KR0168277B1 - Drain system of water purifier - Google Patents

Abstract

The present invention relates to a drainage device of the water purifier, characterized in that the concentrated water adjusting means 60 for adjusting the amount of concentrated water is provided inside the automatic adjusting means 50 to reduce the number of connecting parts, the connection portion This reduces the risk of leaks and simplifies assembly, improving productivity.

Description

Drainage of water purifier

1 is a perspective view schematically showing the configuration of a general water purifier.

Figure 2 is a longitudinal sectional view schematically showing the configuration of the membrane filtration means of a conventional water purifier.

3 is a cross-sectional view schematically showing a concentrated water drainage device of a conventional water purifier.

Figure 4 is a longitudinal sectional view showing a concentrated water drainage device for a water purifier according to an embodiment of the present invention.

Figure 5 is a cross-sectional view showing a concentrated water drainage device for a water purifier according to an embodiment of the present invention.

Figure 6 is an exploded perspective view schematically showing the main part of the concentrated water drainage device for water purifier according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1 main body 5 membrane filtration means

40: drainage means 50: automatic adjustment means

51 valve body 52 plunger

53 support member 55 electromagnet

60: concentrated water control means 61: the first chamber

61a: inlet 62: second chamber

62a: outlet 62c: through hole

63 connector 63a through hole

63b: end 64: regulator

The present invention relates to a water drainage device of a water purifier, which comprises a concentrated water regulating means in an automatic regulating means, thereby reducing connection between parts and simplifying assembly.

In general, the water purifier protects the membrane membrane described later by removing chlorine components and foreign substances contained in the tap water introduced from the rear side of the main body 1, as shown in FIGS. Of course, various heavy metals contained in the pretreatment filtration means (3) for removing various harmful organic compounds, and water contained in one side of the pretreatment filtration means (3) and passed through the pretreatment filtration means (3) Membrane filtration means (5) for removing carcinogens, and post-treatment filtration is disposed on one side of the membrane filtration means (5) to remove the smell and toxic gas components permeated into the water passing through the membrane filtration means (5) Means (7), a storage tank (9) disposed on the front side of the main body (1) for storing purified water in the post-treatment filtration means (7), and disposed inside the main body (1) and the Filtration by pretreatment filtration means (3) Water is filtered by the pretreatment filter means 3 so that water penetrates the membrane membrane 6 forming micropores having a diameter of 0.0001 mu of the membrane filter means 5, and the pressure is increased to increase the pressure. It consists of a pressure pump 11 to be sent to 5).

As shown in FIG. 2 and FIG. 3, the membrane filtration means 5 has an inlet 13 through which water purified by the pretreatment filtration means 5 is pressurized by the pressure pump 11. On the other side of the inlet 13, a discharge port 15 through which the purified water is discharged through the membrane filtration means 5 is formed, and inside the membrane membrane 6 formed of micropores is disposed in a layered manner. In the center side of the membrane membrane 6, a purified water pipe 17 through which the purified water flows is disposed while passing through the membrane membrane 6, and below the membrane filtering means 5, the membrane filtering means ( 5) to drain the concentrated water that has not passed, and when washing, drainage means 20 for selectively discharging a large amount of concentrated water (called washing water in the following) is disposed.

The drainage means 20 is a housing member having a first and second inlets (23a, 23b) that is selectively opened and closed in accordance with the operation of the solenoid valve 21 connected to one side to allow the inflow of concentrated water and washing water ( 23, an inner member 25 having a plurality of through holes 25a coupled to the housing member 23 and communicating with the first and second inlets 23a and 23b, and the housing member 23. Exposed on one side of the rotation is made of a regulator 27 for linearly moving the inner member 25 as it rotates clockwise and counterclockwise.

The inner member 25 is formed with a drain passage 26 for discharging the concentrated water and the washing water introduced through the through hole (25a), the drain pipe 29 is connected to one end of the inner member (25) The solenoid valve 21 and the second inlet port 23b are connected to a connection pipe 31 for introducing washing water only when the solenoid valve 21 is opened.

The inner member 25 is linearly moved as the adjuster 27 is rotated to adjust the gap with the inner jaw portion 23c of the housing member 23.

When the water purifier configured as described above first operates a switch of an operation stage (not shown), the pressure pump 11 operates and water supplied from the tap water is filtered while passing through the pretreatment filtration means 3, and then the pressure pump ( 11) the pressure is increased, the water is increased by the pressure pump 11 is introduced through the inlet port 13 in the direction of the arrow, the introduced water is introduced into the top of the membrane membrane 6 to the vertical direction Purified while flowing to the purified water pipe 17, the purified water introduced into the purified water pipe 17 is moved upward and discharged through the discharge port 15 formed on the other side of the inlet 13 is post-processing means After passing through (7) and again purified, it is stored in the storage tank (5).

At this time, the concentrated water that has not passed through the membrane membrane 6 of the membrane filtration means 5 is introduced into the housing member 23 through the first inlet 23a, and then closed by the solenoid valve 21. It does not flow into the connection pipe 31 and flows into the drain passage 26 in the inner member 25 through the through hole 25a along the solid arrow direction, and then discharges through the drain pipe 29.

On the other hand, when cleaning the foreign matter, etc. of the membrane filtration means 5, when the solenoid valve 21 is opened, the water introduced into the membrane filtration means (5) does not perform water purification and is discharged through the drain means 20 as it is. This allows for cleaning of the membrane.

That is, when the washing water discharged to the outside after washing the inside of the membrane filtration means 5 flows into the housing member 23 through the first inlet 23a, a dotted arrow according to the opening operation of the solenoid valve 21. The washing water flows into the drain passage 26 formed inside the inner member 25 through the solenoid valve 21, the connection pipe 31, and the second inlet 23b, and then discharges through the drain pipe 29. do.

However, the conventional water purifier configured as described above has a problem in that there is a large connection part of the drainage means 20 for draining the concentrated water and the washing water, so that there is a high risk of leakage, volume is large, and the productivity is reduced.

Therefore, to solve the above-mentioned conventional problems of the present invention, an object of the present invention is to provide a connection of parts by providing a concentrated water control means for discharging the concentrated water inside the automatic control means for automatically discharging the washing water. It is to provide a drain of the water purifier to reduce the risk of leakage by reducing the area, and improve the productivity.

Drainage device of the water purifier according to the present invention made to achieve the above object is the filtration means configured to be discharged to the outside as a part of the purified water and the remaining part is concentrated water while passing through the water, the filtration by discharging the concentrated water in a large amount In the water purifier having an automatic adjusting means on one side of the filtering means to wash the means, characterized in that the concentrated water adjusting means for adjusting the amount of the concentrated water is provided on the inside of the automatic adjusting means to reduce the number of connecting parts It is done.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 4 to 6.

4 to 6, the drainage means 40 is disposed on one side of the membrane filtration means 5, and automatically adjusts to drain a large amount of concentrated water when the membrane filtration means 5 is washed. It is disposed inside the means 50 and the automatic control means 50 to control the amount of concentrated water that has not passed through the membrane filtration means 5 at the time of water purification and to reduce the leakage by reducing the connection portion Concentrated water control means 60, the automatic control means 50 and the concentrated water control means 60 is housed inside the valve body 51 and the cover member (58).

The automatic adjustment means 50 is a support member for supporting the plunger 52 which moves up and down by the electromagnetic force and the valve body 51 is disposed on the upper side of the valve body 51 to accommodate the plunger 52 and to be described later. A coil 53 is wound around the bobbin 54 and the electromagnet 55 disposed on the upper outer circumferential surface of the support member 53 and the upper side of the plunger 52 to restrict the plunger 52. It consists of an elastic means 56 and a terminal 57 disposed on one side of the electromagnet 56 and electrically connected to a power supply means (not shown) to supply power to the electromagnet 56.

The concentrated water adjusting means 60 disposed inside the valve body 51 includes a first chamber 61 having an inlet 61a formed at one side thereof so that the concentrated water that has not passed through the membrane filtration means 5 flows in, and the A second chamber 62 formed inside the first chamber 61 and passing through the concentrated water introduced into the inlet 61a, and an outlet formed at one side of the second chamber 62 to discharge the concentrated water ( 62a), a connecting pipe 63 formed at one side of the second chamber 62 to introduce the concentrated water introduced into the first chamber 61 into the second chamber 62, and the connecting pipe ( 63 is inserted into one side and at the same time is disposed to protrude out of the valve body 51 is composed of a regulator (64) for adjusting the amount of concentrated water flowing into the second chamber (62).

A material having a flexibility such as rubber that is disposed on the upper side of the second chamber 62 and disposed in the first sheet portion 62b formed above the first chamber 62 to open and close the flow path to the second chamber 62. It consists of a diaphragm 71 and a diaphragm holder 72 in close contact with the upper side of the diaphragm 71 to support the diaphragm 71.

An upper side of the diaphragm holder 72 is formed with a pressure chamber 72a separated from the first chamber 61 by the diaphragm holder 72 and the diaphragm 71, and one side of the diaphragm holder 72. A first through hole 72b communicating with the first chamber 61 and the pressure chamber 72a is formed therein, and the pressure chamber 72a and the second chamber 62 are formed at the center of the diaphragm holder 72. The second through hole 72c for communicating with each other is formed, and a second sheet portion 72d is formed at an upper portion of the second through hole 72c, and the inner diameter of the second through hole 72c is the pressure chamber. The fluid of 72a) is formed to be larger than the inner diameter of the first through hole 62b so that the fluid easily flows into the second chamber 62.

A through hole 62c is formed at the center of the second chamber 62 to form a flow path, and a valve member (c) is formed at the lower end of the plunger 52 to open and close the second through hole 72c and the through hole 62b. 73 is disposed, a through hole 63a is formed above the connection pipe 63 so that the concentrated water introduced into the first chamber 61 is introduced, and the inside of the connection pipe 63 is The controller 64 is interpolated to control and discharge the amount of concentrated water introduced into the through hole 63a, and an end portion 63b is formed to form a gap as the controller 64 is moved.

The regulator 64 is disposed to protrude to the outside of the valve body 51 to facilitate the adjustment, one side of the regulator 64 is that the concentrated water leaks along the passage where the regulator 64 is disposed The packing member 65 is arrange | positioned so that the prevention may be carried out.

Next will be described the operation and effect on the water drainage device of the water purifier according to the present invention configured as described above.

At the time of water purification, power is not supplied to the electromagnet 55, and thus, the valve member 73 of the plunger 52 is formed by the self-weight of the plunger 52 and the downward elastic force of the elastic means 54. The diaphragm 71, which is in close contact with the two sheets 72d and is tightly coupled to the diaphragm holder 72, is intimately on the first sheet 62a to block a flow path flowing upward of the first chamber 61. The concentrated water introduced through the inlet 61a formed at the lower side of the first chamber 61 is introduced into the through hole 63a formed at the upper side of the connection pipe 63. At this time, as the controller 64 rotates, one end of the controller 64 is separated from the end portion 63b formed inside the connection pipe 63 to form a gap, and after the concentrated water passes through the gap, The concentrated water introduced into the second chamber 62 and introduced into the second chamber 62 is discharged through the outlet 62a formed at the bottom of the second chamber 62.

On the other hand, when the water purification operation is stopped, and a large amount of concentrated water (washing water) is discharged to wash the membrane filtration means 5, when the power is supplied to the electromagnet 55 through the terminal 57, the electromagnet 55 A magnetic field is formed in the interior thereof, and the magnetic force of the magnetic field causes the plunger 52 to move upward along the receiving portion of the support member 53, and the valve member 73 disposed at the lower end of the plunger 52 may be formed. The pressure chamber 72a and the second chamber 62 communicate with each other by the second through hole 72c, apart from the two sheets 72d. At this time, the inner diameter of the second through hole (72c) is larger than the inner diameter of the first through hole (72b), the concentrated water filled in the pressure chamber (72a) is instantaneously through the second through hole (72c) the second chamber (62) ), The pressure chamber 72a is dropped to atmospheric pressure, and the pressing force for pressing the diaphragm holder 72 from the upper side is released. At the same time, a pressing force for pressing a portion of the bottom surface of the diaphragm 71 by the concentrated water introduced into the first chamber 61 through the inlet 61a lifts the diaphragm 71 from the first sheet 62b, and The through hole 62c formed above the two chambers 62 is opened. Therefore, the concentrated water is introduced into the first chamber 61 through the inlet 61a, and the introduced concentrated water is located above the second chamber 62 through the flow path generated by the diaphragm 71 being lifted. The membrane filtering means 5 is washed by continuously discharging the concentrated water of the membrane filtering means 5 as it is continuously introduced through the through hole 62c and discharged through the outlet 62a.

In the above, when discharging the concentrated water generated in the purified water, by adjusting the rotation of the controller 64 in a predetermined direction, the gap is adjusted by varying the degree of separation from the end portion (63b) formed inside the connecting pipe (63). By doing this, the amount of concentrated water can be adjusted.

If the electromagnet 55 is set to be supplied at regular intervals (for example, twice a day) by a microcomputer control (not shown), the membrane filtration means 5 is effectively washed.

The drainage means 40 for draining the concentrated water and the washing water as described above is connected to the valve body 51 accommodating the automatic water adjusting means 50 by discharging the concentrated water adjusting means 60 for adjusting the concentrated water. As the area is reduced and the volume is reduced, the risk of leakage is reduced and productivity is improved.

According to the drainage device of the water purifier according to the present invention as described above, the risk of water leakage by reducing the connection by disposing the concentrated water control means for draining the concentrated water inside the automatic control means that is operated when the membrane filtration means is washed. It is a very effective invention that can reduce productivity and improve productivity.

Claims (4)

As the water passes through, some become purified water and some become concentrated water, and the filtering means is configured to be discharged to the outside. In the water purifier, the water drainage device of the water purifier, characterized in that the inner side of the automatic control means (50) to reduce the number of parts connected to the concentrated water adjusting means for adjusting the amount of concentrated water. The method of claim 1, wherein the concentrated water adjusting means 60 is passed through the first chamber 61 and the first chamber 61 disposed inside the valve body 51 to introduce the concentrated water. The second chamber 62 disposed inside the first chamber 61 and the concentrated water introduced into the first chamber 61 flow into the second chamber 62 so that the amount of the concentrated water is adjusted. Insertion tube 63 formed on the outside of the second chamber 62 to form a flow path to be inserted into the inner side of the connecting tube 63 to adjust the amount of concentrated water flowing through the connecting tube 63 At the same time the drain of the water purifier, characterized in that consisting of a regulator (64) rotatably rotatably outward of the valve body (51). According to claim 2, wherein the connecting pipe 63 is connected to the connecting pipe 63 so that the concentrated water introduced into the first chamber (61) through the connecting pipe (63) to the second chamber 62 at the time of water purification The through hole (63a) formed on the upper side of the), and the controller 64 is rotated to form a gap to adjust the amount of concentrated water introduced through the through hole (63a) the inner side of the connecting pipe (63) Drainage of the water purifier, characterized in that consisting of the end (63b) formed in. The method of claim 2, wherein the second chamber 62 is a through hole (62c) formed on the upper side to pass a large amount of concentrated water at the time of washing, and to discharge the concentrated water introduced into the second chamber (62) Drainage of the water purifier, characterized in that consisting of the outlet (62a) formed in the lower side of the second chamber (62).