KR102632296B1 - Diatomite filter - Google Patents

Abstract

The present invention relates to a diatomaceous earth filter in which a filtration unit is provided with a stainless steel mesh net between an outer perforated stainless steel net and an inner perforated net, and the outer perforated net and the mesh net are coated with diatomaceous earth.
The diatomaceous earth filter according to the present invention has a portion of the first filtrated water discharge pipe (L1) introduced into the interior of the filtration tank (10), and a plurality of filtration units in the first filtrated water discharge pipe (L1) entered into the interior of the filtration tank (10). (20) are arranged in parallel, the diatomaceous earth supply pipe (L7) and the diatomaceous earth discharge pipe (L8) are connected to the filtration tank (10), and the wastewater supply pipe (L3) and the washing water discharge pipe (L5) are connected to the filtration tank (10). In the filtration unit 20, a mesh net 23 made of stainless steel is disposed between a cylindrical outer perforated net 21 and a cylindrical inner perforated net 22, and the outer perforated net 21 and the mesh net 23 are The inner perforated network 22 is coupled by a plurality of rivets 24, the upper outer network connection cap 25 is connected to the upper end of the outer perforated network 21, and the lower outer network is connected to the lower end of the outer perforated network 21. The cap 26 is connected, the upper inner network connection cap 27 is connected to the upper end of the inner perforated network 22, and the lower inner network connection cap 28 is connected to the lower end of the inner perforated network 22, and the mesh The network 23 is processed to be curved at the upper and lower ends, between the upper outer network connection cap 25 and the upper inner network connection cap 27, and between the lower outer network connection cap 26 and the lower inner network connection cap 28. It is disposed between, and the upper hole 25a of the upper outer network connection cap 25, the upper hole 23a of the mesh net 23, and the upper hole 27a of the upper inner network connection cap 27 are aligned with each other. , the lower hole (26a) of the lower outer network connection cap 26, the lower hole (23b) of the mesh net 23, and the lower hole (28a) of the inner network connection cap 28 are aligned with each other, and the upper outer network connection A first connector 29 is connected to the upper hole 25a of the cap 25, the first connector 29 is connected to the first filtrate discharge pipe L1, and the lower outer network connection cap 26 is connected to the first connector 29. The second connection pipe 30 is connected to the lower hole 26a, and the diatomaceous earth supplied into the interior of the filtration tank 10 through the diatomaceous earth supply pipe L7 is attached to the outer perforated net 21 and the mesh net 23. It is characterized by

Description

Diatomaceous earth filter {DIATOMITE FILTER}

The present invention relates to a diatomaceous earth filter, and more specifically, in the filtration unit, a mesh net made of stainless steel is disposed between an outer perforated net made of stainless steel and an inner perforated net, and the outer perforated net and the mesh net are coated with diatomaceous earth, thereby filtering out acidic wastewater or basic wastewater. When filtering wastewater, it does not corrode, and the mesh net is placed between the outer perforated net and the inner perforated net, so the filtration unit is not damaged by high filtration pressure, and the mesh net is not torn by sharp foreign substances mixed in the wastewater, thereby ensuring filtration. This is about a diatomaceous earth filter that allows the unit to be used repeatedly and for a long time.

A “water treatment filtration device” is introduced in Republic of Korea Patent No. 10-0938400 (registered on January 15, 2010).

The water treatment filtration device has opposing upper and lower filtration units in which at least one porous filter net with a pipe-shaped perforated net embedded in the inlet and outlet of the filtration tank is installed on the base plate, and the internal space of the filtration tank has antibacterial and anti-bacterial functions. Natural stone powder with cohesion and low viscosity is supplied, and diatomaceous earth, morazite, xenothite, illite-mica, which are in powder form so that they clump together when wet with water in the internal space 13 of the filter tank. Natural stone powder made of any one of zeolite, bentonite, and tourmaline is supplied, and the porous filter nets of the upper and lower filter parts are used alternately during filtration or when washing the filter net and the natural stone powder.

However, in the water treatment filtration device, the perforated network and porous filtration network may be damaged by pressure, and the porous filtration network may be damaged by sharp foreign substances, and the diatomaceous earth itself is used once and discharged to the outside during the backwashing process, causing environmental pollution. There is a downside to this.

The purpose of the present invention is to prevent corrosion when filtering acidic wastewater or basic wastewater by the filtration unit having a mesh net made of stainless steel disposed between the outer perforated net and the inner perforated net made of stainless steel, and the outer perforated net and the mesh net being coated with diatomaceous earth. Since the mesh net is placed between the outer perforated net and the inner perforated net, the filtration unit is not damaged by high filtration pressure, and the mesh net is not torn by sharp foreign substances mixed in the wastewater, so the filtration unit can be used repeatedly for a long time. A diatomaceous earth filter is provided.

Another object of the present invention is to supply the diatomaceous earth and contaminants degassed in backwash to a diatomaceous earth separator, separate the contaminants and diatomaceous earth in the diatomaceous earth separator, and supply the separated diatomaceous earth to a diatomaceous earth storage tank, so that the diatomaceous earth is used once. We provide diatomaceous earth filters that can be recycled rather than thrown away.

In order to achieve the above object, the diatomaceous earth filter according to the present invention has a part of the first filtrated water discharge pipe introduced into the interior of the filtration tank, and a plurality of filtration units are arranged in parallel in the first filtrated water discharge pipe introduced into the interior of the filtration tank. The diatomaceous earth supply pipe and diatomaceous earth discharge pipe are connected to the filtration tank, and the wastewater supply pipe and washing water discharge pipe are connected to the filtration tank, respectively.

In the filtration unit, a mesh net made of stainless steel is disposed between a cylindrical outer perforated net and a cylindrical inner perforated net, the outer perforated net, the mesh net, and the inner perforated net are joined by a plurality of rivets, and the upper outer net is connected to the upper end of the outer perforated net. The caps are each connected, the lower outer network connection cap is connected to the lower end of the outer perforated network, the upper inner network connection cap is connected to the upper end of the inner perforated network, the lower inner network connection cap is connected to the lower end of the inner perforated network, and the mesh The net is processed to be curved at the upper and lower ends and is placed between the upper outer network connection cap and the upper inner network connection cap and between the lower outer network connection cap and the lower inner network connection cap, and the upper hole of the upper outer network connection cap and the mesh. The upper hole of the mesh and the upper hole of the upper inner network connection cap are aligned with each other, the lower hole of the lower outer network connecting cap, the lower hole of the mesh net and the lower hole of the inner network connecting cap are aligned with each other, and the upper outer network connecting cap is aligned with each other. A first connector is connected to the upper hole, the first connector is connected to the first filtrated water discharge pipe, and the second connector is connected to the lower hole of the lower outer network connection cap, and the inside of the filtration tank through the diatomaceous earth supply pipe. It is characterized in that the diatomaceous earth supplied is attached to the outer perforated network and mesh network.

In addition, the diatomaceous earth filter according to the present invention has one end of the diatomaceous earth discharge pipe connected to the top of the filtration tank, the other end of the diatomaceous earth discharge pipe connected to the diatomaceous earth tank, one end of the diatomaceous earth supply pipe connected to the bottom of the filtration tank, and the diatomaceous earth supply pipe. The other end is connected to the diatomaceous earth tank, and a second pump is mounted on the diatomaceous earth supply pipe. In the process of circulating the diatomaceous earth mixed in water by the second pump between the diatomaceous earth tank and the filtration tank, the filtration unit disposed inside the filtration tank It is characterized in that the outer perforated network and mesh network are coated with diatomaceous earth.

In addition, in the diatomaceous earth filter according to the present invention, the first filtrated water discharge pipe is connected to the second filtrated water discharge pipe, the second filtrated water discharge pipe is connected to the wastewater storage tank, one end of the wastewater supply pipe is connected to the filtration tank, and the other end of the wastewater supply pipe is connected to the filtration tank. It is connected to the wastewater storage tank and a first pump is mounted on the wastewater supply pipe, so that wastewater from the wastewater storage tank is supplied to the filtration tank by the first pump, and the wastewater passes through the filtration unit disposed inside the filtration tank. The filtered water from which contaminants have been filtered is supplied to the wastewater storage tank through the first filtered water discharge pipe and the second filtered water discharge pipe, and the wastewater filtration cycle is performed until the internal pressure of the filtration tank reaches the first set pressure. It is characterized by

In addition, in the diatomaceous earth filter according to the present invention, the first filtrated water discharge pipe and the wastewater supply pipe are connected by a bypass pipe, the first valve and the third valve are closed, and the second valve is opened, so that the filtrated water in the wastewater storage tank flows into the first It is supplied into the filtration unit by a pump, and as the filtered water passes through the filtration unit, the clogged filtration unit is cleaned. One end of the washing water discharge pipe is connected to the bottom of the filtration tank, and the other end of the washing water discharge pipe is connected to the diatomaceous earth separator. It is characterized in that it is performed until the internal pressure of the filtration tank reaches the second set pressure.

In the diatomaceous earth separator, diatomaceous earth and contaminants are separated, the contaminants are separately discharged to the outside, and the diatomaceous earth is recovered into the second tank through a diatomaceous earth recovery pipe.

As a result, the diatomaceous earth filter according to the present invention not only does not damage the filtration unit due to filtration pressure, but also does not corrode when filtering acidic wastewater or basic wastewater, and the mesh network is not torn by sharp foreign substances mixed in the wastewater. , the filtration unit can be used repeatedly for a long time, diatomaceous earth can be evenly coated on the outer perforated net and mesh net of the filtration unit, filtration is performed evenly throughout the filtration unit, and diatomaceous earth and contaminants degassed in the backwashing process are removed. The diatomaceous earth separator is effective in separating contaminants and diatomaceous earth and recycling the separated diatomaceous earth.

Figure 1 is a cross-sectional view schematically showing a diatomaceous earth filter according to the present invention.
Figure 2 is an enlarged detailed view of the filtration unit of Figure 1.
Figure 3 is a configuration diagram schematically showing the overall configuration of the diatomaceous earth filter according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, the diatomaceous earth filter according to the present invention has a portion of the first filtrated water discharge pipe (L1) introduced into the filtration tank 10, and a first filtrated water discharge pipe (L1) introduced into the filtration tank 10. ), a plurality of filtration units 20 are arranged in parallel, a diatomaceous earth supply pipe (L7) and a diatomaceous earth discharge pipe (L8) are connected to the filtration tank 10, and a wastewater supply pipe (L3) and a washing water discharge pipe are connected to the filtration tank 10. (L5) are connected respectively.

Referring to FIG. 2, the filtration unit 20 has a mesh net 23 made of stainless steel disposed between a cylindrical outer perforated net 21 and a cylindrical inner perforated net 22, and the outer perforated net 21 and the mesh net. (23) and the inner perforated network 22 are connected by a plurality of rivets 24, the upper outer network connection cap 25 is connected to the upper end of the outer perforated network 21, and the upper outer network connection cap 25 is connected to the lower end of the outer perforated network 21. The lower outer network connection cap 26 is connected, the upper inner network connection cap 27 is connected to the upper end of the inner perforated network 22, and the lower inner network connection cap 28 is connected to the lower end of the inner perforated network 22. It is connected, and the mesh network 23 is processed to be curved at the upper and lower ends to connect the upper outer network connection cap 25 and the upper inner network connection cap 27, and the lower outer network connection cap 26 and the lower inner network. It is disposed between the cap 28, the upper hole 25a of the upper outer network connection cap 25, the upper hole 23a of the mesh net 23, and the upper hole 27a of the upper inner network connection cap 27. are aligned with each other, and the lower hole (26a) of the lower outer network connection cap 26, the lower hole (23b) of the mesh network 23, and the lower hole (28a) of the inner network connection cap 28 are aligned with each other, The first connector 29 is connected to the upper hole 25a of the upper outer network connection cap 25, the first connector 29 is connected to the first filtrate discharge pipe L1, and the lower outer network connection cap The second connection pipe 30 is connected to the lower hole 26a of (26), and diatomaceous earth (not shown) supplied into the inside of the filtration tank 10 through the diatomaceous earth supply pipe L7 is connected to the outer perforated network 21. and is attached to the mesh net (23).

The outer perforated net 21 and the inner perforated net 22 are perforated with holes with a diameter of 3 to 5 mm, and the outer stainless mesh net 23 is 200 mesh.

The diatomaceous earth filter according to the present invention configured as described above uses an outer perforated network ( Pollutants in the wastewater are adsorbed to the diatomaceous earth attached to the diatomaceous earth attached to 21) and the mesh network 23, and the filtered water supplied to the inside of the filtration unit 21 through the mesh network 23 passes through the first connection pipe 29. It is discharged into the first filtrated water discharge pipe (L1).

Here, in the filtration unit 20 of the present invention, a mesh network 23 is disposed between the outer perforated network 21 and the inner perforated network 22, and the upper outer network connection cap 25 is installed at the upper and lower ends of the outer perforated network 21. ) and the lower outer network connection cap 26 are respectively connected, and the upper inner network connection cap 27 and the lower inner network connection cap 28 are respectively connected to the upper and lower ends of the inner perforated network 22, resulting in high filtration pressure. It is possible to prevent the filtration unit 20 from being damaged, and the outer perforated net 21, the inner perforated net 22, and the mesh net 23 are made of stainless steel, so when filtering acidic wastewater or basic wastewater, Not only does it not corrode like regular filter cloths sold on the market, but it is also not torn by sharp substances mixed in wastewater, so the filtration unit (20) can be used repeatedly for a long time, and it is used to allow wastewater to pass through the mesh net (23). It has the advantage of not being damaged by pressure.

Referring to Figure 3, in the diatomaceous earth filter according to the present invention, one end of the diatomaceous earth discharge pipe (L8) is connected to the top of the filtration tank (10), and the other end of the diatomaceous earth discharge pipe (L8) is connected to the diatomaceous earth tank (T2), One end of the diatomaceous earth supply pipe (L7) is connected to the lower end of the filtration tank (10), the other end of the diatomaceous earth supply pipe (L7) is connected to the diatomaceous earth tank (T2), and a second pump (P2) is mounted on the diatomaceous earth supply pipe (L7). In the process of circulating the diatomaceous earth mixed in water by the second pump (P2) between the diatomaceous earth tank (T2) and the filtration tank 10, the outside of the filtration unit 20 disposed inside the filtration tank 10 Diatomaceous earth is coated on the perforated network 21, the inner perforated network 22, and the mesh network 23.

The process of circulating the diatomaceous earth through the diatomaceous earth tank (T2) and the filtration tank (10) is performed for 90 to 100 seconds, and then the next wastewater filtration circulation process is performed.

In addition, in the diatomaceous earth filter according to the present invention, for the wastewater filtration circulation process, the first filtrated water discharge pipe (L1) is connected to the second filtrated water discharge pipe (L2), and the second filtrated water discharge pipe (L2) is connected to the wastewater storage tank (T1). , one end of the wastewater supply pipe (L3) is connected to the filtration tank (10), the other end of the wastewater supply pipe (L3) is connected to the wastewater storage tank (T1), and the first pump (P1) is connected to the wastewater supply pipe (L3). ) is installed, so that the wastewater from the wastewater storage tank (T1) is supplied to the filtration tank (10) by the first pump (P1), and the wastewater passes through the filtration unit (20) disposed inside the filtration tank (10). In the process of filtering, the filtrated water from which contaminants have been filtered is supplied to the wastewater storage tank (T1) through the first filtrated water discharge pipe (L1) and the second filtrated water discharge pipe (L2) through the wastewater filtration circulation inside the filtration tank (10). This is performed until the pressure reaches the first set pressure (eg, 5kgf/cm ² ).

In this way, the present invention supplies wastewater to the inside of the filtration tank 10 through the wastewater supply pipe L3, so that contaminants can be evenly attached to the diatomaceous earth coated on the outer perforated network 21 and the mesh network 23. , When the wastewater in the wastewater storage tank (T1) is filtered through a filtration circulation process for a certain period of time, the filtered water is discharged, and new wastewater is supplied to the wastewater storage tank (T1). Thereafter, when the internal pressure of the filtration tank 10 reaches the first set pressure (eg, 5 kgf/cm ² ) during the process of performing several wastewater filtration circulation processes, the filtration unit 20 is backwashed.

In addition, in the diatomaceous earth filter according to the present invention, for backwashing of the filtration unit 20, the first filtrated water discharge pipe (L1) and the wastewater supply pipe (L3) are connected by a bypass pipe (L4), and the first valve (V1) ) and the third valve (V3) are closed, the second valve (V2) is opened, and the filtered water from the wastewater storage tank (T1) is supplied to the inside of the filtration unit (20) by the first pump (P1), and the filtered water In the process of passing through the filtration unit 20, the clogged filtration unit 20 is cleaned, one end of the washing water discharge pipe (L5) is connected to the bottom of the filtration tank 10, and the other end of the washing water discharge pipe (L5) is filled with diatomaceous earth. It is connected to the separator (T3), and is performed until the internal pressure of the filtration tank (10) reaches the second set pressure (eg, 2 kgf/cm ² ).

In the diatomaceous earth separator (T3), the diatomaceous earth and contaminants are separated, the contaminants are separately discharged to the outside, and the diatomaceous earth is recovered into the diatomaceous earth tank (T2) through the diatomaceous earth recovery pipe (L6).

Afterwards, the diatomaceous earth filter according to the present invention performs the diatomaceous earth coating process described above and then performs the wastewater filtration process again, and when the pressure of the filtration tank 10 increases in the wastewater filtration process, a backwash process is performed. It repeats itself.

In addition, in the diatomaceous earth filter according to the present invention, the drain pipe 20 is connected to the second connection pipe 30 of the filtration unit 20, and when the fifth valve V5 of the drain pipe 20 is opened, filtration is performed. The water filled inside the unit 20 is discharged through the drain pipe 20.

Accordingly, if diatomaceous earth is mixed with the water discharged through the drain pipe 20 and discharged, the filtration unit 20 is considered damaged.

As described above, the diatomaceous earth filter according to the present invention has the following advantages.

In the diatomaceous earth coating process, diatomaceous earth can be supplied to the filtration tank 10, and the diatomaceous earth can be evenly coated on the outer perforated net 21 and the mesh net 23 of the filtration unit 20.

In the filtration process, there is an advantage that wastewater is filtered evenly throughout the filtration units 20 disposed inside the filtration tank 10.

In the backwashing process, the diatomaceous earth and contaminants degassed during the backwashing process are supplied to the diatomaceous earth separator (T3), the contaminants and diatomaceous earth are separated in the diatomaceous earth separator (T3), and the separated diatomaceous earth is supplied to the diatomaceous earth tank (T2). , there is an advantage in recycling diatomaceous earth.

10: Filtration tank L1: First filtrated water discharge pipe
20: Filtration unit L3: Wastewater supply pipe
L7: Diatomaceous earth supply pipe L8: Diatomaceous earth discharge pipe
21: outer perforated network 22: inner perforated network
23: mesh net

Claims (5)

A portion of the first filtrated water discharge pipe (L1) is introduced into the filtration tank 10, and a plurality of filtration units 20 are arranged in parallel in the first filtrated water discharge pipe (L1) introduced into the filtration tank 10. The diatomaceous earth supply pipe (L7) and the diatomaceous earth discharge pipe (L8) are connected to the filtration tank (10), and the wastewater supply pipe (L3) and washing water discharge pipe (L5) are connected to the filtration tank (10), respectively.
The filtration unit 20 has a mesh net 23 made of stainless steel disposed between a cylindrical outer perforated net 21 and a cylindrical inner perforated net 22, and the outer perforated net 21, the mesh net 23, and the inner perforated net. (22) is coupled by a plurality of rivets 24, the upper outer network connection cap 25 is connected to the upper end of the outer perforated network 21, and the lower outer network connection cap (25) is connected to the lower end of the outer perforated network 21. 26) is connected, the upper inner network connection cap 27 is connected to the upper end of the inner perforated network 22, the lower inner network connection cap 28 is connected to the lower end of the inner perforated network 22, and the mesh network ( 23) is processed so that the upper and lower ends are curved between the upper outer network connection cap (25) and the upper inner network connection cap (27) and between the lower outer network connection cap (26) and the lower inner network connection cap (28). arranged, the upper hole (25a) of the upper outer network connection cap 25, the upper hole (23a) of the mesh net 23, and the upper hole (27a) of the upper inner network connection cap 27 are aligned with each other, and the lower The lower hole (26a) of the outer network connection cap (26), the lower hole (23b) of the mesh network (23), and the lower hole (28a) of the inner network connection cap (28) are aligned with each other, and the upper outer network connection cap ( The first connection pipe 29 is connected to the upper hole 25a of 25), the first connection pipe 29 is connected to the first filtrate discharge pipe L1, and the lower hole of the lower outer network connection cap 26 The second connection pipe 30 is connected to (26a), and the diatomaceous earth supplied into the interior of the filtration tank 10 through the diatomaceous earth supply pipe L7 is attached to the outer perforated network 21 and the mesh network 23,
One end of the diatomaceous earth discharge pipe (L8) is connected to the top of the filtration tank (10), the other end of the diatomaceous earth discharge pipe (L8) is connected to the diatomaceous earth tank (T2), and one end of the diatomaceous earth supply pipe (L7) is connected to the filtration tank (10). is connected to the lower end of the diatomaceous earth supply pipe (L7), and the other end of the diatomaceous earth supply pipe (L7) is connected to the diatomaceous earth tank (T2). A second pump (P2) is mounted on the diatomaceous earth supply pipe (L7), and is mixed with water by the second pump (P2). In the process of circulating the diatomaceous earth through the diatomaceous earth tank (T2) and the filtration tank (10), diatomaceous earth is deposited on the outer perforated net (21) and mesh net (23) of the filtration unit (20) disposed inside the filtration tank (10). coated,
The first filtrated water discharge pipe (L1) is connected to the second filtrated water discharge pipe (L2), the second filtrated water discharge pipe (L2) is connected to the wastewater storage tank (T1), and one end of the wastewater supply pipe (L3) is connected to the filtration tank (10). , the other end of the wastewater supply pipe (L3) is connected to the wastewater storage tank (T1), and the first pump (P1) is mounted on the wastewater supply pipe (L3), thereby pumping the wastewater storage tank (T1) by the first pump (P1). The wastewater of T1) is supplied to the filtration tank 10, the wastewater is filtered while passing through the filtration unit 20 disposed inside the filtration tank 10, and the filtrated water from which contaminants have been filtered is sent to the first filtrated water discharge pipe. Filtration circulation of wastewater supplied to the wastewater storage tank (T1) through (L1) and the second filtrated water discharge pipe (L2) is performed until the internal pressure of the filtration tank (10) reaches the first set pressure,
The first filtrated water discharge pipe (L2) and the wastewater supply pipe (L3) are connected by a bypass pipe (L4), the first valve (V1) and the third valve (V3) are closed, and the second valve (V2) is opened. , the filtered water from the wastewater storage tank (T1) is supplied into the interior of the filtration unit (20) by the first pump (P1), and the filtered water passes through the filtration unit (20) to clean the clogged filtration unit (20). One end of the washing water discharge pipe (L5) is connected to the lower end of the filtration tank (10), the other end of the washing water discharge pipe (L5) is connected to the diatomaceous earth separator (T3), and the internal pressure of the filtration tank (10) is set to the second setting. Diatomaceous earth filter, characterized in that it is carried out until the pressure is reached.
delete delete delete According to claim 1,
In the diatomaceous earth separator (T3), the diatomaceous earth and contaminants are separated, the contaminants are discharged separately to the outside, and the diatomaceous earth is recovered into the diatomaceous earth tank (T2) through the diatomaceous earth recovery pipe (L6). A diatomaceous earth filter.

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