KR20200101144A - Exchange membrane having fluid path/Water treatment filter/Water purifying device - Google Patents

Abstract

The present invention relates to a water purification apparatus for water treatment using an ion exchange membrane having a flow path. Specifically, the present invention comprises: a first ion exchange membrane (100) having a rectangular sheet shape and formed with a plurality of widthwise first passage grooves (110) formed on one surface thereof; a second ion exchange membrane (200) having a rectangular sheet shape and formed with a plurality of longitudinal third passage grooves (210) formed on one surface thereof; and a contact surface (400) to which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact with each other.

Description

Exchange membrane having fluid path/Water treatment filter/Water purifying device}

The present invention is an invention of a water purification apparatus for water treatment using an ion exchange membrane having a flow path.

Patent Invention 001 relates to a filter for a water treatment device, wherein an inlet through which water is introduced and a discharge port through which water is discharged are formed, and a chamber having an internal space communicating with the inlet and the discharge port, and a plurality of layers in the internal space of the chamber And, the anode and the cathode are formed alternately, and the outlet communicating with the discharge port includes an electrode part perforated parallel to the stacking direction, wherein the inner space of the chamber is a plurality of spaced apart from the inner surface of the chamber in which the inlet is formed. Divided into a retention space and a filtering space by the separation wall of, the water introduced into the retention space through the inlet is introduced into the filtering space through a plurality of passages formed between the separation walls, and electrodes accommodated in the filtering space. It suggests that water is evenly supplied to the whole area of wealth.

Patent Invention 002 relates to a bipolar ion exchange composite membrane, comprising a cation exchange resin membrane formed on one side of a water decomposition catalyst layer and an anion exchange resin membrane formed on the other side, and a porous cation exchange sheet and the anion exchange on the cation exchange resin membrane. A porous anion exchange sheet is formed on the resin film. In addition, forming an anion exchange resin film, forming a water decomposition catalyst layer on the anion exchange resin film, forming a cation exchange resin film on the water decomposition catalyst layer, removing a substrate to prepare a bipolar film, and the cation A configuration including a step of forming a porous cation exchange sheet on the exchange resin membrane and forming a porous anion exchange sheet on the anion exchange resin membrane to prepare a bipolar ion exchange composite membrane is proposed.

Patent Invention 003 relates to a filter module for a water treatment device and a water treatment device including the same, comprising a plurality of activated carbon fiber layers that are made of activated carbon fibers and are stacked in parallel with each other, and a plurality of activated carbon fiber layers that are inserted to prevent a short between the activated carbon fiber layers. And a pair of current collectors connected to one or the other end of the stacked plurality of activated carbon fiber layers, and the activated carbon fiber layer through the current collector so that the adjacent activated carbon fiber layers alternately form a positive electrode and a negative electrode. It is proposed to include an activated carbon fiber filter formed by stacking at least one activated carbon fiber filter unit including a power supply means for supplying electric current to the device.

Patent Invention 004 relates to a filter for a water treatment device and a water treatment device including the same, a current collector, and a plurality of activated carbon coating layers formed by applying activated carbon to one or both sides of the current collector and having irregularities formed on the surface. An activated carbon electrode, an insulating spacer inserted between the activated carbon electrodes to prevent a short circuit, a plurality of electrode plates connected to one end or the other end of the stacked plurality of activated carbon electrodes, and adjacent activated carbon electrodes alternate between the positive and negative electrodes. It is proposed a configuration including a power supply means for supplying a current to the activated carbon electrode through the electrode plate so as to form a thin film.

KR 10-2018-0082251 A (Publication date July 18, 2018) KR 10-1746591 B1 (Registration date June 7, 2017) KR 10-2018-0066665 A (Publication date June 19, 2018) KR 10-2018-0076768 A (Publication date July 6, 2018)

The present invention is an invention of a water purification apparatus for water treatment using an ion exchange membrane having a flow path.

The present invention is the invention of the ion exchange membrane 10 having a flow path, specifically a rectangular sheet shape, a first ion exchange membrane 100 having a plurality of width direction first channel grooves 110 formed on one side;, a rectangular sheet shape And a second ion exchange membrane 200 having a plurality of longitudinal third channel grooves 210 formed on one side thereof; and a contact surface 400 in which the other side of the first ion exchange membrane and one side of the second ion exchange membrane are in contact with each other; It consists of a composition.

The present invention is an invention for an ion exchange membrane having a flow path pattern, specifically rectangular sheet shape, a plurality of width direction first flow channel grooves 110 are formed on one surface, and a plurality of longitudinal second flow channel grooves 120 on the other surface. ) Formed first ion exchange membrane 100;, a rectangular sheet-shaped second ion exchange membrane 200;, a contact surface 400 in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact; Consists of

The present invention is an invention of an ion exchange membrane having a flow path pattern, specifically, a rectangular sheet shape, a first ion exchange membrane 100 having a plurality of widthwise first flow channel grooves 110 formed on one surface thereof;, A rectangular sheet-shaped agent 2 ion exchange membrane 200;, a separator 300 in which the other side of the first ion exchange membrane and one side of the second ion exchange membrane are in contact with both end surfaces.

The present invention is an invention for an ion exchange membrane having a flow path pattern, specifically a rectangular sheet shape, a first ion exchange membrane 100 in which a plurality of width direction first flow channel grooves 110 are formed on one surface;, It is a rectangular sheet shape, A second ion exchange membrane 200 having a plurality of longitudinal fourth channel grooves 220 formed on the other side; a separator 300 in which the other side of the first ion exchange membrane and one side of the second ion exchange membrane are in contact with each other;, both sides Consists of a configuration including; a contact surface 400 in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact with each other.

The present invention is an invention of an ion exchange membrane, and in the above-mentioned invention, the first flow channel, the second flow channel, the third flow channel, and the fourth flow channel are formed in the same or different shape; .

The present invention is an invention for the water treatment filter 20, specifically cylindrical and external case 810 having a raw water inlet 801 on one side and a purified water outlet 802 and a concentrated water outlet 803 on the other side;, An inner case 820 located inside the case and in communication with the concentrated water outlet; wound between the inner case and the outer case, one side communicates with the inner case, and the ion exchange membrane 10 of Example 5-1 ;, power supply units 831 and 832 respectively positioned on the inner periphery of the outer case and the outer periphery of the inner case, respectively supplying DC power.

The present invention is an invention of the water purification device 30, specifically, a body 910 in which the water treatment filter 20 of Example 6-1 is accommodated therein; one side communicates with the raw water inlet of the water treatment filter, and the other side A raw water supply pipe 921 communicating with the outside of the body; One side communicating with the purified water outlet, and the other side communicating with the nozzle 922 outside the body; consists of a configuration comprising a.

In the present invention, unlike the conventional ion exchange membrane water purifying apparatus, since the ion exchange process is performed without polar change of the electrode, it enables the water purification in real time. In the present invention, raw water passes through a plurality of flow paths formed in the ion exchange membrane, and since the ion exchange process is performed during the passage process, the ion exchange flow rate is increased. Since the water treatment filter of the present invention is formed by rolling an ion exchange membrane, a high water treatment effect can be exhibited in a small space. The ion exchange membrane channel groove of the present invention has an effect of improving productivity because a channel is generated during an extrusion process or a casting process.

1 is a perspective view of an ion exchange membrane of the present invention.
2 is a perspective view of an ion exchange membrane according to various embodiments of the present invention.
3 is an exploded perspective view of the water treatment filter of the present invention.
4 is a cross-sectional view of the water treatment filter of the present invention.
5 is a cross-sectional view of a water treatment filter and a water purification device of the present invention.

Hereinafter, in order to describe in detail enough that a person of ordinary skill in the art can easily implement the present invention, a most preferred embodiment of the present invention will be described in detail.

The numbers cited in the following examples are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the examples corresponds to an equal substitution object. The upper concept presented in the examples includes the lower concept object that is not described.

[Embodiment 1-1] The present invention is an invention of an ion exchange membrane 10 having a flow path, specifically in the shape of a rectangular sheet, and a first ion exchange membrane having a plurality of first flow path grooves 110 in the width direction on one side ( 100);, A second ion exchange membrane 200 having a rectangular sheet shape and having a plurality of longitudinal third channel grooves 210 formed on one surface thereof;, a contact surface in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane contact (400); consists of a configuration including.

In the present invention, two ion exchange membrane sheets are in contact. Each sheet is formed of a cation exchange membrane or an anion exchange membrane. Each ion exchange membrane is characterized in that a plurality of grooves are formed, but each is formed in a different direction. The first ion exchange membrane forms grooves in the width direction, and the second ion exchange membrane forms grooves in the length direction. When two ion exchange membranes are joined, the first channel groove is formed on one surface of the ion exchange membrane, and the third channel groove is formed in the middle of the ion exchange membrane.

[Example 2-1] The present invention is an invention of an ion exchange membrane having a flow path pattern, specifically in the shape of a rectangular sheet, a plurality of first flow path grooves 110 in the width direction are formed on one surface, and a plurality of lengths on the other surface A first ion exchange membrane 100 in which a second direction channel groove 120 is formed;, a second ion exchange membrane 200 in a rectangular sheet shape; and a contact surface in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact ( 400); consists of a configuration including.

The present invention forms a form similar to that of Example 1-1. However, the groove is formed only in one ion exchange membrane, and the groove is not formed in the other ion exchange membrane. In the ion exchange membrane with grooves, grooves on both sides are formed in different directions. When two ion exchange membranes are bonded together, as in Example 1-1, a first channel groove is formed on one surface of the ion exchange membrane, and a second channel groove is formed in the middle of the ion exchange membrane.

[Embodiment 3-1] The present invention relates to an ion exchange membrane having a flow path pattern, specifically a rectangular sheet, and a first ion exchange membrane 100 having a plurality of first channel grooves 110 in the width direction on one surface thereof. ;, a second ion exchange membrane 200 in the shape of a rectangular sheet; and a separator 300 in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact with both end surfaces.

The final shape of the present invention forms a shape similar to that of Example 1-1. However, the groove is formed only in one ion exchange membrane, and the groove is not formed in the other ion exchange membrane. Instead, a separator was formed between the two ion exchange membranes, thereby exerting the same effect as the third flow channel groove of Example 1-1. That is, the first channel groove is formed on one surface of the ion exchange membrane, and the separator is positioned between each ion exchange membrane to form a separate channel.

[Embodiment 4-1] The present invention relates to an ion exchange membrane having a flow path pattern, and specifically, a first ion exchange membrane 100 having a rectangular sheet shape and having a plurality of first channel grooves 110 in the width direction on one surface thereof. ;, a second ion exchange membrane 200 having a rectangular sheet shape and having a plurality of longitudinal fourth channel grooves 220 formed on the other surface;, the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact with each other The separator 300;, a contact surface 400 in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact with each other at both corners.

In the final shape of the present invention, unlike the above-described embodiments, flow paths (first flow passage and fourth flow passage) formed in the same direction are formed on both ends of the ion exchange membrane. In addition, a separator is attached between each ion exchange membrane to form a separate flow path.

[Example 4-2] The present invention relates to an ion exchange membrane having a flow path pattern, and in any one selected from Examples 1-1 to 4-1, the first ion exchange membrane comprises a cation resin powder and a cation It is formed by mixing an exchange solution, and the second ion exchange membrane is formed by mixing an anion resin powder and an anion exchange solution.

Examples 1-1 to 4-1 are inventions for an ion exchange membrane. The ion exchange membrane contacts the cation exchange membrane and the anion exchange membrane, and raw water flows along the grooves in the cation exchange membrane and/or the anion exchange membrane in an orthogonal direction. Raw water is separated into anions or cations during the process of moving along the groove. Water (purified water) desalted by ion separation flows along the grooves formed on the outer surface of the ion exchange membrane, and the concentrated water flows through the grooves (second flow channel, third flow channel, separator) formed on the contact surface of the anion exchange membrane and the cation exchange membrane. . One surface of the first ion exchange membrane and the second ion exchange membrane is in contact with each other. The present invention has the effect of purifying raw water without pole conversion of the electrode, and has the effect of separating purified water and concentrated water in real time. The first ion exchange membrane is prepared by mixing a cation resin powder and a cation exchange solution, and separates electrolyzed anions. On the other hand, the second ion exchange membrane is prepared by mixing anion resin powder and an anion exchange solution, and separates electrolyzed cations and anions. The first to fourth channel grooves are intended to facilitate the flow of raw water through the first ion exchange membrane and the second ion exchange membrane. Specifically, the separator, the second channel groove, and the third channel groove formed on the contact surface facilitate the flow of concentrated water, and the first and fourth channel grooves facilitate the flow of purified water.

[Example 5-1] The present invention relates to an ion exchange membrane, and in any one selected from Examples 1-1 to 4-1, the first flow channel groove, the second flow channel groove, and the third flow channel groove , The fourth channel groove is formed in the same or different shape; includes.

[Example 5-2] The present invention relates to an ion exchange membrane, and in Example 5-1, the first flow path groove, the second flow channel groove, the third flow channel groove, or the fourth flow channel groove are polygonal, semicircular, or It includes; formed in any one shape selected from the semi-ellipse.

[Example 5-3] The present invention relates to an ion exchange membrane, and in Example 5-1, the first flow channel, the second flow channel, the third flow channel, or the fourth flow channel is a straight line or a curved line. Formed; includes.

The first to fourth flow path grooves are passages through which raw water, purified water, or concentrated water flows. In order to improve the flowability of the flow or to widen the contact surface, the channel grooves are formed in various shapes. That is, it may be formed in any one shape selected from polygonal, semicircular, and semi-elliptical, or two or more shapes may be combined. To extend the length of the flow path, the flow path may be formed in a curved shape.

[Example 5-4] The present invention relates to an ion exchange membrane, and in Example 5-1, the first passage groove, the second passage groove, the third passage groove, or the fourth passage groove is extruded during an extrusion process. The mold 500 is formed in the shape of the outlet 510; includes.

[Example 5-5] The present invention relates to an ion exchange membrane, and in Example 5-1, the first passage groove, the second passage groove, the third passage groove, or the fourth passage groove was subjected to extrusion or casting. After the process, it is formed by pressing in the shape of the protrusion 610 of the roller 600; includes.

[Example 5-6] The present invention relates to an ion exchange membrane, and in Example 5-1, the first passage groove, the second passage groove, the third passage groove, or the fourth passage groove was subjected to extrusion or casting. After the process, the groove shape is processed by the scraper 700; includes.

The ion exchange membrane is manufactured by an extrusion method or a casting method. The flow path grooves may be formed at the same time in the ion exchange membrane manufacturing stationary or may form a flow path groove on the surface of the flat ion exchange membrane. Specifically, the mixed ion exchange material passes through the extrusion mold, and a cross-sectional shape is formed according to the shape of the outlet of the extrusion mold. That is, by forming a plurality of protrusions on the surface of the outlet, it is possible to form a groove during ion exchange membrane formation. In addition, after the extrusion mold or casting, the surface of the ion exchange membrane in the form of a rectangular sheet is pressed with the roller, and a groove can be formed by the protrusion of the roller surface. In another embodiment, the surface of the dried ion exchange membrane may be cut with a scraper to process the groove.

[Embodiment 6-1] The present invention is an invention for a water treatment filter 20, and specifically cylindrical in shape, and a raw water inlet 801 on one side and a purified water outlet 802 and concentrated water outlet 803 on the other side. An outer case 810;, an inner case 820 located inside the case and in communication with the concentrated water outlet;, wound between the inner case and the outer case, and one side communicates with the inner case, Example 5 The ion exchange membrane 10 of 1;, power supply units 831 and 832 respectively positioned on the inner periphery of the outer case and the outer periphery of the inner case, respectively supplying DC power.

The present invention is an invention for a water treatment filter. Using the ion exchange membrane shown in Examples 1-1 to 5-1, raw water is purified, and concentrated water and purified water are separated. Specifically, two cases are coupled to the inner and outer positions, and an ion exchange membrane is wound in a double layer between the two cases and installed. The raw water injected into the raw water inlet of the case flows along the channel groove, and is ion-separated by the electrode during the flowing process, and the purified water and concentrated water separated by ion are separated and discharged.

[Example 6-2] The present invention relates to a water treatment filter, and in Example 6-1, a first valve 841 positioned at the purified water outlet; and a second valve positioned at the concentrated water outlet ( 842);, a third valve 843 located at the raw water inlet;, a controller 844 that measures the flow rates of the first valve and the second valve, and operates the third valve.

[Example 6-3] The present invention relates to a water treatment filter, and in Example 6-1, a drain pipe 845 coupled to the concentrated water outlet is included.

[Example 6-3] The present invention relates to a water treatment filter, and in Example 6-1, a concentrated water guide hole 821 formed through the inner case is included.

The flow rate of the raw water input to the water treatment filter should be the same as the flow rate of the concentrated water and purified water discharged. In order to control this, first and second valves are installed at the purified water outlet and the concentrated water outlet, respectively, and a third valve is installed at the raw water inlet. Each valve is controlled by a controller to keep the input and discharge flow rates the same. When the supply flow rate is large, the water pressure inside the filter is high, and when the discharge flow rate is large, a negative pressure is formed inside the filter. After ion exchange, the discharged concentrated water is separately discharged through a drain pipe.

[Embodiment 7-1] The present invention is an invention for a water purification device 30, and specifically, a body 910 in which the water treatment filter 20 of Example 6-1 is accommodated;, one side of the water treatment filter A raw water supply pipe 921 communicating with the raw water inlet and the other side communicating with the outside of the body;, a purified water discharge pipe 923 having one side communicating with the purified water outlet and the other side communicating with the nozzle 922 outside the body; It consists of a configuration.

[Embodiment 7-2] The present invention relates to a water purification device, and in Embodiment 7-1, the water treatment filter is formed in one or more than one.

[Embodiment 7-3] The present invention is an invention for a water purifying device, and in Embodiment 7-1, a first valve 841 positioned at the water outlet;, formed outside the body, the first valve operates It includes; a controller 844 that controls.

The present invention is an invention for a water purification device incorporating the water treatment filter presented above. The body forms the outer shape of the water purification device, and a water treatment filter is accommodated in the body. In order to supply raw water to the water treatment filter, the raw water supply pipe is connected to the inside of the body and coupled to the raw water inlet. On the other hand, the concentrated water and purified water separated from the water treatment filter are separately discharged, and the purified water is communicated to the nozzle through the purified water discharge pipe. On the other hand, concentrated water is discharged to the outside through a drain pipe. The purified water discharge pipe is equipped with a switch, and the discharge flow rate is changed by the user's operation. That is, the first valve is characterized in that it is coupled to the switch. The water treatment filter accommodated in the body is coupled to the body by a fastening means, and the fastening means exists for filter replacement. It may be fitted by means of specific means, coupled by an elastic body, or coupled by a fastener. In another embodiment, the purified water discharge pipe may pass through a temperature variable. The temperature variable may increase or decrease the temperature of the purified water in the purified water discharge pipe, and a conventional temperature generator is used. The temperature generating device may be heated using an electric heater, a Teltier element, or the like, or cooled by a refrigerating device. The temperature variable can control the required temperature by the operation of the controller presented above. A plurality of water treatment filters may be installed inside the body. When a plurality of water treatment filters are installed, the variable range of the flow rate can be extended. In another embodiment, a plurality of nozzles may be formed from one body, and the nozzles may be connected through an expansion tube. That is, nozzles can be mounted at various positions of use, and each nozzle is operated by an individual switch. The individual switch has the effect of providing a signal to the controller to separately control the opening of the expansion tube at the switch operating part.

10: ion exchange membrane 20: water treatment filter
30: water purification device 100: first ion exchange membrane
110: first euro home 120: second euro home
200: second ion exchange membrane 210: third channel groove
220: fourth flow groove 300: separator
400: contact surface 500: extrusion mold
510: outlet 600: roller
610: protrusion 700: scraper
801: raw water inlet 802: purified water outlet
803: concentrated water outlet 810: external case
820: inner case 821: concentrated water induction hole
831, 832: power supply unit 841: first valve
842: second valve 843: third valve
844: controller 845: drain pipe
910: body 921: raw water supply pipe
922: nozzle 923: purified water discharge pipe

Claims (7)

In the ion exchange membrane 10 having a flow path,
A first ion exchange membrane 100 having a rectangular sheet shape and having a plurality of widthwise first channel grooves 110 formed on one surface thereof;,
A second ion exchange membrane 200 having a rectangular sheet shape and having a plurality of longitudinal third channel grooves 210 formed on one surface thereof;,
An ion exchange membrane having a flow path comprising a; a contact surface 400 contacting the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane.
In the ion exchange membrane having a flow path pattern,
It is a rectangular sheet shape, and a plurality of widthwise first flow channel grooves 110 are formed on one surface thereof,
A first ion exchange membrane 100 having a plurality of second longitudinal channel grooves 120 formed on the other surface;,
Rectangular sheet-shaped second ion exchange membrane 200;,
An ion exchange membrane having a flow path pattern comprising; a contact surface 400 contacting the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane.
In the ion exchange membrane having a flow path pattern,
A first ion exchange membrane 100 having a rectangular sheet shape and having a plurality of widthwise first channel grooves 110 formed on one surface thereof;,
Rectangular sheet-shaped second ion exchange membrane 200;,
Ion exchange membrane having a flow path pattern comprising a; separator 300 in which the other surface of the first ion exchange membrane and one surface of the second ion exchange membrane are in contact with each other on both ends.
In the ion exchange membrane having a flow path pattern,
A first ion exchange membrane 100 having a rectangular sheet shape and having a plurality of widthwise first channel grooves 110 formed on one surface thereof;,
A second ion exchange membrane 200 having a rectangular sheet shape and having a plurality of fourth longitudinal channel grooves 220 formed on the other surface thereof;,
A separator 300 in which the other surface of the first ion exchange membrane and the other surface of the second ion exchange membrane are in contact with both end surfaces;,
Ion exchange membrane having a flow path pattern comprising a; contact surface 400 at both corners of the first ion exchange membrane and the other surface of the second ion exchange membrane in contact.
The method according to any one of claims 1 to 4,
The first flow channel groove, the second flow channel groove, the third flow channel groove, and the fourth flow channel groove are formed in the same or different shapes.
In the water treatment filter 20,
An outer case 810 having a cylindrical shape and having a raw water inlet 801 on one side and a purified water outlet 802 and a concentrated water outlet 803 on the other side;,
An inner case 820 located inside the case and in communication with the concentrated water outlet;,
It is wound between the inner case and the outer case, one side is in communication with the inner case, the ion exchange membrane 10 of Example 5-1;,
A water treatment filter including a power supply unit (831, 832) positioned at the inner periphery of the outer case and the outer periphery of the inner case, respectively, respectively supplying DC power.
In the water purification device 30,
Body 910 in which the water treatment filter 20 of Example 6-1 is accommodated therein;,
A raw water supply pipe 921 having one side communicating with the raw water inlet of the water treatment filter and the other side communicating with the outside of the body;,
A water purifying apparatus comprising: a purified water discharge pipe 923 having one side communicating with the purified water outlet and the other side communicating with the nozzle 922 outside the body.

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