KR102032992B1 - Rapidity filtration equipment using wire mesh screen hot pressure welding stainless disc filter module - Google Patents

Abstract

The present invention is a rapid filtration using a wire mesh screen thermo-compression stainless steel disk filter module comprising a filter module in which a plurality of stainless steel disk filter having a uniform surface roughness is laminated by thermo-compressing a wire mesh screen on the surface of a stainless steel disk. An apparatus comprising: a raw water tank for storing raw water; A filter module for rapid filtration of raw water supplied from the raw water tank and stacking a plurality of stainless steel disc filters having a uniform surface roughness by thermocompression bonding a wire mesh screen to a surface of a stainless steel disc; It relates to a rapid filtration device using a wire mesh screen thermo-compression stainless steel disk filter module comprising a; filtrate tank for storing the filtered water passing through the filter module.

Description

Rapid filtration equipment using wire mesh screen hot pressure welding stainless disc filter module

The present invention relates to a rapid filtration device using a wire mesh screen thermocompression stainless disk filter module, and more particularly, a plurality of stainless steel disk filters having a uniform surface roughness by thermocompression bonding a wire mesh screen to a surface of a stainless steel disk. It relates to a rapid filtration device using a wire mesh screen thermocompression stainless steel disc filter module including a laminated filter module.

Water is widely used for various purposes in general living environment or industrial sites. Accordingly, the application range of water purification technology is expanding. In particular, in the treatment of domestic purified water, sewage, medicine, semiconductor water, cooling water, etc., a rapid filtration treatment method for promoting water pressure difference is widely used.

In general, water purifiers use a pretreatment filter to remove relatively large foreign substances, such as rust residues from the tube, and then use a carbon filter using activated carbon adsorption, a reverse osmosis membrane filter, a hollow fiber membrane filter, or a sterile ceramic filter. In order to ensure that drinking is suitable, minerals are preserved as much as possible, but water purification is carried out through the process of filtering bacteria or heavy metals that adversely affect health.

In addition, in the case of water used for washing the product in the industrial field, in order to prevent re-contamination of the product during the product washing process if the washing water is contaminated, the foreign material of the water is also removed by using a pretreatment filter. After that, it is used as it is, or filtered through another filter to make it suitable for washing water.

As described above, depending on the purpose, there are various filtration processes in the purified water and various kinds of filters used, but in any case, a pre-treatment filter that filters out foreign matters is necessary. Of course, the above description has been made with an example of purified water, but in the case of filtering various fluids such as oil, chemicals, steam, etc., a pretreatment filter for removing foreign substances as described above is required.

As a material of such a pretreatment filter, a material made of porous material is used so that particles of a predetermined size or more can be filtered out and the fluid can escape. For example, a nonwoven fabric, a ceramic, or the like is used.

It is well known that foreign matters removed in the process of removing foreign matters eventually accumulate in the pretreatment filter, and thus the pretreatment filter is degraded as it is used longer. Accordingly, in most devices, the pretreatment filter is replaced every predetermined period. However, since the pretreatment filter needs to be frequently replaced in this manner, a waste of time, manpower, and cost occurs.

In this regard, the present applicant has developed a stainless disk filter in which a plurality of stainless disks are stacked in order to use the filter semi-permanently in Korean Patent No. 1193206. In the stainless disk filter of the Korean Patent No. 1193206, the filtration is performed by the flow of the fluid in the forward direction while the stainless disk stack is compressed. On the contrary, when the fluid flows in the reverse direction, the compression of the stack is released, so that the gap between the stainless disks is reduced. Naturally, the backwash of the foreign matter is naturally performed, and it is possible to easily regenerate through backwashing by simply changing the direction of the fluid flow. Therefore, unlike the conventional pretreatment filter, there is no need for replacement. It saves time, manpower, and money.

However, if the conventional stainless steel disks are stacked without a surface treatment, water cannot be introduced into the disk surface due to the water film phenomenon, and thus cannot serve as a filter at all. Thus, scratches are formed on the surface of the stainless steel disk to allow water to flow into the pores due to scratches. The scratches are manually ground by the operator and the product quality is different for each disk. There was a problem of poor product competitiveness.

Korean Patent No. 1193206

The present invention has been made in order to solve the above problems, a wire comprising a filter module laminated a plurality of stainless steel disk filter having a uniform surface roughness by thermocompression bonding the wire mesh screen on the surface of the stainless steel disk An object of the present invention is to provide a rapid filtration device using a mesh screen thermocompression stainless disk filter module.

The present invention and raw water tank for storing the raw water in order to solve the above problems; A filter module for rapid filtration of raw water supplied from the raw water tank and stacking a plurality of stainless disc filters having a uniform surface roughness by thermocompression bonding a wire mesh screen to a surface of a stainless steel disc; The filtration water tank for storing the filtration water passing through the filter module; a rapid filtration device using a wire mesh screen thermocompression stainless disk filter module comprising a solution to the problem.

The filter module has a wire mesh screen disposed on the surface of the stainless steel thin plate and the bonding sheet is interposed between the stainless steel sheet and the wire mesh screen, and the stainless steel sheet and the wire mesh screen are thermocompressed so that the wire mesh screen has the surface of the stainless steel sheet. The wire mesh screen is cut to form a disk for filtration by cutting the stainless steel plate to which the wire mesh screen is attached, and a plurality of the cut filtration disks are stacked to feed the raw water along the pores formed by the wire mesh screen. It is to solve the problem.

The bonding sheet is a nickel material, the thermocompression temperature is 1200 to 1300 ℃ as a solution to the problem.

The filter module is a solution to the problem that the filtered water is supplied from the filtered water tank, backwashed and regenerated.

According to the present invention as described above, as the bonding sheet of the nickel material is thermocompression-melted, the screen mesh screen is adhered to the upper surface of the stainless steel sheet to laminate a plurality of stainless disks having a uniform roughness along the pores formed by the wire mesh screen. The filter can be used semi-permanently by allowing the filtration to be carried out as the fluid is transferred, thereby reducing the operating cost of the rapid filtration device because the cost of the filter replacement is not generated.

1 is a configuration diagram showing the overall configuration of the rapid filtration apparatus according to the present invention
2 is a process of forming a stainless disk filter module according to the present invention
3 is a detailed structural diagram of a stainless disk filter module according to the present invention

The present invention is a raw water tank for storing raw water; A filter module for rapid filtration of raw water supplied from the raw water tank and stacking a plurality of stainless steel disc filters having a uniform surface roughness by thermally compressing a wire mesh screen on a surface of a stainless steel disc; It is characterized in that the rapid filtration device using a wire mesh screen thermo-compression stainless disk filter module comprising a; and a filtrate tank for storing the filtered water passing through the filter module.

The filter module has a wire mesh screen disposed on the surface of the stainless steel thin plate and the bonding sheet is interposed between the stainless steel sheet and the wire mesh screen, and the stainless steel sheet and the wire mesh screen are thermocompressed so that the wire mesh screen has the surface of the stainless steel sheet. The wire mesh screen is cut to form a disk for filtration by cutting the stainless steel plate to which the wire mesh screen is attached, and a plurality of the cut filtration disks are stacked to feed the raw water along the pores formed by the wire mesh screen. It is characterized by the technical configuration.

The bonding sheet is a nickel material, the thermocompression temperature is characterized in that the technical configuration of 1200 to 1300 ℃.

The filter module is a technical configuration that is supplied by the filtered water from the filtered water tank, backwashed and regenerated.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

First, the rapid filtration device using a wire mesh screen thermocompression stainless disk filter module of the present invention comprises: a raw water tank for storing raw water; A filter module for rapid filtration of raw water supplied from the raw water tank and stacking a plurality of stainless disc filters having a uniform surface roughness by thermocompression bonding a wire mesh screen to a surface of a stainless steel disc; It is configured to include; filtrate tank for storing the filtered water passed through the filter module.

1 is a configuration diagram showing the overall configuration of a rapid filtration apparatus according to the present invention. Referring to Figure 1, the rapid filtration device using a wire mesh screen thermocompression stainless disk filter module of the present invention comprises a raw water tank 100 for storing raw water; A filter module for stacking a plurality of stainless disk filters having a uniform surface roughness by thermally compressing a wire mesh screen on a surface of a stainless steel disk to rapidly filter raw water supplied from the raw water tank; It is configured to include; filtrate tank 300 for storing the filtered water passed through the filter module.

In this case, the filter module is a wire mesh screen is placed on the surface of the stainless steel thin plate and the bonding sheet between the stainless steel plate and the wire mesh screen, the stainless steel plate and the wire mesh screen is thermally compressed to the wire mesh screen is the stainless steel Pressed on the surface of the thin plate and cut the stainless steel plate to which the wire mesh screen is attached to form a filtration disk, and by stacking a plurality of the cut filtration disk, the raw water is transported along the pores formed by the wire mesh screen What is done is a key component.

That is, looking at the manufacturing process of the filter module 200 is as follows. 2 is a process diagram for forming a stainless disk filter module according to the present invention, Figure 3 is a detailed structural diagram of a stainless disk filter module according to the present invention.

Referring to FIGS. 2 to 3, a stainless steel wire mesh screen 20 is disposed on a stainless steel thin plate 10 having a predetermined thickness, and the thin plate 10 and the wire mesh screen ( 20) sandwiching the bonding sheet 30 made of nickel.

Here, the wire mesh screen 20 is formed of a mesh woven with a warp and weft of a certain thickness. In addition, the thickness of the thin plate 10 and the wire mesh screen 20 is an important factor that determines the degree of pore at the time of filtration of the disk filter and the flow rate that can be processed when the disk is laminated, and can be manufactured in various thicknesses according to the specifications of the disk filter. Can be.

Next, the thin plate 10 and the wire mesh screen 20 are thermo-compressed at a predetermined temperature so that the wire mesh screen 20 is thermo-compressed on the surface of the thin plate 10 and the wire mesh screen 20 is attached to stainless steel. The thin plate 10 is cut to form a disk for filtration, and the filter module 200 is manufactured by stacking a plurality of the cut filtration disks.

In this case, the thermocompression bonding is performed at a temperature of 1200 to 1300 ° C. to allow the wire mesh screen 20 to be fused to the stainless steel sheet 10 by the nickel bonding sheet 30.

In addition, when the stainless thin plate 10 is cut to form a filtration disk, the thin plate 10 is formed to form a donut-shaped filtration disk 110 by laser cutting or pressing.

In addition, the filter module 200 of the present invention is formed by stacking a plurality of cut filter disk 110 in the core 120 formed in the longitudinal direction, and fixed to the upper and lower cap 130, the filter module formed as described above In addition to the form described above as one form of production, it may be used by laminating in various forms.

In the filter module 200 according to the present invention, the filtration is performed while the fluid is transported along the pores formed by the wire mesh screen 20, and each of the filtration disks 110 is made of stainless steel, so that the filter life is long. Wire mesh screen 20 of the same standard is applied to have a uniform filtering effect.

In addition, the filter module 200 of the present invention has the advantage that can be recycled by supplying, backwashing the filtered water from the filtered water tank (300).

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Accordingly, the drawings disclosed in the present invention are not intended to limit the technical idea of the present invention but to explain the present invention, and the scope of the technical idea of the present invention is not limited thereto. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10: sheet 20: wire mesh screen
30: bonding sheet 100: raw water tank
110: filtration disk 120: core
130: cap 200: filter module
300: filtered water tank

Claims (4)

A raw water tank for storing raw water; A filter module for rapidly filtering raw water supplied from the raw water tank and stacking a plurality of stainless disk filters having a uniform surface roughness by thermocompression bonding a wire mesh screen to a surface of a stainless steel disk; Including; Filtrate tank for storing the filtered water passed through the filter module;
The filter module has a wire mesh screen disposed on the surface of the stainless steel thin plate and the bonding sheet is interposed between the stainless steel plate and the wire mesh screen, and the stainless steel sheet and the wire mesh screen are thermocompressed so that the wire mesh screen has the surface of the stainless steel sheet. It is pressed to the wire mesh screen attached to cut the stainless steel plate is formed into a filtration disk, and the plurality of the cut filtration disk is laminated by filtration is carried out while the raw water is transported along the pores formed by the wire mesh screen ,
The bonding sheet is made of nickel, the thermal compression temperature is 1200 to 1300 ℃ rapid filtration device using a wire mesh screen thermo-compression stainless disk filter module, characterized in that
delete delete The method of claim 1,
The filter module is a rapid filtration device using a wire mesh screen thermo-compression stainless disk filter module, characterized in that the filtered water is regenerated by supplying the filtered water from the filtrate tank.

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