KR101750056B1 - Water purifying device for seawater in salt pond - Google Patents

Abstract

The present invention relates to a water treatment system comprising: a state conversion unit installed in a supply pipe to which seawater is supplied and converting a hardness component contained in seawater into a mucus state; A first integer part which is passed through the state converting part and is discharged with seawater and is filtered by a hardness component; A second integer part that receives the seawater passing through the first purified water part and is filtered by the hardness component again; And a pump installed between the first integer part and the second integer part and providing a supply pressure for supplying seawater along the supply line, wherein the second integer part comprises: a cabinet having an inlet and an outlet; A partition panel partitioning the cabinet so that the inlet and the outlet are located in different spaces and having a plurality of through holes; And a far-infrared filter member installed in a support hole portion protruding from the through-hole portion and filtering the foreign substances contained in seawater supplied through the inlet.

Description

{WATER PURIFYING DEVICE FOR SEAWATER IN SALT POND}

More particularly, the present invention relates to a seawater purification apparatus for salt, and more particularly, to a seawater purification apparatus for salt, which is capable of producing a clean salt by forming a slime form of a hardness component contained in seawater, And more particularly, to a salt-purified water purification apparatus capable of more effectively removing foreign matter contained in seawater.

In general, sun salt is a salt made by collecting salt crystals formed by evaporation of water in sunlight and wind by trapping seawater in salt water, and it is widely used to make kimchi kimchi and soak various kinds of soup.

The above-mentioned sun-dried salt is sent to the evaporation paper when the seawater is introduced into the reservoir at the time of the high tide, and dried by the solar heat and the wind. When the salinity is about 20%, the salt is precipitated by raking the salt with rake- Carry to warehouse and keep. These operations are repeatedly carried out, and when a certain amount of salt is collected in the storage warehouse, it is packed and shipped.

The above-described conventional sun-dried salt produces a variety of products having different salinity and mineral contents as well as different components depending on the climatic conditions (temperature, wind speed, sunshine) on the day of production, Other products can not be stored selectively.

In addition, not only the various kinds of impurities are contained in the sun salt produced by the conventional method, but also the components beneficial to the human body are extracted by the wastewater.

In order to solve the above-mentioned problem, a water purifier for filtering foreign matters contained in seawater supplied before the salt is installed. The water purifier according to the prior art is provided with a plurality of filter members to filter foreign matter contained in seawater.

The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2012-0056173 (published on Jun. 01, 2012;

There is a problem that the time and cost required for replacing a plurality of filter members can not be reduced and a hard material contained in seawater can not be effectively removed.

Therefore, there is a need for improvement.

In the present invention, the hardness component contained in the seawater supplied to the tide is formed into a slime shape to produce clean salt, the filter member can be easily replaced, and the foreign matter contained in the seawater can be easily removed. And to provide a salt-only water purification apparatus capable of effectively removing salt.

The present invention relates to a water treatment system comprising: a state conversion unit installed in a supply pipe to which seawater is supplied and converting a hardness component contained in seawater into a mucus state; A first integer part which is passed through the state converting part and is discharged with seawater and is filtered by a hardness component; A second integer part that receives the seawater passing through the first purified water part and is filtered by the hardness component again; And a pump installed between the first integer part and the second integer part and providing a supply pressure for supplying seawater along the supply line, wherein the second integer part comprises: a cabinet having an inlet and an outlet; A partition panel partitioning the cabinet so that the inlet and the outlet are located in different spaces and having a plurality of through holes; And a far-infrared filter member installed in a support hole portion protruding from the through-hole portion and filtering the foreign substances contained in seawater supplied through the inlet.

Further, the far infrared ray filter member of the present invention comprises: a filter pillar member including a mesh member, which is installed in the partition panel with the support hole portion inserted therein; And a fiber member which surrounds the filter column member and filters the foreign substances contained in the seawater.

In addition, a plurality of the filter column member and the fiber member of the present invention are alternately arranged and have a cylindrical shape.

The salt-extinguishing water purifying device according to the present invention is characterized in that, prior to the seawater passing through the purified water portion, the hardness component composed of calcium and magnesium is converted into the mucilaginous state while passing through the state converting portion for converting the hardness component contained in the seawater into the slime state, There is an advantage that it can be effectively filtered.

Further, the salt-dedicated seawater purification device according to the present invention can prevent the seawater from being lost at intervals between the end portions of the filter member without passing through the filter member by pressing the filter member, and the restraint of the filter member can be easily released The water purification efficiency can be improved and the time and cost required for replacing the filter member can be reduced.

1 is a perspective view illustrating a salt water purification apparatus according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view showing an integer part of a salt-water-purification apparatus for salt according to an embodiment of the present invention.
3 is a cross-sectional view illustrating an integer part of a salt water purification apparatus according to an embodiment of the present invention.
4 is a cross-sectional view illustrating an operating state of a pressurizing and fixing unit of a salt-exclusively used salt water purification apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a salt water purifying apparatus according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view illustrating a salt water purification apparatus according to an embodiment of the present invention, FIG. 2 is an exploded perspective view illustrating a water purification unit of a salt-only water purification apparatus according to an embodiment of the present invention, 4 is a cross-sectional view illustrating an operation state of a pressurizing and fixing unit of a salt-only seawater purification apparatus according to an embodiment of the present invention.

1 to 4, a salt-specific water treatment plant according to an embodiment of the present invention includes a state-of-charge converting unit (not shown) installed in a supply pipe 2 to which seawater is supplied and converting a hard component contained in seawater into a mucilaginous state (10), a first water purification part (30) which is passed through seawater passing through the state conversion part (10) and is filtered by a hardness component, and a second water purification part which receives the seawater passing through the first water purification part And a second integer part (70).

Therefore, the seawater supplied along the supply pipe 2 by driving the apparatus such as the water pump is converted into the mucilaginous state by the magnetic force and the hard component included in the seawater is converted into the mucilaginous state by passing through the state conversion unit 10, 30).

The filter member 38 of the present embodiment including the microfilter can easily absorb the mild component of the mucilaginous state in the seawater containing the hardness component of the mucilaginous state so that the time and cost required for filtering the foreign matter contained in the seawater can be reduced .

In this embodiment, the first purified water portion 30 and the second purified water portion 70 are continuously provided, so that the foreign matter having passed through the first purified water portion 30 can not easily pass through the second purified water portion 70, The hardness component contained in the seawater supplied to the water tank can effectively be absorbed.

The state conversion unit 10 includes a case 12 to which the supply pipe 2 is connected, a filter for filtering the foreign substances contained in the seawater supplied through the supply pipe 2 and dividing the inside of the case 12, And a magnetic force member 18 for applying a magnetic force to the seawater passing through the case 12 to convert the hardness component contained in the seawater into a mucilaginous state.

When the seawater passes through the inside of the case 12, since the plurality of magnetic force members 18 are in an upright state, the hardness component including Ca ⁺⁺ and Mg ⁺⁺ contained in the water to be passed is converted into the mucus state And is filtered together with the seawater as it passes through the first water purification part (30) and the second water purification part (70).

A plurality of fixed shafts 16 extending upward from the top surface are provided in the mesh net 14 provided so as to partition the inside of the case 12 and a rod- 16 is recessed upward from the bottom face so that the lower end of the magnetic force member 18 is engaged with the fixed shaft 16 by a screw formed on the fixed shaft 16. [

Therefore, the hardness component included in the seawater which is moved upward through the mesh net 14 is converted into the mucoid state by the magnetic force provided by the magnetic force member 18. [

As described above, when the hardness component is converted into the mucus state and is moved together with the seawater, the hardness component of the mucus contained in the seawater is filtered while sequentially passing through the first purified water portion 30 and the second purified water portion 70.

The first purified water section 30 includes a cabinet 31 having an inlet 31a and an outlet 31b to allow seawater discharged from the case 12 to pass therethrough and a plurality of through holes And an upper shield panel 32a slidably disposed in the cabinet 31 while maintaining a space between the lower shield panel 32 and the upper shield panel 32a through the through hole 32b A filter member 38 interposed between the lower shielding panel 32 and the upper shielding panel 32a so that the supplied seawater is passed and the hardness component is filtered and a filter member 38 is disposed so as to face the through hole 32b The upper shielding panel 32a is pressed toward the lower shielding panel 32 so as to cover the filter member 38 and the lower shielding panel 32 or the upper shielding panel 32. [ And a pressure fixing portion 35 for preventing the seawater from being lost at intervals between the blocking panels 32a.

A plurality of filter members 38 are installed on the upper surface of the lower shielding panel 32 in a state where they are erected upright by the upstanding part 39. Since the upstanding part 39 is disposed opposite to the through hole part 32b, The filter member 38 provided in the fixing portion 39 is also arranged so as to face the through hole portion 32b.

The lower end of the filter member 38 is disposed to face the rim of the through hole portion 32b and the upper end of the filter member 38 is connected to the upper cut- 32a.

The seawater supplied to the interior of the cabinet 31 through the inlet port 31a passes through the through hole portion 32b and into the hollow hole portion of the filter member 38. After passing through the filter member 38, And is discharged to the outside of the cabinet through the discharge port 31b.

The upright fixing portion 39 has a support base 37 formed in the through hole portion 32b and a mounting bar 34 extending from the support base 37 to the upper shielding panel 32a side and inserted into the hollow hole portion of the filter member 38 When the filter member 38 is disposed so that the fitting rod 34 is inserted into the hollow hole portion of the filter member 38, the fitting member 34 maintains the upright state of the filter member 38, The lower end of the filter member 38 is seated on the upper surface of the supporter 37 formed in a cross shape on the lower surface 32b.

The upper end of the filter member 38 is provided with a seating screen 34a which is formed of a mesh material and protrudes downward and has a groove formed on the upper surface thereof. The bottom surface of the bottom wall of the seating screen 34a, An elastic member 38c is interposed.

When the upper shielding panel 32a is pressed downward by the operation of the pressurizing and fixing unit 35, the elastic member 38c is compressed so that the upper surface of the filter member 38 and the upper surface of the seat- And the lower end of the filter member 38 is brought into close contact with the upper surface of the lower shielding panel 32. [

The pressure fixing portion 35 includes a support shaft 36 extending from the lower shield panel 32 and inserted into the through hole portion 32d of the upper shield panel 32a and formed with a thread 36b, A nut member 36a which is coupled to the upper shield panel 32a and presses the upper shield panel 32a toward the lower shield panel 32 and an elastic member 38c which is installed in the upper shield panel 32a and inserted into the hollow hole portion of the filter member 38 ).

A through hole 32d through which the support shaft 36 is inserted is formed at the center of the upper shield panel 32a and a nut member 36a is bolted to the thread 36b formed at the upper end of the support shaft 36 When the nut member 36a is rotated in one direction and lowered along the support shaft 36, the nut member 36a presses the upper shield panel 32a in the downward direction.

At this time, since the elastic member 38c is compressed by the descending upper blocking panel 32a and the lower end of the elastic member 38c is supported by the seat drawing wire 34a inserted into the hollow hole portion of the filter member 38, The upper end of the member 38 is brought into close contact with the bottom surface of the upper shielding panel 32a.

A first sealing member 38a formed of a resilient material and formed in a container shape is provided under the filter member 38 and a second sealing member 38b formed in a ring shape on the upper surface of the filter member 38, Respectively.

The first sealing member 38a is formed in a concave shape downward and a hole portion through which the fitting rod 34 passes is formed at the lower end. Since the hole portion is formed larger than the diameter of the fitting rod 34, When the lower end of the member 38 is pressed against the upper surface of the lower shielding panel 32, the first sealing member 38a is deformed and the hole is expanded so that the seawater supplied through the through hole 32b passes through the first sealing member 38a Through the hole portion of the filter member 38 and into the hollow hole portion of the filter member 38.

At this time, the first sealing member 38a interposed between the lower end of the filter member 38 and the upper surface of the lower shielding panel 32 seals the water at a gap between the filter member 38 and the lower shielding panel 32 .

The second sealing member 38b interposed between the upper end of the filter member 38 and the bottom surface of the upper shield panel 32a separates the seawater from the filter member 38 and the upper shield panel 32a, .

The second water purification unit 70 includes a cabinet 72 having an inlet and a discharge port and a partition panel 76 partitioning the cabinet 72 and defining a plurality of through holes so that the inlet and the outlet are located in different spaces, And a far infrared ray filter member 74 installed in a support hole portion 76a protruding from the through hole portion and filtering the foreign substances contained in the seawater supplied through the inlet port.

The seawater supplied through the inlet port by the operation of the pump 50 is filled in the upper space of the partition panel 76 and then passes through the far infrared ray filter member 74 and flows through the support hole portion 76a into the cabinet 72 And then discharged through the discharge port after being moved to the lower space.

At this time, the foreign matter contained in the seawater passing through the far-infrared filter member 74 is filtered, and the far-infrared rays generated from the far-infrared filter member 74 are included in the seawater.

The far infrared ray filter member 74 includes filter pillar members 74a and 74b including mesh members and a filter pillar member 74a and 74b that are installed upright on the partition panel 76 with a support hole portion 76a inserted therein, And fibrous members 78a and 78b that surround foreign matter contained in the seawater.

Therefore, the filter pillar members 74a and 74b including the mesh members are easily passed through the seawater and the foreign materials contained in the seawater as the seawater passes through the fiber members 78a and 78b surrounding the filter column members 74a and 74b The fiber members 78a and 78b are caught by the outer wall, and far-infrared rays are irradiated while only the sea water passes.

In addition, a plurality of the filter column members 74a, 74b and the fiber members 78a, 78b of the present embodiment are alternately arranged and formed into a cylindrical shape, so that foreign matters can be absorbed more effectively.

The operation of the salt-only water purification apparatus according to one embodiment of the present invention will be described below.

When the seawater is supplied along the supply pipe 2 by the driving of the pump 50, the water is supplied from the lower part of the case 12 to the upper side and passes through the filter net, so that the foreign substances contained in the seawater are primarily filtered, And the hardness component of the seawater passing through the case 12 is converted into a mucilage state by the magnetic force provided from the magnetic force member 18 and supplied to the first integer part 30 together with the seawater.

The seawater supplied to the inside of the cabinet 31 through the inlet port 31a is moved from the lower portion partitioned by the lower shield panel 32 to the upper portion through the passage hole portion 32b and is discharged into the hollow hole portion of the filter member 38 And the hardness component is filtered while passing through the filter member 38.

The seawater having passed through the filter member 38 is discharged to the outside of the cabinet 31 through the discharge port 31b and supplied again to the second purified water portion 70 so that the water purification process is performed again.

If the above-described water purification process is repeated for a long period of time and the hardness components are accumulated in the filter member 38, the pressure at the inlet of the purified water portion and the pressure at the outlet become remarkably different.

At this time, the operator opens the cover member 31c which is detachably attached to the cabinet 31 by the fixing pin member 31d, the fixing block and the lever member 31f, dismounts the nut member 36a, The panel 32a can be easily discharged to the outside of the cabinet 31 and the filter member 38 can be replaced.

Thereby, it is possible to provide a salt-dedicated seawater purification apparatus capable of producing a clean salt by filtering the hardness component contained in the seawater supplied to the tile in a slime form and easily replacing the filter member .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

In addition, although a salt-only seawater purification apparatus has been described as an example, the present invention is merely an example, and the purification apparatus of the present invention can be used for other products other than the salt-only seawater purification apparatus.

Accordingly, the true scope of the present invention should be determined by the following claims.

2: supply pipe 4: discharge pipe
10: state conversion unit 12: case
14: mesh network 16: fixed axis
18: magnetic force member 30: first integer part
31: cabinet 31a: inlet
31b: outlet 31c: cover member
31d: Fixing pin member 31e: Fixing block
31f: lever member 32: lower shielding panel
32a: upper shield panel 32d: through hole portion
34: Mounting rod 34a:
35: pressure fixing portion 36: support shaft
36a: nut member 36b: thread
36c: Lever 37: Support
38: filter member 38a: first sealing member
38b: second sealing member 38c: elastic member
39: upright fixing portion

Claims (3)

A state conversion unit installed in a supply pipe for supplying seawater and converting a hardness component contained in seawater into a mucus state;
A first integer part which is passed through the state converting part and is discharged with seawater and is filtered by a hardness component;
A second integer part that receives the seawater passing through the first purified water part and is filtered by the hardness component again; And
And a pump installed between the first integer part and the second integer part and providing a supply pressure for supplying seawater along the supply line,
Wherein the first integer part comprises:
A cabinet having an inlet and an outlet to allow the seawater discharged from the case of the state conversion unit to pass therethrough;
A lower shield panel partitioning the inside of the cabinet and having a plurality of through holes;
An upper shield panel spaced from the lower shield panel and slidably disposed in the cabinet;
A filter member interposed between the lower shield panel and the upper shield panel so that seawater supplied through the through holes is passed and hardness components are filtered;
An upstanding anchoring portion for supporting the filter member in an upright state such that the uptake filter member is arranged to face the through hole portion;
And a pressure fixing unit for pressing the upper shield panel toward the lower shield panel to prevent loss of seawater at intervals between the filter member and the lower shield panel or the upper shield panel,
The upright-
A support member formed in the through-hole portion;
And a mounting rod extending from the support to the upper shield panel side and inserted into the hollow hole portion of the filter member,
The supporting base is formed in a cross shape in the through hole portion,
The pressure-
A support shaft extending from the lower shield panel and inserted into a through hole of the upper shield panel to form a thread;
A nut member coupled to the thread and pressing the upper shield panel toward the lower shield panel; And
And an elastic member installed on the upper shield panel and inserted into the hollow hole portion of the filter member,
A first sealing member formed in a container shape and including an elastic material is provided under the filter member, a second sealing member formed in a ring shape is provided on an upper surface of the filter member,
Wherein the first sealing member is formed in a concave shape downward and has a hole portion through which the mounting bar passes at a lower end thereof, and the hole portion is formed to be larger than the diameter of the fitting rod, The first sealing member is deformed and the hole portion is expanded so that the seawater supplied through the through hole portion passes through the hole portion of the first sealing member and is supplied into the hollow hole portion of the filter member,
Wherein the second integer part comprises:
A cabinet having an inlet and an outlet;
A partition panel partitioning the cabinet so that the inlet and the outlet are located in different spaces and having a plurality of through holes; And
And a far infrared ray filter member installed at a support hole portion protruding from the through hole portion and for filtering foreign matter contained in seawater supplied through the inlet port,
Wherein the far-
A filter pillar member which is inserted into the support hole and is installed upright on the partition panel and includes a mesh member; And
And a fiber member surrounding the filter column member and filtering foreign substances contained in the seawater.
delete The method according to claim 1,
Wherein a plurality of the filter column member and the fiber member are alternately arranged and form a cylindrical shape.

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