KR950005418B1 - Waste water treatment filter - Google Patents

Abstract

The filters which had different property each another were installed in one container (tank) to purify the waste water. The first filter comprised the active carbon and the heavy metal count agent between the 5μ stainless steel nets, the second filter comprised the carbon filter and 5μ stainless steel net general filter, the third filter was the silver-coated UV ceramic filter, and the fourth and the fifth filters were UV ceramic filters. The multilayer-type filter was designed to utilize the principle of nature so no electric power was needed to purify the waste water.

Description

Multi-layer Filter for Wastewater Treatment

1 is an exploded perspective view of the present invention.

2 is a cross-sectional view of the assembly of the present invention.

3 is a plan view seen from the direction of line A-A of FIG.

4 is a plan view of the assembled state of the present invention.

5 is an assembled bottom view of the present invention.

6 is a bottom view of the filter fixture according to the present invention.

* Explanation of symbols for main parts of the drawings

A: Container bottom 1,26: Body insertion groove

2,3,4,5,6: filter insertion groove 7,8,9,10,13: flocculation plant

11 aggregate discharge port 12 spiral portion

14: Purification water outflow passage B: Filter Fixture

2 ', 3', 4 ', 5', 6 ': filter insertion groove 15: purified water outflow pipe

18: purified water outflow hole 19: through hole

20: activated carbon inlet 21: neutralizer inlet

22: waste gas discharge valve 23: normal operation sensor

24: Pressure measuring sensor 25: O-ring

(F ₁ ) (F ₂ ) (F ₃ ) (F ₄ ) (F ₅ ): Filtration filter C: Container cover

31: connecting rod 32: through hole

33: inlet to be treated 47: tightening nut

The present invention relates to a multi-layered filter for wastewater treatment, and in particular, a plurality of filters, which are the most important components of the filter, are installed in multiple layers in a single treatment container, so that waste water, waste oil or other sewage can be more reliably and conveniently. It is about making it possible to purify and purify water according to the quality of raw water.

In general, wastewater or waste oil from the factory that is generated during the product manufacturing process must be treated and discharged according to the relevant standards according to the relevant laws. For this purpose, multiple wastewater treatment tanks with filters with respective characteristics must be provided. . In other words, it is true that a large number of wastewater treatment tanks were required because each tank had to have a different configuration of the filter installed therein.

As such, the filter used in the conventional wastewater treatment apparatus is purified and treated only through several filters having different performance characteristics in order to purify and purify wastewater, waste oil, and sewage. As tanks are needed, wastewater treatment tanks are required, which requires a lot of money for installation of wastewater treatment devices, and also takes up a lot of space, and sequentially transfers wastewater from one tank to another between tanks and piping connecting the tanks. In order to make the pump to be necessary, the structure of the facility is complicated, and a power source for driving the pump is also required, so that the power must be reduced.

Therefore, the present invention is a general problem that the structure of the filter which has been used in the conventional wastewater treatment device as described above is caused by the configuration of the filter to purify waste water or sewage by simply installing a filter. In order to solve the problem, it is possible to use a natural space that does not consume power at all by using a narrow space. The purpose of the present invention is to provide a multi-layer filter for wastewater treatment that can easily obtain a definite purification effect, and will be described in detail with reference to the accompanying drawings.

The upper surface of the container body insertion groove (1) and the plurality of filter insertion grooves (2) (3) (4) (5) (6) are formed concentrically, the main body insertion groove (1) and the first insertion groove (2) Between the first insertion groove 2 and the second insertion groove 3, between the second insertion groove 3 and the third insertion groove 4, the third insertion groove 4 and the fourth insertion groove 5; At any circumferential position between the plurality of first aggregate precipitation stations (7), the second aggregate precipitation station (8), the third aggregate precipitation station (9), the fourth aggregate precipitation station (10) of each c team power station The fifth agglomerate sedimentation station is formed in communication with the bottom, the position is shifted from each other, but the first agglomeration sedimentation station (7) on one side is formed in communication with the upper portion and the spiral agglomerate (12) in the upper portion (5) 13) is also in communication with the bottom surface, one side of the container bottom (A) to be in communication with the purified water outflow passage 14; On the bottom, filter inserting grooves 2 ', 3', 5 ', and 6' are formed at positions corresponding to the filter inserting grooves 2, 3, 5, and 6, respectively. The first insertion groove 2 'is formed at the center while the through hole 19 is formed in the center of which the spiral parts 16 and 17 are formed and the purified water outlet pipe 15 having the plurality of purified water outlet holes 18 is inserted therein. ) Is formed so as to open and close the heavy metal neutralizer inlet 21 and the activated carbon inlet 20 at any circumferential position, and between the first insertion groove 2 'and the second insertion groove 3', the second insertion In the position between the groove 3 'and the third insertion groove 4', a plurality of waste gas discharge valves 22 are attached and installed, respectively, and between the third insertion groove 4 'and the fourth insertion groove 5'. At a circumferential arbitrary position of the filter fixing tool (B) having a normal operation detecting sensor (23) and a pressure measuring sensor (24) installed; The filter insertion groove (2) (2 ') (3) (3') (4) (4 ') (5) (5') (6) (6 ') through a plurality of O-rings (25). First to fifth filters (F ₁ ) (F ₂ ) (F ₃ ) (F ₄ ) (F ₅ ), which become cylindrical to be fitted; The bottom surface forms a main body insertion groove (26) into which the upper end of the container body (S) is fitted, and an O-ring (30) is inserted into the lower part, and spiral parts (27) and (28) are formed at the upper and lower ends, respectively. The inlet 33 into which the treated water flows is formed in the center of the through hole 32 into which the connecting portion 31 to which the portion 28 is fastened to the spiral portion 29 inside the purified water outlet pipe 15 is inserted. At the same time through the container cover (C) to which the inlet cover 34 is attached; It is a multi-layer filter for wastewater treatment configured as.

In the above configuration, the first filter (F ₁ ) is a common filter 35 (35 ') made of stainless steel with a mesh size of 5 μm at regular intervals on both sides, and a network is formed between them. the compartment in the middle of the filter 36 in which a stainless steel net is grid size 5μ the activated carbon 37, has one end space, and the configuration in which the other space hayeoseo each injected with heavy metal neutralizing agent 38, the second filter (F ₂₎ Is composed of a carbon filter 39 and general filters 40 and 41 made of stainless steel having a mesh size of 5 mu from the outside (inflow side).

The third filter F ₃ is obtained by subjecting the outer surface of the far-infrared ceramic filter 42 (the side into which the water to be treated flows) to the silver film 43, and the fourth and fifth filters F ₄ and F ₅ . Is composed of a far infrared ceramic filter.

Reference numeral 44 denotes an openable and open drain trap for closing the aggregate agglomerates 7, 8, 9, 10 and 13, and the aggregate discharge port 11. 45 is a purified water outlet valve. O-ring for airtightness, 47 is a tightening nut, and 48 is a filter cloth fitted into the water to be treated 33.

Referring to the assembling state of the multi-layer filter according to the present invention having the configuration as described above, first fastening the spiral portion 17 of the bottom of the hot water outlet pipe 15 to the spiral portion 12 in the center of the container bottom (A) And a plurality of O-rings 25 for airtightness on the filter insertion grooves 2, 3, 4, 5 and 6 formed on the upper surface thereof. First, install each filter (F ₁ ) (F ₂ ) (F ₃ ) (F ₄ ) (F ₅ ) on it, and then insert the filter insertion groove (2 ') (3') (4 ') And a plurality of O-rings 25 as filter fixing holes B forming 5 'and 6'. After fixing (covering), the fastening nut 47 is fastened to the spiral portion 16 formed on the upper portion of the purified water outlet pipe 15 so that the filter fixing tool B can be adjusted to each filter F ₁ (F ₂ ). (F ₃ ) (F ₄ ) (F ₅ ) will be firmly assembled and fixed. Thereafter, the container body S is inserted into the insertion groove 1 formed on the upper surface of the container bottom A via the O-ring 30, and then the upper portion of the container body S is inserted into the lower surface of the container body S. After forming the container cover (C) through the O-ring (30) is fixed (after covering) to the spiral portion 27 formed on the upper end of the connecting rod 31 fastened and fixed to the upper inner side of the purified water outflow pipe 15 By fastening the fastening nut 47, the container cover (C) is fixed to the container body (S) firmly until the multi-layer filter is assembled.

Next, the operational state of the multilayer filter according to the present invention assembled as described above is as follows.

First, the treated water inlet cover 34 of the container cover C is opened, and when the treated water such as waste water, waste oil, or various wastewater is introduced through the inlet 33, the treated water is first inserted into the inlet 33. Various floats, debris, etc. are filtered out while passing through the filter cloth 48 which becomes a mesh of such a back. The first water to be filtered by passing through the filter cloth 48 is precipitated by some non-filtered debris in the first agglomeration sedimentation station 7 on the inner side of the container body S, and the first filter F ₁ . The first filter (F ₁ ) is composed of the activated carbon 37 and the heavy metal neutralizing agent (3) between the general filter (35) 36 (35 ') consisting of three layers of stainless steel at regular intervals. 38), the water to be treated passes through the first filter F ₁ in the order of the Ivan filter 35, the activated carbon 37, the intermediate filter 36, the heavy metallizing agent, and the general filter 35 '.

In this process, the treated water passing through the general filter 35 made of a fine stainless steel mesh having a 5 μm mesh scale located on the outermost side (inflow side) is freed of contaminants such as contaminants and debris, followed by activated carbon. General bacteria and odors are removed through (37).

Subsequently, the suspended pollutant is secondarily removed while passing through the intermediate filter 36. Then, the heavy metal material is neutralized and agglomerated while passing through the heavy metal neutralizer 38, and the water to be treated finally returns to a stainless steel mesh having a mesh size of 5 μ. After passing through the general filter (35 ') is almost the purification process is performed.

In the above process, the activated carbon 37 or the heavy metal neutralizer 38 is consumed according to the filtration treatment of the water to be treated, as described above, through the activated carbon inlet 20 and the heavy metal neutralizer inlet 21 formed through the filter fixing port B. You can replenish that amount as you spend it.

The treated water that has passed through the first filter (F ₁ ) is a portion, but the sediment contained therein precipitates in the second sediment agglomeration station (8) and is accumulated and continues to flow into the second filter (F ₂ ). The filter 2 is passed through a carbon filter 39 and a stainless steel mesh having a mesh scale of 5μ, and bacteria or odors which are not filtered by the first filter F ₁ are removed, and the fine general filters 40 and 41 are respectively removed. Various fine floats and the like that have passed through the first filter are filtered again while passing through, so that the water to be treated is almost purified and purified.

Also, the water to be treated that has passed through the second filter is also precipitated in the third sediment agglomeration station (9), and the water is continuously introduced into the third filter (F ₃ ).

A third filter (F ₃₎ is the third filter as being so far the first and second filters and by any other configuration, that is, processing an outer surface silver film 43 on the (inlet side) of the far-infrared ceramic filter (42) (F ₃ ) Passes through the first and second filters (F ₁ ) and (F ₂ ) to completely pass through the first and second filters (F ₁ ) to completely filter out the bacteria in the treated water. As such, water close to the raw water passing through the third filter F ₃ is allowed to settle in the fourth agglomerated sedimentation station 10, which may be contained in the fine aggregate.

Thereafter, the water purified by passing through the third filter F ₃ is determined by the normal operation sensor 23 installed in the upper portion of the heavy metal content is determined whether the normal operation of the filter. After that, it passes through the fourth and fifth filters (F ₄ ) (F ₅ ), which are far-infrared ceramic filters. The final drinking water can be safely drinkable by making the treated water close to raw water such as mineral water, which is beneficial to the human body, due to the material characteristics of the ceramic material. It will be purified and purified water.

As described above, the final treated water purified and purified as the treated water passes from the first filter F ₁ to the fifth filter F ₅ has a plurality of outlet holes formed in the purified water outlet pipe 15 in the center of the container. Through the purified water outlet passage 14 formed in communication with one side of the fifth agglomerate sedimentation station 13 of the bottom of the container A through 18, the purified water outlet valve 45 is allowed to flow out of the container. Will be.

When the filtration effect of the filter is reduced due to impurities in each filter in accordance with the repetition of purification and water treatment in the wastewater treatment process, a plurality of waste gas discharge valves connected to the spaces between the filters are formed in the filter fixture B ( It also has a so-called backwashing function that can clean the filter by collecting the impurities in each filter by injecting high-pressure purified air through 22) and collecting it at the lower aggregate sedimentation station. When replacing the filter, also loosen the captive nut (47) holding the container cover (C), remove the container cover (C), and then loosen the captive nut (47) holding the filter fixing hole (B) again. By dismantling and replacing the filter, as well as the assembly and dismantling for maintenance is made very easy.

In addition, foreign matters deposited in each aggregate sedimentation station (7) (8) (9) (10) (13) are fastened to the lower part of each sedimentation station to release and remove the drain trap (44) closing the sedimentation station and then settle each sediment. Removing the debris in the cow can also be done simply.

As is apparent from the above, according to the multi-layered filter according to the present invention, a plurality of filters having different properties in the form of natural strata in a container consisting of a container bottom (A), a container body (S), and a container cover (C) are provided. Since the structure is installed in a multi-level multi-layer complex, the structure is very simple, but the treatment effect is very high enough to be used as drinking water, and at the same time, there is no need for a separate manpower or equipment for maintenance. It becomes possible.

In addition, the number of containers (tanks) for wastewater treatment is greatly increased by continuously flowing the water to be treated into the container, thereby allowing purification and water treatment while sequentially passing through a multi-layered filter without a separate power supply. In addition, since it is possible to reduce the number and location of the filter, it is possible to use the filter according to the present invention in series or in parallel, if necessary, so that it can be used more efficiently.

Claims (2)

On the upper surface of the container body (S) is inserted into the insertion groove (1) and the plurality of filter insertion grooves (2) (3) (4) (5) (6) are formed concentrically, the fifth insertion groove (6) A plurality of first to fourth aggregate flocculation stations (7) (8) (9) (10) are formed in communication with the bottom at arbitrary positions on the circumference between the insertion grooves except for (7) On one side, the aggregate outlet 11 is formed in communication with the outside, while in the center of the fifth agglomerated sedimentation station 13 formed with a spiral portion 12 formed in communication with the bottom, one side of the purified water outflow passage A container bottom A in communication with 14; Filter insert grooves 2 ', 3', 4 ', 5', and 6 'are formed on the bottom surface, and a plurality of purified water outlet holes 18 are formed, and a tightening nut 47 is fastened to the upper end. A through hole 19 into which the purified water discharge pipe 15 is inserted is formed at the center thereof, and a plurality of inlets 20 and 22 can be opened and closed at a circumferential position to communicate with the first insertion groove 2 ′. And a plurality of wastes are disposed at circumferentially arbitrary positions between the second insertion groove 3 'and the third insertion groove 4' between the first insertion groove 2 'and the second insertion groove 3'. A filter fixture having a gas discharge valve 22 attached thereto and a normal operation detecting sensor 23 and a pressure measuring sensor 24 installed between the third insertion groove 4 'and the fourth insertion groove 5'. B) and; A plurality of O-rings 25 are inserted into the insertion grooves 2, 2 ', 3, 3', 4, 4 ', 5, 5', 6, 6 '. A first through fifth filters F ₁ , F ₂ , F ₃ , F ₄ , and F ₅ ; The bottom surface is formed with the upper insertion groove 26 of the container body (S), the center is penetrated through the connecting rod 31 to which the lower end is fastened to the purified water outlet pipe 15 and the tightening nut 47 is fastened to the upper end. A container cover C which forms a hole 32 and has a water treatment inlet 33 formed therethrough at an arbitrary position; Multi-layer filter for wastewater treatment, characterized in that configured as. The method of claim 1, wherein the first filter F ₁ divides the space between the general filters 35 and 36 made of stainless steel into an intermediate filter 37 made of stainless steel. The other side is injected with a heavy metal neutralizer 38, the second filter is a carbon filter (39), a general filter (40, 41) made of stainless steel mesh, the third filter is a far-infrared ceramic filter (42) outer surface is a silver film ( 43) A multi-layer filter for wastewater treatment, wherein the fourth and fifth filters (F ₄ ) (F ₅ ) are far-infrared ceramic filters.