JPH1151528A - Device for controlling water current of water distributor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To control the water current by manual operation, and to connect the device directly to a refrigerator by providing a water current control means between a tap faucet and a filtering means so that the water passing through the filtering means is fed and shut off by the manual operation and constantly fed to the refrigerator. SOLUTION: When an operation lever 360 is turned counterclockwise to the last so that a consumer drinks the purified water, the operation lever 360 is not further turned by the contact of a locking projection 362 with a first locking projection 352 projection on the front side of a lid plate 350, and a set projection on the front side of the operation lever 360 is matched with the first selected scale while the operation is stopped. When the operation lever 360 is turned clockwise to be shut off so that the purified water is not fed, the set projection on the front side of the operation lever is matched with the second selected scale, and the operation lever is stopped following the setting action of turning range regulation member 370.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water flow control device for a water distributor (for example, a water purifier) mounted in a table-and-hanging manner, and more particularly to raw water (water) supplied to a tap. After filtering various harmful substances and purifying the water, the purified water is opened and closed so as to be discharged and shut off to the outside according to the consumer's choice, or the purified water is not involved in the operation of the consumer. The present invention relates to a water flow control device for a water distributor that is always supplied to a refrigerator through a refrigerator connection part.

[0002]

2. Description of the Related Art A conventional water distributor supplies raw water supplied from a tap to another filtering means, and then removes various foreign substances contained in the raw water to supply purified water. become.

[0003] Such water distributors can be broadly classified into natural filtration type, direct filtration type, ion exchange resin type, reverse osmosis pressure type, etc., depending on the type of water purification. The adjusting device applies a certain pressure to the raw water and passes the water through an artificial osmosis membrane to purify water.It separates and removes heavy metals, bacteria, carcinogens, etc., and only pure water and dissolved oxygen. Has been used for washing or medical use in the cutting-edge scientific industry and ultra-precision electronic components, and recently, due to severe environmental pollution, water distributors for homes and business offices have been used for drinking and home use. It is widely used.

As shown in FIG. 1, the reverse osmotic water distributor utilizing the above principle filters suspended substances such as rust litter contained in raw water (tap water) supplied from a water tap 10. A primary processing filter 20 is installed, and a secondary processing filter 30 that filters foreign substances such as chlorine components contained in raw water supplied from the primary processing filter 20 is installed. The secondary processing filter 30 is supplied from the secondary processing filter 30. A membrane filter 40 for filtering various heavy metals and carcinogens contained in the raw water is provided.

[0005] A water box 50 for storing and storing raw water which has been subjected to water purification treatment, which is a part of the raw water that has passed through the membrane filter 40.
Is installed, and a post-processing filter 60 that filters various odors and toxic gas components contained in the raw water supplied from the membrane filter 40 or the water box 50 is installed. The raw water supplied from the post-processing filter 60 is provided. UV germicidal lamp 70 for sterilizing various bacteria contained in
Is installed, and an intake tap 80 for taking in purified water that has passed through the ultraviolet germicidal lamp 70 is installed.

Further, a pressurizing pump 90 for pressurizing raw water passing through the secondary processing filter 30 is provided between the secondary processing filter 30 and the membrane filter 40. A raw water valve 100 for turning on and off the supply of raw water is installed between the pressurizing pump 90 and one side of the membrane filter 40 so that concentrated water generated while passing through the inside of the membrane filter 40 is drained. A concentrated water valve 110 is installed to detect the pressure of the water box 50 between the membrane filter 40 and the water box 50 so that the purified water in the water box 50 is turned off when the water is full or turned on when the water level is low. A high-voltage switch 120 is provided.

In the figure, reference numeral 130 denotes the ultraviolet germicidal lamp 70, the pressurizing pump 90, the raw water valve 100, and the concentrated water valve 1.
10 and control means for controlling the high-voltage switch 120.

[0008]

By the way, the conventional filtering device for a water distributor configured as described above filters raw water supplied from a faucet through a plurality of filtering means to filter various harmful substances. It is designed to be used after temporarily storing it in a water box or to be able to take water directly. The water flow of such a structure uses a raw water valve 100, a concentrated water valve, a high pressure switch, control means, etc. Therefore, there is a problem that the product is expensive and the structure is complicated, so that it cannot be used by being connected to a refrigerator.

[0009]

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned various problems, and an object of the present invention is to provide:
An object of the present invention is to provide a water flow control device for a water distributor, which has a simplified structure, can control a water flow according to a manual operation, and can be used by being connected to a refrigerator.

[0010]

SUMMARY OF THE INVENTION A water flow control device for a water distributor according to the present invention, which has been made to achieve the above object, contains water supplied from a faucet by being passed through a filtration means and contained in the water. In the water distributor configured to filter the various foreign substances that have been filtered and then supplied to the outside, the water that has passed through the filtering means is supplied and shut off to the outside through the intake plug according to a manual operation, and the filtration is performed. A water flow control means is provided between the tap and the filtration means so that the water passed through the means is always supplied to the refrigerator regardless of manual operation.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment according to the present invention will be described below in detail with reference to the accompanying drawings. As shown in FIGS. 2 to 12, the water distributor of the present invention is provided with a case 200 that forms an outer shell so as to be installed on a table and in a hanging manner. After the raw water supplied from the faucet 10 has been purified, the water may be supplied and shut off through the purified water discharge unit P2 according to the consumer's choice, or the purified water may be selected by the consumer. Regardless, the water flow control means 300 is installed so as to be constantly supplied to the refrigerator R through the refrigerator connection part P3, and the other side of the case 200 is provided with raw water through a passage on one side of the water flow control means 300. When water is supplied, various harmful substances contained in the raw water are filtered and purified, and the purified water is supplied to another route of the water flow control means 300. 0 is installed on one side of the upper portion of the case 200 so that the direction of water intake can be adjusted according to the selection of the consumer or the installation location of the case 200 by the purified water outlet P2. Water tap 500 connectable to
Is installed.

At this time, the water flow control means 300
As shown in FIG. 5, when raw water supplied from the water tap 10 flows into one side surface of the case 200 through one side, the raw water is supplied and collected to the filtering means 400 to discharge the purified water. A housing 310 is installed to supply the water to the section P2 and the refrigerator connecting section P3, respectively. Inside the housing 310, the raw water flowing into the housing 310 passes through the filtering means 400 and the purified water discharge section P2 and the refrigerator. A fixed shaft 320 is provided so as to flow through the connecting portion P3. One end of the rotating shaft 340 is provided at one end of the fixed shaft 320 so as to reciprocate at a predetermined angle inside the fixed shaft 320. Is inserted and installed at a predetermined depth.

A cover plate 350 is provided between the housing 310 and the case 200, which are screwed to each other, and the rotation shaft 340 is disposed at the end of the rotation shaft 340. The operation lever 36 penetrates the side wall of the case 200 so that the
0, the left and right rotation range of the rotating shaft 340 is set to two on one side between the rotating shaft 340 and the lid plate 350.
A rotation range adjusting member 370 is installed so as to set the angle of the step, and on the upper part with respect to the intermediate peripheral surface of the fixed shaft 320, the water purification inside the housing 310 while being raised and lowered according to the eccentric rotation of the rotation shaft 340. A valve body 380 is installed to open or block the treated water from being discharged to the outside through the purified water discharge part P2.

An opening 311 is formed at the front side of the housing 310 so that the combined body of the fixed shaft 320 and the rotating shaft 340 is inserted and covered by the lid plate 350. A first through-hole 312 is formed so that raw water supplied from the water tap 10 via the first hose 600 flows into the housing 310, and a lower rear end of the first through-hole 312 is formed on a peripheral surface thereof. A third through hole 314 is formed so that raw water flowing into one side of the housing 310 flows out to the filtering means 400 via a second hose 610.

In the middle of the lower side of the peripheral surface of the housing 310, the water subjected to the water purification treatment via the filtering means 400 is collected again on the other side inside the housing 310 via the third hose 620. A second through-hole 313 is formed so as to form a fourth through-hole 315 at the upper middle of the peripheral surface so that the purified water in the housing 310 flows out to the water tap 500. A fifth through hole 316 is formed in the middle of the side of the peripheral surface so that the purified water in the housing 310 flows out to the refrigerator R via the fourth hose 630. The fixed shaft 320 is inserted into the surface to prevent the fixed shaft 320 from rotating.
A plurality of assembly setting protrusions 317 are formed in a distributed manner so that 0 is accurately positioned at a predetermined angle.

The second through hole 313, the fourth and fifth holes
The through holes 315 and 316 are formed at intermediate positions with respect to the peripheral surface of the housing 310, and the angle between the second through hole 313 and the fifth through hole 316 or the fourth through hole 315 and the fifth Angle with the through hole 316 is 9
It is formed at a position where it becomes 0 °.

On the other hand, the fixed shaft 320 is
When the body 20 is inserted through the opening 311 of the housing 310, the body 20 is formed in a cylindrical body 321 so that the circumference thereof is coupled to each other with a minute gap. At a predetermined distance inside at the right) end, the same cross section as the first through hole 312 formed at one end of the housing 310 when the fixed shaft 320 is inserted and aligned inside the housing 310. Inflow passage 3 in the horizontal direction so that raw water is supplied according to the results.
On one side around the rear end of the body 321, one side around the space between the fixed shaft 320 and the housing 310 while the flow of raw water flowing through the inflow passage 322 is changed at a right angle. An outflow passage 323 is formed so as to be outflowed.

On the outer peripheral surface of a predetermined distance from the rear end of the body 321, the raw water flowing out through the outflow passage 323 flows in a predetermined space formed by the combination of the body 321 and the housing 310, and then the water flows out of the housing 310. A first water flow groove 324 having a circular band shape is formed so as to be supplied to the filtering means 400 through the through-hole 314 of the third body. The water purified while passing through the means 400 is passed through the second through hole 313 of the housing 310 and the housing 31
0, the body 321 and the housing 31
The second water flow groove 325 having a circular band shape so that the water flows in a predetermined space formed by the combination of the first and the second through holes 315 and the third through hole 316 of the housing 310. Are formed.

A shaft hole 326 is horizontally formed concentrically at a predetermined depth on the other side (left side) of the body 321 such that one end of the rotating shaft 340 is inserted into the predetermined depth and rotated. The valve body 380 is installed above the middle peripheral surface of the body 321 so that the valve body 380 is moved up and down according to the eccentric rotation of the rotary shaft 340. Valve connection hole 327 in the vertical direction
Are formed.

The rear end flat surface of the body 321 prevents the fixed shaft 320 from rotating inside the housing 310 and a plurality of assembly settings formed on the housing 310 so as to be aligned at a predetermined angle. Protrusion 317
A plurality of assembly setting grooves 328 fitted to correspond to each other.
The fixed shaft 320 and the rotating shaft 340 are temporarily assembled by another pin member (not shown) on one side of the flat surface on the other side (left side) of the body 321 so as to be integrally rotatable. In this manner, the connecting groove 329 is formed so that the fixed shaft 320 and the housing 310 can be easily assembled.

At this time, the shaft hole 326 and the valve connection hole 327
Are connected to each other so as to be opposed to each other at right angles, and the inner peripheral surface of the valve coupling hole 327 is formed in a helical shape so that a nut described later of the valve body 380 is screwed.

On the other hand, an insertion portion 341 having a predetermined length is formed at the rear (right) end of the rotation shaft 340 so as to be inserted through the shaft hole 326 of the fixed shaft 320. When the rotating shaft 340 rotates, the valve coupling hole 32 of the fixed shaft 320 rotates while rotating eccentrically.
Eccentric part 3 so as to raise valve body 380 installed in
A semicircular connecting portion 343 is formed at the front end of the front end so that the operation lever 360 is coupled to the outside so as not to rotate.

At the front (left) end of the rotating shaft 340,
A flange portion 344 is formed so as to have a larger diameter than the outer diameter of the insertion portion 341 and to be located on the inner peripheral surface of the housing 310 on the opening 311 side, and on one side of the front surface of the flange portion 344. An accommodation groove 345 is formed so that the rotation range adjusting member 370 is accommodated and operated resiliently, and the other side of the front surface of the flange portion 344 is fixed by another pin member (not shown). The shaft 320 and the rotary shaft 340 are temporarily assembled so as to be integrally rotatable, so that the fixed shaft 320 and the housing 310 are easily assembled. Is formed.

On the other hand, when the rotation shaft 340 is rotated at a predetermined angle around the middle of the rear surface of the lid plate 350, the rotation range adjustment member 370 is resiliently moved to a predetermined position while being simultaneously moved. Two locking grooves 351 are formed in a semicircular shape at 90 ° intervals so as to be aligned with each other, and around the middle of the front surface thereof, 90 ° so as to interrupt the rotation range of the operation lever 360. The first and second locking projections 352 and 353 are provided at intervals.

As shown in FIGS. 8 and 9, the operation lever 360 is connected to the outer peripheral surface of a connecting portion 343 formed at the center of the rear surface of the rotating shaft 340 so as not to rotate. A groove 361 is formed, and on the outer peripheral surface of the connection groove 361, when the operation lever 360 is rotated left and right, the first and second projections provided on the lid plate 350 are formed.
A plurality of locking walls 3 divided at 90 ° intervals so that the rotation range is interrupted by hitting the locking projections 352 and 353
62 is formed on one side of the front edge portion of the first and second selection scales 210, 210 displayed on the case 200.
A setting protrusion 363 is formed so as to be selectively matched with 211.

As shown in FIG. 4, the rotation range adjusting member 370 includes a housing groove 345 formed in the rotation shaft 340.
A spring 371 which is inserted and resiliently operated, and is housed in the housing groove 341 so as to be set or separated into a plurality of locking grooves 351 formed in the lid plate 350 according to the operation of the spring 371. Ball 372 to be played.

As shown in FIGS. 6 and 7, the valve body 380 has a valve coupling hole 327 formed in the fixed shaft 320.
The piston 381 which is inserted through the upper portion of the housing and is in contact with the eccentric portion 342 of the rotary shaft 340 located at the lower portion of the valve coupling hole 327. A rubber packing 382 press-fitted and fixed to the upper part of the piston 381 so as to close or open the fourth through hole 315 of the 310;
The piston 381 is loosely fitted on the outer peripheral surface of the rubber packing 382 through the upper part of the piston 381 so as to be lowered by the elastic force, and a spring 383 disposed on the upper part of the piston 381;
And a nut 384 that is screwed into the valve coupling hole 327 so that the rubber packing 382 penetrates upward and moves up and down while preventing the valve shaft 3 from being detached from the valve coupling hole 327 of the fixed shaft 320. .

At this time, below the piston 381,
A convex arc surface 381a is formed so as to reduce friction by being in line contact with the eccentric portion 342 of the rotary shaft 340, and the lower surface of the rubber packing 382 is press-fitted and fixed at the upper center thereof. A coupling shaft 381b having a diameter smaller than the outer diameter on the lower side is integrally provided.

At the center of the upper surface of the rubber packing 382,
A concave groove 382a having a reduced cross section is formed at an interval between the inner peripheral surface of the housing 310 to reduce frictional resistance when contacting the inner peripheral surface of the housing 310 and prevent abnormal noise from occurring when water flows. The rib 382b is formed integrally with the inner peripheral surface of the housing 310 so as to be tightly in line contact with the inner peripheral surface of the housing 310 and to have a moderately curved upper end so that water flows slowly at the interval.

The elastic force of the spring 383 is higher than the water pressure in the housing 310.

The nut 384 is spirally formed on the outer peripheral surface thereof so as to be screwed to the inner peripheral surface of the valve coupling hole 327, and the nut 384 is formed on the upper surface thereof by using a tool.
A straight groove 384a is formed so as to be fastened.

On the other hand, the fixed shaft 320, the rotating shaft 340,
The piston 381 and the nut 384 of the valve body 380 are
Made of brass (Brass) to withstand water pressure and not corrode
Or any one selected from stainless steel.

In the figure, reference numeral 390 denotes a gap between the housing 310, the fixed shaft 320, and the rotating shaft 340 when the housing 310, the fixed shaft 320, and the rotating shaft 340 are connected to each other in the water flow control means 300 in the rotating direction. 2 shows a plurality of O-rings arranged to divide each other's space in the axial direction.

Next, the operation and effect of the embodiment of the present invention configured as described above will be described.

As shown in FIG. 3, the water distributor and the faucet 1
0, the refrigerator R is connected to the first to fourth hoses 600, 610, 62.
0,630 and water tap 1
0 is always turned on, the raw water flows through the first hose 600 due to the water pressure applied to the faucet 10 and the first through hole 3 formed in the housing 310 of the water flow control means 300.
The fixed shaft 32 which flows into the inner rear end of the housing 310 through the housing 12 and is fixed in the housing 310.
The raw water that has flowed into the inflow passage 322 and passed through the inflow passage 322 flows through an outflow passage 323 formed at a right angle to the end of the inflow passage 322.

Further, as shown in FIG. 10, the raw water flowing out of the outflow passage 323 diffuses through the first water flow groove 324 formed in the outer peripheral surface of the rear end of the fixed shaft 320 so as to spread through 360 °. After that, the outflow passages 323 to 9
It is discharged through a third through hole 314 formed at the lower rear end of the housing 310 so as to be located at 0 °,
Raw water discharged from the third through hole 314 is supplied to the second hose 61 connecting the third through hole 314 and the filtering means 400.
By passing through 0 and flowing into the filtering means 400,
When various foreign substances contained in the raw water pass through the filtering means 400, they are filtered to supply purified water.

Further, the purified water formed while passing through the filtering means 400 flows into the second through-hole 313 through a third hose 620 connecting the filtering means 400 and the second through-hole 313 of the housing 310. Thereby, the water is supplied to the second water flow groove 325 of the fixed shaft 320.

At this time, the second water flow groove 325 is
The water in the purified water treatment state diffused to 60 ° is located 90 ° from the second through hole 313 so that the housing 3
Fifth through hole 316 formed in side surface around the middle of 10
Is discharged through the fifth through-hole 316 and is constantly supplied to the refrigerator R through the fourth hose 630 connecting the fifth through-hole 316 and the refrigerator R. Water or ice cooled through the refrigerator R is provided.

By the way, in order for the purified water to be taken directly through the faucet 500 while passing through the filtration means 400 and used for drinking and other purposes, the operating lever 360 must be manually operated by the consumer. Have to operate.

That is, when the consumer rotates the operation lever 360 in one direction (counterclockwise) to the end to drink the purified water through the water tap 500, the operation lever 3
Numeral 60 denotes a locking projection 362 projecting from the rear surface and the lid plate 3.
As shown in FIG. 8, the operation lever 360 is stopped at a position of 90 ° without being rotated further according to the contact with the first locking projection 352 projecting from the front surface of the operation lever 360.
The setting protrusion 363 protruding from the front of the case 200 matches the first selection scale 210 displayed on the front of the case 200.

Further, when the operating lever 360 is rotated, the rotating shaft 340 fitted to the rear side of the operating lever 360 so as not to rotate idly is simultaneously rotated at the same angle, so that the rear end of the rotating shaft 340 is rotated. The eccentric part 342 formed in the insertion part 341 is moved down, and the piston 381 of the valve body 380 and the rubber packing 3 are moved in accordance with the descending movement of the eccentric part 342.
82 are simultaneously moved downward in a state where they are connected to each other, so that the fourth through-hole 315 of the housing 310 is
Opened as shown in FIG.

Here, the piston 381 is connected to the eccentric part 3
When the height is lowered by rotating 42, while being lowered by a spring 383 which constantly applies elastic force in a downward direction,
The rubber packing 382 press-fitted and fixed to the coupling shaft 381b at the upper end thereof is simultaneously moved downward. When the rubber packing 382 is moved downward, the inner surface of the housing 310 which is in line contact with the rib 382b on the upper surface thereof Is separated to a predetermined gap, so that the fourth through hole 315 is opened.

Therefore, the water stagnated in the second water flow groove 325 of the fixed shaft 320 flows out through the opened fourth through hole 315 and the fourth through hole 31
Consumers can drink the purified water in a container such as a cup by being discharged to the outside through a water tap 500 connected to 5.

On the other hand, when the operation lever 360 is rotated in the opposite direction (clockwise) in order to shut off the purified water through the water tap 500, the operation lever 36 is turned off.
9, the setting protrusion 363 protruding from the front surface of the operation lever 360 matches the second selection scale 211 displayed on the front surface of the case 200, and the setting operation of the rotation range adjusting member 370, as shown in FIG. Is stopped according to.

That is, the ball 3 of the rotation range adjusting member 370
72 is the housing groove 34 of the rotating shaft 340 together with the spring 371.
5, the rotating shaft 340 is simultaneously moved when the rotating shaft 340 is rotated, and is selected by two locking grooves 351 formed on the rear surface of the lid plate 350 by the elastic force of the spring 371. When one of them is matched, a sound (click sound) that can be heard by the consumer is generated, and the operation position of the operation lever 360 is set.

Further, when the operating lever 360 is rotated, the eccentric portion 342 formed on the rotating shaft 340 is moved upward by simultaneously rotating the rotating shaft 340 in the opposite direction. The piston 381 of the valve body 380 and the rubber packing 382 are simultaneously moved up while being connected to each other, so that the housing 3
The tenth fourth through holes 315 are closed as shown in FIG.

Here, the piston 381 is connected to the eccentric portion 3
When the height is increased by rotating the piston 381,
The rubber packing 3 press-fitted and fixed to the upper end coupling shaft 381b while compressing (upwardly moving) the spring 383 pressing the spring 383.
82 at the same time, the rubber packing 3
When the valve 82 is moved upward, the valve coupling hole 327 of the fixed shaft 320 is moved.
The nut 384 is guided by a through-hole (not shown) in the center of the nut 384 and vertically raised, and a rib 382 b projecting from the upper surface thereof is formed in the fourth through-hole 315 formed in the housing 310. The fourth through hole 315 is closed by being in line contact with the edge.

Therefore, the water flowing through the second water flow groove 325 of the fixed shaft 320 is stopped from flowing outside through the closed fourth through-hole 315, so that the water is stopped. The purified water does not come out through 500.

[0049]

As described above, according to the water flow control device for a water distributor according to the present invention, the purified water is discharged or cut off to the water intake cock according to the manual operation of the operation lever.
Since the structure is such that the purified water is always supplied to the refrigerator regardless of the operation of the operation lever, the structure is simple, and there is no fear of failure and breakage due to water pressure.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a conventional water distributor.

FIG. 2 is a block diagram showing a water distributor according to the present invention.

FIG. 3 is an installation view illustrating a water distributor according to the present invention.

FIG. 4 is an exploded sectional view of a water flow control unit according to the present invention.

FIG. 5 is a combined sectional view of the water flow control means according to the present invention.

FIG. 6 is an exploded perspective view showing the valve means according to the present invention.

FIG. 7 is an enlarged sectional view of a piston and a rubber packing according to the present invention.

FIG. 8 is a front view showing the opening operation of the operation lever according to the present invention.

FIG. 9 is a front view showing the closing operation of the operation lever according to the present invention.

FIG. 10 is a vertical sectional view taken along the line AA of FIG. 5;

FIG. 11 is a view BB of FIG. 5 showing the opening operation of the purified water discharge unit.
It is an arrow line vertical sectional view.

FIG. 12 is a view BB of FIG. 5 showing the closing operation of the purified water discharge unit.
It is an arrow line vertical sectional view.

[Explanation of symbols]

 Reference Signs List 10 faucet 200 case 210 first selected scale 211 second selected scale 300 water flow control means 310 housing 311 opening 312 first through hole 313 second through hole 314 third through hole 315 fourth through hole 316 fifth through hole 320 Fixed shaft 321 Body 322 Inflow passage 323 Outflow passage 324 First water flow groove 325 Second water flow groove 326 Shaft hole 327 Valve connection hole 328 Assembly setting groove 329 Connection groove 340 Rotating shaft 341 Insertion part 342 Eccentric part 346 Through hole 350 Cover Plate 351 Locking groove 352 First locking protrusion 353 Second locking protrusion 360 Operating lever 361 Connecting groove 362 Locking wall 363 Setting protrusion 370 Rotation range adjusting member 380 Valve body 381 Piston 382 Rubber packing 382a Recessed groove 382b Rib 383 Spring 384 Nut 400 Filtration Excessive means 500 Water tap R Refrigerator

Claims (10)

[Claims] 1. A water distributor configured to allow water supplied from a tap to pass through filtration means to filter various foreign substances contained in the water, and then to supply the water to the outside. The water tap and the filtration means so that the water that has passed through the filtration means is supplied and shut off to the outside through the water intake cock, and the water that has passed through the filtration means is always supplied to the refrigerator regardless of manual operation. A water flow control device for a water distributor, comprising a water flow control means between the two. 2. The water flow control means, when water supplied from the faucet flows in through one side, supplies and recovers the water to the filtration means and supplies the water to the intake faucet and the refrigerator, respectively. A fixed shaft installed in the housing such that raw water flowing into the housing flows through the filtering means to the water faucet and the refrigerator; and an eccentric rotation at a predetermined angle inside the fixed shaft. A rotating shaft inserted to a predetermined depth through one side of the fixed shaft, and water in the housing is discharged to the outside through the water intake plug while being raised or lowered according to the eccentric rotation of the rotating shaft. A valve body mounted on the fixed shaft so as to open or shut off the valve.
3. The water flow control device for a water distributor according to claim 1. 3. A side surface where the housing and the fixed shaft come into contact with each other, a plurality of assembly settings corresponding to each other so as to prevent the fixed shaft from rotating inside the housing and to be assembled at a predetermined position. The water flow control device for a water distributor according to claim 2, further comprising a protrusion and an assembly setting groove. 4. The water flow control device for a water distributor according to claim 2, wherein the fixed shaft, the rotating shaft, and a part of the valve body are made of brass so as to withstand water pressure and not corrode. 5. The fixed shaft is provided with a shaft hole formed to a predetermined depth in a horizontal direction so that one end of the rotation shaft is inserted to a predetermined depth and is eccentrically rotated, and the valve body is provided. And a valve coupling hole penetrated so as to be vertically upward at the end of the shaft hole so that the valve body is moved up or down in accordance with the eccentric rotation of the rotary shaft. Item 3. A water flow control device for a water distributor according to item 2. 6. The fixed shaft and the rotating shaft are temporarily assembled on one side of the fixed shaft and the rotating shaft by a temporarily used pin member so as to be integrally rotatable, so that the fixed shaft can be easily mounted in the housing. The water flow control device for a water distributor according to claim 2, further comprising a connection groove and a through hole so that the water flow control device can be assembled to the water distributor. 7. An insertion portion formed such that one end of the rotation shaft is inserted concentrically inside the fixed shaft and rotated, and the rotation shaft rotates around one side of the insertion portion. The water flow of the water distributor according to claim 2, further comprising: an eccentric portion formed so as to move up a valve body installed on the fixed shaft while being eccentrically rotated when the shaft is rotated. Control device. 8. The piston is inserted into a valve coupling hole of the fixed shaft and abuts against an eccentric portion of the rotating shaft. The valve body is simultaneously interlocked when the piston is moved up or down. A rubber packing integrally fixed to an upper part of a piston so as to close or open a passage of the intake plug connected to the housing; and an outer periphery of the rubber packing through an upper part of the piston so that the piston is moved down by elastic force. A spring, which is loosely fitted to a surface and is disposed on an upper part of the piston, and prevents the piston and the spring from being detached from a valve coupling hole of the fixed shaft, and the rubber packing penetrates the upper part and moves up and down. 3. The water flow control device for a water distributor according to claim 2, further comprising a nut coupled to the valve coupling hole so as to perform the operation. 9. The rubber packing reduces the frictional resistance at the center of the upper surface when the rubber packing comes into contact with the inner peripheral surface of the housing, and reduces the cross-sectional performance at the interval so that abnormal noise does not occur when water flows. And a rib having a gently curved upper end so that water flows gently into the space while being in tight line contact with the inner peripheral surface of the housing at the upper surface edge thereof. The water flow control device for a water distributor according to claim 8, wherein: 10. The water flow control device for a water distributor according to claim 8, wherein an elastic force of the spring is higher than a water pressure in the housing.