KR101595571B1 - Gravity type water softener having auto revival function and auto revival method for the same - Google Patents

Abstract

The gravity type automatic regenerative water softener according to the present invention includes: first and second ion exchange resin tanks in which an ion exchange resin can be filled; A regeneration tank located above the first and second ion exchange resin tanks and capable of storing regenerant; And a regeneration water supply passage communicating with the regeneration tank, a first regeneration water inflow passage communicating with the upper side of the first ion exchange resin tank, a first regeneration water outflow passage communicating with the lower side of the first ion exchange resin tank, A six-way valve module including a second regenerated water inflow conduit communicating with the upper side of the ion exchange resin tank, a second regenerated water outflow conduit communicating with the lower side of the second ion exchange resin tank, and a discharge channel communicating with the outside, The regeneration water generated by the raw water flowing into the regeneration tank is discharged from the regeneration water supply passage, the first regeneration water outflow passage, the first regeneration water outflow passage, and the discharge passage through the regeneration water supply passage, The ion exchange resin is regenerated and discharged to the outside or the regenerated water supply passage, the second regenerated water inlet passage, the second regenerated water outlet passage, By passing through the second regeneration the ion exchange resin in the ion exchange resin tank and discharged to the outside, or the discharge are characterized in that which can be carried out at the same time.

Description

TECHNICAL FIELD [0001] The present invention relates to a gravity type automatic regenerative water softener and a gravity type automatic regenerative water softener,

More particularly, the present invention relates to a method for automatically regenerating a gravity-type automatic regenerative water softener and a gravity-type automatic regenerative water softener, wherein a regeneration tank is positioned above an ion exchange resin tank, To a gravity-type automatic regenerative water softener and a gravity-type automatic regenerative water softener capable of introducing regenerated water generated in a regeneration tank into the ion exchange resin tank through the six-way valve module by positioning the valve module .

Currently, a water softener installed at a home or office has a basic function of chemically converting water-soluble ions contained in tap water into soft water.

In general, tap water (hard water) contains a large amount of chlorine components used in the purification process. It also contains various heavy metals (ions) such as iron, zinc, lead and mercury which are harmful to the human body due to old pipes and water pollution. have. Although such tap water is not fatal to the human body, if it is used as it is when washing the skin, the metal ion contained in the water and the fatty acid of the soap are combined with each other to produce a metallic foreign substance. Such metallic foreign substances come into contact with the skin, It causes skin diseases or promotes aging of the skin.

To prevent this, a water softener has been developed which exchanges hardness components Ca2 + and Mg2 + with Na + in the resin by passing tap water through a strongly acidic cation exchange resin of Na + type and is mainly used for cleaning .

The water softener has the principle of softening calcium ions and magnesium ions contained in hard water by replacing them with sodium ions (Na +). To this end, a water tub containing ion exchange resin of a special polymer compound containing sodium ions is an essential component And a regeneration vessel containing an ion exchange resin regeneration substance such as salt that produces sodium ions when dissolved in water.

That is, in the water softener, the water is continuously passed through the softener tube in contact with the ion exchange resin in a state where a large amount of fine ion exchange resin in the shape of ball is stored in the softener, The Na + component is reduced by the continuous contact with the tap water. Therefore, in order to conserve the Na + component, the salt water made of the NaCl component is injected into the water tank.

Conventional water softeners generally include a soft water passage including an ion exchange resin for converting raw water supplied from the outside into soft water, a salt filled for regenerated water supply for regenerating the ion exchange resin when the performance of the ion exchange resin is lowered And a regenerator.

Conventionally, in order to regenerate the ion exchange resin of the water softener, a separate power source is used to introduce the brine of the regenerator into the water softener containing ion exchange resin to regenerate the ion exchanger resin and discharge it to the outside. As a separate power source is used, the configuration of the product becomes complicated and the overall volume of the product is increased.

Also, conventionally, in order to perform gravity type automatic regeneration, it has been a common method that the salt water of the regeneration tank is directly supplied to the drinking water tank containing the ion exchange resin. For this method, a check valve is installed in the passage between the regeneration passing water tubs, so that the water pressure of the water tub must not be lowered during normal use. However, according to the conventional method, when the check valve malfunctions due to the durability of the check valve, there is a problem that the check valve is directly connected to the leaked water.

Disclosure of the Invention The present invention has been made to solve the above problems, and it is an object of the present invention to provide a regeneration tank in which a regeneration tank is positioned above an ion exchange resin tank and a 6-way valve module is disposed between the regeneration tank and the ion exchange resin tank, Way regeneration water softener and an automatic regeneration method of a gravity-type regenerative water softener capable of flowing regenerated water generated in a regeneration tank without power into the ion exchange resin tank through the six-way valve module.

It is another object of the present invention to provide a six-way valve module between an ion exchange resin tank and a regeneration tank so that the regenerated water in the regeneration tank is not directly introduced into the ion exchange resin tank, A gravity-type automatic regenerative water softener and a gravity-type automatic regenerative water softener which can be introduced into a tank.

The gravity type automatic regenerative water softener according to the present invention includes: first and second ion exchange resin tanks in which an ion exchange resin can be filled; A regeneration tank located above the first and second ion exchange resin tanks and capable of storing regenerant; And a regeneration water supply passage communicating with the regeneration tank, a first regeneration water inflow passage communicating with the upper side of the first ion exchange resin tank, a first regeneration water outflow passage communicating with the lower side of the first ion exchange resin tank, A six-way valve module including a second regenerated water inflow conduit communicating with the upper side of the ion exchange resin tank, a second regenerated water outflow conduit communicating with the lower side of the second ion exchange resin tank, and a discharge channel communicating with the outside, The regeneration water generated by the raw water flowing into the regeneration tank is discharged from the regeneration water supply passage, the first regeneration water outflow passage, the first regeneration water outflow passage, and the discharge passage through the regeneration water supply passage, The ion exchange resin is regenerated and discharged to the outside or the regenerated water supply passage, the second regenerated water inlet passage, the second regenerated water outlet passage, By passing through the second regeneration the ion exchange resin in the ion exchange resin tank and discharged to the outside, or the exhaust or are characterized in that which can be carried out at the same time.

Preferably, there are provided raw water inflow channels communicating with the water inlet, raw water supply channels communicating with the lower side of the first and second ion exchange resin tanks, and regeneration raw water inflow channel communicating with the regeneration tank And a directional valve module.

Preferably, the raw water flowing into the regeneration tank flows into the regeneration tank through the raw water inflow passage and the regeneration raw water inflow passage due to the water pressure of the water receiving opening.

Preferably, the first and second ion exchange resin tanks are provided with depressurized flow rate sensors capable of maintaining the constant flow rate of the raw water having passed through the water receiving port and confirming the cumulative flow rate .

Preferably, the regeneration tank includes a flow guide capable of constantly maintaining the flow rate of the raw water supplied to the regeneration region in the regeneration tank.

The gravity type automatic regenerative water softener according to the present invention includes: first and second ion exchange resin tanks in which an ion exchange resin can be filled; A regeneration tank located above the first and second ion exchange resin tanks and capable of storing regenerant; Raw water inflow channels communicating with a water inlet for supplying hot water and cold water, raw water supply channels communicating with the lower sides of the first and second ion exchange resin tanks, respectively, and regeneration raw water inflow channels communicating with the regeneration tank 5-way valve module; And a regeneration water supply passage which is located between the regeneration tank and the five-way valve module and communicates with the regeneration tank, a first regeneration water inflow passage communicating with the upper side of the first ion exchange resin tank, A second regenerated water inflow conduit communicating with the upper side of the second ion exchange resin tank, a second regenerated water outflow conduit communicating with the lower side of the second ion exchange resin tank, and a second regenerated water inflow conduit communicating with the outside Way valve module and the six-way valve module selectively open or close the flow channels, and the operation mode of the water softener is changed to the training mode or the regeneration mode And the like.

Preferably, when the operation mode of the water softener is the training mode, only the raw water inflow channels and the raw water supply channels of the 5-way valve module are opened, and the regeneration raw water inflow channel and the 6-way valve module And the hot water and the cold water introduced into the first and second ion exchange resin tanks through the raw water inflow channels and the raw water supply channels are respectively converted into soft water.

Preferably, the regeneration mode includes a raw water replenishment mode, a regeneration water generation mode, a tank pressure release mode, a regeneration water injection mode and a rinsing mode in the regeneration tank.

Preferably, when the operating mode of the water softener is the raw water replenishing mode in the regeneration tank during the regeneration mode, the raw water inflow channel for supplying the cold water among the raw water inflow channels of the five-way valve module and the regeneration water inflow The remaining flow path of the 5-way valve module and the flow path of the 6-way valve module are kept closed for a predetermined time, so that the cold water is supplied into the regeneration tank.

Preferably, when the operation mode of the water softener is the reproduction number generation mode during the regeneration mode, the flow paths of the 5-way valve module and the 6-way valve module are kept closed for a predetermined time, Is reproduced.

Preferably, when the operating mode of the water softener is the pressure reducing mode in the tank during the regeneration mode, the flow path of the five-way valve module is closed all, and only the first regenerated water outflow path and the discharge path are opened for a predetermined time, The regeneration water in the first ion exchange resin tank is discharged to the outside, or only the second regeneration water outlet flow path and the discharge flow path are opened for a predetermined time to discharge the soft water in the two ion exchange resin tanks to the outside.

Preferably, when the operating mode of the water softener is the regenerative water closing mode of the regeneration mode, the flow path of the 5-way valve module is closed all the time, and the regenerated water supply path and the discharge path of the 6-way valve module are opened , The first regenerated water inflow passage and the first regenerated water outflow passage are opened for a predetermined time so that the regenerated water generated in the regeneration tank regenerates the ion exchange resin in the first ion exchange resin tank and is discharged to the outside, 2 regeneration water inflow channel and the second regeneration water outflow channel are opened for a predetermined time so that the regenerated water generated in the regeneration tank regenerates the ion exchange resin of the second ion exchange resin tank and is discharged to the outside.

Preferably, when the operation mode of the water softener is the rinse mode of the regeneration mode, the raw water inflow channels and the raw water supply channels of the five-way valve module are opened, the regeneration raw water inflow channel is closed, The hot water introduced into the first ion exchange resin tank through the raw water inflow passage and the raw water supply passage for a certain period of time is discharged from the first ion exchange resin tank to the outside Or the second regenerated water outflow passage and the discharge passage are opened for a predetermined time and the cold water introduced into the second ion exchange resin tank through the raw water inflow passage and the raw water supply passage is removed from the second ion exchange resin tank And discharged to the outside.

Preferably, the first and second ion exchange resin tanks are provided with depressurized flow rate sensors capable of maintaining the constant flow rate of the raw water having passed through the water receiving port and confirming the cumulative flow rate .

Preferably, the raw water replenishing mode in the regeneration tank is 1 to 2 minutes, the regeneration water generating mode is 12 to 20 minutes, the pressure in the tank is set to 10 seconds to 1 minute, 15 minutes and the rinsing mode is maintained for 4 minutes to 6 minutes.

Preferably, the regeneration tank includes a flow guide capable of constantly maintaining the flow rate of raw water supplied to the regeneration region in the regeneration tank.

A first and a second ion exchange resin tank in which an ion exchange resin can be filled; And a regeneration tank located above the first and second ion exchange resin tanks and capable of storing a regenerant, the method comprising the steps of:

(a) supplying cold water to a regeneration tank;

(b) closing the flow path communicating with the regeneration tank to generate regenerated water of a certain concentration in the regeneration tank;

(c) discharging the internal water of at least one of the first ion exchange resin tank and the second ion exchange resin tank to the outside; And

(d) (1) The regenerated water in the regeneration tank is supplied to the first ion exchange resin tank through a six-way valve module to regenerate and discharge the ion exchange resin in the first ion exchange resin tank, or ) Supplying the regenerated water in the regeneration tank to the second ion exchange resin tank through a six-way valve module to regenerate and discharge the ion exchange resin in the second ion exchange resin tank, 2) are performed simultaneously.

Preferably, (1) of (d) includes: a regeneration water supply passage for supplying the regeneration water from the regeneration tank to the 6-way valve module; a regeneration water supply passage for supplying the regeneration water from the 6-way valve module to the first ion exchange resin tank Wherein the step (2) of the step (d) includes the steps of: (a) supplying a regeneration water from the regeneration tank to the six-way valve module; And a second regenerated water inflow passage for supplying the regenerated water to the second ion exchange resin tank.

Preferably, (e) the raw water is introduced into the first ion exchange resin tank to remove the regenerated water in the first ion exchange resin tank to discharge it to the outside or to introduce the raw water into the second ion exchange resin tank, 2 < / RTI > ion exchange resin tank and discharging it to the outside.

Preferably, the gravity type automatic regenerative water softener includes raw water inflow channels communicating with the water inlet, raw water supply channels communicating with the lower side of the first and second ion exchange resin tanks, respectively, and regeneration water inflow Wherein the cold water is introduced into the regeneration tank through the raw water inflow passage and the regeneration raw water inflow passage due to the water pressure of the water inlet in the step (a) .

Preferably, the regeneration tank includes a flow path guide. In the step (a), a part of the supplied cold water is drained to the outside by the flow path guide, and the amount of the cold water supplied to the regeneration region in the regeneration tank And maintaining the same constant.

According to the present invention, the regeneration tank is placed on the upper side of the ion exchange resin tank, the six-way valve module is placed between the regeneration tank and the ion exchange resin tank, and the regenerated water generated in the regeneration tank The directional valve module can be introduced into the ion exchange resin tank, thereby simplifying the structure of the product and reducing the overall volume of the product.

Further, according to the present invention, by providing the six-way valve module between the ion exchange resin tank and the regeneration tank, the regenerated water in the regeneration tank is not directly introduced into the ion exchange resin tank, So that leakage of the regenerated water can be prevented.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of an automatic regeneration method of a gravity type automatic regenerative water softener and a gravity type automatic regenerative water softener according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

<Examples>

< Explanation of the structure of the gravity type automatic regenerative water softener 400>

FIG. 1 is a perspective view of a gravity type automatic regenerative water softener 400 according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a gravity type automatic regenerative water softener 400, and FIG. 3 is a schematic view of a gravity type automatic regenerative water softener 400 . 1 and 2, the flow path is omitted in order to explain the structure of the gravity type automatic regenerative water softener 400.

1, 2, and 3, the gravity type automatic regenerative water softener 400 includes first and second ion exchange resin tanks 100a and 100b, a five-way valve module 200, a six-way valve module 300, A regeneration tank 410, and reduced pressure flow sensors 430a and 430b.

The first and second ion exchange resin tanks 100a and 100b are filled with an ion exchange resin capable of converting raw water supplied from the outside into soft water. Way valve module 200 and the six-way valve module 300, which will be described later. Meanwhile, the first and second ion exchange resin tanks 100a and 100b can be detachably inserted into the tank connectors 160a and 160b, respectively.

The regeneration tank 410 is located above the first and second ion exchange resin tanks 100a and 100b and contains a regenerant such as salt. Such a regenerant may be any one of powders, tablets, and blocks. However, when a block type is used, block type salt can be stored because volume utilization is the highest. Figure 1 shows the regeneration tank 410 in which the block-like salt is located, and Figure 2 shows the regeneration tank 410 in which the block-like salt is not located.

The regeneration tank 410 may include a flow guide 411 and a drainage wall 412. The drainage wall 412 may connect the regeneration tank 410 to the drainage region 413 and the regeneration region 414 It is classified. 2, the flow guide 411 is omitted.

When the water pressure of the raw water supplied into the regeneration tank 410 is high, more raw water flows into the regeneration tank 410 for a certain period of time as compared with the case where the water pressure is low, Or the raw water supplied or the generated regenerated water may overflow the regeneration tank 410. [ When the water pressure of the raw water to be supplied is high, the flow guide 411 touches the flow guide 411, and a part thereof flows directly into the drainage area 413 rather than the regeneration area 414, 12 so as not to waste the regenerant. Accordingly, the amount of raw water supplied into the regeneration area 414 can be kept constant, waste of the regenerant can be reduced, and overflow of the raw water in the regeneration tank 410 can be prevented.

When the regenerated water regenerated in the raw water or the regeneration region 414 supplied to the regeneration region 414 is excessive, the water flows into the drainage region 413 beyond the drainage wall 412 and drains to the outside through the overflow passage 12 . In this way, it is possible to prevent an overflow of over-supplied raw water or excessively-generated regenerated water from the regeneration tank 410.

The five-way valve module 200 serves to switch the flow path in a training mode or a regeneration mode to be described later. The five-way valve module 200 includes raw water inflow channels 1 and 2 communicating with a water inlet (not shown) for supplying hot water and cold water, Raw water supply passages 3 and 4 communicating with the lower side of the first and second ion exchange resin tanks 100a and 100b respectively and a regeneration raw water inflow passage 5 communicating with the regeneration tank 410. [

The six-way valve module 300 serves to switch the flow path in a training mode or a regeneration mode to be described later. The six-way valve module 300 includes a regeneration water supply passage 6 communicating with the regeneration tank 410, A first regenerated water outflow channel 9 communicating with the lower side of the first ion exchange resin tank 100a and a second regenerated water outflow channel 9 communicating with the upper side of the second ion exchange resin tank 100b, A second regenerated water outflow channel 10 communicating with the lower side of the second ion exchange resin tank 100b and a discharge channel 11 communicating with the outside. On the other hand, the six-way valve module 300 is located between the regeneration tank 410 and the five-way valve module 200.

The configuration of the five-way valve module 200 and the six-way valve module 300 described above is sufficient if they have a configuration capable of selectively opening or closing the flow paths 1 to 12 by a drive motor (not shown) It is not limited.

The depressurized flow rate sensors 430a and 430b are located below the first and second ion exchange resin tanks 100a and 100b and are connected to the hot water flowing into the first and second ion exchange resin tanks 100a and 100b, The cold water can be maintained at a constant pressure, and the accumulated water volume can be confirmed. Since such a reduced-pressure flow sensor is a well-known constituent element, a description thereof will be omitted.

The gravity type automatic regenerative water softener 400 controls the operation mode of the water softener in such a manner that the flow channels 1 to 12 of the five-way valve module 200 and the six-way valve module 300 are selectively opened or closed .

Particularly, the cold water flows into the regeneration tank 410 through the raw water inflow channel 2 and the regeneration raw water inflow channel 5 without any additional power due to the water pressure of the water inlet. The salt in the regeneration tank 410 is dissolved in the cold water introduced into the regeneration tank 410 to generate regenerated water having a constant concentration. Since the regeneration tank 410 is located on the upper side of the first and second ion exchange resin tanks 100a and 100b, the generated regeneration water is supplied to the regeneration water supply passage 6, The ion exchange resin in the first ion exchange resin tank 100a is regenerated after passing through the inflow channel 7, the first regenerated water outflow channel 9 and the discharge channel 11 and is discharged to the outside, The second regenerated water inflow channel 8, the second regenerated water outflow channel 10 and the discharge channel 11 to regenerate the ion exchange resin in the second ion exchange resin tank 100b and be discharged to the outside.

<Description of Operation Principle of Gravity Type Automatic Regenerative Water Softener 400>

Hereinafter, the operation mode of the gravity type automatic regenerative water softener 400 will be described in detail with reference to FIG. 4 is a schematic view showing whether or not the flow channels 1 to 12 are opened or closed according to the mode of the gravity type automatic regeneration water softener 400 and the flow of water.

FIG. 4A shows whether or not the flow paths (first lining 12) are opened or closed and the flow of water when the gravity type automatic regenerative water softener 400 is in the [training mode].

Only the raw water inflow channels 1 and 2 and the raw water supply passages 3 and 4 of the 5-way valve module 200 are opened and the regeneration raw water inflow channel 5 and 6-way valve module 300 are closed.

The hot water and the cold water introduced into the first and second ion exchange resin tanks 100a and 100b through the raw water inflow channels 1 and 2 and the raw water supply passages 3 and 4 are supplied to the first and second ion exchange resin tanks 100a and 100b, 2 ion exchange resin tanks 100a and 100b, and is discharged as converted into soft water.

[Playback mode] [Replenishing tank raw water replenishment mode], [replenish water generation mode], [tank internal pressure removal mode], [number of replenishment injection mode] and [rinsing mode]. These modes are sequentially performed.

4B shows whether the flow channels 1 to 12 are opened or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the raw water replenishing mode in the regeneration tank.

Only the raw water inflow channels 2 and the regeneration raw water inflow channel 5 for supplying the cold water among the raw water inflow channels 1 and 2 of the 5-way valve module 200 are opened The remaining flow path of the five-way valve module 200 and the flow path of the six-way valve module 300 are all closed. Note that this state is preferably maintained for about 1 minute to 2 minutes, more preferably about 1 minute 30 seconds, but this time may vary depending on the capacity of the regeneration tank 410 and the like.

Therefore, cold water flows into the regeneration tank 410 through the raw water inflow passage 2 and the regeneration raw water inflow passage 5 without any additional power due to the water pressure of the water inlet.

The raw water supplied to the regeneration tank 410 excessively can be discharged directly to the outside through the overflow path 12.

4C shows whether the flow channels 1 to 12 are opened or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the regenerated water generation mode.

In the [reproduction number generation mode] , all the flow paths of the 5-way valve module 200 and the 6-way valve module 300 are closed. It is preferable that this state is maintained for about 12 minutes to 20 minutes, but it should be noted that it may be changed depending on the concentration of the replenishing water required.

Therefore, the salt in the regeneration tank 410 is dissolved in the cold water introduced into the regeneration tank 410, and regenerated water having a constant concentration is generated.

The excessively generated regenerated water can be drained to the outside through the overflow path 12 beyond the drainage wall.

4D shows whether the flow paths 1 to 12 are opened or closed and the flow of water when the gravity type automatic regenerative water softener 400 is in the tank pressure relief mode.

Only the first regenerated water outflow passage 9 and the discharge passage 11 of the 6-way valve module 300 are opened and the flow path of the 5-way valve module 200 and the flow path of the 6-way valve module 300 Way valve module 300 or only the second regenerated water outflow channel 10 and the discharge channel 11 of the six-way valve module 300 are opened and the flow path of the five-way valve module 200 and the six- 300 are all closed. Note that this state is maintained for about 10 seconds to one minute, more preferably about 20 seconds, but it may be changed depending on the size of the first and second ion exchange resin tanks 100a and 100b.

Therefore, the soft water in the first ion exchange resin tank 100a is discharged to the outside to remove the pressure in the first ion exchange resin tank 100a. Or the soft water in the second ion exchange resin tank 100b is discharged to the outside to remove the pressure in the second ion exchange resin tank 100b. Note that this process may occur simultaneously in the first and second ion exchange resin tanks 100a and 100b.

On the other hand, the above mode is a mode for inputting the number of reproductions without additional power in the reproduction number input mode to be described later.

4E shows whether the flow channels 1 to 12 are opened or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the regeneration water injection mode.

In the replenishment number input mode , the flow path of the 5-way valve module 200 is completely closed and the replenishment water supply flow path 6 and the discharge flow path 11 of the 6-way valve module 300 are opened. The first regenerated water inflow passage 7 and the first regenerated water outflow passage 9 of the six-way valve module 300 are opened or the second regenerated water inflow passage 8 and the second The regenerated water outflow channel 10 is opened. This state is maintained for about 10 to 15 minutes, and more preferably for about 13 minutes, in such a state, but this time is not limited to the size in the first and second ion exchange resin tanks 100a and 100b, And the amount of the ion-exchange resin in the semiconductor chips 100a and 100b.

The regenerated water generated in the regeneration tank 410 flows into the first ion exchange resin tank 100a through the regeneration water supply passage 6 and the first regeneration water inflow passage 7, The ion exchange resin existing in the first regeneration water outlet passage 100a is regenerated and discharged to the outside through the first regeneration water outlet flow passage 9 and the discharge flow passage 11. [ Or the regeneration tank 410 is introduced into the second ion exchange resin tank 100b through the regeneration water supply passage 6 and the second regeneration water inflow passage 8 so that the second ion exchange resin tank 100b Is regenerated and discharged to the outside through the second regenerated water outflow channel (10) and the discharge channel (11). Note that this process may occur simultaneously in the first and second ion exchange resin tanks 100a and 100b.

4F shows whether or not the flow channels 1 to 12 are open or closed and the flow of water when the gravity type automatic regenerative water softener 400 is in the rinse mode.

In the [rinsing mode] , the raw water inflow channels 1 and 2 and the raw water supply passages 3 and 4 of the 5-way valve module 200 are opened and the regeneration raw water inflow passage 5 is closed. The first regenerated water outflow channel 9 and the discharge channel 11 are opened or the second regenerated water outflow channel 10 and the discharge channel 11 are opened. This state is maintained for about 4 minutes to 6 minutes, and more preferably for about 5 minutes in this state, but this time depends on the size in the first and second ion exchange resin tanks 100a and 100b, It can be changed.

The hot water introduced into the first ion exchange resin tank 100a through the raw water inlet flow path 1 and the raw water supply flow path 3 removes the regenerated water remaining in the first ion exchange resin tank 100a, The regeneration water outflow channel 9 and the discharge channel 11 to the outside. Or the cold water flowing into the second ion exchange resin tank 100b through the raw water inflow passage 2 and the raw water supply passage 4 removes the regenerated water remaining in the second ion exchange resin tank 100b, And is discharged to the outside through the flow path 10 and the discharge flow path 11. Note that this process may occur simultaneously in the first and second ion exchange resin tanks 100a and 100b.

It should be noted that, as described above, the time set in each operation mode can be arbitrarily adjusted by the user as needed. It should be noted that the transition from the training mode to the playback mode may also be periodically switched according to the time set by the user as desired.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be readily apparent to those skilled in the art that the present invention can be modified and changed without departing from the scope of the present invention.

1 is a perspective view of a gravity type automatic regenerative water softener 400 according to an embodiment of the present invention,

2 is an exploded perspective view of the gravity type automatic regenerative water softener 400,

3 is a schematic view of a gravity type automatic regenerative water softener 400,

4A is a schematic diagram showing whether the flow paths 1 to 12 are opened or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the training mode,

4B is a schematic diagram showing whether the flow channels 1 to 12 are opened or closed and the flow of water when the gravity type automatic regenerative water softener 400 is in the raw water replenishing mode in the regeneration tank,

4C is a schematic diagram showing whether the flow channels 1 to 12 are open or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the regenerated water generation mode,

4D is a schematic diagram showing whether the flow paths 1 to 12 are opened or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the tank pressure reducing mode,

4E is a schematic diagram showing whether the flow channels 1 to 12 are opened or closed and the flow of water when the gravity type automatic regeneration water softener 400 is in the regeneration water injection mode,

4F is a schematic diagram showing whether the flow channels 1 to 12 are opened or closed and the flow of water when the gravity type automatic regenerative water softener 400 is in the rinse mode.

Claims (21)

First and second ion exchange resin tanks in which an ion exchange resin can be filled; A regeneration tank located above the first and second ion exchange resin tanks and having a flow guide capable of storing the regenerant and maintaining a constant flow rate of the raw water supplied to the regeneration region inside; And A regeneration water supply passage communicating with the regeneration tank, a first regeneration water inflow passage communicating with the upper side of the first ion exchange resin tank, a first regeneration water outflow passage communicating with the lower side of the first ion exchange resin tank, Way valve module having a second regenerated water inflow passage communicating with the upper side of the exchange resin tank, a second regenerated water outflow passage communicating with the lower side of the second ion exchange resin tank, and a discharge channel communicating with the outside, The regeneration water generated by the raw water flowing into the regeneration tank is discharged from the regeneration water supply passage, the first regeneration water outflow passage, the first regeneration water outflow passage, and the discharge passage through the regeneration water supply passage, Regenerating the ion exchange resin and regenerating the ion exchange resin in the second ion exchange resin tank through the regeneration water supply passage, the second regeneration water inflow passage, the second regeneration water outflow passage, and the discharge passage, Or discharged to the outside, or the discharges can be carried out at the same time. The method according to claim 1, A five-way valve module including raw water inflow channels communicating with the water inlet, raw water supply channels communicating with the lower side of the first and second ion exchange resin tanks, and regeneration raw water inflow channel communicating with the regeneration tank, Wherein the gravity type automatic regenerative water softener further comprises a gravity type automatic regenerative water softener. 3. The method of claim 2, Wherein the raw water flowing into the regeneration tank flows into the regeneration tank through the raw water inflow channel and the regeneration raw water inflow channel due to the water pressure of the water receiving unit. The method of claim 3, Wherein the first and second ion exchange resin tanks are respectively provided with a reduced pressure flow sensor for allowing the raw water having passed through the water receiving port to be maintained at a constant pressure and for confirming cumulative flow rate, Regenerative water softener. delete First and second ion exchange resin tanks in which an ion exchange resin can be filled; A regeneration tank located above the first and second ion exchange resin tanks and having a flow guide capable of storing the regenerant and maintaining a constant flow rate of the raw water supplied to the regeneration region inside; Raw water inflow channels communicating with a water inlet for supplying hot water and cold water, raw water supply channels communicating with the lower sides of the first and second ion exchange resin tanks, respectively, and regeneration raw water inflow channels communicating with the regeneration tank 5-way valve module; And A regeneration water supply passage which is located between the regeneration tank and the five-way valve module and communicates with the regeneration tank, a first regeneration water inflow passage communicating with the upper side of the first ion exchange resin tank, A second regenerated water inflow channel communicating with the upper side of the second ion exchange resin tank, a second regenerated water outflow channel communicating with the lower side of the second ion exchange resin tank, and a second regenerated water inflow channel communicating with the outside And a six-way valve module having an exhaust passage, Wherein the 5-way valve module and the 6-way valve module selectively control the operation mode of the water softener to the training mode or the regeneration mode by opening or closing the flow channels. The method according to claim 6, When the operation mode of the water softener is the training mode, Way valve module and the flow path of the six-way valve module are all closed, and the raw water inflow channels and the raw water supply channels of the five-way valve module are opened, Wherein the hot water and the cold water respectively introduced into the first and second ion exchange resin tanks through the flow paths are converted into soft water. The method according to claim 6, Wherein the regeneration mode includes a raw water replenishment mode, a regeneration water generation mode, a tank pressure release mode, a regeneration water injection mode and a rinsing mode in the regeneration tank. 9. The method of claim 8, When the operation mode of the water softener is the raw water replenishing mode in the regeneration tank during the regeneration mode, Way valve module, the raw water inflow passage for supplying cold water and the regeneration raw water inflow passage for the 5-way valve module are opened, and the remaining flow path of the 5-way valve module and the flow path of the 6-way valve module And the cold water is supplied into the regeneration tank while maintaining the entirely closed state for a predetermined time. 9. The method of claim 8, When the operation mode of the water softener is the reproduction number generation mode in the reproduction mode, Wherein the flow path of the 5-way valve module and the 6-way valve module is kept closed for a predetermined time to generate regenerated water of a certain concentration in the regeneration tank. 9. The method of claim 8, When the operating mode of the water softener is the in-tank pressure relief mode during the regeneration mode, The flow path of the five-way valve module is completely closed, and The first regenerated water outflow channel and the discharge channel are opened for a predetermined time to discharge the soft water in the first ion exchange resin tank to the outside, or only the second regenerated water outflow channel and the discharge channel are opened for a predetermined time, Wherein the water in the tank is discharged to the outside. 9. The method of claim 8, When the operation mode of the water softener is the reproduction number input mode during the reproduction mode, The flow path of the five-way valve module is completely closed, and The regenerated water supply passage and the discharge passage of the 6-way valve module are opened, The regeneration water generated in the regeneration tank is regenerated and discharged to the outside or the second regeneration water outflow path is regenerated in the first ion exchange resin tank, The regenerated water inflow channel and the second regenerated water outflow channel are opened for a predetermined time so that the regenerated water generated in the regeneration tank regenerates the ion exchange resin of the second ion exchange resin tank and is discharged to the outside. Water softener. 9. The method of claim 8, When the operation mode of the water softener is the rinse mode during the regeneration mode, The raw water inflow channels and the raw water supply channels of the 5-way valve module are opened, the regeneration raw water inflow channel is closed, and Only the first regenerated water outflow passage and the discharge passage are opened for a predetermined time and the hot water introduced into the first ion exchange resin tank through the raw water inflow passage and the raw water supply passage is removed from the first ion exchange resin tank Or the second regeneration water outflow passage and the discharge passage are opened for a predetermined time so that the cold water introduced into the second ion exchange resin tank through the raw water inflow passage and the raw water supply passage flows into the second ion exchange resin tank The regenerated water in the gravity type automatic regenerative water softener is discharged to the outside. The method according to claim 6, Wherein the first and second ion exchange resin tanks are respectively provided with a reduced pressure flow sensor for allowing the raw water having passed through the water receiving port to be maintained at a constant pressure and for confirming cumulative flow rate, Regenerative water softener. 9. The method of claim 8, The regeneration water supply mode is 10 minutes to 15 minutes, and the regeneration water supply mode is 10 minutes to 15 minutes. And the rinsing mode is maintained for 4 minutes to 6 minutes. 16. The method according to any one of claims 6 to 15, Wherein the regeneration tank includes a flow guide capable of constantly maintaining a flow rate of raw water supplied to the regeneration region in the regeneration tank. First and second ion exchange resin tanks in which an ion exchange resin can be filled; And a regeneration tank located above the first and second ion exchange resin tanks and capable of storing a regenerant, the method comprising the steps of: (a) supplying cold water to a regeneration tank; (b) closing the flow path communicating with the regeneration tank to generate regenerated water of a certain concentration in the regeneration tank; (c) discharging the internal water of at least one of the first ion exchange resin tank and the second ion exchange resin tank to the outside; And (d) (1) The regenerated water in the regeneration tank is supplied to the first ion exchange resin tank through a six-way valve module to regenerate and discharge the ion exchange resin in the first ion exchange resin tank, or ) Supplying the regenerated water in the regeneration tank to the second ion exchange resin tank through a six-way valve module to regenerate and discharge the ion exchange resin in the second ion exchange resin tank, 2) are simultaneously performed. The automatic regenerating method of a gravity-type automatic regenerative water softener according to claim 1, 18. The method of claim 17, The step (d) includes: a regeneration water supply passage for supplying the regeneration water from the regeneration tank to the 6-way valve module; a regeneration water supply passage for supplying the regeneration water from the 6-way valve module to the first ion exchange resin tank Lt; RTI ID = 0.0 &gt; 1 &lt; / RTI &gt; (2) of (d) includes: a regeneration water supply passage for supplying the regeneration water from the regeneration tank to the 6-way valve module; a regeneration water supply passage for supplying the regeneration water from the 6-way valve module to the second ion exchange resin tank 2 regeneration water flow path. 2. The automatic regenerating method of a gravity-type automatic regenerative water softener according to claim 1, 18. The method of claim 17, (e) introducing raw water into the first ion exchange resin tank to remove regenerated water in the first ion exchange resin tank to discharge it to the outside, or to introduce raw water into the second ion exchange resin tank, Further comprising the step of removing the regenerated water in the tank and discharging the regenerated water to the outside. 18. The method of claim 17, The gravity type automatic regeneration water softener includes raw water inflow channels communicating with the water inlet, raw water supply channels communicating with the lower side of the first and second ion exchange resin tanks, and regeneration raw water inflow channel communicating with the regeneration tank Further comprising a five-way valve module, Wherein the cold water is introduced into the regeneration tank through the raw water inflow passage and the regeneration raw water inflow passage due to the water pressure of the water receptacle. 21. The method according to any one of claims 17 to 20, Wherein the regeneration tank includes a flow guide, Wherein the step (a) includes the step of maintaining a constant amount of cold water supplied to the regeneration area in the regeneration tank, the part of the supplied cold water being drained to the outside by the flow path guide, Automatic regeneration method of automatic regenerative water softener.

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