KR101841249B1 - Apparatus for supplying functional chemicals to water tereatment - Google Patents

Abstract

The present invention relates to a washing machine comprising a housing member; An inlet for supplying fluid to the interior of the housing member and an outlet for discharging the fluid to the outside of the housing member; And a valve unit installed inside the housing member, wherein the valve unit has a fastening part protruding from one side, the body part being filled with a functional material therein; A connecting portion to which one side is coupled to the coupling portion; A moving part inserted into the connection part so as to be rotatable along the connection part; A floating unit installed on one side of the moving unit so as to be floating; And a separation preventing part formed on an inner part of the housing member to prevent the floating part from being detached, the moving part including: a body part; And a groove portion formed on an outer circumferential surface of the housing member along a longitudinal direction of the housing member, the insertion portion extending from the other side of the body portion to be inserted through the connection portion, wherein when the fluid is supplied, The valve unit is opened by floating the floating portion while flowing along the longitudinal direction of the member, and the valve unit is opened when the fluid is interrupted, and the apparent specific gravity difference between the fluid, the moving portion, And the valve unit is closed by the valve unit.

Description

Technical Field [0001] The present invention relates to a functional material supplying apparatus for water treatment,

More particularly, the present invention relates to a functional material feeder for water treatment, and more particularly, to a functional material feeder for water treatment, wherein the valve unit is opened by the flow of the fluid when the fluid is supplied and the valve unit is opened by the difference in apparent specific gravity between the fluid and the valve unit And a highly concentrated solution or a saturated solution of the fluid of the functional material filled in the main body of the valve unit gradually dissolves or is intercepted and uniformly and stably supplied to the functional material supply device.

In most countries today, including the Republic of Korea, tap water contains chlorine-based disinfectants such as sodium hypochlorite. In other words, by eliminating organic compounds with sterilization through primary chlorination in a water purification plant, and by administering secondary chlorine again just before watering at home or company, it is possible to preserve residual chlorine to prevent diseases from pathogenic pathogens .

However, chlorine is one of the halogen elements, which is a toxic substance used for oxidizing agents, bleaching agents and disinfectants. Also, chlorine in tap water reacts with organic compounds to generate organic chlorine compounds, which adversely affects the health and environment of the human body.

In particular, it reacts with skin proteins constituting the skin of the human body and destroys them, thereby roughening the skin of the human body, causing skin aging and various skin troubles.

In addition, chlorine destroys hair proteins, which are the same constituents as the skin, to make the hair smoother, which may cause not only scalp health but also atopic dermatitis.

Nowadays, most people, including women, have been interested in skin care, hair, and health. Therefore, water softeners have been proposed for adding tap water to home or the like and adding good additives to skin or hair.

In addition, a functional material supply device capable of eluting and supplying a functional material suitable for the skin and beauty of a human body to such a water softener, a shower, and a water purifier has been proposed.

However, in the conventional functional material supply device for water treatment, there is a problem that the functional material is excessively eluted into the fluid as the functional material is always exposed to the fluid, so that the functional material can not uniformly supply the concentration of the fluid in which the functional material is dissolved.

In the conventional functional material supply device for water treatment, since the functional material is always exposed to the fluid, the functional material is excessively eluted at the initial stage of the water treatment functional material supply device, so that the functional material is rapidly consumed and the functional material supply device There is a problem in that the functional material dissolved in the fluid becomes insufficient after a certain period of time has elapsed and the concentration of the functional material contained in the fluid becomes insufficient.

Further, since the functional material supply device for water treatment in the past is discharged at a high concentration at the initial stage, the functional material must be recharged or the entire functional material supply device for water treatment must be replaced. Therefore, the maintenance cost of the functional material supply device for water treatment, There is a problem that the time increases.

In addition, the conventional functional material supply device for water treatment is difficult to miniaturize and can not be used for water treatment devices of various kinds and sizes, resulting in deterioration of marketability and economical efficiency.

Korean Patent Laid-Open Publication No. 10-2009-0067452

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a fluid supply device, The portion of the blade of the second blade rotates along the longitudinal direction of the housing member and thus the convex portion of the body of the moving portion is spaced apart from the receiving portion of the connecting portion so as to be opened primarily to facilitate fluid flow into the body portion along the groove portion formed on the outer circumferential surface of the inserting portion And the protruding portion of the body portion of the floating portion floats in the seating portion of the body portion of the moving portion and is opened secondarily so that the saturated solution in which the functional material filled in the body portion is dissolved in the fluid is gradually supplied uniformly and stably And when the fluid supply is interrupted, the fluid, the moving part, and the fluid A functional material for water treatment which can prevent the functional material from being exhausted to the outside of the valve unit in a state in which the functional material is dissolved in the fluid due to the double specific closing of the valve unit due to the apparent specific gravity difference of the oil portion, Supply device.

In order to accomplish the object of the present invention, a functional material feeder for water treatment according to a preferred embodiment of the present invention includes a housing member; An inlet for supplying fluid to the interior of the housing member and an outlet for discharging the fluid to the outside of the housing member; And a valve unit installed inside the housing member, wherein the valve unit has a fastening part protruding from one side, the body part being filled with a functional material therein; A connecting portion to which one side is coupled to the coupling portion; A moving part inserted into the connection part so as to be rotatable along the connection part; A floating unit installed on one side of the moving unit so as to be floating; And a separation preventing part formed on an inner part of the housing member to prevent the floating part from being detached, the moving part including: a body part; And a groove portion formed on an outer circumferential surface of the housing member along a longitudinal direction of the housing member, the insertion portion extending from the other side of the body portion to be inserted through the connection portion, wherein when the fluid is supplied, The valve unit is opened by floating the floating portion while flowing along the longitudinal direction of the member, and the valve unit is opened when the fluid is interrupted, and the apparent specific gravity difference between the fluid, the moving portion, The valve unit is closed.

According to another preferred embodiment of the present invention, the connecting portion of the valve unit of the functional material feeder for water treatment comprises: a coupling portion coupled to the coupling portion; And an extension portion extending from one side of the coupling portion, wherein the extension portion includes a flange portion formed along a circumferential surface of one end of the extension portion; And a receiving portion formed to be inclined along the flange portion.

According to another preferred embodiment of the present invention, the floating portion of the valve unit of the functional material feeder for water treatment includes a body portion having a projection protruding from one side surface; And a balance part formed at one side of the body part and for balancing the floating part when the floating part floats.

According to another preferred embodiment of the present invention, the body portion of the moving portion of the valve unit of the functional material feeder for water treatment comprises: a seating portion formed on one side surface of the body portion so that the protrusion is seated; A convex portion formed on the other side surface of the body portion to correspond to the shape of the accommodating portion; And a plurality of wing portions spaced apart from each other along the outer peripheral surface of the body portion at a predetermined angle.

The moving part of the valve unit of the functional material feeder for water treatment according to another preferred embodiment of the present invention may further include a blade part formed at a lower portion of each wing part.

The blade portion of the moving portion of the valve unit of the functional material feeder for water treatment according to another preferred embodiment of the present invention has a predetermined downward inclination angle with respect to the tangent of the wing portion, And may be formed to have a side inclination angle.

The downward inclination angle and the side inclination angle of the blade part of the moving part of the valve unit of the functional material feeder for water treatment according to another preferred embodiment of the present invention may be 30 ° to 50 °, respectively.

According to another aspect of the present invention, there is provided a functional material feeder for water treatment, comprising: a cover member coupled to one side or both sides of the housing member;

According to another preferred embodiment of the present invention, the housing member of the functional material feeder for water treatment may further include a guide portion extending in the longitudinal direction of the housing member inside the housing member.

According to another aspect of the present invention, there is provided a functional material feeder for water treatment, comprising: a filter member installed inside the housing member to receive the valve unit therein; And a first fixing member and a second fixing member installed at upper and lower portions of the housing member to fix the filter member to the housing member.

In the functional material feeder for water treatment according to the present invention, when the fluid is supplied, the fluid flowing through the inlet flows along the longitudinal direction of the housing member, and the pressure of the fluid causes the blade portion of the body portion of the moving portion to have a length So that the convex portion of the body portion of the moving portion is separated from the receiving portion of the connecting portion and is opened primarily so that the fluid easily flows into the inside of the body portion along the groove portion formed on the outer circumferential surface of the inserting portion, The second protruding portion floats in the seating portion of the body portion of the moving portion and is opened secondarily so that the saturated solution in which the functional material filled in the main body portion is dissolved in the fluid can be gradually supplied uniformly and stably.

Further, in the functional material feeder for water treatment according to the present invention, the fluid is easily introduced into the main body portion through the flow path when the moving portion is lifted by the groove portion formed along the longitudinal direction of the housing member on the outer peripheral surface of the insertion portion, The additional double inclination angle allows the moving part to easily rise along the longitudinal direction of the housing member due to the pressure caused by the flow of the fluid.

Further, in the functional material supply apparatus for water treatment according to the present invention, when the fluid supply is interrupted, the valve unit is doubly closed due to the difference in apparent specific gravity between the fluid, the moving unit, the fluid and the floating unit, It is possible to prevent the functional material from being exhausted to the outside of the unit, thereby preventing unnecessary consumption of the functional material.

In addition, the functional material supply device for water treatment according to the present invention prevents unnecessary elution of the functional material at the time of interruption of fluid supply, thereby reducing the replacement time and replacement cost of the functional material.

Meanwhile, the functional material supply device for water treatment according to the present invention can stably and continuously supply the saturated solution containing the functional material dissolved in the fluid inside the main body only when the fluid is supplied, and thus the functional material supply device for water treatment The maintenance cost and the maintenance time can be reduced.

The functional material supply device for water treatment according to the present invention is formed such that the valve unit is closed at the time of interruption of the fluid supply due to the difference in apparent specific gravity between the fluid and the valve unit so that the functional material supply device for water treatment can be miniaturized So that it can be easily installed in various kinds of water treatment apparatuses.

1 is a perspective view of a valve unit installed in a functional material feeder for water treatment according to an embodiment of the present invention.
2 is an exploded perspective view of the valve unit shown in Fig.
Fig. 3 shows a detailed view of the moving part of the valve unit shown in Fig.
4 is a cross-sectional view of a functional material feeder for water treatment according to the first embodiment of the present invention.
5 is a cross-sectional view of a functional material feeder for water treatment according to a second embodiment of the present invention.
6 is a perspective view of a functional material supply apparatus for water treatment according to a third embodiment of the present invention.
FIG. 7 is a cross-sectional view of the functional material feeder for water treatment according to the third embodiment of the present invention shown in FIG. 6 in a state in which the fluid supply is blocked through the inlet.
FIG. 8 is a cross-sectional view of the functional material supply apparatus for water treatment according to the third embodiment of the present invention shown in FIG. 6 in a fluid supply state through an inlet.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals are used to refer to like elements throughout.

FIG. 1 is a perspective view of a valve unit installed in a functional material feeder for water treatment according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the valve unit shown in FIG. 1, Of the movable valve unit. FIG. 4 is a sectional view of the functional material supply apparatus for water treatment according to the first embodiment of the present invention, and FIG. 5 is a sectional view of the functional material supply apparatus for water treatment according to the second embodiment of the present invention. FIG. 6 is a perspective view of a functional material feeder for water treatment according to a third embodiment of the present invention, and FIG. 7 is a perspective view of the functional material feeder for water treatment according to the third embodiment of the present invention shown in FIG. FIG. 8 is a cross-sectional view of the functional material supply apparatus for water treatment according to the third embodiment of the present invention shown in FIG. 6 in a fluid supply state through an inlet. FIG.

The term "longitudinal direction " in the definition of the terms used below means the vertical direction of the housing member, that is, the longitudinal direction of the housing member in Figs.

According to an embodiment of the present invention, the functional material may be formed in the form of powder, granules (tablets), or capsules, which are processed by mixing or coating a polymer material for convenience of handling .

The first embodiment, the second embodiment and the third embodiment of the present invention are different from the first embodiment in that the mounting position of the housing member 100, the inlet port 800 and the outlet port 810 and the difference in the detailed configuration of the valve unit 600 . However, when the fluid flows along the longitudinal direction of the housing member 100 at the time of fluid supply, the moving unit 630 of the valve unit 600 is moved and the floating unit 640 is floated, And the valve unit 600 is closed by the difference in apparent specific gravity between the fluid and the moving part 630 and between the fluid and the floating part 640 when the fluid supply is interrupted. Therefore, these differences will be mainly described below.

4 to 8 and the flow of the fluid descending from the inside of the housing member 100 is formed, the moving part 630 of the valve unit 600 and the floating part 640 ) Is formed to have an apparent specific gravity smaller than that of a fluid.

1 to 8, the functional material feeder 1 for water treatment according to the present invention includes a housing member 100, an inlet port 800 and an outlet port 810, And a valve unit (600) having a material (700).

The housing member (100) forms the outer shape of the water treatment functional material supplying device (1). According to a preferred embodiment of the present invention, the housing member may be formed in a cylindrical shape having one side opened, the other side of the housing member closed, and a hollow portion formed therein. Accordingly, the functional material supply device can be easily installed in various water treatment devices such as a shower, a water softener, a water purifier, a fluid flow pipe, and the like.

1 to 8, according to a preferred embodiment of the present invention, the functional material feeder 1 for water treatment easily installs the valve unit 600 in the housing member 100 The cover member 200 may be coupled to one side or both sides of the housing member 100 to facilitate recharging of the functional material after a predetermined time elapses. 5, the lower portion 612 of the main body portion of the valve unit 600 may be formed to include the function of the cover member, if necessary.

An inlet (800) is provided to supply fluid into the interior of the housing member (100). The inlet port 800 may be installed in the housing member 100 or a cover member 200 described later to supply the fluid into the interior of the housing member 100 when the fluid is supplied.

An outlet 810 is provided to discharge the fluid out of the housing member 100. The outlet 810 may include a saturated solution (a state in which the functional material is dissolved in a saturated state) discharged through the valve unit 600 in the interior of the housing member 100 at the time of fluid supply, And may be installed in the housing member 100 or a cover member 200 described later to discharge one fluid to the outside of the housing member 100. [

That is, when the fluid supplied to the interior of the housing member 100 at the time of fluid supply can form a shape flowing along the longitudinal direction of the housing member 100, the inlet port 800 and the outlet port 810, (100) itself or the cover member (200).

1 to 3, the valve unit 600 of the functional material feeder 1 for water treatment according to an embodiment of the present invention includes a body portion 610, a connecting portion 620, a moving portion 630, A floating portion 640, and a departure prevention portion 650.

The body portion 610 has a hollow portion at the center and is formed in a substantially cylindrical shape to form an outer shape of the valve unit 600. [ The hollow portion of the body portion 610 is filled with the functional material 700. [

Preferably, the functional material 700 may be composed of any one of a vitamin agent, a sterilizing agent for sterilizing germs or bacteria harmful to the human body contained in the fluid, a hardness regulator, a skin cosmetic material, or a mixture thereof.

At the front end of the body portion 610, a fastening portion 611 extends along the longitudinal direction of the housing member. It is possible to minimize the friction force acting on the fluid so that the fluid flowing through the inlet port 800 at the time of fluid supply can flow at a predetermined pressure along the longitudinal direction inside the housing member 100 It is preferable that the fastening portion 611 is formed to have a smaller diameter than the diameter of the body portion 610 in order to miniaturize the functional material feeding device as a whole. That is, the coupling portion 611 is formed so as to have a diameter smaller than the diameter of the main body portion 610, passing through the center so as to communicate with the hollow portion of the main body portion 610.

For the sake of reduction in manufacturing cost and ease of assembly, the body portion 610 and the fastening portion 611 may be integrally formed through injection molding, blow molding or the like.

The connection portion 620 is coupled to the coupling portion 611. That is, the coupling portion 611 is inserted and coupled to one side of the connection portion 620.

The moving part 630 moves along the connecting part 620 by the pressure of the fluid flowing along the longitudinal direction of the housing member 100 so that the fluid flowing through the inlet port 800 at the time of supplying the fluid moves along the length of the housing member 100 One side of the moving part 630 is inserted into the connection part 620 so as to be movable in the direction (vertical direction or vertical direction).

According to a preferred embodiment of the present invention, the moving part 630 is formed to have an apparent specific gravity heavier than a fluid. That is, the moving part 630 moves along the connection part 620 by the pressure due to the flow of the fluid flowing through the inlet port 800 when the fluid is supplied, and when the fluid is interrupted, the apparent specific gravity difference with the fluid As shown in FIG.

The floating part 640 is formed in the housing member 100 at one side of the moving part 630 by the fluid pressure that flows along the longitudinal direction of the housing member 100, As shown in Fig.

According to a preferred embodiment of the present invention, the floating portion 640 is formed to have an apparent specific gravity heavier than a fluid. That is, the floating part 640 floats upward along the longitudinal direction of the housing member 100 by the pressure caused by the flow of the fluid flowing through the inlet port 800 when the fluid is supplied, By the difference in the apparent specific gravity.

The release preventing portion 650 is formed on an inner part of the housing member 100 to prevent the floating portion 640 from being separated. That is, the release preventing portion 650 limits the floating height that floats to the maximum when the floating portion 640 rises in the longitudinal direction of the housing member 100 by the fluid pressure at the time of supplying the fluid. And is formed on a part of the inside of the housing member 100. The protrusion 641a of the body portion 641 of the floating portion 640 is accurately seated in the seating portion 631a of the body portion 631 of the moving portion 630 when the fluid supply is interrupted The separation preventing portion 650 and the floating portion 640 are provided so as to have a predetermined separation distance. The distance between the upper end of the floating portion (the upper end of the balance portion) and the departure-avoiding portion 650 is formed to be smaller than the radius of the projection 641a in a state where the floating portion 640 does not float after the rise of the moving portion 630 .

The moving part 630 includes a body part 631 and an insertion part 633.

The body portion 631 forms the outer shape of the moving portion 630. The body portion 631 is formed as a disk-like shape as a whole and has a through hole at the center.

The insertion portion 633 has a groove portion 633a formed along the longitudinal direction of the housing member on the outer circumferential surface and extends to the other side of the body portion 631 so as to be inserted through the connection portion 620. The insertion portion 633 extends in the vertical direction on the other side of the body portion 631 so as to be inserted through the coupling portion 621 and the extending portion 622. That is, the inserting portion 633 is formed to be positioned opposite to the center of the floating portion 640 and the body portion 631, and has a penetrating portion penetrating the center to communicate with the through hole of the body portion 631.

According to a preferred embodiment of the present invention, the insertion portion 633 is formed to have a longer length than the connection portion 620, although not necessarily limited thereto. The fluid introduced into the body portion 610 through the penetration portion of the insertion portion 633 and the through hole of the body portion 631 dissolves the functional material and then flows into the body portion 610 in a saturated solution state Thereby forming a fourth flow path to be discharged.

When the fluid is supplied, the moving portion 630 is rotated and raised by the flow of the fluid. At this time, the third flow path described later is opened, and the fluid flows more smoothly through the third flow path through the groove portion 633a .

As described above, when the moving part 630 and the floating part 640 are formed to have heavier apparent specific gravity than the fluid, as shown in FIGS. 4 to 8, the fluid in the housing member 100 (In the case where the fluid moves down along the longitudinal direction of the housing member 100 in the housing member 100), the movable portion 630 and the floating portion 640 are formed to be lighter than the apparent specific gravity of the fluid.

As described above, the moving unit 630 and the floating unit 640 are formed to be lighter or heavier than the apparent specific gravity of the fluid, so that the valve unit 600 is opened by the pressure caused by the flow of the fluid generated when the fluid is supplied, The valve unit 600 is automatically closed by the difference in apparent specific gravity with respect to the fluid, so that after the functional material 700 filled in the main body part 610 is dissolved in the saturated state in the fluid, The saturated solution present in the interior of the chamber 610 can be supplied stably and uniformly.

That is, even if the moving part 630 and the floating part 640 are formed to have heavier or lighter specific gravity than the fluid, the moving part 630 and the floating part 640 have an apparent specific gravity the valve unit 600 is opened by the pressure caused by the flow of the fluid when the fluid is supplied and the valve unit 600 is opened due to the difference in apparent specific gravity between the fluid and the fluid when the fluid is shut off, Can be automatically closed.

1 to 8, the body part 631 of the moving part 630 includes a seating part 631a, a convex part 631b and a wing part 631c.

The seating portion 631a is recessed on one side of the body portion 631 so that the protruding portion 641a of the floating portion 640 described later is seated.

The convex portion 631b protrudes vertically downward from the other side of the body portion 631 so as to correspond to the shape of the receiving portion 622b while facing the seating portion 631a.

The wing portions 631c are formed in a plurality of spaces along the outer circumferential surface of the body portion 631 at a predetermined angle. That is, the wing portion 631c is formed to protrude outside the body portion 631 with a predetermined length while being spaced apart from the outer peripheral surface of the body portion 631 at a predetermined angle.

Although a plurality of wings 631c are shown as being formed at intervals of 60 degrees in FIGS. 1 to 3, the present invention is not limited thereto. The wings 631c may be arranged at intervals of 180 degrees , Three at intervals of 120 degrees, four at intervals of 90 degrees, or five at intervals of 72 degrees.

1 to 3, the moving part 630 of the valve unit 600 of the functional material feeder 1 for water treatment according to an embodiment of the present invention may further include a blade part 632 have.

The blade portion 632 is formed at a lower portion of each wing portion 631c. Although the number of the blade portions 632 is shown to be six at intervals of 60 degrees in FIGS. 1 to 3, the number of the blade portions 632 is not limited to six, and the number of the blade portions 632 may be plural The blade portions 632 may be formed two at intervals of 180 degrees, three at intervals of 120 degrees, four at intervals of 90 degrees, or five at intervals of 72 degrees.

3, the blade portion 632 of the moving portion 630 of the valve unit 600 of the functional material feeder 1 for water treatment according to the embodiment of the present invention includes the blade portions 631c, And has a predetermined inclination angle? With respect to the central axis B of the inserting portion 633. The inclination angle? That is, each of the blade portions 632 is formed to have a double inclination angle from the bottom to the side along the longitudinal direction of the housing member 100.

More preferably, the downward inclination angle? And the side inclination angle? Of the blade portion 632 are respectively set to 30 degrees to 50 degrees. When the downward inclination angle? And the side inclination angle? Are less than 30 degrees, there is a problem that the frictional force becomes too large when the moving part 630 is lifted by the pressure due to the fluid flow during fluid supply. When the downward inclination angle? And the side inclination angle? Are more than 50 degrees, the pressure due to the flow of the fluid during the fluid supply is not sufficiently transmitted, so that the pressure of the blade portion 632 and the wing portion 631c There is a problem that the rotational force is significantly reduced.

Most preferably, the downward tilt angle? And the side tilt angle? Of the blade portion 632 are 45 degrees. When the downward inclination angle? And the side inclination angle? Of the blade portion 632 are formed to be 45 degrees, the pressure due to the flow of the fluid during the supply of the fluid can be applied to the blade portion 632 and the blade portion 631c, The moving part 630 is rotated and lifted to open the third flow path so that the fluid smoothly flows into the main part 610 through the groove part 633a.

In addition, the pressure due to the flow of the fluid having raised the blade portion 632 and the wing portion 631c is continuously transferred to the floating portion 640, so that the floating portion 640 floats to the separation preventing portion 650. [

The body part 631 of the moving part 630 and the blade part 632 may be integrally formed to facilitate fabrication and reduce manufacturing costs.

1 and 2, the connection portion 620 of the valve unit 600 of the functional material feeder 1 for water treatment according to an embodiment of the present invention includes a coupling portion 621 and an extension portion 622, And the extension portion 622 has a flange portion 622a and a receiving portion 622b.

The engaging portion 621 is engaged with the engaging portion 611. The coupling portion 621 passes through the center and communicates with the hollow portion of the body portion 610. The inner diameter of the engaging portion 621 is formed to be larger than the outer diameter of the engaging portion 611 in order to reduce the size and maintain a constant flow pressure of the fluid. As shown in Fig.

The extension portion 622 extends vertically from one side of the engaging portion 621. In other words, the extended portion 622 penetrates the center portion and communicates with the engaging portion 621, thereby facilitating the installation in a narrow space and minimizing the resistance acting on the fluid, Is formed to extend along the longitudinal direction of the housing member (100) at the upper end of the engaging portion (621) so as to have an outer diameter smaller than the outer diameter of the weir engaging portion (621).

The fluid introduced through the inlet port 800 at the time of supplying the fluid through the penetrating part of the coupling part 621 and the extension part 622 passes through the filter member 500 and then flows into the inside of the main body part 610 Thereby forming a third flow path which can be introduced. That is, the third flow path is formed by a space formed between the engaging portion 621 and the extending portion 622 and a space between the inserting portion 633 of the moving portion 630 described later.

A flange portion 622a is formed along the circumferential surface of one end of the extension portion 622. [ The flange portion 622a is formed to protrude from the distal end of the extended portion 622 so as to have an outer diameter larger than the outer diameter of the extended portion 622 for ease of material saving and installation. The diameter of the flange portion 622a is formed to be smaller than the body portion 631 of the moving portion 630 which will be described later so that fluid is supplied from the bottom peripheral surface of the flange portion 622a to the tip peripheral surface of the body portion 631, A vortex is generated by the flow of the fluid flowing into the chamber. Accordingly, the body part 631 of the moving part 630, which will be described later, is raised while rotating through the pressure of the fluid, and the third flow path is opened.

The receiving portion 622b is formed to be inclined downward toward the central axis of the extending portion 622 along the flange portion 622a. The receiving portion 622b is formed to be inclined downward along the flange portion 622a so that the convex portion 631b of the moving portion 630 described later can be seated in the receiving portion 622b. When the convex portion 631b of the moving portion 630 is seated in the receiving portion 622b, the third flow path to the body portion 610 is blocked. When the moving portion 630 is raised, 631b are separated from the accommodating portion 622b, the third flow path to the main body 610 is opened and the fluid flows into the main body 610. [

That is, whether or not the third flow path of the valve unit 600 is opened or closed is first determined depending on whether the convex portion 631b of the moving portion 630 is separated from the receiving portion 622b, It is possible to prevent the saturated solution in which the functional material 700 filled in the main body part 610 from dissolving out of the main body part 610 when the fluid is shut off have.

Although not limited thereto, the connection portion 620 of the valve unit 600 of the functional material feeder 1 for water treatment according to the embodiment of the present invention may be integrally formed.

1 to 4, the floating portion 640 of the valve unit 600 of the functional material feeder 1 for water treatment according to one embodiment of the present invention and the other embodiment includes the body portion 641, And a balance part 642. [

The body portion 641 has a protrusion 641a protruding from one side surface, and is formed in a disc shape as a whole.

A balance portion 642 is formed on one side of the body portion 641. The floating portion 640 is balanced by the balance portion 642 at the time of fluid supply while the balance is maintained by the separation preventing portion 650 until the floating is stopped. That is, the pressure due to the flow of the fluid during the fluid supply acts on the balance portion 642, so that the floating portion 640 floats while maintaining the balance until the floating by the separation preventing portion 650 is stopped, The floating portion 640 is lowered by the balance portion 642 so that the projection 641a is seated on the seating portion 631a.

The balance portion 642 is formed to be parallel to the upper surface of the body portion 641, though not necessarily limited thereto.

1 and 2, four balanced portions 642 are formed at intervals of 90 degrees (in the form of a cross). However, the present invention is not limited thereto. If necessary, the plurality of balanced portions 642 may be formed at intervals of 180 degrees Three at intervals of 120 degrees, five at intervals of 72 degrees, or six at intervals of 60 degrees.

The projecting portion 641a is formed in a shape corresponding to the shape of the seating portion 631a and is formed in a substantially hemispherical shape so as to open and close the fourth flow path according to the state of being separated from the seating portion 631a. That is, when the balance portion 642 floats up while flowing due to the flow of fluid during the fluid supply, the protrusion 641a and the seating portion 631a are separated from each other, thereby opening the fourth flow path.

The protrusion 641a is formed in a shape corresponding to the shape of the seating portion 631a and is formed in a substantially hemispherical shape so that it can always be seated in the seating portion 631a when the fluid supply is interrupted.

In addition, when the fourth flow path is opened, the floating state of the floating portion 640 is maintained by the flow of the fluid rising through the fourth flow path, so that the open state of the fourth flow path can be further stably maintained have.

The floating portion 640 is lowered due to the difference in apparent specific gravity between the fluid and the floating portion 640 when the fluid supply is interrupted so that the projection portion 641a is in close contact with the seating portion 631a to close the fourth flow path .

As described above, in the functional material feeder 1 for water treatment according to the present invention, when the fluid is supplied, the fluid flowing through the inlet port 800 flows along the longitudinal direction of the housing member 100, and the pressure The convex portion 631b of the body portion 631 of the moving portion 630 is moved upward by the extension portion 622 of the connecting portion 620. Accordingly, the blade portion 632 and the wing portion 631c are rotated, The third flow path is opened primarily while being separated from the receiving portion 622b of the main body 610. When the third flow path is opened, the fluid flows smoothly into the main body 610 through the groove portion 633a. The protruding portion 641a of the body portion 641 of the floating portion 640 floats on the seating portion 631a of the body portion 631 of the moving portion 630 while the fourth flow path is secondarily opened. Accordingly, the functional material 700, which is dissolved in the saturated state by the fluid in the body portion 610, moves downward along the longitudinal direction of the body portion 610 by the fluid introduced through the third flow path, And the saturated solution moved downward is discharged to the outside of the main body 610 through the fourth flow path. Accordingly, as the saturated solution is finally discharged to the outside of the housing main body 100 through the outlet 810 while being mixed with the fluid on the second flow path, the functional agent gradually dissolves the saturated liquid in a saturated state gradually and stably Can supply.

In addition, when the fluid supply is interrupted, the third flow path and the fourth flow path are doubly closed due to the apparent specific gravity difference between the fluid and the valve unit 600, so that the saturated solution existing in the main body part 610 flows into the main body part 610 And it is possible to prevent the functional material from being consumed unnecessarily.

Further, the present invention is characterized in that the pressure of the fluid flowing along the longitudinal direction inside the housing member at the time of fluid supply and the apparent specific gravity difference between the fluid, the moving portion, the fluid and the floating portion, By double controlling the open and close states, it is possible to reduce the maintenance cost of the functional material supply device and to miniaturize it, so that it can be easily installed in various kinds of water treatment devices.

The valve unit 600 of the functional material feeder 1 for water treatment according to an embodiment of the present invention may be configured to prevent the moving part 630 from being separated from the inside of the fastening part 611 And a stopper portion 660 provided on the base portion 610. [

The stopper portion 660 is formed in a cylindrical shape having a central through hole as a whole. The outer diameter of the stopper portion 660 is formed to be larger than the inner diameter of the extending portion 622 and smaller than the inner diameter of the coupling portion 611. The inner diameter of the stopper portion 660 is set to be smaller than the inner diameter of the insertion portion 633 . The stopper portion 660 is easily inserted into the fastening portion 611 and the lower portion of the insertion portion 633 of the moving portion 630 is inserted through the center of the stopper portion 660 . 2 and 5 to 8, a portion of the lower portion of the insertion portion 633 of the moving part 630 is coupled by the stopper part 660, so that the moving part 630 moves in the vertical direction It is possible to prevent the moving part 630 from being detached from the connecting part 620. More specifically, the stopper portion 660 is coupled to the lower portion of the insertion portion 633 without the groove portion 633a formed on the outer circumferential surface of the insertion portion 633.

Further, the stopper portion 660 has a cutout 661 at the upper portion thereof. The fluid introduced through the third flow path can be easily introduced into the interior of the body portion 610 by the cutout portion 661 so that the saturated solution existing in the interior of the body portion 610 flows into the lower portion of the body portion 610 Can be moved.

As shown in FIG. 4, the housing member 100 of the functional material feeder 1 for water treatment according to the first embodiment of the present invention is formed into a cylindrical shape with its bottom opened.

Further, the cover member 200 is coupled to the lower portion of the housing member 100. Since the cover member 200 is detachably attached to one side of the housing member 100, the functional material can be recharged and the valve unit can be easily maintained.

Although not shown in the drawings, an O-ring formed of an elastic material is provided between the lower end of the housing member 100 and the cover member 200 to prevent fluid from leaking.

An inlet (800) for supplying fluid is installed in the cover member (200).

An outlet 810 is provided through the upper portion of the housing member 100.

A first flow path is formed so that the fluid introduced through the inlet port (800) rises along the longitudinal direction of the housing member (100). That is, the fluid introduced into the housing member 100 through the inlet port 800 during the supply of the fluid flows in the longitudinal direction of the housing member 100 from the inside of the housing member 100 by the pressure difference with the outlet port 810 And then flows upward.

The saturated solution eluted through the fourth flow path is discharged to the outside of the housing member 100 through the second flow path and the outlet 810. [

4, the release preventing portion 650 is formed inside the upper lower end of the housing member 100. As shown in FIG. That is, the release preventing portion 650 is formed on the inner side of the housing member 100 where the outlet 810 is formed to prevent the floating portion 640 from being detached.

4, the inner diameter of the housing member 100 is formed to be larger than the linear transverse length of the balance portion 642. [ Accordingly, when the floating portion 640 is lowered due to the difference in apparent specific gravity between the floating portion 640 and the fluid at the time of interruption of fluid supply after the floating portion 640 floats due to the fluid pressure at the time of fluid supply, The protruding portion 641a of the body portion 641 of the movable portion 630 is seated on the seating portion 631a of the body portion 631 of the moving portion 630 to close the fourth flow path.

As described above, the functional material feeder 1 for water treatment according to the first embodiment of the present invention maximizes miniaturization with the simplest structure and can be easily installed on the pipeline through which fluid is supplied.

As shown in FIG. 5, the housing member 100 of the functional material feeder 1 for water treatment according to the second embodiment of the present invention is formed into a cylindrical shape with its bottom opened.

Although not shown in the drawings, a cover member may be attached to a lower portion of such a housing member, and a valve unit may be installed on one side of the cover member.

As shown in Fig. 5, preferably, the cover member is integrally formed with the valve unit 600 for functional treatment of water treatment (1) according to the second embodiment of the present invention.

That is, the lower portion 612 of the body portion of the valve unit 600 is extended and formed, and the lower portion 612 of the body portion is detachably attached to one side of the housing member 100. As a result, the space inside the main body 610 of the valve unit 600 is increased, and finally the larger amount of the functional material 700 is charged into the main body 610 of the valve unit 600 can do. Further, since the cover member and the valve unit are formed integrally, the valve unit 600 can be easily replaced, and the assembly time and maintenance time of the water treatment functional material supply device 1 can be reduced.

Also, an O-ring formed of an elastic material is provided between the lower end of the housing member 100 and the tip of the lower portion 612 of the main body, thereby preventing the fluid from leaking.

An inlet port 800 for supplying the fluid and an outlet port 810 for discharging the fluid to the outside of the housing member 100 are formed on one side of the housing member 100, 100 side.

The housing member 100, the inlet port 810, and the outlet port 800 may be integrally formed for ease of assembly and manufacturing convenience.

The guide portion 110 is formed to extend along the longitudinal direction of the housing member 100 inside the housing member 100. [ The guide part 110 is connected to the inlet port 800 and communicates with the fluid flowing into the interior of the housing body 100 through the inlet port 800 in the longitudinal direction of the housing member 100 Thereby forming a first flow path that rises after flow.

The inner side of the guide portion 110 communicates with the housing member 100 via the outlet port 810 and the saturated solution discharged through the fourth flow path and the fluid rising along the longitudinal direction of the housing member 100 via the first flow path. 100 to the outside.

The separation preventing portion 650 is provided on a part of the inner circumferential surface of the guide portion 110. The release preventing portion 650 is formed at the upper end of the inner circumferential surface of the guide portion 110 of the housing member 100 in which the outlet 810 is formed to prevent the floating portion 640 from being detached.

The housing member 100, the inlet port 800, the outlet port 810, and the guide portion 110 and the departure prevention portion 650 may be integrally formed to reduce manufacturing time and ease of assembly. have.

5, the inner diameter of the guide portion 110 of the housing member 100 is formed to be larger than the straight transverse length of the balance portion 642. [ Accordingly, when the floating portion 640 is lowered due to the difference in apparent specific gravity between the floating portion 640 and the fluid at the time of interruption of fluid supply after the floating portion 640 floats due to the fluid pressure at the time of fluid supply, The protruding portion 641a of the body portion 641 of the movable portion 630 is seated on the seating portion 631a of the body portion 631 of the moving portion 630 to close the fourth flow path.

As described above, in the functional material feeder 1 for water treatment according to the second embodiment of the present invention, the guide part 110 is additionally provided and the departure prevention part 650 is installed in the guide part 110 The manufacturing cost of the functional material feeder 1 for water treatment can be reduced and the size of the functional material feeder 1 can be easily set in various types of water treatment apparatuses.

6 to 8, the functional material feeder 1 for water treatment according to the third embodiment of the present invention includes a housing member 100, a cover member 200, a valve unit 600, (700). 6 to 8, the functional material feeding apparatus 1 for water treatment according to the third embodiment of the present invention may further include a filter member 500. [

The housing member (100) forms the outer shape of the water treatment functional material supplying device (1). According to a preferred embodiment of the present invention, the housing member 100 may be formed in a cylindrical shape having one side opened, the other side closed, and a hollow portion formed therein. Accordingly, the functional material supply device can be easily installed in various water treatment devices such as a shower, a water softener, a water purifier, and the like. In this case, the cover member 200, which will be described later, is detachably attached to one side and the other side of the housing member 100, that is, the upper and lower portions of the housing member 100, Lt; / RTI >

The cover member 200 is coupled to an open side of the housing member 100. Since the cover member 200 is detachably installed on one side of the housing member 100, the functional material 700 can be refilled and the valve unit 600 can be maintained.

An inlet port 800 and an outlet port 810 are provided on one side of the cover member 200 so that fluid is introduced into the housing member 100 through the inlet port 800 when the fluid is supplied and communicated with the outlet port 810 A saturated solution in which the functional agent dissolves out of the housing member 100 through the fourth flow path is discharged.

Any one of the inlet port 800 and the outlet port 810 may be formed on the housing member 100 and the other one may be formed on the cover member 200 as necessary.

6 to 8, the inlet port 800 and the outlet port 810 are separated by a partition wall and are connected to each other through a first flow path through which the fluid flows into the inlet port 800 and a second flow path through the outlet port 810, The fluid mixed with the saturated solution eluted from the body portion 610 of the unit 600 forms a second flow path to be discharged to the outside of the housing member 100 of the water treatment functional material supplying device 1. [

When the fluid flows into the housing member 100 through the inlet port 800 when the fluid is supplied according to the positions of the inlet port 800 and the outlet port 810, And flows along the longitudinal direction of the member (100).

6 to 8, the functional material feeder 1 for water treatment according to the third embodiment of the present invention is installed inside the housing member 100 to house the valve unit 600 therein A first fixing member 300 and a second fixing member 300 installed at upper and lower portions of the housing member 100 for fixing the filter member 500 and the filter member 500 to the inside of the housing member 100, 400).

6 to 8, the filter member 500 of the functional material feeder 1 for water treatment according to the third embodiment of the present invention is installed inside the housing member 100. As shown in Fig.

The filter member 500 is formed in a shape corresponding to the shape of the hollow portion of the housing member 100 and has a hollow portion for receiving the valve unit 600 therein. And is installed inside the housing member 100 so as to be spaced apart from each other. Preferably, the filter member 500 may be composed of various types of filter members capable of removing foreign matter from the fluid.

As described above, since the filter member 500 is installed inside the housing member 100 by the first fixing unit 300 and the second fixing unit 400, even when the separate guide unit 110 is not provided A fluid flows in the housing member 100 along the longitudinal direction of the housing member 100 while the fluid flowing into the housing member 100 is filtered through the inlet port 800 and the first flow path during the fluid supply. .

6 to 8 illustrate that the first fixing member 300 is installed on the upper portion of the housing member 100 and the second fixing member 400 is provided on the lower portion of the housing member 100. However, The first fixing member 300 and the second fixing member 400 may be installed on the housing member 100 as needed. That is, the first fixing member 300 may be installed on the lower portion of the housing member 100, and the second fixing member 400 may be installed on the upper portion of the housing member 100.

7 to 8, the first fixing member 300 of the functional material feeder 1 for water treatment according to the third embodiment of the present invention includes a first plate portion 310, a first vertical portion 320, a first support portion 330, and a first sealing member 340.

The first plate portion 310 is formed in a disc shape to form an outer shape of the first fixing member 300. However, the present invention is not limited thereto and may be formed in a different shape depending on the shape of the filter member 500.

The first vertical part 320 extends vertically from one side of the first plate part 310 and the first vertical part 320 extends from the tip of the first vertical part 320 to the first plate part 310 ) Through which the fluid can flow.

As shown in FIGS. 7 to 8, the first vertical portion 320 is communicated with the outlet 810 formed in the cover member 200.

That is, as the through hole of the first vertical part 320 communicates with the outlet 810, the fluid introduced through the inlet 800 is discharged to the outside of the water treatment functional material supplying device 1 through the outlet 810 Thereby forming a second flow path.

The first support portion 330 extends in the vertical direction from the other side of the first plate portion 310. That is, the first support part 330 is formed on the first plate part 310 so as to have a direction opposite to the first vertical part 320.

One side of the filter member 500 is inserted into the first support portion 330.

The separation preventing portion 650 is formed by the lower portion of the first vertical portion 320 and the side surface of the first supporting portion 330. Since the release preventing portion 650 is formed on the lower portion of the first fixing member 300, the floating portion 640 can be prevented from being detached when the floating portion 640 floats when the fluid is supplied. Since the separation preventing portion 650 is formed at the lower portion of the first fixing member 300 so that the separate separation preventing portion 650 is not formed in the housing member 100, The manufacturing cost and manufacturing time of the device 1 can be reduced.

The first sealing member 340 is installed on a part of the first vertical part 320. Preferably, a groove is formed on the upper outer periphery of the first vertical portion 320, and the first sealing member 340 is inserted into the groove formed on the upper outer periphery of the first vertical portion 320. It is possible to prevent the fluid from leaking as the first sealing member 340 comes into close contact with the partition wall of the outlet.

Although not limited thereto, the first sealing member 340 may be formed of an O-ring of an elastic material.

The filter member 500 can be stably installed inside the housing member 100 by the first fixing member 300 and the functional material eluted from the body portion 610 of the valve unit 600 can be stably Through the second flow path connected to the outlet 810 in a state mixed with the fluid rising along the longitudinal direction of the housing member 100 when the solution is eluted through the fourth flow path, And can be easily discharged to the outside.

6 to 8, the second fixing member 400 of the functional material feeder 1 for water treatment according to the third embodiment of the present invention includes a second plate portion 410, a second vertical portion 420, a second support portion 430, and a second sealing member 440.

The second plate portion 410 is formed in a disk shape to form an outer shape of the second fixing member 400. However, the present invention is not limited thereto and may be formed in a different shape depending on the shape of the filter member 500.

The second vertical part 420 extends vertically from one side of the second plate part 410 and the second vertical part 420 has a diameter different from the first vertical part 420 along the vertical direction As shown in Fig. 7 to 8, the valve unit is fixed to the upper portion of the second vertical portion 420. [

That is, since the second vertical portions 420 are formed in multiple stages so that the diameters of the second vertical portions 420 are different from each other along the vertical direction, the valve unit 600 can be stably fixed to the upper portion of the second vertical portion 420, The bottom portion of the filter member 500 can be stably fixed by the lower portion of the vertical portion 420 and the second support portion 430 described later.

The second support portion 430 extends in the vertical direction from one side of the second plate portion 410. That is, the second support portion 430 is formed along the outer peripheral surface of the second plate portion 410 so as to be parallel to and spaced apart from the second vertical portion 420.

One side of the filter member 500 is inserted into the lower portion of the second support portion 430 and the second vertical portion 420.

And the second sealing member 440 is installed on a part of the second vertical part 420. A groove is formed on the outer periphery of the upper portion of the second vertical portion 420 and a second sealing member 440 is inserted into the groove formed on the upper outer periphery of the second vertical portion 420. The valve unit 600 can be stably fixed as the second sealing member 440 is in close contact with the body portion 610 of the valve unit 600 described later.

Although not limited thereto, the second sealing member 440 may be formed of an O-ring of elastic material.

The filter member 500 can be stably installed inside the housing member 100 by the second fixing member 400 and the valve unit 600 can be stably supported and installed inside the housing member 100 have.

It is preferable that the first plate portion 310, the first vertical portion 320, the first support portion 330, and the second plate portion 330 of the first fixing member 300 and the second plate portion 310 of the first fixing member 300, The separation preventing portion 650 may be integrally formed through injection molding or the like.

The second plate portion 410, the second vertical portion 420, and the second support portion 430 of the second fixing member 400 may also be formed by injection molding, for example, It can be integrally formed through molding or the like.

6 to 8, the valve unit 600 of the functional material supply apparatus for water treatment according to the third embodiment of the present invention is installed inside the housing member 100 inside the filter member 500 . That is, the valve unit 600 is installed in the hollow portion of the filter member 500 so as to be spaced apart from the inner circumferential surface of the filter member 500 by a predetermined distance.

6 to 8, the inner diameter of the filter member 500 is formed to be larger than the linear transverse length of the balance portion 642. [ Accordingly, when the floating portion 640 is lowered due to the difference in apparent specific gravity between the floating portion 640 and the fluid at the time of interruption of fluid supply after the floating portion 640 floats due to the fluid pressure at the time of fluid supply, The protruding portion 641a of the body portion 641 of the movable portion 630 is seated on the seating portion 631a of the body portion 631 of the moving portion 630 to close the fourth flow path.

The functional material 700 is filled into the interior of the valve unit 600. That is, the functional material 700 is filled in the internal space of the body portion 610 of the valve unit 600.

Preferably, the functional material 700 may be composed of any one of a vitamin agent, a sterilizing agent for sterilizing germs or bacteria harmful to the human body contained in the fluid, a hardness regulator, a skin cosmetic material, or a mixture thereof.

Accordingly, when the fluid flows along the longitudinal direction of the housing member 100 during the fluid supply, the valve unit 600 is opened as the moving part 630 is rotated and lifted and the floating part 640 floats, The valve unit 600 is closed due to the difference in apparent specific gravity between the fluid, the moving part 630 and the fluid and the floating part 640 at the time of interruption of the fluid supply, so that the functional material filled in the main part is dissolved in the fluid It is possible to gradually supply the saturated solution uniformly and stably, to prevent the functional material from being unnecessarily consumed, to make the functional material supply device for water treatment small, and to easily install it in various kinds of water treatment devices.

The operation principle of the functional material feeding device for water treatment according to the third embodiment of the present invention will be described with reference to FIGS. 7 to 8. FIG. As described above, when the functional material feeder for water treatment according to the present invention is installed upside down as shown in Figs. 7 to 8, the moving part and the floating part of the valve unit are lightly formed with an apparent specific gravity smaller than the fluid, It works. In the first embodiment, the second embodiment and the third embodiment of the present invention shown in Figs. 4 to 8, when the upside and the downside are reversed as shown in Figs. 7 to 8, The part has a smaller apparent specific gravity than the fluid and works opposite to the working principle described later.

The arrows in Figs. 4-5 and 8 show the flow path of the fluid in the interior of the housing member upon fluid supply.

Hereinafter, referring to Figs. 7 to 8, the moving part and the floating part will be described focusing on the case where the apparent specific gravity is heavier than the fluid.

When the functional material feeder 1 for water treatment according to the third embodiment of the present invention is installed in a water treatment apparatus such as a water purifier, a water softener, a shower, and a water channel, the inlet port 800 is connected to the water supply device.

7, when the fluid supply is interrupted, the convex portion 631b of the body portion 631 and the extension portion 631b of the body portion 631 are extended with the moving portion 630 completely lowered by the difference in apparent specific gravity between the moving portion 630 and the fluid, And the accommodating portion 622b of the portion 622 is in close contact with the third flow path to maintain the closed state of the third flow path.

The projecting portion 641a of the body portion 641 and the seating portion 631a of the body portion 631 are in close contact with each other in a state in which the floating portion 640 is completely lowered by the difference in apparent specific gravity between the floating portion 640 and the fluid, And the fourth flow path is kept closed.

Accordingly, when the fluid supply is cut off, the path through which the fluid (saturated solution) filled with the functional material filled in the main body 610 is discharged to the outside of the main body 610 is blocked, Can be prevented from being unnecessarily consumed.

As shown in FIG. 8, when the fluid is supplied, the fluid flows into the interior of the housing main body 100 through the inlet port 800 and the first flow path. The fluid flowing into the housing body 100 flows along the longitudinal direction of the housing member 100 by the pressure of the fluid flowing in the inlet port 800 while passing through the filter member 500.

The fluid passing through the filter member 500 flows upward as a whole (upward along the longitudinal direction of the housing member) due to the pressure difference of the second flow path interlocking with the outlet 810.

A vortex is generated by the shape of the flange portion 622a of the extending portion 622 of the connecting portion 620 and the shape of the body portion 631 of the moving portion 630 during the flow of the fluid passing through the filter member 500 So that the moving part 630 is vertically upwardly moved by the pressure of the fluid flowing along the longitudinal direction of the housing member 100 in the housing member 100. That is, the blade portion 632 of the moving portion 630 has a predetermined downward inclination angle with respect to the tangential line A of the wing portion 631c at the lower portion of each wing portion 631c, The blade portion 632 is formed to have a predetermined side inclination angle with respect to the central axis B so that the blade portion 632 is rotated and rotated by the pressure due to the flow of the fluid. As the moving part 630 is rotated, the receiving part 622b of the connecting part 620 and the convex part 631b of the body part 631 are separated from each other and the third flow path is opened.

As the third flow path opens, fluid flows into the interior of the body portion 610 along the third flow path. The fluid flows into the main body 610 through the third flow path through the groove portion 633a formed along the longitudinal direction of the housing member 100 on the outer peripheral surface of the insertion portion 633 of the moving portion 630, More easily. (Saturated solution) in which the functional material is dissolved in a saturated state by the fluid introduced through the third flow path, is uniformly and uniformly pushed to the lower portion of the main body portion 610.

Thereafter, as the balance portion 642 of the floating portion 640 receives the pressure of the fluid, the floating portion 640 floats upward until it is stopped by the separation preventing portion 650. As the floating portion 640 floats upward, the seating portion 631a of the body portion 631 and the projection portion 641a of the body portion 641 are separated from each other and the fourth flow path is opened.

Accordingly, during the supply of the fluid, the flow path of the solvent (the third flow path) and the flow of the saturated solution to discharge the saturated solution, in which the filled functional material is dissolved, to the outside of the main body 610, As the flow path (fourth flow path) is fully opened, the saturated solution in which the functional material is dissolved can be stably and uniformly supplied.

Further, as the fourth flow path opens, the saturated solution in which the functional material is dissolved out of the body portion 610 along the fourth flow path is discharged, and the floating portion 640 is vertically upwardly moved It is possible to prevent the floating portion 640 from being deviated to another path by catching the body portion 641 of the floating portion 640 through the upper end of the balance portion 642, The fluid that has not flowed into the body portion 610 and the fluid that has passed through the inside of the body portion 610 are mixed with each other.

Therefore, it is possible to uniformly and stably supply the concentration and amount of the functional agent contained in the fluid flowing out of the water treatment functional material supply device 1 through the second flow path and the outlet 810, So that it can be easily installed in various types of water treatment apparatuses.

The present invention is not limited to the modifications shown in the drawings and the embodiments described above, but may be extended to other embodiments falling within the scope of the appended claims.

1: Functional material supply device,
100: housing member, 110: guide member,
200: cover member, 300: first fixing member,
310: first plate portion, 320: first vertical portion,
330: first supporting member, 340: first sealing member,
400: second fixing member, 410: second plate portion,
420: second vertical portion, 430: second support portion,
440: second sealing member, 500: filter member,
600: valve unit, 610: main body part,
611: fastening part, 612: lower part
620: connecting portion, 621: connecting portion,
622: extension part, 622a: flange part,
622b: receiving portion, 630: moving portion,
631: body portion, 631a: seat portion,
631b: convex portion, 631c: wing portion,
632: blade portion, 633: insertion portion,
633a: a groove portion, 640: a floating portion,
641: body portion, 641a: protruding portion,
642: balance portion, 650: departure prevention portion,
660: stopper portion, 661: incision portion,
700: Functional material, 800: Inlet,
810: outlet,?: Downward inclination angle,
β: side inclination angle, A: tangent line,
B: Center axis.

Claims (10)

A housing member;
An inlet for supplying fluid to the interior of the housing member and an outlet for discharging the fluid to the outside of the housing member; And
And a valve unit installed inside the housing member,
The valve unit includes:
A main body part having a fastening part protruding from one side and filled with a functional material therein;
A connecting portion to which one side is coupled to the coupling portion;
A moving part inserted into the connection part so as to be rotatable along the connection part;
A floating unit installed on one side of the moving unit so as to be floating; And
And a separation preventing portion formed on an inner part of the housing member to prevent the floating portion from being detached,
The moving unit includes:
Body part; And
And an insertion portion having a groove portion formed on an outer circumferential surface of the housing member along a longitudinal direction of the housing member and extending to the other side of the body portion to be inserted through the connection portion,
The valve unit is opened as the fluid flows along the longitudinal direction of the housing member while the fluid is supplied and the moving unit is floated and the floating unit floats,
Wherein the valve unit is closed by a difference in apparent specific gravity between the fluid, the moving unit, the fluid, and the floating unit when the fluid supply is interrupted.
The method according to claim 1,
The connecting portion
A coupling portion coupled to the coupling portion; And
And an extension extending from one side of the coupling portion,
The extension
A flange portion formed along a circumferential surface of one end of the extended portion; And
And a receiving portion formed to be inclined along the flange portion.
3. The method of claim 2,
The floating portion includes:
A body portion having a protrusion formed on one side thereof; And
And a balancing portion formed at one side of the body portion and for balancing the floating portion when the floating portion floats.
The method of claim 3,
Wherein the body portion of the moving portion comprises:
A seating part formed on one side surface of the body part so that the protrusion is seated;
A convex portion formed on the other side surface of the body portion to correspond to the shape of the accommodating portion; And
And a plurality of wings spaced apart at intervals of 90 degrees, 72 degrees, or 60 degrees along the outer circumferential surface of the body portion.
5. The method of claim 4,
The moving unit includes:
And a blade portion formed at a lower portion of each of the wing portions.
6. The method of claim 5,
The blade portion includes:
Wherein the tapered portion has a downward inclination angle of 30 to 50 degrees with respect to a tangent of the wing portion and has a side inclination angle of 30 to 50 degrees with respect to a central axis of the insertion portion.
delete The method according to claim 6,
And a cover member coupled to one side or both sides of the housing member.
9. The method of claim 8,
Wherein the housing member further comprises a guide portion extending in the longitudinal direction of the housing member inside the housing member.
9. The method of claim 8,
A filter member installed inside the housing member to receive the valve unit therein; And
Further comprising a first fixing member and a second fixing member installed at upper and lower portions of the housing member to fix the filter member to the inside of the housing member.

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