KR100436081B1 - Water softner having a oxygen generator - Google Patents

Abstract

The present invention relates to a water softener, and more particularly, soft water containing a relatively large amount of salts such as calcium ions and magnesium ions is reacted with an ion exchange resin to remove salt components to soften the hard water in a state such as hot spring water or rain water. It is about water softener. The apparatus according to the invention comprises a housing defining an appearance; A soft water unit having a water inlet tube supplied with a hard water, a column filled with an ion exchange resin for softening the hard water introduced through the inlet pipe, and an outlet pipe through which the soft water is discharged; And a flow meter installed at a predetermined position of the inflow pipe to sense the flow of hard water, an oxygen generator receiving a signal from the flow meter to generate oxygen, and an oxygen supply pipe dissolving oxygen generated in the oxygen generator into the soft water discharged through the column. It includes an oxygen supply having a.

Description

Water softner having a oxygen generator

The present invention relates to a water softener, and more particularly, soft water containing a relatively large amount of salts such as calcium ions and magnesium ions is reacted with an ion exchange resin to remove salt components to soften the hard water in a state such as hot spring water or rain water. It is about water softener.

Conventional water softeners, as shown in FIG. 1, have a housing (1) which basically forms the appearance of the water softener, and a column (4) mounted inside the housing and having an inlet pipe (2) and an outlet pipe (3). It consists of a configuration in which the ion exchange resin (not shown) is filled inside. The inlet pipe 2 is installed to communicate with the lower end of the column 4 through the lower part of the housing 1, the outlet pipe 3 is installed to communicate with the upper end of the column 4 and the lower part of the housing 1 It is connected to the shower (5) through. The hard water introduced through the inlet pipe (2) passes through the ion exchange resin filled in the column (4), reacts with the ion exchange resin, softens, and then is discharged through the outlet pipe (3). The water softener shown in FIG. 1 has been pre- filed by the present applicant, and is an up flow water softener in which water introduced into the bottom flows out to the top.

Accordingly, the hard water is supplied through the inlet pipe 2 and softened by passing through the ion exchange resin filled in the column 4, which is supplied to the user through the shower 5 connected to the outlet pipe 3. Is provided. Thus, the user uses soft water for bathing, washing and washing dishes while the salts dissolved in the hard water are removed, and this soft water is less damaging to the user's skin.

However, the conventional water softener as described above has the following disadvantages.

That is, since the conventional water softener performs only a simple soft water function and there is no separate oxygen supply device, there is a problem in that oxygen supply and moisturizing action of the skin are deteriorated due to insufficient dissolved oxygen amount in the soft water.

In particular, when a person takes a shower for a long time in a confined space such as a bath, a shower room, there is another problem that causes dizziness or dyspnea due to lack of sufficient oxygen due to human breathing.

In addition, domestic sewage discharged after using water contains organic substances, which requires a large amount of dissolved oxygen in order to decompose the organic substances. Therefore, when the organic substances are severely polluted, oxygen dissolved in water, that is, dissolved oxygen is reduced. Let's do it. Therefore, there is another problem that the time and expense of the sewage treatment is increased because the lack of oxygen dissolved in the living sewage generated after the bath or dish washing is not activated.

The present invention has been made in view of the above points, it is an object of the present invention to increase the amount of dissolved oxygen dissolved in soft water in addition to the function of soft water to provide a water softener that significantly increases the oxygen supply and moisturizing action of the skin.

In addition, the present invention has another object to prevent dizziness or difficulty in breathing by supplying sufficient oxygen to a person when the person takes a shower in a closed space such as a bath or a shower.

It is another object of the present invention to provide a water softener which increases dissolved oxygen in domestic sewage generated after using water to reduce the time and expense of sewage treatment.

1 is a schematic view showing a general water softener.

Figure 2 is a schematic diagram showing an embodiment of a water softener according to the present invention.

Figure 3 is an enlarged main part of the enlarged oxygen supply pipe of the water softener according to the present invention.

Figure 4 is a schematic diagram showing another embodiment of the water softener according to the present invention.

Explanation of symbols on the main parts of the drawings

10; Housing 10a: Inlet Hole

10b: outlet hole 11: inlet tube

13: column 14: outlet pipe

15 filter 20 flowmeter

21: oxygen generator 22: control unit

23: oxygen supply pipe 23a: through hole

23b: check valve

In order to achieve the above object, the water softener according to the present invention comprises a housing forming an appearance; A soft water unit having a water inlet tube supplied with a hard water, a column filled with an ion exchange resin for softening the hard water introduced through the inlet pipe, and an outlet pipe through which the soft water is discharged; A flow meter installed at a predetermined position of the inlet pipe to detect the flow of hard water, an oxygen generator that generates oxygen, control means for controlling the oxygen generator to operate by receiving a signal from the flow meter, and oxygen generated by the oxygen generator It includes an oxygen supply having an oxygen supply pipe for dissolving in the soft water discharged through.

Preferably, the outlet pipe is formed with a plurality of through-holes in a predetermined position, the oxygen supply pipe is installed to communicate with the outflow pipe and the oxygen generator and one end of the oxygen supply pipe through the plurality of through-holes surrounding the plurality of through-holes of the outlet pipe A check valve is installed at a predetermined position of the oxygen supply pipe to supply oxygen to the soft water at a high pressure and prevent the soft water from flowing back from the outlet pipe to the oxygen supply pipe.

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

As shown in FIG. 2, the device according to the invention comprises a housing 10, a softening part and an oxygen supply.

The housing 10 forms an external appearance of the water softener in a rectangular parallelepiped shape, and some or all of the softening part and the oxygen supply part to be described later are installed.

The water softener comprises an inlet pipe 11, a column 13, and an outlet pipe 14.

First, the inlet pipe 11 is installed through the inlet hole 10a formed at the lower end of the housing 10 in which the soft water unit is accommodated, and through the inlet pipe 11, a column to be described later in a water pipe (not shown) ( 13) hard water is supplied.

The column 13 is cylindrical and connected to the lower end of the column 13 so as to communicate with the inlet pipe 11, and is filled with an ion exchange resin (not shown) for softening the hard water introduced through the inlet pipe 11. do. The ion exchange resin reacts with hard water to deposit salts in the hard water, making the hard water soft.

Preferably, the filter 15 is installed at a predetermined position of the inlet pipe 11 to remove impurities contained in the hard water to some extent, and then the purified hard water is introduced into the column 13 so that the ions inside the column 13 are absorbed. Make the exchange resin available for a long time.

The outlet pipe 14 is installed through the outlet hole 10b formed at the lower end of the housing 10 in which the softening part is accommodated similarly to the inlet pipe 11, and the soft water is passed through the column 13 through the column 13. Is discharged through the top of the). In addition, a plurality of through holes 23a for supplying oxygen to the soft water discharged through the outlet pipe 14 are formed at a predetermined position of the outlet pipe 14.

Next, the oxygen supply unit is composed of a flow meter 20, oxygen generator 21 and oxygen supply pipe (23).

The flowmeter 12 is an instrument for measuring the flow rate of the liquid, and is installed in a predetermined middle of the inlet pipe 11 disposed inside the housing 10. In the present embodiment, the flow meter 12 is installed in the inlet pipe 11, but may be installed in other components, such as the outlet pipe 14, column 13, etc. that can know whether the flow of water.

The oxygen generator 21 is a device for generating pure oxygen. It operates by receiving a signal from the flow meter (12). As is generally well known, the oxygen generator 21 first adsorbs nitrogen components having high selectivity while compressed air passes through the adsorption tower filled with an adsorbent under high pressure, and oxygen components having low selectivity are discharged out of the adsorption tower. I'm going. In order to remove the adsorbed components, the pressure in the adsorption column is lowered and regenerated, and the tower is washed with a part of the generated oxygen. This series of processes is repeated to generate oxygen continuously. Here, in the present embodiment has been described limited to the oxygen generator using the adsorption tower, those skilled in the art will be able to configure the oxygen generator in a variety of ways, such as a membrane method in addition to the adsorption tower.

Preferably, the control unit 22 is installed between the flow meter 20 and the valve 221a of the high pressure tank 221 of the oxygen generator 21 and electrically connected thereto, and inputs a flow signal of the flow rate from the flow meter 20. In response, the operation signal for operating the oxygen generator 21 is output. That is, when water flows, the flow meter 20 transmits a signal to the controller 22, and the controller 22 generates oxygen by operating the oxygen generator 21 with the input signal. On the contrary, when the flow of water stops, the oxygen generator 21 does not operate. Therefore, only when water flows, the oxygen generator 21 operates to supply pure oxygen to the soft water.

As shown in detail in FIG. 3, the oxygen supply pipe 23 is connected to the oxygen generator 21 so that one end of pure oxygen generated in the oxygen generator 21 is in communication, and the other end thereof is a predetermined position of the outlet pipe 14. It is installed while wrapping. That is, the other side of the oxygen supply pipe 23 and the outlet pipe 14 in the portion where the oxygen supply pipe 23 and the outlet pipe 14 meet the soft water at high pressure through the plurality of through holes (23a) of the outlet pipe 14 formed to communicate Dissolve oxygen in Usually, when oxygen in gaseous form is supplied to soft water, most of it is dissolved in soft water while generating bubbles, and only a part of it is discharged to outside. In addition, the portion where the other end of the oxygen supply pipe 23 and the outlet pipe 14 meet is sealed by a sealing member (not shown) such as rubber packing.

In addition, the check valve 23b at a predetermined position of the passage through which oxygen moves to prevent the soft water in the outlet pipe 14 from flowing back into the oxygen generator 21 through the through holes 23a formed at the other end of the oxygen supply pipe 23. ) Is installed.

As another embodiment, as shown in FIG. 4, the oxygen generator 21 and the control unit 22 are installed outside the housing 10 in which the softening unit is accommodated and used externally, thereby increasing the space utilization of the water softener itself or oxygen. Parts replacement of the generator 21 may be made smoothly.

In this configuration, the hard water supplied through the inlet pipe 11 passes through the filter unit 15, and impurities are first removed, and the hard water from which the impurities are removed passes through the flowmeter 12. The flowmeter 12 transmits a signal indicating that water is flowing to the control unit 22 of the oxygen supply unit, and the control unit 22 that receives the signal operates the oxygen generator 21. On the other hand, the water passing through the flow meter 12 is introduced through the lower end of the column 13 and reacts with the ion exchange resin in the column 13 is discharged through the upper end of the column (13). At this time, the soft water reacted with the ion exchange resin passes through the other end of the oxygen supply pipe 23 mounted at a predetermined position of the outlet pipe 14. Pure oxygen is dissolved in soft water through a plurality of through holes 23a formed at the other end of the oxygen supply pipe 23. The soft water in which oxygen is dissolved is discharged through the outlet pipe 14.

Thus, the user may use soft water in which the amount of dissolved oxygen is significantly increased. In addition, since the oxygen is sufficiently dissolved in the domestic wastewater discharged after use, the wastewater treatment becomes easy. In particular, when a person takes a shower in a closed space such as a public bath or a shower, oxygen dissolved in water is supplied into the closed space to supply sufficient oxygen to the person.

Water softener according to the present invention as described above, by increasing the amount of dissolved oxygen dissolved in soft water has the effect of promoting the oxygen supply and moisturizing action of the skin when using soft water.

In particular, the present invention has a different effect of preventing dizziness or dyspnea by supplying sufficient oxygen to a person when the person takes a shower in a closed space such as a bath or a shower.

In addition, the present invention has another effect that the amount of dissolved oxygen is increased to activate the microorganisms in the wastewater purification to reduce the time and cost of wastewater treatment.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains may vary without departing from the spirit of the technical idea of the present invention described in the claims below. It may be changed.

Claims (2)

A housing forming an appearance; A water softener having a water inlet tube supplied with a hard water, an ion exchange resin filled therein to soften the hard water introduced through the inlet pipe, and a water outlet tube through which the soft water is discharged; And A flow meter installed at a predetermined position of the inlet pipe to detect a flow rate of hard water, an oxygen generator generating oxygen by receiving a signal from the flow meter, and dissolving oxygen generated in the oxygen generator in soft water discharged through the column Water softener comprising an oxygen supply having an oxygen supply pipe to. The method of claim 1, wherein the outlet pipe is formed with a plurality of through-holes in a predetermined position, the oxygen supply pipe is installed so as to communicate with the outlet pipe and the oxygen generator and the soft water flow back from the outlet pipe to the oxygen supply pipe In order to prevent the water softener, characterized in that the check valve is installed at a predetermined position of the oxygen supply pipe.