KR200191694Y1 - Apparatus for filtering waste water - Google Patents

Abstract

The present invention relates to a filtration wastewater treatment apparatus, comprising: a raw water supply unit for supplying raw water; At least one purified water tank containing a filter material and having an inlet through which water from the raw water supply is introduced by a water head difference in a lower region and an outlet formed in an upper region; At least one auxiliary tank provided below the purified water tank and having a connection pipe communicating with the purified water tank to store and settle backwash water and impurities during backwashing of the purified water tank; A first valve disposed between the raw water supply unit and an inlet of the purified water tank; A second valve provided at a connection pipe of the auxiliary tank; And a control unit for selectively opening and closing the first and second valves. As a result, there is no need for a separate power supply facility for adjusting the flow of raw water and the amount of treated water, and there is no need for resident management personnel, which is easy to manage, and a filtration wastewater treatment device capable of removing heavy metals in an ionic state. Is provided.

Description

Filtration Wastewater Treatment System {APPARATUS FOR FILTERING WASTE WATER}

The present invention relates to a filtration wastewater treatment device, and more specifically, does not require a separate power supply facility for adjusting the flow of raw water and the amount of treatment water, and it is easy to manage because there is no need for resident management personnel. The present invention relates to a filtration wastewater treatment device capable of removing heavy metals in a state.

In the underground tunnel formed for the mining of minerals or coal buried underground inevitably underground water is introduced into the underground tunnel, and when the mining operation is performed, drainage is made to the outside of the tunnel. The effluent flowing out of the underground tunnel contains metals and coals generated during the work in the tunnel, and contaminates the water quality when it flows into the river without additional filtration. In particular, in the case of the abandoned mine shaft mining is being left without proper measures, the water quality is severely contaminated by the effluent flowing out of such waste mine shaft. Since the effluent from the waste mine contains a large amount of heavy metal ions including iron-based ions, there is an urgent need to install a water treatment device that can improve the contamination of the effluent.

Generally, the water treatment apparatus includes a wastewater treatment apparatus for the purpose of purifying wastewater discharged from a factory or the like, and a sewage treatment apparatus for treatment of domestic sewage. These water treatment devices are attached to factories or located in urban living zones, so that the power supply for the devices can be easily supplied, and the management personnel required for the device management can be relatively easy.

However, due to its characteristics, the abandoned mine is located in a mountain far away from the urban area, and it is not easy to supply power, and there is a limitation in the conventional water treatment apparatus because it is not possible to arrange the resident management personnel. The treatment apparatus has a problem in that it is difficult to remove heavy metal ions including iron-based ions.

Therefore, the purpose of the present invention, not only does not require a separate power supply for the flow of raw water and the amount of processing water, but also easy to manage because there is no need for resident management personnel, so that even heavy metals in ionic state can be removed. It is to provide an overeating wastewater treatment apparatus.

1 is a cross-sectional view of the installation state of the filtered wastewater treatment apparatus according to the present invention,

2 is a view showing the flow of water in the wastewater treatment apparatus of FIG.

* Explanation of symbols for the main parts of the drawings

12: raw water supply unit 14: raw water supply pipe

15: purified water tank 17: inlet conduit

20: discharge conduit 22: discharge conduit

24: auxiliary tank 25: partition

29: timer 30: chemical tank

33: air inflow prevention unit 35: backflow prevention unit

38: first valve 39: second valve

37a ~ 37d: manual valve

The object is, according to the present invention, a filtered wastewater treatment apparatus, raw water supply unit for supplying raw water; At least one purified water tank containing a filter material and having an inlet through which water from the raw water supply is introduced by a water head difference in a lower region and an outlet formed in an upper region; At least one auxiliary tank provided below the purified water tank and having a connection pipe communicating with the purified water tank to store and settle backwash water and impurities during backwashing of the purified water tank; A first valve disposed between the raw water supply unit and an inlet of the purified water tank; A second valve provided at a connection pipe of the auxiliary tank; And a control unit for selectively opening and closing the first and second valves.

Here, it is advantageous that the first and second valves are electrically controlled valves.

The control unit may be a timer that periodically opens and closes the first and second valves.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a cross-sectional view of the installation state of the filtered wastewater treatment apparatus according to the present invention. As shown in this figure, the filtration wastewater treatment apparatus according to the present invention, the raw water supply unit 12, the purified water tank 15 for filtering and discharging the raw water provided from the raw water supply unit 12, and the purified water tank 15 At least one raw water filtration unit including a secondary tank (24) attached to the filter medium and temporarily storing the backwash water containing impurities during backwashing the filter medium, and the chemical tank (30) for selectively supplying a chemical neutralizer Have (10).

The raw water supply unit 12 is formed in a tubular shape so as to temporarily store the raw water to be processed, and a pair of raw water discharge ports 13a and 13b are formed at the lower portion so as to supply raw water to each raw water filtration processing unit 10. . One end of the raw water discharge port 13a is coupled to one end of the raw water supply pipe 14 to supply raw water to each raw water filtration processing unit 10, and the raw water supply pipe 14 is branched to purify the tank of each raw water filtration processing unit 10. Respectively connected to (15). In addition, a separate raw water filtration processing unit 10 (not shown) may be coupled to the other raw water discharge port 13b.

Chemical tank 30 is installed above the raw water supply unit 12 above the water level of the raw water to supply a predetermined amount of chemical through the chemical inlet 32 to be mixed with the raw water flowing through the raw water supply pipe (14) do. At this time, as the chemical, it is neutralized when the raw water is acidic using NAOH or the like, and in general, the chemical is not used because the raw water is neutral.

The purified water tank 15 is disposed below the raw water supply part 12 so that raw water from the raw water supply part 12 can be easily supplied. The lower end of the purified water tank 15 has a shape in which the cross section is narrow. In addition, an inlet conduit (17) formed at the lower end of the water purification tank (15) so as to be connected to the raw water supply pipe (14), and an outlet (23) configured to discharge backwash water and impurities to be described later. It is provided orthogonal to each other, and the outflow conduit 20 in which the outlet port 21 was formed so that the raw water filtered by the filter medium 16 may flow out in the upper region of the water purification tank 15.

A filter medium 16 is formed over a predetermined section between the inlet port 19 and the outlet port 21, and the filter medium 16 is formed of a filter layer having different mouths. Grains and the like having a relatively large particle size are disposed on the inlet 19 side, and the grain size decreases toward the outlet 21 so that sand having a predetermined particle size and uniformity is disposed in the upper region of the filter medium 16.

In the lower part of the purified water tank 15, an auxiliary tank 24 for temporarily storing backwash water containing impurities and depositing impurities is provided at the time of backwashing. Inside the auxiliary tank 24, a partition 25 is provided in a zigzag manner to store and settle backwash water periodically supplied from the water purification tank 15.

Meanwhile, a first valve 38 for opening and closing the raw water supply pipe 14 is installed between the raw water supply pipe 14 and the inlet conduit 17 of the purified water tank 15, and the discharge conduit 22 of the purified water tank 15 is provided. ) And a second valve 39 is provided between the connecting pipe 27 of the auxiliary tank 24.

These first and second valves 38 and 39 are electrically controlled valve assemblies driven by a direct current power source, and the first and second valves 38 and 39 are connected to timers 29 that periodically operate them. have. In this case, the first and second valves 38 and 39 may be configured to be operated by solar heat.

The timer 29 is a water purification process for the second valve 39 to block the connecting pipe 27 when the raw water supply pipe 14 of the first valve 38 is opened and the raw water supply pipe 14 of the first valve 38. When the second valve 39 is blocked, the backwashing process is repeated to open the connection pipe 27.

In the vertical section of the water supply tank 14 adjacent area of the water supply pipe 14, an air inflow prevention part 33 extending along the radial direction is formed so that air flowing together with the raw water in the water supply pipe 14 flows into the water purification tank. It is suppressed that it flows into the inside of (15). In addition, in the section extending upward from the air inflow prevention unit 33 toward the chemical tank 30, a backflow prevention unit 35 is provided to prevent backflow of raw water.

In each conduit including the raw water supply pipe 14, manual valves 37a to 37d for opening and closing each pipe by manual operation are provided for each section, and these manual valves 37a to 37d are opened when necessary. Or it is blocked and usually some of the manual valve (37a ~ 37d) is in the open state, the remaining manual valve (37a ~ 37d) will be in the blocked state.

By this configuration, as shown in FIG. 2, when the first valve 38 is opened by the timer 29, the raw water temporarily accommodated in the raw water supply unit 12 flows downward along the raw water supply pipe 14. The raw water introduced into the water purification tank 15 is filtered through the filter medium 16, and impurities including iron-based ions and heavy metal ions are filtered out, and the purified water passed through the filter medium 16 is discharged through the outflow conduit 20.

On the other hand, as the period of use elapses, impurities in the raw water accumulate in the lower region of the filter medium 16 of the water purification tank 15. In this case, if the filter is used for a long time without further action, the filtration capacity of the filter medium 16 decreases. do. At this time, the first and second valves 38 and 39 are operated.

That is, the timer 29 connected to the first and second valves 38 and 39 blocks the first valve 38 and opens the second valve 39 when a predetermined time elapses, so that the water purification tank 15 So-called backwashing is performed to remove the impurities filtered in the region of the inlet 19 by allowing the purified water to fall.

Through the backwashing process, the purified water in the purified water tank 15 is lowered through the outlet 23. At this time, the impurity accumulated in the lower region of the purified water tank 15 is connected through the discharge conduit 22 with the lowered purified water. It enters into the auxiliary tank 24 via the pipe 27. In this periodic backwashing process, impurities in the raw water filtered by the filter medium 16 are accumulated in the auxiliary tank 24.

When a predetermined time elapses after the backwash, the timer 29 again closes the second valve 39 and opens the first valve 38, whereby raw water is introduced into the purified water tank 15 through the raw water supply pipe 14. Filtration by the filter medium 16 is performed.

As such, according to the present invention, the raw water is supplied by using the head difference, and the process of filtering the supplied raw water and storing the backwash water containing impurities can be repeatedly performed for a predetermined time, thereby allowing the flow of raw water. And it is possible to provide a wastewater treatment device that is very easy to manage without a separate power consumption for the treatment water volume adjustment.

In the above-described and illustrated embodiments, the raw water filtration processing unit 10 for treating raw water is described as one, but the raw water filtration processing unit 10 may be configured in one or a plurality in consideration of the processing capacity. . In addition, in the case where the raw water filtration processing unit 10 is configured as one, it is natural that the purified water tank 15 and the auxiliary tank 24 can be installed in consideration of the processing capacity and processing capacity.

In the above-described and illustrated embodiments, the filter medium 16 is composed of gravel and sand having different particle sizes, but the activated carbon and the catalyst may be added.

As described above, according to the present invention, the raw water flows by using the head difference, so that the power supply equipment according to the separate equipment drive for adjusting the flow of raw water and the amount of treated water is not required, and it is easy to manage. In particular, the present invention provides a filtration wastewater treatment apparatus that can remove filtration by using sand of a predetermined particle size and uniform coefficient as a filter medium without undergoing a relatively time-consuming precipitation process up to heavy metal ions including iron-based ions. In addition, according to the present invention, it provides an excellent effect that does not require a separate management personnel for the operation of the device.

Claims (3)

In the filtered wastewater treatment apparatus, A raw water supply unit for supplying raw water; At least one purified water tank containing a filter material and having an inlet through which water from the raw water supply is introduced by a water head difference in a lower region and an outlet formed in an upper region; At least one auxiliary tank provided below the purified water tank and having a connection pipe communicating with the purified water tank to store and settle backwash water and impurities during backwashing of the purified water tank; A first valve disposed between the raw water supply unit and an inlet of the purified water tank; A second valve provided at a connection pipe of the auxiliary tank; And a control unit for selectively opening and closing the first and second valves. The method of claim 1, The first and second valves are filtered wastewater treatment apparatus, characterized in that the electrically controlled valve. The method of claim 2, The control unit is a wastewater treatment apparatus, characterized in that the timer for opening and closing the first and second valve periodically.