KR200359171Y1 - A water softening apparatus of one body type using of pump - Google Patents

Abstract

The present invention relates to an automatic regeneration water softener that responds to the temperature change of soft water appropriately and is automatically regenerated by a pump. When raw water is received from the filter to the ion resin tank by selection of a switching valve via a flow sensor, In order to use the soft water of the appropriate temperature by appropriately adjusting the temperature deviation range of the soft water according to the temperature change by obtaining the upper side and the bottom and the bottom of the ion resin tank to the top and discharged to the outlet. When regenerating the ion resin, it relates to an integrated self-regenerative water softener using a pump in which regenerated water that has been regenerated for a predetermined time by the selection of a switching valve at a predetermined cycle stays in the ion resin tank for a predetermined time by the operation of the pump and is discharged.

Description

Integrated automatic regeneration water softener using a pump {A WATER SOFTENING APPARATUS OF ONE BODY TYPE USING OF PUMP}

The present invention relates to an automatic regeneration water softener that responds to the temperature change of soft water appropriately and is automatically regenerated by a pump. More specifically, the temperature generated when raw water is introduced into an ion resin tank through a filter and discharged into soft water. The present invention relates to an integrated self-regenerative water softener using a pump which controls the change to always discharge to a proper temperature and automatically regenerates water from the regeneration tank into the ion resin tank by regenerating the ion resin of the ion resin tank.

In general, tap water (referred to as raw water in this design) contains a large amount of chlorine used in the purification process, and various types of iron, zinc, lead, mercury, etc., which are harmful to humans due to deteriorated pipes and water pollution, etc. Heavy metals (ions) are also contained. 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 combine to make metallic foreign substances. It causes skin diseases or accelerates aging of the skin.

Therefore, in order to prevent this, a water softener is passed through Na ⁺ type strong acid cation exchange resin to exchange Ca ²⁺ and Mg ^{2+, which} are hardness components, with Na ⁺ in the resin to make soft water as a single product. It is developed and mainly used for cleaning.

Such a water softener produces soft water by continuously passing tap water into the soft water tank in contact with an ion exchange resin in a state where a large number of fine ball-shaped ion exchange resins are stored in the soft water tank. As the resin continues to be in contact with tap water, Na content is substantially reduced, and salt water consisting of NaCl component is introduced into the soft water tank in order to preserve it, and the ion exchange resin adsorbs the Na component of the brine. Playback will be done.

However, in the regeneration of the ion exchange resin, conventionally, tap water is poured into a regeneration vessel containing salt to make salt water, and the user of the water softener regenerates the regeneration vessel to directly replenish the brine into the soft water tank. Because the work was carried out, the regeneration was inconvenient, but inevitably suffered, and in case of missing the regeneration cycle due to the inconvenience of the regeneration, there was a problem of using the water softener inefficiently.

In addition, there is a regeneration method for automatically supplying the regeneration liquid when the customer wants by using the battery and solenoid valve, but this is a problem of the product itself, such as electrical short occurs in the battery-operated equipment and due to this configuration There was also a problem of rising manufacturing costs.

In addition, there is also a regeneration method in which a high concentration of NaCl is added to the water softener tank, followed by stagnation. However, this is a problem of a decrease in efficiency due to a reversible reaction due to a delay of the stagnation time, and a regeneration method in which NaCl is directly added to the water softener tank. Every time there was a problem that the efficiency is not constant because the degree of dissolution of NaCl is different.

On the other hand, when the hot water is used in the conventional water softener, when the soft water is heated by the heater and tries to adjust the temperature to the proper temperature for use in the faucet, the soft water adjustment of the proper temperature is not easily performed due to the residual water remaining in the ion resin tank. There was a problem.

The present invention is designed to improve the problem of the ion exchange resin regeneration of the conventional water softener as described above, when the raw water is obtained from the filter to the ion resin tank by the selection of the switching valve via the flow sensor, the ion resin When the upper and lower sides of the tank and the upper and lower ends are discharged to the outlet port, the temperature deviation range of the soft water according to the temperature change is appropriately adjusted so that the soft water at the proper temperature is used, and when regenerating the ion resin in the ion resin tank, It is an object of the present invention to provide an integrated self-regenerative water softener using a pump in which regenerated water that has been regenerated for a predetermined time by the selection of a switching valve at regular intervals stays in the ion resin tank for a predetermined time by the operation of the pump and is discharged.

1 is an installation state diagram of an automatic regeneration water softener according to the present invention,

2 is a flowchart illustrating an operation state of the automatic regeneration water softener according to the present invention.

(Explanation of reference numerals)

1 ... Ion Resin Tank, 2 ... Ion Resin,

3 ... outlet, 4 ... filter can,

5 ... recycling bin, 6 ... flow sensor,

7 ... temperature sensor, 8 ... 4-way switching valve,

9 ... reducing valve, 10 ... refining water outlet,

11 ... solenoid 1 valve, 12 ... solenoid 2 valve,

13 solenoid 3 valve, 15 regeneration fluid outlet,

16 pumps, 17 non-return check valves,

18 .... Residual water outlet, 19 ... Recycled water outlet,

The present invention in order to achieve the object as described above,

Four-way switching valve that flows raw water from the faucet through the flow sensor and the temperature sensor in four directions, an ion resin tank with an outlet at the lower part with an ion resin, and purified salt (NaCl) dissolved by a pump. Regeneration water is supplied to the upper end of the ion resin tank and discharged through the solenoid 3 valve mounted at the lower part, and the raw water passed through the pressure reducing valve at the faucet bracket is purified with an internal filter to selectively remove the ion resin tank. A filter cylinder for supplying the upper side and the lower side and the lower side to the upper side and discharged to the outlet, the solenoid 1 valve and the solenoid 2 valve respectively mounted to the inlets respectively obtained from the upper side and the lower side of the ion resin tank from the filter case. Micom is integrally configured to control the operation of the operation, through the 4-way switching valve Raw water is selectively discharged to the side and bottom of the ion resin tank through the regeneration cylinder, the filter cylinder, and the outlet.

In addition, the filter in the filter barrel is characterized by another consisting of vitamin C and activated carbon.

The solenoid three valve and the outlet port are further characterized by being branched into a residual water outlet for discharging the residual water and a regeneration water outlet for discharging the regeneration water.

In addition, the present invention is further characterized by further comprising an LED blinking light installed in the regeneration bin to display a regeneration alarm after repeating a predetermined number of regeneration cycles.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of an automatic regeneration water softener using a pump of the present invention. First of all, it should be noted that the same components or parts are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1 is a view showing the installation state of the automatic regeneration water softener according to the present invention, as shown,

In the ion resin tank 1, the ion resin 2 is stored therein, and the soft water outlet 3 is formed at the lower end thereof, and a filter barrel 4 is installed next to the ion resin tank. A regeneration vessel 5 in which about 2.8 kg of purified salt (NaCl) is stored is installed, while a water flow sensor for detecting the flow of raw water supplied from the faucet (not shown) is provided in the water softener. (6) and the temperature sensor 7 and the 4-way switching valve 8 are integrally provided so that raw water is supplied to each part while passing through the flow sensor, the temperature sensor and the switching valve in turn.

In addition, a pressure reducing valve 9 is installed at the front of the four-way switching valve so that the raw water is purified by a filter embedded in the filter barrel through the pressure reducing valve by selection of the switching valve, and the purified raw water is filtered through the filter cylinder. It is supplied to the upper and lower and lower and upper sides of the ion resin tank side through the purified raw water discharge port 10 of the lower side is connected to discharge through the soft water outlet (3), the purified water from the filter tank ion tank The solenoid 1 valve 11 and the solenoid 2 valve 12 are provided in the inlet supplied to the upper part and the lower part of the side, respectively. At this time, the filter in the filter barrel is made of vitamin C and activated carbon for the purpose of removing residual chlorine in the raw water to purify the raw water more efficiently, as described above, a pressure reducing valve is installed between the switching valve and the filter barrel Since the raw water flowing into the filter can be maintained at a constant pressure and flow rate.

In addition, the raw water is connected to be supplied to the upper end of the regeneration vessel 5 by the selection of the switching valve (8), the regeneration liquid discharge port 15 of the lower end of the regeneration vessel discharged from the regeneration liquid made in the regeneration vessel And a pump 16 is installed at the regeneration solution outlet side between the upper end of the ion resin tank 1 and a check valve 17 is installed at the upper end of the ion resin tank, through the regeneration solution outlet. The regeneration liquid discharged by the operation is connected to flow into the ion resin tank through the check valve to prevent the backflow, and after regeneration into the regeneration liquid in the ion resin tank through the solenoid three valve 13 installed at the bottom of the ion resin tank Regeneration water is discharged to the outlet port (3), and between the solenoid three valve and the outlet port is a residual water outlet (18) having a diameter of Ø9 for discharging the residual water in the ion resin tank. Each branch is connected to the discharged water outlet 19 of size Ø2 to be discharged.

Here, as in the prior art, the switching valve and the outlet port are connected to each other so that the raw water is directly supplied, so that the raw water is discharged directly without undergoing a training process by selecting the switching valve.

Although not shown, a microcomputer for controlling the operation of the above components is installed at an appropriate position in the water softener.

When a predetermined amount of raw water required for regeneration is introduced into the regeneration container in which a predetermined amount of refined salt is stored by the water softener configured as described above, and the predetermined time passes, the pump is operated to be introduced into the ion resin tank. In addition, the solenoid 3 valve is opened for a predetermined time and regeneration is performed. After switching the position of the switch valve to soft water, the ion resin tank is rinsed for a predetermined time, and the temperature of the soft water in the ion resin tank is changed. Along with the adjusting operation will be discussed in more detail in the following description with reference to FIG.

2 is a flowchart illustrating an operation state of the automatic regeneration water softener according to the present invention.

The raw water supplied from the faucet bracket has a solenoid 1 valve and a solenoid 2 valve installed on the side of the ion resin tank to smoothly change the temperature and efficiency of the water when the soft water is used by the selection of the switching valve while the flow sensor is detected. Opening and closing for 2 seconds to 20 seconds, the raw water is supplied and mixed with the remaining soft water remaining in the ion resin tank. Then, the raw water is supplied to the lower end of the ion resin tank, and the soft water is supplied by the ion resin to the top of the ion resin tank. Discharged through the outlet.

Here, when the soft water at an appropriate shower temperature in the range of 38 to 42 ° C. is to be used for hot and cold water selection of the faucet, the temperature at which raw water is obtained while the solenoid 1 valve and the solenoid 2 valve are closed. When the temperature sensor detects and the temperature deviation does not deviate from ± 3 ° C by comparing with the temperature (38-42 ° C) memorized by the initial temperature sensor, the solenoid 1 valve and the solenoid 2 valve are kept closed so that an appropriate shower Soft water is discharged while maintaining the temperature, and when the temperature deviation is out of ± 3 ℃, the solenoid 1 valve and the solenoid 2 valve is opened again to repeat the process of supplying the raw water so that the soft water is discharged while maintaining the proper shower temperature do.

At this time, even after the hot water is selected from the faucet bracket and gradually heated to about 10 seconds, even if the hot water is normal, in consideration of the characteristics of the temperature sensor, a certain value is guaranteed. For reference, it takes about 2-3 seconds for the temperature sensor to detect room temperature.

Only when the flow sensor is operated for the first time, the raw water temperature at the time point of 10 seconds (2 to 3 seconds after room temperature sensing) is memorized with the solenoid 1 valve and the solenoid 2 valve open, and compared with the temperature after 10 seconds. When the range of ± 3 ° C is maintained, soft water is used while the solenoid 1 valve and the solenoid 2 valve are closed, and when the range of ± 3 ° C is out, the solenoid 1 valve and the solenoid 2 valve are opened for a predetermined time in the ion resin tank. Keep temperature closed after adjusting temperature. The same flow is maintained when cold water is selected.

Next, when raw water is selected without selecting soft water by the operation of the switching valve, raw water is immediately discharged through the water outlet, and when the switching valve selects regeneration without selecting raw water, the refined salt stored in the regeneration container is sufficiently dissolved. The regeneration solution is produced by dissolving about 700 g of the refined salt (NaCl) by supplying the raw water into the regeneration tank for about 2-3 minutes so that the regeneration solution is operated for about 2-3 minutes by operation of the pump. Regeneration is carried out by feeding into the ion resin tank, but about 700 g of stored salt is dissolved about 700g at a time to generate a regeneration solution so that the number of regeneration operations is performed four times in two months. The regeneration operation is continuously performed until No. 4, and the LED is blinked to inform the exchange of the refined salt at the same time.

In this case, when the regeneration solution is introduced into the ion resin tank, the residual soft water remains in the ion resin tank, so that the discharged through the solenoid 3 valve is Ø9 size in order to prevent the regeneration efficiency from being degraded by being mixed therewith. By branching to the Ø2 regeneration water outlet for discharging the residual water and the regeneration water of the regeneration water, the regeneration liquid is completely discharged through the regeneration water outlet while the refined salt is dissolved in the regeneration container. The regenerated water recycled by the water is discharged for about 10 to 15 minutes.

After the regeneration is completed as described above, by selecting the switching valve as soft water and supplying the raw water into the ion resin tank for about 5 minutes, the rinse process is performed to complete the regeneration of the ion resin.

On the other hand, the regeneration cycle is selected four times in two months in the regeneration process, but may be longer or shorter depending on the needs of the consumer, and in some cases, the regeneration cycle may be selected by the consumer from time to time. .

By the way, each component of the water softener according to the present invention described so far is controlled by a general microcomputer installed in the water softener, although not shown.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

According to the automatic regeneration water softener using the pump of the present invention having the above object and configuration, it is possible to automatically adjust the soft water temperature which is changed when using the soft water, so that the soft water is discharged while maintaining the proper shower temperature. It is possible to use, and by allowing the regeneration solution to be supplied into the ion resin tank by the pump, there is an advantage that the regeneration operation is simple and convenient.

Claims (4)

A four-way switching valve 8 in which a flow of raw water supplied from the power receiving bracket via the flow sensor 6 and the temperature sensor 7 is continued in four directions; An ion resin tank (1) having a water outlet (3) at its lower end while embedding the ion resin (2); A regeneration tank 5 for supplying regeneration water in which refined salt NaCl is dissolved by a pump 16 to an upper end of the ion resin tank and discharging it through a solenoid 3 valve 13 mounted at a lower end thereof; A filter barrel (4) for purifying raw water passing through the pressure reducing valve (9) in the faucet bracket with a built-in filter and selectively supplying the upper side and the lower side and the lower side of the ion resin tank to the upper end and discharging it to the outlet port; A solenoid 1 valve 11 and a solenoid 2 valve 12 mounted to inlets respectively received from the filter cylinder to the upper and lower sides of the ion resin tank side; A microcomputer is integrated for controlling the operation of the components; Raw water is selectively discharged through the 4-way switching valve to the side and bottom of the ion resin tank through the regeneration cylinder, the filter cylinder, the outlet, respectively. The method of claim 1, The filter in the filter barrel (4) is an integrated automatic regeneration water softener using a pump, characterized in that consisting of vitamin C and activated carbon. The method of claim 1, The solenoid three-valve (13) and the water outlet (3) is an integrated automatic regeneration water softener using a pump, characterized in that branched to the residual water discharge port (18) for discharging the residual water and the regeneration water discharge port (19) for discharging the regeneration water. The method according to any one of claims 1 to 3, And an LED flasher installed in the regeneration bin to display a regeneration alarm after repeating a predetermined number of regeneration cycles.