KR102433439B1 - Underground water softening system - Google Patents

Abstract

A groundwater softening system according to one embodiment of the present invention comprises: a water-supplying pump; a first tank and a second tank which are connected in parallel to the water-supplying pump to receive and store groundwater from the water-supplying pump; a water treatment device commonly connected to an outlet side and an inlet side of the first tank and the second tank and including a softening pipe, a softening pump, and a softening device; a first hardness sensor disposed at the outlet side of the first tank among the softening pipes; a second hardness sensor disposed at the outlet side of the second tank among the softening pipes; and a drain pump connected from the first tank and the second tank through a drain pipe. When a hardness value measured by the first hardness sensor or the second hardness sensor is less than or equal to a preset reference hardness value, the groundwater stored in the first tank or the second tank can be selectively discharged through the drain pipe by operating the drain pump. The groundwater softening system according to one embodiment of the present invention can maximize softening efficiency while reducing the load applied to the softening device and the drain pump.

Description

Groundwater Softening System {UNDERGROUND WATER SOFTENING SYSTEM}

The present invention relates to an underground water softening system, and more particularly, to an underground water softening system capable of increasing softening efficiency while reducing a load applied to a drain pump.

The soft water system refers to a system that converts hard water into soft water by removing the hardness components contained in raw water. That is, as the content of divalent ions such as Ca and Mg in water increases, the hardness increases and becomes hard water (hard water).

An ion exchange resin is a filter mainly used for softening in a soft water system. Ion exchange resin is an insoluble synthetic resin that can be exchanged with ion. It fills a tank in the form of a pressure filter and passes water through it to deionize the ions in the water by exchanging them with the resin. can Although conceptually separated, the removal of ionic substances is largely involved in the production of pure or ultrapure water.

Pure water and ultrapure water refer to the process of removing inorganic salts, organic matter, microorganisms, dissolved gas, etc. from water through advanced water purification methods such as ion exchange resin, R/O (Reverse Osmosis) membrane, and sterilization of feed water. It refers to pure water, also called deionized water. Pure water and ultrapure water are classified according to the degree of ion removal, and the higher the specific resistance (MΩ), the higher the level is called ultrapure water. Deionized water generally refers to water with a specific resistance of less than 5 to 18 MΩ, and ultrapure water refers to a case with a specific resistance of 18 MΩ or more and a dissolved oxygen amount (DO) of 0.46 ppb or less.

Such soft water (broadly, pure or ultrapure water) can be used as water for dyeing industry, boiler water, chemical industry cooling water, bath water, washing water, chemical industry water for pretreatment, etc.

In general, the softening system uses groundwater. In the field where groundwater exists, it performs primary treatment of groundwater using a pump or stores water in a water tank without primary treatment, and then uses a water softener at a factory or site that needs softening. Softened water is supplied through At this time, the pump is connected to the water softener to supply water to the factory or site. When the pump is connected to the water softener, a lot of load is applied to the pump and the water softener, which often causes the pump and the water softener to break down. there was

In order to minimize this problem, a method of additionally installing a separate water tank after the softening device may be considered, but even in this case, a pump is still required to supply water to the additional water tank, and an additional water tank, control valve, and final Since a device such as a pump for supplying water is required, there is a problem in that the configuration is complicated and the cost is increased.

Korean Patent No. 10-1349770 (2014.01.03)

An object of the present invention is to provide an underground water softening system capable of increasing softening efficiency while reducing a load applied to a water softening device and a drain pump to solve the above problems.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

According to an embodiment of the present invention, there is provided a groundwater softening system, comprising: a water supply pump; first and second tanks connected in parallel to the water pump to receive and store groundwater supplied from the water pump; a water treatment device commonly connected to the outlet side and the inlet side of the first tank and the second tank, and configured to include a soft water pipe, a soft water pump, and a soft water softener; a first hardness sensor disposed on the outlet side of the first tank of the soft water pipe; a second hardness sensor disposed on the outlet side of the second tank of the soft water pipe; a drain pump connected from the first tank and the second tank through a drain pipe; and when the hardness value measured by the first hardness sensor or the second hardness sensor is less than or equal to a preset reference hardness value, the drain pump is operated to selectively drain the groundwater stored in the first tank or the second tank to the drain pipe It includes a control device for discharging through it.

In one embodiment, the water treatment device may be configured to further include a micro filter for removing impurities.

In one embodiment, the groundwater softening system includes: a first circulation valve disposed on the inlet side of the first tank among the soft water pipes; a second circulation valve disposed on the inlet side of the second tank of the soft water pipe; a first drain valve disposed at an outlet side of the first tank among the drain pipes; and a second drain valve disposed on the outlet side of the second tank in the drain pipe, wherein the control device is configured to include, when the hardness value measured by the first hardness sensor exceeds the reference hardness value 1 Open the circulation valve, close the first drain valve, close the first circulation valve when it is below the reference hardness value, open the first drain valve, and the hardness value measured by the second hardness sensor is the reference hardness When the value exceeds the value, the second circulation valve is opened, the second drain valve is closed, and when it is less than the reference hardness value, the second circulation valve is closed and the second drain valve is opened, the first hardness sensor and the When all of the hardness values measured by the second hardness sensor are less than or equal to the reference hardness value, it is possible to control so that only one of the first drain valve or the second drain valve is selectively opened according to a preset rule.

In an embodiment, the groundwater softening system further includes a first water level sensor installed inside the first tank and a second water level sensor installed inside the second tank, wherein the control device includes: Groundwater stored in a tank having a higher water level among the first tank and the second tank may be selectively discharged through the drain pipe based on the measured values of the first water level sensor and the second water level sensor.

In one embodiment, the groundwater softening system may include: a water supply pipe connected from the water pump to the first tank and the second tank; a first water supply valve disposed on the inlet side of the first tank among the water supply pipes; and a second water supply valve disposed on the inlet side of the second tank in the water supply pipe, wherein the control device controls the first water supply valve when the measured value of the first water level sensor is higher than or equal to a preset reference water level. close, and when the measured value of the second water level sensor is equal to or greater than the reference water level, the second water supply valve may be closed.

In addition, the groundwater softening system according to another embodiment of the present invention includes: a water supply pump; first and second tanks connected in parallel to the water pump to receive and store groundwater supplied from the water pump;

a water treatment device commonly connected to the outlet side and the inlet side of the first tank and the second tank, and configured to include a soft water pipe, a soft water pump, and a soft water softener; a drain pipe connected to the first tank and the second tank; a first drain valve and a first hardness sensor disposed on the outlet side of the first tank in the drain pipe; a second drain valve and a second hardness sensor disposed on the outlet side of the second tank in the drain pipe; a drain pump connected from the first tank and the second tank through a drain pipe; When the hardness value measured by the first hardness sensor or the second hardness sensor is less than or equal to a preset reference hardness value, the drain pump is operated to selectively drain the groundwater stored in the first tank or the second tank through the drain pipe can be expelled.

In one embodiment, the water treatment device may be configured to further include a micro filter for removing impurities.

In one embodiment, the groundwater softening system includes: a first circulation valve disposed on the inlet side of the first tank among the soft water pipes; and a second circulation valve disposed on the inlet side of the second tank in the soft water pipe, wherein the control device is configured to include the second circulation valve when the hardness value measured by the first hardness sensor exceeds the reference hardness value. 1 Open the circulation valve, close the first drain valve, close the first circulation valve when it is below the reference hardness value, open the first drain valve, and the hardness value measured by the second hardness sensor is the reference hardness When the value exceeds the value, the second circulation valve is opened, the second drain valve is closed, and when it is less than the reference hardness value, the second circulation valve is closed and the second drain valve is opened, the first hardness sensor and the When all of the hardness values measured by the second hardness sensor are less than or equal to the reference hardness value, it is possible to control so that only one of the first drain valve or the second drain valve is selectively opened according to a preset rule.

In an embodiment, the groundwater softening system further includes a first water level sensor installed inside the first tank and a second water level sensor installed inside the second tank, wherein the control device includes: Groundwater stored in a tank having a higher water level among the first tank and the second tank may be selectively discharged through the drain pipe based on the measured values of the first water level sensor and the second water level sensor.

In one embodiment, the groundwater softening system may include: a water supply pipe connected from the water pump to the first tank and the second tank; a first water supply valve disposed on the inlet side of the first tank among the water supply pipes; and a second water supply valve disposed on the inlet side of the second tank in the water supply pipe, wherein the control device controls the first water supply valve when the measured value of the first water level sensor is higher than or equal to a preset reference water level. close, and when the measured value of the second water level sensor is equal to or greater than the reference water level, the second water supply valve may be closed.

The groundwater softening system according to an embodiment of the present invention can maximize the softening efficiency while reducing the load applied to the water softener and the drain pump.

The effect according to the present invention is not limited by the contents exemplified above, and more various effects are included in the present specification.

1 is a schematic configuration diagram of a groundwater softening system according to a first embodiment of the present invention.
2 is a schematic configuration diagram of a groundwater softening system according to a second embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, a groundwater softening system according to embodiments of the present invention will be described with reference to the drawings.

1 is a schematic configuration diagram of a groundwater softening system according to a first embodiment of the present invention.

Referring to FIG. 1 , the groundwater softening system according to the first embodiment of the present invention includes a feed water pump 10 , a first tank 20 , a second tank 30 , a soft water pump 52 , and a water softener 54 . , a micro filter 56 , and a drain pump 72 .

The feed water pump 10 serves to supply groundwater or raw water treated primarily with groundwater to the first tank 20 and the second tank 30 .

Groundwater or raw water supplied from the water supply pump 10 is supplied to the first tank 20 and the second tank 30 through the water supply pipe 12 .

A first water supply valve 22 is disposed on the inlet side of the first tank 20 of the water supply pipe 12 , and a second water supply valve 32 is disposed on the inlet side of the second tank 30 of the water supply pipe 12 . do.

In FIG. 1, it is shown that the first water supply valve 22 and the second water supply valve 32 are located inside the first tank 20 and the second tank 30, respectively. This is because it is inserted up to the inside of the first tank 20 and the second tank 30 .

However, this is an embodiment, and the water supply pipe 12 is coupled to the inlet side of the first tank 20 and the second tank 30 , and the water supply pipe to the first tank 20 and the second tank 30 . An embodiment with a separate inner pipe connected to (12) will also be possible. In this embodiment, as mentioned above, the first water supply valve 22 and the second water supply valve 32 are disposed in the inner pipe or adjacent to the inlet side of the first tank 20 and the second tank 30 . It may be disposed in each of the supply pipe 12 outside the tank.

The first tank 20 and the second tank 30 are connected in parallel to the water supply pump 10 through the water supply pipe 12, and the first water level sensor 24 and the second for measuring the water level therein, respectively. A water level sensor 34 is installed.

Meanwhile, the water treatment device is commonly connected to the outlet side and the inlet side of the first tank 20 and the second tank 30 , and includes a soft water pipe 50 , a soft water pump 52 , a water softener 54 , and a micro filter. (56) is included.

The soft water pipe 50 is configured to form a closed loop from the outlet side of the first tank 20 and the second tank 30 to the inlet side. 54 and the micro filter 56 are combined.

The soft water pump 52 serves to supply groundwater or raw water from the first tank 20 and the second tank 30 to the softening device 54 .

The softening device 54 serves to convert hard water into soft water by removing ionic substances using a conventionally known device such as an ion exchange resin filter.

The micro filter 56 serves to remove impurities in the soft water transferred from the water softener 54 .

1 shows an embodiment in which the water treatment device is configured to include a water softener 54 and a micro filter 56, but is not limited thereto. It is also possible to configure additionally.

A first hardness sensor 28 is disposed at the outlet side of the first tank 20 of the soft water pipe 50 , and a second hardness sensor 38 is disposed at the outlet side of the second tank 30 .

In addition, the first circulation valve 57 is disposed at the inlet side of the first tank 20 of the soft water pipe 50 , and the second circulation valve 58 is disposed at the inlet side of the second tank 30 .

The first hardness sensor 28 and the second hardness sensor 38 serve to measure the hardness at the outlet side of the first tank 20 and the second tank 30 of the soft water pipe 50 .

The first circulation valve 57 and the second circulation valve 58 serve to control the circulation operation of the water circulated through the soft water pipe 50 .

A drain pipe 70 is connected to the first tank 20 and the second tank 30 separately from the soft water pipe 50 . The drain pipe 70 connected to the first tank 20 and the second tank 30 is connected to the drain pump 72 .

The drain pump 72 serves to supply soft water supplied through the drain pipe 70 to a site such as a factory.

The control device 80 receives the measurement values from the first water level sensor 24 , the second water level sensor 34 , the first hardness sensor 28 and the second hardness sensor 38 , and supplies water according to a preset algorithm. Pump 10 , first water supply valve 22 , second water supply valve 32 , first drain valve 26 , second drain valve 36 , first drain valve 26 , second drain valve ( 36), the soft water pump 52, the softening device 54, and serves to control the operation of the micro filter (56).

The control device 80 may be connected to each of the devices through a wired or wireless network, and an embodiment of the control method will be described as follows.

The control device 80 opens the first water supply valve 22 and the second water supply valve 32 when the water level values measured by the first water level sensor 24 and the second water level sensor 34 are less than a preset reference water level. and operate the water pump 10 to supply groundwater or raw water to the first tank 20 and the second tank 30 .

As described above, while the control device 80 supplies groundwater or raw water to the first tank 20 and the second tank 30, the first drain valve 26 and the second drain valve 36 are closed. This is because, when hard water is supplied to the tank, the target softening is not achieved.

While water is supplied to the first tank 20 and the second tank 30 , the control device 80 may turn on or off the operation of the water treatment device.

Basically, in order to increase the softening efficiency, the control device 80 may operate the water treatment device to soften any one of the first tank 20 and the second tank 30 .

That is, the control device 80 can control the water in the tank with a slightly higher water level to be softened even when water is supplied to both the tanks of the first tank 20 and the second tank 30 . have. For example, when the control device 80 first softens the first tank 20 , the first circulation valve 57 is turned on, the second circulation valve 58 is closed, and then the soft water pump 52 is turned on. It is driven so that the water supplied to the first tank 20 can be softened.

In addition, the control device 80 closes the first water supply valve 22 when the water level inside the first tank 20 reaches the reference water level, and the water level inside the second tank 30 reaches the reference water level In this case, the second water supply valve 32 is closed, and when both the water levels in the first tank 20 and the second tank 30 reach the reference water level, the water supply pump 10 is turned off.

When the water level inside the first tank 20 reaches the reference water level and water is not supplied from the water supply pump 10 , the control device 80 softens the water through the water treatment device.

When the hardness value measured by the first hardness sensor 28 is less than or equal to the reference hardness value, the control device 80 closes the first circulation valve 57 and opens the second circulation valve 58 to open the second tank ( 30) and start softening the water stored in it.

In a situation where soft water needs to be supplied to a site such as a factory, the control device 80 opens the first drain valve 26 installed in the drain pipe 70 of the first tank 20 where the softening is completed, and the drain pump 72 ) to supply soft water to the field.

While the water stored in the first tank 20 is supplied to the site in this way, the water stored in the second tank 30 is softened through the water treatment device.

In this case, the time required for the softening of the water stored in the second tank 20 may be set to be similar to the time for which the water of the reference water level stored in the first tank 10 is supplied to the field. In this setting, when all of the water stored in the first tank 20 is supplied to the site, the soft water may be supplied to the site using the water stored in the second tank 20 immediately thereafter.

As described above, the groundwater softening system according to the first embodiment of the present invention alternately uses the first tank 20 and the second tank 30 connected in parallel to the water supply pump 10 to provide softened water. can be supplied to the field, maximizing the softening efficiency.

In addition, without connecting the drain pump 72 to the water treatment device in series, the water treatment device is commonly connected to the first tank 20 and the second tank 30 , and then the drain pump 70 is connected to the first tank 20 . ) and the water stored in the second tank 30 are pumped and supplied to the site, so that the water treatment device including the water softener 54 and the drain pump 72 are not overloaded, thereby preventing equipment failure or malfunction. .

In the above, an embodiment in which the control device 80 selectively softens the water stored in the first tank 20 and the second tank 30 has been described.

However, the present invention is not limited thereto, and the control device 80 simultaneously opens the first circulation valve 57 and the second circulation valve 58 in another operation mode and operates the soft water pump 52 to operate the first tank 20 ) and the water stored in the second tank 20 may be simultaneously softened. However, in this embodiment, compared to the previous embodiment, since the water stored in the first tank 20 and the second tank 30 is mixed in the soft water pipe 50, the softening process is lengthened and the efficiency may be somewhat reduced.

2 is a schematic configuration diagram of a groundwater softening system according to a second embodiment of the present invention.

The groundwater softening system according to the second embodiment of FIG. 2 has all other configurations the same as compared to the system of the first embodiment, and the first hardness sensor 28 and the second hardness sensor 38 are not the soft water pipe 50 It has a difference installed in the drain pipe (70).

Therefore, detailed descriptions of other common configurations and operations are omitted and only the operations differentiated based on the first hardness sensor 28 and the second hardness sensor 38 will be described.

Specifically, the first hardness sensor 28 is disposed adjacent to the outlet of the first tank 20 in the drain pipe 70 , and then the first drain valve 26 is disposed, and at the outlet of the second tank 30 . A second hardness sensor 38 is disposed adjacent thereto, followed by a second drain valve 36 .

When configured as described above, even when the first drain valve 26 and the second drain valve 36 are closed, the water stored in the first tank 20 and the second tank 30 is transferred to the first drain valve 26 . And since it reaches the part blocked by the second drain valve 36, the first hardness sensor 28 and the second hardness sensor 38 are stored in the first tank 20 and the second tank 30, respectively. The hardness of water can be measured.

The groundwater softening system according to the second embodiment can improve the accuracy of hardness measurement by directly measuring the hardness of the water supplied to the drain pipe 70 compared to the system of the first embodiment.

On the other hand, in the case of the groundwater softening system according to the first embodiment, when the control device 80 selectively operates the softening cycle, the system can be operated even if only one hardness sensor is disposed in the soft water pipe 50. It has the advantage of further simplifying the configuration.

Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

10: water pump 12: water supply pipe
20: first tank 22: first water supply valve
24: first water level sensor 26: first drain valve
28: first hardness sensor 30: second tank
32: second water supply valve 34: second water level sensor
36: second drain valve 38: second hardness sensor
50: soft water pipe 52: soft water pump
54: water softener 56: micro filter
57: first circulation valve 58: second circulation valve
70: water supply pipe 72: water pump
80: control device

Claims (10)

water pump;
first and second tanks connected in parallel to the water pump to receive and store groundwater supplied from the water pump;
a water treatment device commonly connected to the outlet side and the inlet side of the first tank and the second tank, and configured to include a soft water pipe, a soft water pump, a soft water softener, and a micro filter;
a first hardness sensor disposed on the outlet side of the first tank of the soft water pipe;
a second hardness sensor disposed on the outlet side of the second tank of the soft water pipe;
a first circulation valve disposed on the inlet side of the first tank of the soft water pipe;
a second circulation valve disposed on the inlet side of the second tank of the soft water pipe;
a drain pump connected from the first tank and the second tank through a drain pipe;
a first drain valve disposed at an outlet side of the first tank among the drain pipes;
a second drain valve disposed at an outlet side of the second tank among the drain pipes; and
When the hardness value measured by the first hardness sensor or the second hardness sensor is less than or equal to a preset reference hardness value, the drain pump is operated to selectively drain the groundwater stored in the first tank or the second tank through the drain pipe including a control device for discharging;
The control device is
When the hardness value measured by the first hardness sensor exceeds the reference hardness value, the first circulation valve is opened, the first drain valve is closed, and when the hardness value is less than the reference hardness value, the first circulation valve is closed; Open the first drain valve,
When the hardness value measured by the second hardness sensor exceeds the reference hardness value, the second circulation valve is opened, the second drain valve is closed, and when the hardness value is less than the reference hardness value, the second circulation valve is closed; Open the second drain valve,
When both the hardness values measured by the first hardness sensor and the second hardness sensor are less than or equal to the reference hardness value, controlling either one of the first drain valve or the second drain valve to be selectively opened according to a preset rule Characterized by the groundwater softening system. delete delete According to claim 1,
Further comprising a first water level sensor installed inside the first tank, and a second water level sensor installed inside the second tank,
The control device selectively discharges groundwater stored in a tank having a higher water level among the first tank and the second tank through the drain pipe based on the measured values of the first water level sensor and the second water level sensor Groundwater softening system, characterized in that 5. The method of claim 4,
a water supply pipe connected to the first tank and the second tank from the water pump;
a first water supply valve disposed on the inlet side of the first tank among the water supply pipes; and
Further comprising a second water supply valve disposed on the inlet side of the second tank of the water supply pipe,
The control device closes the first water supply valve when the measured value of the first water level sensor is equal to or greater than a preset reference water level, and closes the second water supply valve when the measured value of the second water level sensor is equal to or greater than the reference water level Characterized by the groundwater softening system. water pump;
first and second tanks connected in parallel to the water pump to receive and store groundwater supplied from the water pump;
a water treatment device commonly connected to the outlet side and the inlet side of the first tank and the second tank, and configured to include a soft water pipe, a soft water pump, a soft water softener, and a micro filter;
a first circulation valve disposed on the inlet side of the first tank of the soft water pipe;
a second circulation valve disposed on the inlet side of the second tank of the soft water pipe;
a drain pipe connected to the first tank and the second tank;
a first drain valve and a first hardness sensor disposed on the outlet side of the first tank in the drain pipe;
a second drain valve and a second hardness sensor disposed on the outlet side of the second tank in the drain pipe;
a drain pump connected from the first tank and the second tank through a drain pipe; and
When the hardness value measured by the first hardness sensor or the second hardness sensor is less than or equal to a preset reference hardness value, the drain pump is operated to selectively drain the groundwater stored in the first tank or the second tank through the drain pipe including a control device for discharging;
The control device is
When the hardness value measured by the first hardness sensor exceeds the reference hardness value, the first circulation valve is opened, the first drain valve is closed, and when the hardness value is less than the reference hardness value, the first circulation valve is closed; Open the first drain valve,
When the hardness value measured by the second hardness sensor exceeds the reference hardness value, the second circulation valve is opened, the second drain valve is closed, and when the hardness value is less than the reference hardness value, the second circulation valve is closed; Open the second drain valve,
When both the hardness values measured by the first hardness sensor and the second hardness sensor are less than or equal to the reference hardness value, controlling either one of the first drain valve or the second drain valve to be selectively opened according to a preset rule Characterized by the groundwater softening system. delete delete 7. The method of claim 6,
Further comprising a first water level sensor installed inside the first tank, and a second water level sensor installed inside the second tank,
The control device selectively discharges groundwater stored in a tank having a higher water level among the first tank and the second tank through the drain pipe based on the measured values of the first water level sensor and the second water level sensor Groundwater softening system, characterized in that 10. The method of claim 9,
a water supply pipe connected to the first tank and the second tank from the water pump;
a first water supply valve disposed on the inlet side of the first tank among the water supply pipes; and
Further comprising a second water supply valve disposed on the inlet side of the second tank of the water supply pipe,
The control device closes the first water supply valve when the measured value of the first water level sensor is equal to or greater than a preset reference water level, and closes the second water supply valve when the measured value of the second water level sensor is equal to or greater than the reference water level Characterized by the groundwater softening system.

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