KR200379661Y1 - Water softener - Google Patents

Abstract

Discuss water softener. The water softener of the present invention includes: first and second, third and two-way solenoid valves connected to the faucet; Training passage; A salt passage connected between its bottom surface and a second outlet of the bidirectional solenoid valve; During the direct water process, only the second solenoid valve is controlled to be turned on, and during the training process, only the first solenoid valve is controlled to be turned on, and during the regeneration process, the second solenoid valve and the bidirectional solenoid valve are turned on and maintained for a predetermined time. A control unit for turning off the two solenoid valves and controlling the third solenoid valves to be on; Characterized in that the display unit is provided with an operation button for sending an operation signal to the control unit by the user's pressing. According to the present invention, a user can conveniently use and has a simple automatic control system to improve productivity, reduce costs, and display a sensor for measuring the amount of salt in the salt container and a description thereof. The best water softening function is ensured at all times by installing a lamp and installing a sensor to measure the concentration of brine and the pressure measuring sensor in the pipe to perform the regeneration process under the best conditions.

Description

Water softener

The present invention relates to a water softener, and more particularly, to a simple automatic control system and a water softener capable of performing the best regeneration process.

Due to environmental pollution, interest and anxiety about water are increasing. This concern and anxiety have increased the demand for water purifiers to purify drinking water and water softeners to improve the quality of water used for washing and bathing.

The water softener exchanges and removes hardness components dissolved in raw water by exchanging hardness components, such as calcium ions and magnesium ions, in raw water, such as tap water, with sodium ions using sodium ion exchange resins. Therefore, when the raw water, which is hard water, passes through the water softener, the water is reformed into soft water.

However, the water softener deteriorates the performance of the filled ion exchange resin when the water softening process changes the soft water for a certain period of time. Therefore, the washing process and the ion exchange resin regeneration process in the soft water tank for restoring the performance of the ion exchange resin is performed.

The cleaning process inside the water tank is to remove the precipitated impurities. Here, since the washing water used in the washing process inside the soft water tank flows in the opposite direction to the flow of raw water, the washing process inside the soft water tank is also referred to as backwashing. By the washing process, the compressed state of the ion exchange resins compressed by the pressure of the raw water is relaxed to remove impurities adhering to the surface of the ion exchange resin and the gas inside the ion exchange resins, and to prepare the state of filling of the ion exchange resins. The impurities deposited in the soft water tank are removed.

The ion exchange resin regeneration process involves injecting a certain concentration of salt water into the soft water tank so that it stays for a certain time and then discharging it out of the soft water tank so that impurities in the ions adsorbed on the ion exchange resin are exchanged with sodium ions. It is the process of regenerating exchange resin.

Many water softeners have been released in the related art, and most water softeners have a focus of development on securing price competitiveness and making the user convenient by lowering the production cost. However, the key to lowering the production cost is to improve the automatic control system of the water softeners, and the automatic control system of the softeners is not the same, so the production cost cannot be lowered as much as desired.

Therefore, the technical problem to be achieved by the present invention is to provide a water softener with a simple automatic control system that can be conveniently used by the user.

The water softener of the present invention for achieving the technical problem comprises: first and second solenoid valves connected to the first pipe connected to the faucet and their respective inlets; A third solenoid valve installed on the second pipe such that an outlet of the first solenoid valve, a branch pipe of the second pipe, and an inlet thereof are sequentially located; It is installed in the third pipe so that the outlet of the second solenoid valve, the first branch pipe of the third pipe to which the shower is connected, the second branch pipe of the third pipe and the first outlet of its own are sequentially located. A bidirectional solenoid valve; A training passage connected to each of the branch pipes of the second pipe and the second branch pipes of the third pipe and filled with an ion exchange resin therein so that a training process of reforming raw water into soft water is performed; A salt passage having its bottom surface connected to a second outlet of the bidirectional solenoid valve and containing salt for regenerating the ion exchange resin through a regeneration process; When the raw water introduced through the faucet flows out through the shower, only the second solenoid valve is controlled to be turned on, and during the training process, only the first solenoid valve is controlled to be turned on. After turning on the second solenoid valve and the bidirectional solenoid valve so that the raw water introduced through the faucet passes through the salt container and flows into the soft water container, it is maintained for a predetermined time and then the second solenoid valve is turned off and the third solenoid A control unit for controlling the valve to be turned on; Characterized in that the display unit is provided with an operation button for sending an operation signal to the control unit by the user's pressing.

At this time, the salt container is provided with a salt amount measuring sensor for sensing the amount of the salt and output to the control unit, the display unit is a salt input lamp which is lighted in response to the signal generated by the control unit when the amount of salt is insufficient It is preferable to install.

Further, it is preferable that a concentration measuring sensor is installed in the salt container to measure the concentration of the brine and output it to the controller.

Furthermore, it is preferable that a pressure sensor for sensing the pressure in the pipe and outputting the pressure to the controller is installed in the third pipe, and the display unit is provided with an error lamp that is turned on by receiving a signal generated by the controller when the pressure is insufficient. Do.

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

1 is a schematic view for explaining a water softener according to an embodiment of the present invention.

1, the water softener according to the embodiment of the present invention, the four solenoid valves (310, 320, 330, 340), the soft water tank 100, the salt container 200, and the control unit 500 and The display unit 600 is included. Each component is connected to pipes. One of the four solenoid valves 340 is a bidirectional solenoid valve through which fluid can flow in and out of both directions.

The water softener 100 is a place where a training process for reforming the introduced raw water into soft water is performed, and an ion exchange resin 110 is filled therein.

The salt container 200 contains the salt 210 used in the regeneration process for regenerating the ion exchange resin 110, the performance of which is degraded by repeated training.

Each of the inlets of the first and second solenoid valves 310 and 320 is connected to the faucet 10 through the first pipe 410.

The inlet of the third solenoid valve 330 is connected to the outlet of the first solenoid valve 310 through the second pipe 420. At this time, there is one branch pipe 421 connected to the water softener 100 between the outlet of the first solenoid valve 310 and the inlet of the third solenoid valve 330 in the second pipe 420.

The first outlet of the bidirectional solenoid valve 340 is connected to the outlet of the second solenoid valve 320 through the third pipe 430. The bottom surface of the salt container 200 is connected to the second outlet of the bidirectional solenoid valve 340. At this time, the first branch pipe 431 to which the shower 20 is connected between the outlet of the second solenoid valve 320 and the first outlet of the bidirectional solenoid valve 340 in the third pipe 430 is provided. A second branch pipe 432 is connected between the outlet of the second solenoid valve 320 and the first branch pipe 431. Here, the shower 20 also includes a body shower.

Therefore, when only the first solenoid valve 310 is turned on, the reformed water flows out through the shower 20 through the soft water tank 100. In addition, when only the second solenoid valve 320 is turned on, the raw water introduced through the faucet 10 is first filled in the soft water tank 100 and the shower 20 is turned on when all of the soft water tanks are filled. It flows straight through.

The controller 500 controls a direct water process, a training process, and a regeneration process for washing the pipe connected to the showerhead 20.

During the direct water process, only the second solenoid valve 320 is turned on so that the raw water introduced through the faucet 10 flows out through the shower 20, and during the training process, the raw water introduced through the faucet 10 is reformed and showered. Only the first solenoid valve 310 is turned on so as to flow out through (20).

During the regeneration process, first, the second solenoid valve 320 and the bidirectional solenoid valve 340 are turned on so that the raw water introduced through the faucet 10 flows into the salt container 200 and maintains a predetermined time in the salt container 200. The introduced raw water has a certain salinity. Then, when the second solenoid valve 320 is turned off and the third solenoid valve 300 is turned on, since the bottom surface of the salt container 200 is connected to the third pipe 430, the salt container may be formed due to a difference in height, that is, water pressure. Water flows out through the bidirectional solenoid valve 340, the soft water tank 100 and the third solenoid valve 330. As such, the ion exchange resin 110 is modified in the process of brine is discharged by the natural pressure difference. Next, when the bidirectional solenoid valve 340 is turned off and the second solenoid valve 320 is turned on, the raw water flowing through the second solenoid valve 320 is washed with the salt water-containing pipe and the soft water container 100. It flows out through the 3rd solenoid valve 330.

The display unit 600 is provided with operation buttons and lamps connected to the control unit 500 to send a corresponding signal to the control unit 500 by the user's pressing. The operation buttons consist of a direct button for outputting a signal for the start of the direct process, a training button for outputting a signal for the start of the training process, and a play button for outputting a signal for the start of the playback process. The lamps consist of a direct button, a training button, a direct lamp connected to the play button one-on-one, a soft lamp, and a regeneration lamp. When a button is pressed, the lamp connected to the button is turned on.

Meanwhile, a salt amount measuring sensor 710 is installed in the salt container 200 to sense an amount of salt and output the salt amount to the control unit 500 so that a proper amount of salt is stored in the salt container, and the amount of salt is insufficient in the display unit 600. The regeneration agent injecting lamp which is lit by receiving a signal from the control unit 500 is installed. To this end, the salt container 200 is formed of an outer cylinder 220 having an open top and a lower plate made of a porous plate 231, and having a lower salt than the upper surface of the inner cylinder 230 and the inner cylinder 230. It includes a spring support plate 240 is fixed to the outer cylinder through the inner cylinder, and the spring 250 is fixed to the upper surface and the spring support plate 240 of the inner cylinder 230 so as to stretch up and down. Therefore, the inner cylinder 230 is moved upward or downward by the elastic force of the spring 250 according to the amount of salt in the inner cylinder 230, that is, the weight, and then the salt amount measuring sensor 710 moves the spring 250. The height difference between the spring support plate 240 and the inner surface of the inner cylinder 230 is varied by the elastic force and the weight of the salt 210 is output to the controller 500. Therefore, when the height difference between the upper surface of the spring support plate 240 and the inner cylinder 230 is greater than the preset height difference, the control unit 500 sends a signal to light the salt input lamp, and the user inputs the salt into the salt container 200. .

In addition, the salt container 200 is provided with a concentration measuring sensor 720 for measuring the concentration of the brine in order to properly maintain the concentration of the brine in the regeneration process to output to the control unit 500. Therefore, the on-off of the bidirectional solenoid valve 340 in the regeneration process is made by the concentration measured by the concentration measuring sensor 720.

In addition, unlike the direct process and the training process, the regeneration process is maintained for a predetermined time without the outflow of water, so that it is difficult for the user to determine whether the regeneration process is normally performed. Therefore, if the user presses the play button while the faucet 10 is accidentally turned off, the play process does not occur, but the user may be mistaken that the play process is in progress. In order to prevent this, a pressure sensor 730 is installed in the third pipe 430 to sense the pressure in the pipe and output the pressure to the controller 500. The display unit 600 controls the controller when the pressure in the third pipe 430 is insufficient. An error lamp that is lit by receiving a signal generated at 500 is installed. Accordingly, when the play button is pressed while the faucet 10 is turned off, the error lamp of the display unit 600 turns on, and the user turns on the faucet 10 to proceed with the normal regeneration process.

As described above, according to the water softener of the present invention, the user can use it conveniently and has a simple automatic control system, thereby improving productivity and reducing costs.

In addition, a sensor for measuring the amount of salt in the salt container and a lamp for displaying the contents thereof are installed, and a sensor for measuring the concentration of salt water and a pressure measuring sensor in the pipe are installed to perform the regeneration process under the best conditions. This ensures the best possible training.

The present invention is not limited to the above embodiments, and it is apparent that many modifications are possible by those skilled in the art within the technical idea of the present invention.

1 is a schematic view for explaining a water softener according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: soft water container 200: salt container

310: first solenoid valve 320: second solenoid valve

330: third solenoid valve 340: bidirectional solenoid valve

410, 420, 430: piping 421, 431, 432: branch pipe

500 control unit 600 display unit

710: salt amount measuring sensor 720: concentration measuring sensor

730: pressure sensor

Claims (6)

First and second solenoid valves connected to the first pipe connected to the faucet and their respective inlets; A third solenoid valve installed on the second pipe such that an outlet of the first solenoid valve, a branch pipe of the second pipe, and an inlet thereof are sequentially located; It is installed in the third pipe so that the outlet of the second solenoid valve, the first branch pipe of the third pipe to which the shower is connected, the second branch pipe of the third pipe and the first outlet of its own are sequentially located. A bidirectional solenoid valve; A training passage connected to each of the branch pipes of the second pipe and the second branch pipes of the third pipe and filled with an ion exchange resin therein so that a training process of reforming raw water into soft water is performed; A salt passage having its bottom surface connected to a second outlet of the bidirectional solenoid valve and containing salt for regenerating the ion exchange resin through a regeneration process; When the raw water introduced through the faucet flows out through the shower, only the second solenoid valve is controlled to be turned on, and during the training process, only the first solenoid valve is controlled to be turned on. After turning on the second solenoid valve and the bidirectional solenoid valve so that the raw water introduced through the faucet passes through the salt container and flows into the soft water container, it is maintained for a predetermined time and then the second solenoid valve is turned off and the third solenoid A control unit for controlling the valve to be turned on; And a display unit provided with operation buttons for sending an operation signal to the control unit by pressing a user. The water softener according to claim 1, wherein the operation buttons are buttons which respectively output signals for the start of the direct process, the training process, and the regeneration process. The water softener of claim 2, wherein lamps that are turned on when any one of the buttons selected from the buttons are pressed are connected to the buttons one-to-one. The salt container of claim 1, wherein the salt container is provided with a salt amount sensor which senses the amount of salt and outputs the salt to the controller, and wherein the display unit receives salt generated by the controller when the amount of salt is insufficient. Water softener characterized in that the input lamp is installed. The water softener according to claim 1, wherein the salt container is provided with a concentration measuring sensor for measuring the concentration of the brine and outputting the salt to the controller. According to claim 1, wherein the third pipe is provided with a pressure sensor for sensing the pressure in the pipe to output to the control unit, the display unit is provided with an error lamp that is turned on by receiving a signal generated from the control unit when the pressure is insufficient. Water softener characterized in that the.