the filtration proceeds,

2 shows the state when the backwashing operation proceeds,

3 is a partially enlarged cross-sectional view.

* Explanation of symbols for main parts of the drawings

1: filter paper 2: raw water passage

3: drainage passage 4: raw water introduction pipe

5: backwash drainage pipe 6: outer wall shaft

7: Internal deflection 8: Horizontal base for inflow of raw water

9: Horizontal base for backwash drainage 12: Rack gear

14: drive motor 15: reducer

17: pinion 20: switch operation port

21,22: limit switch 23: screw shaft

25: drive motor 26: reducer

29: switch operation port 30, 31: limit switch.

In the present invention, in a conventional continuous static pressure rapid filter having a plurality of filter papers arranged in parallel, the raw water inlet and the backwash water outlet of each filter paper are installed vertically on the same vertical line, and the center of the raw water inlet and the backwash water outlet On the axis line, the internal and external double shafts are installed, and the lower ends of the inner and outer shafts are equipped with a flat bottom for backwash water drainage to open and close the backwash water outlet, and a flat bottom for raw water inflow to open and close the raw water inlet. A lifting device operated by a driving motor is installed at the upper end of the shaft to automatically open and close the raw water inlet and backwash water outlet by raising and lowering the inner and outer shafts according to the electrical signal of the electrode according to the water level change in the filter paper. Raw water inflow and automatic control of the flow rate by installing the raw water flow distribution system at the raw water inlet It relates to a wash water discharging device.

In the conventional simultaneous rapid filtration paper, the flow rate of a plurality of filter papers was evenly distributed by controlling the inflow of raw water and the outflow of purified water by using a structurally complicated and expensive flow control device. There has been no satisfactory effect in achieving equilibrium, and the facilities are complex and require a lot of facility costs.

The present invention is easy to configure and operate in consideration of such a point, and can be automatically operated at a low price. In addition, the raw water is naturally distributed evenly to each filter paper, and the introduced raw water is quantitatively discharged without adjusting the purified amount. It is an object of the present invention to provide a device capable of forming a water level natural balanced filter paper, which will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1 and FIG. 2, in a conventional simultaneous static pressure rapid filter in which several filter papers 1 are arranged in parallel, raw water passages 2 and one side of the filter paper 1 are disposed on one side and the bottom thereof. A backwash water drain passage 3 is provided, and a raw water introduction pipe 4 and a backwash water drain pipe 5 are disposed on the bottom surface 2 'of the raw water passage 2 and the top surface 3' of the drain passage 3. It is installed at a position corresponding to each other, but the raw water introduction pipe (4) of each filter paper (1) to the same height, the short side on the central axis of the raw water introduction pipe (4) and backwash water drain pipe (5) Raw water inflow flat for opening and closing the upper surface of the raw water introduction pipe 4 at the lower end of the outer shaft 6 by inserting a long inner shaft 7 inserted into the shaft 6 and the outer shaft 6. The bottom side 8 is mounted, and a lower base 9 for backwash water drainage for opening and closing the backwash water drain pipe 5 is mounted at the lower end of the inner side shaft 7, and guided at the center of the bottom bottom 9 for drainage. Shaft (10) Down to hyeonseol causes lifting up and down action of the backwash water drain pipe (5) to be centered into a ball through the support (11) installed in the center of the drainage of flat base (9) is guided in the vertical direction.

On the other hand, the gear reducer is formed to be driven by the drive motor 14 on the bottom surface of the support 13 fixed to the upper side of the raw water passage (2) by forming a rack gear 12 around one side of the outer shaft (6) (15) engages with the pinion (17) which the driven shaft (16) has built up, and attaches the switch operation opening (20) to the screw (19) formed at one end of the main shaft (18) of the reduction gear (15). In response to the rotation of the main shaft 18, the switch operation port 20 is moved to the left and right to operate the limit switches 21 and 22 installed on both sides to drive or stop the moving motor 14, As described above, the upper end 7 'of the inner deformable shaft 7 which is inserted into the outer deformable shaft 6 by lifting and lowering is connected to the lower end 23' of the screw shaft 23 by the coupling device 24, The screw shaft 23 is mounted on the upper surface of the support 13 so as to be interlocked with the wheel gear 28 to be interlocked with the main shaft 27 of the reduction gear 26 installed to be driven by the drive motor 25. The switch operating port 29 is fixed at the upper end of the screw shaft 23 to operate the limit switches 30 and 31 in accordance with the up and down operation of the screw shaft 23 to drive the drive motor 25. To stop it.

In the figure, reference numeral 32 denotes a support guide of the inner shaft 6, and 33 shows a conventional electrode level gauge operated according to the filter paper level.

Referring to the operating state of the subject innovation device having such a configuration as follows.

Raw water flowing into the raw water passage (2) is introduced into each filter paper (1) through the raw water introduction pipe (4) installed for each filter paper, at the beginning of filtration, the flat bottom (8) for raw water inflow is opened, and for backwash water drainage The flat bottom 9 is closed so that the raw water is supplied into each filter paper 1 through the raw water introduction pipe 4 to continue the filtration. At this time, each raw water introduction pipe 4 has the same height and the raw water passage 2 Since the raw water level is slightly lower than the raw water level in the raw water, the raw water is introduced evenly regardless of the level in each filter paper, so that the raw water is introduced to the top of the raw water introduction pipe 4. As the filtration continues after the start of the filtration, the filtration resistance in the filtration layer increases, and when the water level in the filter paper reaches the highest level, the electrode level gauge 33 is electrically connected to a known operating device (not shown). By driving the driving motors (14, 25), respectively. When the driving motors 14 and 25 are driven in this way, the outer shaft 6 is lowered through the reduction gears 15 and 26, and the inner shaft 7 is raised to raise the flat base 8 for raw water inflow. The main water introduction pipe 4 is closed and the backwash water drainage flat bottom 9 is opened, so that the backwashing water in the filter paper 1 is discharged through the drainage pipe 5 to the drain passage 3 to start backwashing.

In this way, since the backwashing operation is continued for a predetermined time and the driving motors 14 and 25 are operated in the reverse order by the timer installed in the operating device, the outer shaft 6 is raised and the inner shaft ( 7) is lowered and the backwashing water drainage flat bottom 9 is closed again, and the backwashing is finished, and then the raw water inflowing flat bottoming 8 is opened and filtration is started again. The lifting operation of the outer shaft 6 is stopped by the switch actuating tool 20 provided on the main shaft 18 of the reducer 15 being connected to the limit switch 21 or 22, and the inner shaft 7 The elevating operation range of) is defined by the switch actuating port 29 provided on the upper end of the screw shaft 23 connected to the limit switch 30 or 31.

As described above, in the present invention, in a continuous positive pressure rapid filter having several filter papers 1 and the like arranged in parallel, a raw water passage 2 is provided on one upper side of each filter paper 1 and a drain passage 3 is provided on the lower side thereof. The raw water introduction pipe 4 and the backwash water drain pipe 5 are installed on the same vertical line on the bottom surface 2 'of the raw water passage 2 and the upper surface 3' of the drain passage 3, respectively. The base water introduction pipe 4 and the backwash water drain pipe 5 are alternately installed by installing the flat bottom side 8 and 9 on the outer side shaft 6 and the inner side shaft 7 installed so as to independently lift and operate on the ship. It can be opened and closed, its structure is simple, it is easy to install and operate, and it is possible to operate cheaply. In addition, the raw water is distributed evenly to each filter paper. It is possible to form a so-called natural balanced filter paper.

Claims (3)

The raw water passage 2 and the drain passage 3 are provided on one side and the lower side of each filter paper 1 arranged in a row, and the upper surface 3 of the bottom surface 2 'and the drain passage 3 of the raw water passage. The raw water introduction pipe (4) and the backwash water drain pipe (5) are respectively installed at positions corresponding to each other, but the upper end of the raw water introduction pipe (4) is slightly lower than the raw water level, and the length is short on the central axis. A raw bottom inlet (8) for entering the outer side shaft (6) on the expansion pipe and a long inner side shaft (7) in the inside thereof and opening and closing the raw water introduction pipe (4) at the lower end of the outer side shaft (6). To the lower end of the inner shaft (7) is equipped with a flat bottom (9) for the backwash water drainage to open and close the backwash water drain pipe (5), the inner and outer shafts (6) (7) of each drive Raw water with automatic flow rate adjustment, characterized in that the raw water introduction pipe (4) and the backwash water drain pipe (5) can be opened and closed by lifting up and down independently by the rotor (14, 15), respectively. Mouth and backwash water discharge device. The pinion (17) and teeth of the driven shaft (16) of the reducer (15) driven by the drive motor (14) by forming a rack gear (12) on one side circumferential wall of the outer side shaft (6). And the switch operating holes 20 are attached to the screws 19 formed on the main shaft 18 so as to operate the limit switches 21 and 22 for driving stop the drive motor 14. Raw water inlet and backwash water drainage with control. According to claim 1, wherein the upper end of the inner side (7) is connected to the screw shaft 23 and the coupling device 24, the screw shaft 23 of the reduction gear 25 is driven by the drive motor 25 It is to be interlocked with the main shaft 27, and the switch operating port 29 is fixed to the upper end of the screw shaft 23 to drive the drive motor 25 drive stop limit switch 30, 31 characterized in that Water inlet and backwash water discharge system with automatic flow rate control.