KR20050101263A - The water softener is ion exchange resin restoration aapparatus - Google Patents

Abstract

The present invention relates to an ion exchange resin regeneration device for a softener which removes the hard water component of tap water from the ion exchange resin and discharges it into the tap water of the soft water component.

The main configuration of the present invention is a conventional water softener, installed in a portion connected to the water pipe of the body, the upper portion of the inlet pipe and the discharge pipe is coupled, the lower portion of the flow path switching unit is coupled to the water pipe and the discharge pipe; The flow path is installed inside the flow path switching unit for supplying the tap water flowing into the water pipe to be replaced with soft water or regenerating the ion exchange resin, and opening and closing the flow path of the drainage pipe for discharging the tap water recycled from the ion exchange resin. Characterized in that it comprises a switching means.

Therefore, the present invention can easily control the tap water supplied through the water pipe to the body of the water softener by the knob of the flow path switching portion to soften the tap water or to regenerate the ion exchange resin, thereby facilitating the regeneration of the ion exchange resin. It can work.

Description

Ion-exchange resin regenerator in water softener {The Water Softener is Ion Exchange Resin Restoration Aapparatus}

The present invention relates to an ion exchange resin regeneration device for a softener which removes the hard water component of tap water from the ion exchange resin to discharge the tap water of the soft water component. In more detail, when the soft water exchange performance is reduced, the soft water exchange performance of the ion exchange resin is restored to a normal state, and a water softener ion exchange resin recycling apparatus having a configuration which achieves this stably and efficiently is provided.

As is commonly known, when the water softener contained in the tap water is removed using the water softener and washed with the soft water, the effect of skin beauty and the prevention of skin diseases are prevented by the ability to clean the impurities attached to the skin. Improvement in cleaning power can be expected.

The water softener is generally installed between the intermediate valve connected to the bathroom and the sink and shower installed on the wall of the bathroom. Therefore, the water softener is changed to the soft water component while the tap water of the hard water component supplied to the bathroom of each home from the outside of the building is to supply the soft water component to the user.

In more detail, the process of changing the tap water from hard water to soft water is first filled with an ion exchange resin in which numerous fine holes are formed in the container of the water softener, and the sodium (Na +) component is filled in the tap water. When passing through the ion exchange resin, the hard water-inducing substance (calcium, magnesium, etc.) reacts with sodium and binds to the ion exchange resin, thereby converting the tap water of the hard water component into the tap water of the soft component.

When the ion exchange resin of the water softener is used for a long time, not only the hardness-induced substance is adsorbed on the surface of the ion exchange resin, but also the sodium component is consumed by the chemical reaction, so that the soft water exchange capacity is degraded. The situation is required to clean the hardness-induced substances adsorbed on the surface and regeneration to supply the sodium component.

As a method of washing and regenerating the ion exchange resin, the salt is filled in the softener and then a separate rod or rod is put into the softener after a predetermined time to stir the ion resin, and the salt filled in the container melts and ion exchanges naturally. The method of washing in contact with resin is introduced and used.

However, the method as described above takes a lot of force when stirring the ion resin with a separate rod or rod, there is a problem that the ion exchange resin is not uniformly washed. In addition, the method of allowing the salt to be washed by natural contact while melting the salt takes a lot of time, there is also a problem that the washing state is very uneven because the salt water does not reach the ion exchange resin located at the bottom of the water softener. .

The above problems are that as the use time of the water softener becomes longer, the regeneration function of the ion exchange resin is lowered, thereby reducing the discharge of tap water of the soft water component, and thus the image of the product is deteriorated because it is not obtained by the soft water component tap water. . In addition, consumer complaints such as frequent cleaning and regeneration of the ionized resin in the water softener have been gradually increased to improve this.

The present invention is to solve the above problems, to facilitate the regeneration operation by washing the ionized resin filled in the water softener, reducing the time required for the operation and easy to reliably wash and regenerate the ion exchange resin at home An object of the present invention is to provide an ion exchange resin regeneration device for a softener.

Many of the objects and accompanying effects of the present invention will be readily understood by the following detailed description.

The present invention for achieving the above object is filled with an ion exchange resin for converting the tap water of the hard water component into the soft water component, and connected to the water pipe to discharge the inlet pipe and the softened tap water to enter the tap water therein In the conventional water softener comprising a body having a water discharge pipe is provided with a discharge pipe for discharging the tap water recycled from the ion exchange resin to the outside, the water softener is installed in the portion connected to the water pipe of the body, A discharge pipe is coupled, and a lower portion of the flow path switching unit is coupled to the water pipe and the discharge pipe; The flow path is installed inside the flow path switching unit for supplying the tap water flowing into the water pipe to be replaced with soft water or regenerating the ion exchange resin, and opening and closing the flow path of the drainage pipe for discharging the tap water recycled from the ion exchange resin. Characterized in that it comprises a switching means.

The flow path switching means may include an operation part formed as a cylindrical hole in the flow path switching part; A first discharge passage connected to an inlet pipe at an upper portion of the front of the operation unit and formed therethrough; A second extraction channel formed through the same center line as the first extraction channel and discharging tap water into the body; An inflow passage formed at a lower portion on the same center line as the first and second discharge passages and connected to the water pipe; A first water discharge passage connected to the water discharge pipe at the rear upper portion of the operation part and formed therethrough; A second withdrawal passage formed through a lower portion on the same center line as the first withdrawal passage; It is coupled to the outside of the flow path switching unit and connected to the knob for forward / reverse rotation of a predetermined section to separate and discharge tap water supplied to the inflow channel into the first and second outflow channels, and at the same time to regenerate the ion exchange resin. It consists of a cylindrical flow path switching member for discharging the tap water supplied to the discharge passage to the second discharge passage.

In addition, the flow path switching member, the separation wall formed to separate the inside of the cylindrical front and rear; An inlet hole formed at the front lower portion of the dividing wall in correspondence with the inflow passage according to the forward and reverse rotation of the knob to introduce the tap water; A discharge hole formed at an upper portion on the same center line as the inflow hole so that the tap water introduced into the inflow hole is discharged to the first water outlet channel or the second water outlet channel according to the forward / reverse rotation of the knob; It consists of a discharge inlet hole and a discharge discharge hole for discharging the tap water supplied to the first discharge path through the discharge pipe to the second discharge water when the knob is rotated to regenerate the ion exchange resin in the upper and lower rear of the separation wall.

At this time, the space is formed in the upper portion of the flow path switching unit is coupled to the tap water discharged to the first and second discharge channel to the inside of the inlet pipe and the body, respectively, the inlet pipe and the discharge pipe connected to the first discharge channel The guide member installed through this is further coupled.

The guide member includes a through hole formed at a central portion thereof to be connected to the first water discharge passage; A first guide formed to be coupled to an inlet pipe at an upper portion of the through hole; It consists of a plurality of long holes for guiding the tap water discharged to the second discharge passage to the inside of the body on the outside of the first guide.

In addition, the second guide is formed on the outside of the plurality of long holes of the guide member to improve the regeneration efficiency of the ion exchange resin is regenerated by the tap water passing through the long hole formed in the guide member and to improve the position fixing force of the inlet pipe ; Inserted and coupled to the second guide, the insertion hole through which the water inlet is formed, and further coupled to the lower open cylindrical recycling tube having a plurality of regeneration holes through which the tap water passed through the long hole is discharged to the outer periphery Let's do it.

In this case, the first and second filters are further provided on the upper surface of the through hole and the upper surface of the long hole in order to prevent the ion exchange resin from flowing into the flow path switching unit.

Meanwhile, the guide member includes a plurality of regeneration holes through which tap water is discharged, passes through the plurality of regeneration holes formed in the guide member at an inclined angle at a vertical or predetermined angle, and the ion exchange resin is introduced into the flow path switching unit. The third and fourth filters are further provided on the upper surface of the first discharge channel and the upper surface of the guide member to prevent the same.

In addition, the plurality of regeneration holes formed in the guide member are formed in a groove shape to allow tap water to pass through the outer periphery of the guide member, and to prevent the ion exchange resin from flowing into the flow path switching unit. It is preferable that the fifth filter is further provided at the outer circumferential edge where the regeneration hole is formed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the configuration of the water softener of the present invention.

As shown in the figure, the water softener (W) is an ion exchange resin (S) for converting the tap water of the hard water component into a soft water component, the body (1) filled with the ion exchange resin (S) therein, and An inlet pipe (3) coupled to the inside of the body (1) to introduce tap water supplied from the water pipe (2) to the inner upper portion of the body (1), a discharge pipe (4) to discharge the softened tap water, A drainage pipe 6 for discharging the tap water regenerated ion exchange resin (S) to the outside, and is installed in the connecting portion of the body (1) and the water pipe (2) to soften the tap water or to the ion exchange resin ( It consists of a flow path switching unit 20 is provided with a knob 21 for selectively supplying tap water to regenerate S).

And, the filter 9 is coupled to the upper portion of the discharge pipe 4 and the discharge pipe 6, respectively, to prevent the ion exchange resin (S) from flowing out, the lower end of the discharge pipe (4) The water outlet connection pipe 5 is connected to a mechanism using a soft water such as a bathtub and a shower.

In addition, the lower portion of the discharge pipe (6) is coupled to the flow path switching unit 20, the lower portion of the flow path switching unit 20 using a mechanism that uses water regenerated ion exchange resin (S) such as toilet bowl or bidet Is connected to the drainage connection pipe 7 is connected. In this case, the drainage connection pipe 7 may be discharged directly to the sewer without connecting to the toilet and bidet, or may be connected to the faucet.

2 is an exploded perspective view showing the configuration of the flow path switching means according to the present invention, Figure 3 is a side cross-sectional view showing the configuration of the flow path switching means according to the present invention.

As shown in the drawing, the flow path switching means 30 forms a space G on an upper portion of the flow path switching part 20, and the guide member 40 is coupled to the inside of the flow path switching part 20. A circular operating part 22 is formed, and an inflow passage 23 formed through the front lower part of the operating part 22 to be connected to the water pipe is formed.

First and second outlet passages 24 and 25 penetrate the upper portion of the inflow passage 23, and a first discharge portion connected to the discharge pipe 6 at the rear of the operation unit 22. The flow passage 26 is formed therethrough and the second discharge passage 27 connected to the discharge connection tube 7 is formed therethrough, and is operated by the rotation of the knob 21 inside the operation unit 22. The flow path switching member 31 is coupled.

In addition, the flow path switching member 31 has a cylindrical shape, the inside of which is divided into the front and the rear by a separating wall 34, and an inlet hole 32 corresponding to the inflow passage 23 is formed in the front lower portion thereof. And a discharge hole 33 selectively corresponding to the first and second water discharge passages 24 and 25 so that the flow path switching member 31 rotates in accordance with the rotation of the knob 21 and the inflow hole 32. The tap water introduced into the c) is selectively discharged into the first discharge channel 24 or the second discharge channel 25.

In addition, as the knob 21 rotates to regenerate the ion exchange resin S, a discharge inlet hole 35 corresponding to the first discharge path 26 is formed in the rear part, and a second discharge path ( 27, a discharge water discharge hole 36 corresponding to the position is formed.

In addition, the guide member 40 is coupled to the upper portion of the flow path switching unit 20 to guide the tap water discharged to the first and second water discharge passages 24 and 25, and the guide member 40 A through hole 41 corresponding to the first outlet passage 24 is formed, and a first guide 42 is formed at the upper outer periphery of the through hole 41 so that the inlet pipe 3 is inserted into and coupled with the first outlet 42. do. At this time, the back of the guide member 40 is coupled to the water discharge pipe 6 to be connected to the first water discharge passage 26.

In addition, the guide member 40 is provided with a plurality of long holes 43 through which the tap water supplied to the second water discharge passage 25 is discharged through the space G, and the outer periphery of the long holes 43 is formed. The second guide 44 is formed, a plurality of regeneration holes 61 are formed and a cylindrical regeneration tube 60 whose lower portion is opened is coupled to the second guide to pass through the tap water passed through the long hole 43 ( The ion exchange resin (S) is regenerated by supplying it to the lower side inside 1). At this time, since the insertion hole 62 is formed in the upper part of the regeneration tube 60, the inlet pipe 3 is installed through the insertion hole 62, so that the inlet pipe 3 is formed by the regeneration tube 60. Position fixing force is further improved.

Figure 4a is a main portion sectional view showing the state of softening the tap water in accordance with the present invention, Figure 4b is a negative portion sectional view showing the part of the discharge passage in the state of Figure 4a.

In order to exchange the tap water with the soft water component by using the water softener (W) of the present invention, as shown in FIG. 4A, the knob 21 is rotated to the right, thereby passing through the water pipe 2 and the inflow passage 23. The tap water passing through the inflow hole 32 and the discharge hole 33 of the flow path switching member 31 is discharged to the first water discharge channel 24 and passes through the through hole 41 to receive a body through the water inlet pipe 3. As it is supplied to the top of the), it is in contact with the ion exchange resin (S) is changed to the tap water of the soft water component, the changed tap water is discharged to the water outlet connection pipe (5) through the outlet pipe (4) to the user tap water of soft water It will be available.

In this case, as shown in FIG. 4B, since the first water discharge passage 26 is blocked by the flow path switching member 31, the softened tap water is blocked from being discharged to the water discharge connection tube 7 through the water discharge tube 6. It is discharged only to the outlet pipe (4).

FIG. 5A is a main cross-sectional view showing a state in which the ion exchange resin is regenerated according to the present invention, and FIG. 5B is a main cross-sectional view showing the water discharge passage in the state of FIG. 5A.

In order to regenerate the ion exchange resin (S), the knob 21 is rotated to the left side as shown in FIG. 5A, and passes through the water pipe 2 and the inflow passage 23 so that the flow path switching member 31 The tap water passing through the inflow hole 32 and the discharge hole 33 is discharged into the second water discharge passage 25 and discharged through the long hole 43 to the regeneration hole 61, so that the body 1 is formed by the water pressure of the tap water. Irregular vortex occurs in the interior, and the ion exchange resin (S) is regenerated.

In addition, the foreign matter and some salt water in the suspended state generated by the ion exchange resin (S) is discharged out of the body (1) through the discharge pipe (6), the ion exchange as shown in Figure 5b When the knob 21 is rotated to regenerate the resin S, the first and second discharge channels 26 and 27, the discharge inlet hole 35, and the discharge and discharge hole 36 correspond to each other, and the discharge pipe ( 6) Tap water regenerating the ion exchange resin (S) is introduced into the discharge pipe through the first discharge passage 26, the discharge inlet hole 35 and the discharge discharge hole 36 and the second discharge passage 27 By being discharged to (7), suspended matter and some salt water are discharged out of the trunk (1).

Meanwhile, the first and second filters 51 and 52 are coupled to the upper part of the through hole 41 and the upper part of the long hole 43 so that the ion exchange resin S flows into the flow path switching unit 20. And a structure in which the flow path switching member 31 is rotated by the rotation of the knob 21 to selectively supply tap water to the first and second water discharge passages 24 and 25, and the first and second agents. The structure of the two inflow passages 26 and 27 and the corresponding inflow inflow hole 35 and the intake discharge hole 36 is not limited to the structure shown in the drawing, but the function can be realized by more various structures. Of course.

6a and 6b are views showing the water softener or the regenerated state of the water softener of the present invention briefly described above, that is, the process of softening the tap water and the process of regenerating the ion exchange resin (S) are easily understood by this drawing. Could be.

On the other hand, the process of regenerating the ion exchange resin (S) of the water softener (W) of the present invention in more detail as follows.

First, after closing the valve (not shown) of the water pipe 2 for supplying the tap water to the flow path switching unit 20, the knob 21 is rotated to the left to remove the discharge hole 33 of the flow path switching member 31. And the second discharge passage 25 and the first discharge passage 26 and the second discharge passage 27 correspond to the discharge passage 35 and the discharge passage 36, and the body 1 When the upper lid is opened, all the tap water inside the body 1 is discharged through the discharge pipe 6.

And, when all the tap water in the body (1) is discharged again by rotating the knob 21 to the right, the first inflow passage 26 and the second inflow passage 27, the inflow inflow hole 35 and the outflow discharge hole (36) and then do not correspond to the cap 10 is filled with salt water and the lid 10 is closed.

In addition, when a predetermined time has elapsed in the above state, when the knob 21 is rotated to the left and the tap of the water pipe 2 is opened to supply tap water to the flow path switching unit 20, the tap water flows into the inflow passage 23. Passing through the hole 32 and the discharge hole 33 and the second water discharge passage 25 is passed through the long hole 43 and is supplied into the body (1) through the regeneration hole (61). At this time, the water flowing through the regeneration hole 61 causes an irregular vortex and stirs the ion exchange resin (S), and the ion exchange resin (S) is washed and regenerated by the friction force generated at this time.

 In addition, impurities generated during the regeneration of the ion exchange resin (S) are lighter than water and float on the surface of the water, and the tap water regenerating the ion exchange resin (S) is discharged by the discharge pipe (6). Impurities are also discharged to the outside of the body 1 through the discharge pipe (6).

Therefore, impurities generated by using the ion exchange resin (S) for a long time are clean and regenerated through the above process, so that the water softener (W) of the present invention can be continuously used.

As described above, the water softener (W) of the present invention can conveniently and cleanly clean the ion exchange resin (S) by using the water of the tap water, so that the user does not need to stir with a rod or a rod as in the prior art and slowly settles the salt water. And because it does not need to wait for the washing time, the work of washing and regenerating the ion exchange resin (S) is very easy and quick to proceed.

In another embodiment described below, the structure of the flow path switching unit 20 described above is the same, a plurality of regeneration holes instead of the previously described guide member 40 coupled to the upper portion of the flow path switching unit 20 It is characterized by combining only the guide member formed.

Figure 7 is a perspective view showing another embodiment of the guide member according to the present invention, Figure 8 is an essential cross-sectional view showing a state of softening the tap water in accordance with Figure 7, Figure 9 is a regeneration of the ion exchange resin according to Figure 7 It is a sectional view of the lumbar vertebrae showing the state.

That is, the guide member 70 is coupled to form a space portion G of a predetermined space on an upper portion of the flow path switching unit 20, and the tap water discharged from the second discharge channel 25 is connected to the guide member 70. A plurality of regeneration holes 71 discharged through the space G are formed.

In addition, the water inlet pipe 3 inserted through the guide member 70 is installed in connection with the first water outlet passage 24, whereby the first and second water outlet passages 24 are formed by the passage switching means 30. Tap water discharged to (25) is discharged to the water inlet pipe (3) or regeneration hole 71 according to each role. At this time, the third and fourth filters 53 and 54 are installed on the upper surface of the first discharge channel 24 and the upper surface of the guide member 71 so that the ion exchange resin S is formed inside the flow path switching unit 20. To prevent the inflow to

In addition, the regeneration hole 71 formed in the guide member 70 may be formed to penetrate vertically as shown in the drawing, or may be formed to be inclined so that tap water passing through the regeneration hole 71 may spread outward. At this time, it is preferable to form inclined in the range that the pressure of the tap water discharged to the regeneration hole 71 does not change.

Figures 10a and 10b is a view showing a brief state of the soft or regenerated state of the water softener of the present invention according to Figure 7, the above-described contents, that is, the process of softening the tap water and the process of regenerating the ion exchange resin (S) It can be easily understood by

Figure 11 is a perspective view showing another embodiment of the guide member according to the present invention, Figure 12 is a principal part sectional view showing the state of regenerating the ion exchange resin according to FIG.

This is a modification of the shape of the regeneration hole 72 formed in the guide member 70 of the above-described structure, to form a plurality of regeneration holes 72 on the outer peripheral edge of the guide member 70, The regeneration hole 72 is formed by forming in a groove shape.

At this time, since the ion exchange resin (S) flows into the regeneration hole 72 in reverse, a fifth filter 55 is disposed at the outer circumferential edge of the guide member 72, that is, the end surface of the regeneration hole 72. Coupling is preferable, and the fourth filter 54 coupled to the upper surface of the guide member 70 described above is not used here.

As described above, with respect to the ion exchange resin regeneration device of the water softener of the present invention, various design changes of the components within the scope of the present invention are all considered to be included in the scope of the technical idea of the present invention.

Therefore, the present invention can easily control the tap water supplied through the water pipe to the body of the water softener by the knob of the flow path switching portion to soften the tap water or to regenerate the ion exchange resin, thereby facilitating the regeneration of the ion exchange resin. The effect can be obtained.

In addition, since the regeneration operation of the ion exchange resin is easy and the time required for it is reduced, the ion exchange resin can be easily and reliably washed and regenerated at home.

1 is a cross-sectional view showing the configuration of the water softener of the present invention;

Figure 2 is an exploded perspective view showing the configuration of the flow path switching means according to the present invention,

Figure 3 is a side cross-sectional view showing the configuration of the flow path switching means according to the present invention,

Figure 4a is a main part sectional view showing the state of softening the tap water according to the present invention,

Figure 4b is a lumbar sectional view showing the part of the discharge passage in the state of Figure 4a,

Figure 5a is a main portion sectional view showing the state of regenerating the ion exchange resin according to the present invention,

Figure 5b is an essential part sectional view showing the discharge passage in the state of Figure 5a,

Figure 6a and 6b is a view briefly showing the state of the water softener or the regeneration of the water softener of the present invention,

7 is a perspective view showing another embodiment of a guide member according to the present invention;

8 is a main sectional view showing the state of softening the tap water according to FIG.

9 is an essential part sectional view showing a state in which the ion exchange resin is recycled according to FIG. 7;

10a and 10b is a view showing a simplified state of the softening or regeneration of the water softener of the present invention according to FIG.

11 is a perspective view showing another embodiment of the guide member according to the present invention;

FIG. 12 is an essential cross-sectional view showing a state of regenerating an ion exchange resin according to FIG. 11; FIG.

<Description of the symbols for the main parts of the drawings>

W-Water Softener S-Ion Exchange Resin

1-Torso 3-Inlet Tube

4-Exit 6-Exit

20-Euro switch 21-Knob

30-flow path switching means 31-flow path switching members

32-inlet hole 33-outlet hole

34-Separation Wall 35-Drainage Inlet

36-Drainage hole 40-Guide member

51-First Filter 60-Reclaimer

Claims (11)

An ion exchange resin (S) for converting the tap water of the hard water component into the soft water is filled therein, and is connected to the water pipe (2) to discharge the inlet pipe (3) and the softened tap water for introducing the tap water into the water. In the conventional water softener (W) provided with a water discharge pipe (4), including a body (1) having a discharge pipe (6) for discharging tap water from which the ion exchange resin (S) is regenerated to the outside, It is installed at the part connected to the water pipe (2) of the body (1), the water inlet pipe (3) and the discharge pipe (6) is coupled to the upper portion, the water pipe (2) and the discharge connection pipe (7) at the lower portion Coupled to the flow path switching unit 20; It is installed inside the flow path switching unit 20 to replace the tap water flowing into the water pipe (2) with the soft water component or to supply to regenerate the ion exchange resin (S) and regenerate the ion exchange resin (S) And a flow path switching means (30) for opening and closing the flow path of the discharge pipe (6) for discharging the tap water. The method of claim 1, The flow path switching means 30 includes an operation part 22 formed in a cylindrical hole in the flow path switching part 20; A first water discharge passage 24 connected to the water inlet pipe 3 at the front upper portion of the operation part 22 and formed therethrough; A second discharge passage 25 formed through the same center line as the first discharge passage 24 and discharging tap water into the body 1; An inflow passage 23 formed at a lower portion on the same center line as the first and second discharge passages 24 and 25 and connected to the water pipe 2; A first discharge passage 26 connected to the discharge tube 6 at the rear upper portion of the operation unit 22 and formed therethrough; A second retracting passage 27 formed through the lower portion on the same center line as the first retracting passage 26; The tap water supplied to the inflow flow passage 23 is connected to the knob 21 which is coupled to the outside of the flow path switching unit 20 and is rotated forward and backward for a predetermined period to the first and second discharge flow passages 24 and 25. It is composed of a cylindrical flow path switching member 31 for discharging the tap water supplied to the first water discharge passage 26 only when the discharge is separated and at the same time to regenerate the ion exchange resin (S). An ion exchange resin regeneration device for a softener. The method of claim 2, The flow path switching member 31 includes: a separation wall 34 formed to separate the inside of the cylindrical body in the front and the rear; An inlet hole 32 formed at the front lower portion of the dividing wall 34 to correspond to the inflow passage 23 according to the forward / reverse rotation of the knob 21 to introduce the tap water; Tap water formed at an upper portion on the same center line as the inflow hole 32 and introduced into the inflow hole 32 is the first outlet passage 24 or the second outlet passage 25 according to the forward / reverse rotation of the knob 21. A discharge hole 33 to be discharged to); When the knob 21 is rotated to regenerate the ion exchange resin S in the upper and lower rear portions of the separating wall 34, the tap water supplied to the first water discharge passage 26 through the water discharge pipe 6 is removed. 2, the ion exchange resin regeneration device of the water softener characterized by consisting of the discharge water inlet hole 35 and the discharge water discharge hole 36 discharged to the discharge water 27. The method of claim 2, Forming a space (G) in the upper portion of the flow path switching unit 20 is coupled to the tap water discharged to the first and second discharge passages (24, 25) inside the inlet pipe (3) and the body (1) The ion exchange resin of the water softener, further comprising a guide member 40 guided by the water inlet pipe 3 and the water discharge pipe 6 connected to the first water discharge passage 26. Playback device. The method of claim 4, wherein The guide member 40 includes a through hole 41 formed at a central portion thereof to be connected to the first outlet passage 24; A first guide 42 formed to be coupled to an inlet pipe 3 at an upper portion of the through hole 41; Ion exchange resin regeneration device of the water softener, characterized in that it consists of a plurality of long holes (43) for guiding the tap water discharged to the second discharge passage 25 to the inside of the body (1) outside the first guide (42). . The method of claim 5, Guide member 40 to improve the regeneration efficiency of the ion exchange resin (S) is regenerated by the tap water passing through the long hole 43 of the guide member 40 and to improve the position fixing force of the water inlet pipe (3) A second guide 44 formed outside the plurality of long holes 43; A plurality of regeneration holes are inserted into the second guide 44 and coupled to each other, and an insertion hole 62 through which the water inlet pipe 3 penetrates and discharges tap water passing through the long hole 43 at its outer circumference. An ion exchange resin regeneration device for a softener, characterized by further combining a cylindrical regeneration tube (60) having a lower portion provided with (61). The method according to claim 5 to 6, In order to prevent the ion exchange resin S from flowing into the flow path switching unit 20, first and second filters may be disposed on the upper surface of the through hole 41 and the upper surface of the long hole 43 of the guide member 40. 51) (52), further comprising an ion exchange resin regeneration device for a water softener. The method of claim 4, wherein The guide member (70), the ion exchange resin regeneration device of the water softener, characterized in that a plurality of regeneration holes 71 is provided with tap water is discharged. The method of claim 8, And a plurality of regeneration holes (71) formed in the guide member (70) so as to penetrate obliquely at a vertical or constant angle. The method of claim 8, In order to prevent the ion exchange resin S from flowing into the flow path switching unit 20, the third and fourth filters 53 are disposed on the upper surface of the first discharge channel 24 and the upper surface of the guide member 70. 54. An ion exchange resin regeneration device for a water softener, further comprising: 54). The method of claim 8, The plurality of regeneration holes 72 formed in the guide member 70 are formed in a groove shape to allow tap water to pass through the outer circumference of the guide member 70, and the ion exchange resin S has a flow path switching unit ( 20) The ion exchange resin regeneration device of the water softener, characterized in that it further comprises a fifth filter (55) on the outer periphery formed in the regeneration hole (72) of the guide member (70) to prevent the flow into the interior.