KR20090025018A - Soft water bottle - Google Patents

Abstract

A soft water box for a water softener is provided to simplify a regeneration process of a soft water box by directly injecting a desired amount of regeneration liquid in which salt is melted into the soft water box. A soft water box for a water softener comprises the following units. A housing(200) includes an inlet(210) which water flows in from the outside and an outlet(230). A water outlet(220) positioned in a lower part of the housing discharges the soft water to the outside. A discharging unit(240) located in a lower part of the housing controls the amount of the regeneration liquid discharged. A regeneration case is inserted into the outlet to inject the regeneration liquid. The soft water is flowed into the housing through the inlet.

Description

Training bucket {SOFT WATER BOTTLE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to soft water tanks of softeners that remove soft cations, such as calcium and magnesium, from soft water to produce soft water.

In general, tap water (hard water) contains a large amount of chlorine components used in the purification process, and also contains various heavy metals (ions) such as iron, zinc, lead, and mercury, which are harmful to humans due to deteriorated pipes and water pollution. Such tap water is not fatal to the human body, but when used as it is when washing the skin, the metal ions contained in the water and the fatty acids of the soap are combined to make a metallic foreign substance. It causes skin diseases or accelerates aging of the skin.

To prevent this, tap water is passed through a sodium ion (Na ⁺ ) type strong acid cation exchange resin to exchange the Ca ^{2 +} and Mg ^{2 +} hardness components with Na ⁺ in the resin. Water softener made of) has been developed and is mainly used for cleaning.

The water softener has the principle of softening by replacing calcium ions (Ca ²⁺ ) and magnesium ions (Mg ²⁺ ) in hard water with sodium ions (Na ⁺ ) .For this purpose, ion exchange of special polymer compounds containing sodium ions Resin-embedded soft tubs are included as an essential component. On the other hand, the function of the soft water container as described above is regenerated by using a regeneration container containing an ion exchange resin regenerated material (salt) that generates sodium ions when dissolved in water.

That is, the water softener continuously generates tap water by contacting the ion exchange resin by continuously passing tap water into the soft water container in a state where a large number of fine ball-shaped ion exchange resins are stored in the water softener. Since Na ⁺ component is substantially reduced by continuous contact with tap water, a regeneration solution composed of NaCl component is introduced into the soft water tank by using a regeneration tank.

A conventional water softener regeneration method for introducing regeneration liquid into a soft water tank using a regeneration tank will be described below.

First, open the lid of the regeneration container, add salt, pour tap water, close the lid, shake it up and down to dissolve the salt.

When the regeneration solution is prepared through the above process, the water supply to the water softener is cut off and the regeneration fluid is connected to the water softener, and the regeneration fluid is introduced into the soft water container by opening the air stopper at the bottom of the regeneration water bottle.

However, the water softener regeneration method using the conventional regeneration tank as described above, in order to make the regeneration liquid (salt water) required for regeneration, water and salt should be added to the regeneration vessel and shaken. There is a problem that the mixing operation is difficult because the weight of the barrel is heavy.

In addition, since the conventional water softener is directly discharged through the water outlet formed at the lower end of the soft water tank waste water flowing from the regeneration tank and passed through the soft water tank, the regeneration time and concentration of the soft water tank by the regeneration liquid can be adjusted. There is no problem.

In addition, in the conventional water softener, when the regeneration process by the regeneration tank is finished, the water is separated from the water tank by flowing tap water into the water tank for a predetermined period of time, so that the whole water must be rinsed inside the water tank. There is a problem that the reproduction process is complicated.

In addition, since the conventional water softener is provided with a separate line for exchanging the ion exchange resin inside the soft water tank, there is a problem that the water softener structure is complicated.

An object of the present invention for solving the above problems, to provide a soft water tank with a discharge portion that can adjust the discharge amount of the regeneration liquid introduced through the regeneration container.

The present invention for achieving the above object, in the soft water tank applied to the water softener, the housing to form an appearance, is formed on the upper portion of the housing, is connected to the inlet to which water is introduced from the outside, to inject the regeneration solution Injecting unit for injection of the regeneration container, is formed in the lower portion of the housing, through the inlet portion is formed in the water outlet and the lower portion of the housing for outflowing the softened soft water to the outside, the regeneration And a discharge portion for adjusting the discharge amount of the regeneration liquid introduced by the barrel.

The present invention has an excellent effect of controlling the discharge amount of the regeneration solution by providing a discharge portion for discharging the regeneration solution in the lower portion of the soft water tank.

In addition, the present invention, after receiving the tap water introduced into the soft water tank to dissolve the salt, can be directly injected into the soft water regeneration solution dissolved salt, it can omit the process for artificially dissolving the salt, thus, regeneration of the soft water tank There is an excellent effect of simplifying the process.

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

1 is an exemplary view showing a state in which a regeneration tank is connected to and used in the soft water tank according to the present invention. In addition, FIG. 2 is a configuration diagram of the recycling container applied to the present invention, which shows the recycling container 500 shown in FIG. 1 in detail. In addition, Figure 3 is an exemplary view showing in detail the connection state of the regeneration and soft water tank shown in Figure 1, showing the 'A' region shown in Figure 1 in detail.

The water softener to which the present invention is applied includes a soft water tank for contacting tap water with an ion exchange resin to make soft water, and FIG. 1 includes a hot water softener 200 for softening hot water and a cold soft water tank 300 for softening cold water. A water softener 100 is shown, which is provided. However, the present invention is not limited thereto, and therefore, the number and function of the water tanks can be set in various ways. Hereinafter, for convenience of description, the present invention will be described with an example of the water softener 100 shown in FIG. 1 having the hot water softener 200 and the cold softener 300.

That is, the water softener 100 to which the present invention is applied, as shown in FIG. 1, the hot water softener 200 connected to the hot water inlet pipe (not shown) through the hot water inlet unit 210, and the cold water inlet unit ( It includes a cold water tank 300 is connected to the cold water inlet pipe (not shown) through 310. In addition, the lower part of each of the hot-water softener 200 and the cold-water softener 300, the hot-water soft water discharge unit 220 and the cold hot water water discharge unit 320 for discharging the soft water, and the hot water discharge for discharging the regeneration solution The part 240 and the cold rolled water discharge part 340 are formed.

The hot water softener 200 is connected through a hot water inlet pipe and a hot water inlet 210 through which warm hard water is introduced from the outside, and serves to soften the hot hard water to discharge water. The hot soft water softened by the hot water softener 200 is discharged to the tap through the water discharge pipe connected to the hot soft water discharge unit 220.

The cold rolled water container 300 is connected to the cold water inlet pipe and the cold water inlet unit 310 into which the cold water is introduced from the outside, and serves to soften the cold water to be discharged. The cold rolled water softened by the cold rolled water bottle 300 is discharged to the tap through the water pipe connected to the cold rolled water outlet 320.

As described above, the water softener performs the function of substituting calcium ions (Ca ²⁺ ) and magnesium ions (Mg ^{2 +} ) contained in hard water with sodium ions (Na ⁺ ), which is a special polymer compound containing sodium ions. A water tank with an ion exchange resin is included as an essential component. In the soft water tank (200, 300) is stored a large number of fine ball-shaped ion exchange resin, the tap water introduced into the soft water tank (200, 300) through the inlet (210, 310) is a soft water tank In contact with the ion exchange resin therein is converted to soft water and discharged to the faucet through the water outlets 220 and 320. On the other hand, since the Na ⁺ component is substantially reduced by the continuous contact with the tap water, the soft water tank (200, 300) should be supplied with the Na ⁺ component periodically by the regeneration tank (500).

That is, as shown in FIGS. 1 to 3, the injection part 230 into which the injection line 522 of the cap 520 of the regeneration container 500 is inserted is formed in the upper portion of the soft water container 200. When the injection line 522 of the regeneration vessel 500 containing the salt is connected to the injection portion, tap water introduced through the inlet portion 210 flows into the case 510 of the regeneration vessel 500 to dissolve the salt. The regenerated salt dissolved in the salt is transferred through the filtration filter 540 and introduced into the soft water tank 200 through the injection parts 230 and 330 through the discharge groove 535 and the transfer groove 522b.

Hereinafter, with reference to Figure 2 will be described in detail the configuration of the regeneration cylinder 500 applied to the present invention.

First, the recycling container applied to the present invention is as shown in Figure 2, the case containing the salt 510, the cap 520 to act as a lid of the case so that the salt does not flow out of the case, the cap is assembled to the cap It is fastened to the flow guide 530 and the flow guide to guide the flow of water received in the case and is configured to include a filtration filter 540 passing only the regeneration solution dissolved in the case to the outside of the cap.

The case 510 is a container for storing salt, and the user puts an appropriate amount of salt into the case and seals it with a cap 520.

Cap 520 is to cover the open portion of the case 510, the engaging portion 521 for fastening the case and sealing the inside of the case and the outside and protruding in a cylindrical shape from the central portion of the coupling portion of the training tank It is configured to include an injection rod 522 to be injected into the injection portion. The middle part of the inside of the housing 522a forming the cylindrical appearance of the injection rod 522 is blocked by the blocking film 522c, and the regeneration liquid inside the case 510 is transferred to the injection part of the water container at the central part of the blocking film. The transfer groove 522b may be formed. An inflow groove 522d is formed in the surface of the housing 522a between the blocking film 522c and the coupling part 521, so that tap water introduced through the inlet of the water softener is inside the case 510 through the housing 522a. Is transferred to.

The flow guide 530 is inserted into a space formed by the housing 522a and the blocking film 522c of the injection rod 522. The inner circumferential surface of the first guide 532 and the housing 522a which form the exterior of the flow path guide 530 are spaced at predetermined intervals. Therefore, the tap water introduced into the inflow groove 522d is moved along the first guide 532 to flow into the case 510. On the other hand, since the first O-ring 531 is attached to the outer circumferential surface of the first guide 532 adjacent to the blocking film 522c, the tap water introduced through the inflow groove 522d moves in the direction of the blocking film 522c. It doesn't work. In addition, a cylindrical second guide 533 is formed inside the flow guide 530 so as to be spaced apart from the first guide 532 by a predetermined interval, and the first guide 532 and the second guide 533 are flow paths. The guide 530 is attached to the guide surface 534, which is a surface in contact with the blocking film 522c. On the other hand, of both surfaces formed by the second guide 533, the first surface 536 facing the case 510 is sealed, and the second surface facing the blocking film 522c is open, and the second surface 536 is opened. As described above, the transfer groove 522b is formed in the blocking film 522c adjacent to the central portion of the surface. In addition, the discharge groove 535 is formed in the guide surface 534. Therefore, the regeneration solution in the case 510 is absorbed by the filtration filter 540 and transferred to the guide surface 534, and then discharged into the housing 522a through the discharge groove 535, after which the transfer groove ( 522b) is transferred to the injection portion of the soft water tank.

The filtration filter 540 has a cylindrical shape having a thickness equal to the distance between the first guide 532 and the second guide 533, and is inserted between the first guide 532 and the second guide 533. The filtration filter 540 is made of a material that passes only sodium ions (Na ⁺ ) and chlorine ions (Cl ⁻ ) dissolved in tap water, and does not pass salt that is not dissolved in tap water.

Hereinafter, a process of regenerating the soft water tank 200 by the regeneration container 500 will be described in detail with reference to FIG. 3. Hereinafter, for convenience of description, a state in which the regeneration tank 500 is connected to and used for the warm water tank 200 (hereinafter, simply referred to as the 'water tank 200') of the water softener 100 shown in FIG. 1 is used. As an example, the present invention will be described. Therefore, the regeneration container 500 may be used in the same manner in the cold rolling water bottle 300. On the other hand, the water softener 200 according to the present invention is a housing forming an appearance, the injection portion 230 is connected to the upper end of the housing, the water outlet 220 and the discharge portion connected to the upper end of the housing ( It will be configured to include a 240, hereinafter, for convenience of description it will be described as the housing 200 soft water container.

When the water softener 100 is used for a predetermined time and Na ⁺ components in the water softener 200 are reduced, the user may supply Na ⁺ components to the soft water container using the regeneration container 500. To this end, the user first separates the cap 520 of the regeneration container from the case 510 and then puts an appropriate amount of salt in the case 510. The amount of salt may be adjusted to an appropriate amount depending on the size and function of the soft water tank (200).

When a proper amount of salt is contained, the user couples the cap 520 of the regeneration container to the case 510 and then inserts the injection line 522 into the injection part 230 formed at the upper end of the soft water container 200. Since the injection part is closed by the cover not shown during the use of the water softener, the user removes the cover not shown from the injection part 230 and inserts the injection line 522 into the injection part.

At this time, the third O-ring 522f wound on the outer circumferential surface of the injection line at the top of the inflow groove 522d is in close contact with the inner surface of the injection portion 230, and thus, the tap water introduced through the inflow portion 210 is the injection portion. It may not flow out through a gap between the 230 and the housing 522a. In addition, since the second O-ring 522e wound on the outer circumferential surface of the end of the injection line is also in close contact with the inner surface of the injection portion 230, the tap water introduced into the injection portion 230 through the inlet 210 is It may not flow into the soft water tank 200.

Accordingly, the tap water introduced into the injection unit 230 through the inlet 210 is introduced into the internal space of the housing 522a through the inlet groove 522d formed in the injection line 522.

Since the tap water introduced into the housing 522a does not move in the direction of the blocking film 522c by the first O-ring 531, it is finally introduced into the case 510 along the first guide 532.

Tap water introduced into the case 510 fills the case 510 and dissolves the salt contained in the case 510.

On the other hand, the filtration filter 540 is dissolved in the salt to absorb the regeneration solution containing the Na ⁺ component, the absorbed regeneration solution is inserted into the first guide 532 and the second guide 533 filtration filter 540 ) Is conveyed toward the guide surface 534 by gravity.

The regenerated liquid transferred to the guide surface 534 is discharged to the blocking film 522c through the discharge groove 535 and then through the injection part 230 through the transfer groove 522b formed in the blocking film 522c. It is introduced into the soft water tank 200.

As described above, the regeneration container 500 according to the present invention uses salt water introduced from the inlet 210 for supplying tap water to the soft water container in a state of being connected to the injection part 230 of the soft water container 200. After melting, the salt-melted regeneration solution is finally transferred to the soft water tank through the filtration filter 540 and the transfer groove 522b. That is, the regeneration bin according to the present invention has a feature that the regeneration liquid may be transferred into the soft water tank 200 without artificial action for dissolving salt.

On the other hand, the present invention, as shown in Figure 1, since the discharge portion 240 for discharging the regeneration solution, separate from the withdrawal portion 220 where the general soft water is discharged, the discharge amount and speed of the regeneration solution, etc. Can be controlled. Hereinafter, with reference to Figures 1 to 4 will be described a method for adjusting the discharge amount of the regeneration solution using the discharge unit 240.

Figure 4 is an exemplary view showing in detail the configuration of the discharge unit applied to the present invention.

As shown in FIG. 4, the discharge part applied to the present invention includes a controller 241 for adjusting the discharge amount of the regeneration solution and a breaker 242 for blocking the discharge of the ion exchange resin inside the soft water container. have.

The regulator 241 is for adjusting the discharge amount, discharge period and discharge rate of the regeneration solution, the regulator housing 241a for forming the appearance, the valve 241b for blocking or passing the regeneration solution flowing into the regulator housing and And a fastener 241c for fastening the breaker and the regulator housing. Discharge unit 240 applied to the present invention may be composed of a regulator 241 and a breaker 242, as shown in Figure 4, it may be composed of a regulator 241, in this case the fastener 241c ) May be directly coupled to the soft water container.

The breaker 242 is to block the discharge of the ion exchange resin loaded in the soft water container together with the regeneration solution, and the cylindrical portion protrudes from one side of the combiner 242b and the combiner with the fastener and the soft water container. And an inserter 242a inserted into the soft water container, and a cutoff filter 242c is attached to an end of the inserter to block the ion exchange resin from being discharged from the soft water container.

The discharge unit 240 having the configuration as described above is connected to the lower end of the soft water container as shown in FIG. 1, and performs a function of discharging the regeneration liquid during the regeneration process as described above.

That is, while the regeneration fluid 500 is connected to the water softener 200 so that the regeneration liquid is introduced into the soft water reservoir to regenerate the ion exchange resin, the user adjusts the opening and closing degree of the valve 241b of the controller 241. By doing so, the discharge rate, discharge time and discharge amount of the regeneration solution can be adjusted. For example, in case of extending the regeneration time of the water tank, the valve may be locked for a certain time, and in the case of reducing the regeneration time of the water tank, the regeneration liquid is quickly discharged by opening the valve immediately. You can do that.

In addition, the breaker 242 serves to block the discharge of the ion exchange resin in the soft water tank to the outside during the regeneration process as described above, when the ion exchange resin is to be replaced, the discharge function of the ion exchange resin You can also do That is, the ion exchange resin can be used semi-permanently, but may need to be replaced in some cases. In this case, the user discharges the ion exchange resin after separating the breaker 242 from the water softener, New ion exchange resins can also be injected.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

1 is an exemplary view showing a state in which a regeneration tank is connected to and used in the soft water tank according to the present invention.

2 is a block diagram of a regeneration container applied to the present invention.

3 is an exemplary view showing in detail the connection state of the regeneration and soft water tank shown in FIG.

Figure 4 is an exemplary view showing in detail the configuration of the discharge portion applied to the present invention.

<Description of Major Symbols in Drawing>

200: housing (soft water container) 210: inlet

220: water extraction unit 230: injection unit

240: discharge part

Claims (5)

In the soft water tank applied to the water softener, A housing forming an appearance; An injection part formed on an upper portion of the housing and connected to an inlet part through which water is introduced from the outside and into which a regeneration tank for injecting regeneration fluid is injected; Is formed in the lower portion of the housing, through the inlet for the water inlet for flowing out the softened soft water flowing into the housing to the outside; And A water container is formed in the lower portion of the housing, including a discharge portion for adjusting the discharge amount of the regeneration liquid introduced by the regeneration container. The method of claim 1, The regeneration container, The water container, characterized in that to dissolve the salt in the regeneration container with water introduced through the inlet in the state injected into the inlet, the regeneration liquid dissolved in the salt into the housing through the inlet. The method of claim 2, The discharge portion, A regulator housing defining an appearance; A valve for blocking or passing the regeneration liquid flowing into the regulator housing; And Water softener including a fastener for fastening the housing and the regulator housing. The method of claim 3, wherein The discharge portion, It further comprises a circuit breaker for blocking the discharge of the ion exchange resin in the housing, The breaker is coupled between the housing and the fastener. The method of claim 4, wherein The breaker, A coupler coupled to the fastener and the housing; And It includes an inserter protruding in a cylindrical shape from one side of the coupler is inserted into the housing, And a cut-off filter attached to the end of the inserter to block the ion exchange resin from being discharged from the housing.

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