KR20210152749A - Swimming Pool Water Quality Management System Comprising Nano-Bubble Generator - Google Patents

Abstract

The present invention relates to a swimming pool water quality management system that comprises a nano-bubble generator in a circulation path of swimming pool water to filter out impurities or pollutants and to increase the dissolved oxygen (DO) level, which is the amount of oxygen dissolved in water. The swimming pool water quality management system comprising the nano-bubble generator maximizes the amount of dissolved oxygen in the water by using the nano-bubble generator in the suction circulation process of swimming pool water and increases the number and activity of aerobic microorganisms that decompose pollutants that are absorbed from the pool and dissolve in the recirculated water to cause water pollution. The swimming pool water quality management system makes sure that the removal of suspended substances and harmful gases in the pool water is not harmful to human bodies. Through the processes, the swimming pool water quality management system can minimize the input of chlorine, an essential disinfectant added to the water recirculated to the swimming pool.

Description

Swimming Pool Water Quality Management System Comprising Nano-Bubble Generator Including Nano-Bubble Generator

The present invention relates to a swimming pool water quality management system, and more particularly, a dissolved oxygen (DO) value, which is the amount of oxygen dissolved in water by including a nanobubble generator in the circulation path of swimming pool water to filter out impurities or pollutants It is also related to the swimming pool water quality management system that raises the water level.

Since a swimming pool is a facility used by multiple people, various cosmetics remaining on the human skin, dead skin cells from the human body, and small amounts of feces and body hair, including hair, contaminate the pool water. In particular, in the case of outdoor swimming pools, the frequent use of suntan cream and body oil, as well as relatively loose management and complicated accessibility compared to indoor pools, often leads to frequent not going to the toilet, so the water quality is better than indoor pools. often fall out

As such, chemicals such as cosmetics dissolved in swimming pool water, foreign substances such as hair, and impurities such as excrement often decompose and become a breeding ground for pathogens, so continuous water quality management is required. For this purpose, pool water is continuously sent to an external purification device through a connection pipe, and the external purification device filters impurities and disinfects, and as a result, returns the water containing the disinfectant to the swimming pool. Since chlorine is used as the disinfectant, trihalomethane produced by reacting chlorine with organic substances in water is a problem. Trihalomethane is a compound in which three of the four hydrogen atoms in methane are replaced by halogen atoms, and this is because it is an environmental pollutant and a carcinogen.

Therefore, a water quality management system that can minimize the generation of environmental pollutants or carcinogens due to chlorine disinfection is required. Republic of Korea Patent Registration No. 10-1966304 relates to [a swimming pool with special water quality management], and the water that overflows from the water tank of the swimming pool is discharged to the outside, and the tap water of the tap water is supplied to the inside of the tank according to the amount of discharged water. , discloses a filter and preliminary filter technology that continuously sucks in and circulates foreign substances and floating substances deposited on the bottom of the water tank.

However, the above technology has a problem that chemical disinfection is required because only a filter and a preliminary filter adopted in the process of discharging water overflowing from the swimming pool and sucking and circulating water cannot sufficiently remove contaminants.

Republic of Korea Patent No. 10-1966304

The present invention applies a process of decomposing pollutants such as suspended substances and harmful gases in the water through the action of aerobic microorganisms in the process of sucking and circulating swimming pool water to minimize the input of chemicals such as chlorine, aerobic microorganisms decompose organic matter We aim to provide a swimming pool water quality management system that increases the amount of dissolved oxygen that helps

The present invention relates to a swimming pool water quality management system including a nanobubble generator: The swimming pool water quality management system includes: a water tank having an open top surface and forming a space for storing water on the side and bottom surfaces; an overflow discharge unit located on the side of the water tank, discharging water exceeding a predetermined height from the bottom surface of the water tank, and connected to a second discharge pipe through a connection pipe; a circulation discharge unit located on the bottom or side of the water tank and discharging to circulate the water in the water tank; a first circulation pump connected to the circulation discharge unit through a first discharge pipe and pumping water from the water tank; a filter connected through the first circulation pump and the second discharge pipe and filtering foreign substances having a size greater than or equal to a predetermined size; a first water quality management tank connected through the filter and the third discharge pipe, and including a first water quality detector, an aerobic microorganism feeder, and a nano-bubble generator therein; a second water quality control tank connected to the first water quality control tank through a fourth discharge pipe having a microbial filter, and including a second water quality detector and a disinfectant injector therein; a second circulation pump connected to the second water quality management tank through a first inlet pipe and introducing water into the water tank; a water inlet part connected to the second circulation pump and a second inlet pipe and positioned on a side surface of the water tank; and a control unit for controlling the first circulation pump, the second circulation pump, the nanobubble generator, and the disinfectant injector based on the detection values of the first water quality detector and the second water quality detector, It provides a swimming pool water quality management system including a nano-bubble generator.

The present invention also provides a swimming pool water quality management system including a nano-bubble generator, further comprising a temperature control unit between the second water quality management tank and the circulation pump.

The present invention also, the nano-bubble generator is located in the water of the first water quality management tank, a motor having an air injection pipe, a water intake unit including a water inlet hole, a blade for mixing air and water, And it provides a swimming pool water quality management system including a nano-bubble generator, including a nano-bubble discharge unit comprising a nano-bubble discharge pipe in which air and water are mixed.

The present invention also provides a swimming pool water quality management system including a nanobubble generator, wherein the disinfectant injector injects one or more disinfectants selected from the group consisting of sodium hypochlorite, acetic acid, chlorine, hydrochloric acid, and an acidity regulator.

The present invention also provides a swimming pool water quality management system including a nanobubble generator, wherein the first water quality detector and the second water quality detector include a turbidity detector, a pH detector, and a residual disinfectant detector.

The swimming pool water quality management system including the nano-bubble generator of the present invention maximizes the amount of dissolved oxygen in the water by using the nano-bubble generator in the suction circulation process of swimming pool water, and dissolves in the recirculated water sucked from the pool, which is a pollutant. By increasing the number and activity of aerobic microorganisms that decompose contaminants that can be the cause, the removal of suspended substances and harmful gases in swimming pool water is not harmful to the human body. Through this, we provide a swimming pool water quality management system that can minimize the input of chlorine, an essential disinfectant added to the water recirculated to the swimming pool.

1 is a conceptual diagram of a swimming pool water quality management system including a nano-bubble generator according to an embodiment of the present invention.
2 is a conceptual diagram illustrating a nano-bubble generating device inside a first water quality management tank according to an embodiment of the present invention.

Hereinafter, a preferred embodiment that can be easily implemented by a person of ordinary skill in the art to which the present invention pertains will be described in detail with reference to the drawings. Prior to the detailed description of the present invention, the terms or words used in the present specification and claims described below should not be construed as being limited to conventional or dictionary meanings. Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all of the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

1 is a conceptual diagram of a swimming pool water quality management system including a nano-bubble generator according to an embodiment of the present invention. Swimming pool water quality management system including a nano-bubble generating device according to an embodiment of the present invention, the upper surface is open, the side and the bottom surface of the water tank (1) forming a space for storing water (10); an overflow discharge part 15 located on the side of the water tank and connected to a second discharge pipe through a connecting pipe by discharging water exceeding a predetermined height from the bottom surface of the water tank; a circulation discharge unit (17) located on the bottom or side of the water tank and discharging to circulate the water in the water tank; a first circulation pump 20 connected to the circulation discharge unit and a first discharge pipe 117 for pumping water from the water tank; a filter 30 connected through the first circulation pump 20 and the second discharge pipe 120 and filtering foreign substances larger than a predetermined size; A first water quality management tank 40 connected through the filter 30 and the third discharge pipe 121, and including a first water quality detector (not shown), an aerobic microorganism feeder 50, and a nano-bubble generator therein ); It is connected to the first water quality management tank 40 through a fourth discharge pipe 122 having a microbial filter (not shown), and includes a second water quality detector (not shown) and a disinfectant injector 70 therein. 2 water quality management tank (60); a second circulation pump (80) connected to the second water quality management tank (60) and a first inlet pipe (113) and introducing water into the water tank (1); a water inlet (11) connected to the second circulation pump (80) and a second inlet pipe (180) and positioned on the side of the water tank; and a controller (not shown) for controlling the first circulation pump, the second circulation pump, the nanobubble generator, and the disinfectant injector based on the detection values of the first water quality detector and the second water quality detector may include In one embodiment of the present invention, the swimming pool is an open-air swimming pool, but the present invention is not limited thereto, and it is applicable to an indoor swimming pool and the like. In one embodiment of the present invention, when the swimming pool is an open-air swimming pool, the overflow discharge unit may be located on the side of the water tank of the storage area, and in the case of an indoor swimming pool, it may be located on the upper surface of the open-air swimming pool.

In one embodiment of the present invention, the water 10 of the water tank 1 is discharged through the overflow discharge unit 15 and the circulation discharge unit 17, and the circulation discharge unit is discharged through the first circulation pump 20 It is discharged within the range of the predetermined flow rate. The amount of water discharged to the overflow discharge unit 15 may be discharged in a relatively small amount compared to the circulation discharge unit 17 through the number of visitors in the swimming pool and the flow of water such as a water fitting made by the visitors. In addition, the amount of water discharged to the overflow discharge unit may vary according to the amount of the water inlet through which the water passing through the water quality management system through the circulation discharge unit flows.

In one embodiment of the present invention, the water discharged to the overflow discharge unit may include floating matter, and is connected to the second discharge pipe 120 through the connection pipe 115 toward the filter 30 . In one embodiment of the present invention, the circulation discharge unit 17 is located on the bottom or side of the bottom surface of the water tank so that contaminants sinking in the water can come out together, and the first discharge pipe 117 for controlling the flow rate of water. It is connected to the first circulation pump 20 through the. In one embodiment of the present invention, the first circulation pump 20 may be connected to the second discharge pipe 120 , and a plurality of connection pipes 115 may be connected to the second discharge pipe 120 . Since the location of the circulation discharge unit 17 is located on the bottom or side of the bottom of the water tank, water can be discharged even by water pressure, so that the pumping of water by the first circulation pump 20 can be minimized.

In one embodiment of the present invention, the water passing through the second discharge pipe 120 is directed to the filter 30, and filters particles having a predetermined size in the filter. The filtered particles include suspended matter and contaminants sinking in water. For the filter of the filter 30, the size of the sieve can be selected as needed, and it is possible to select from several micrometers to several hundreds of micrometers. In one embodiment of the present invention, the water that has passed through the filter is directed to the first water quality management tank 40 through the third discharge pipe 121 . The first water quality management tank may include a first water quality detector, an aerobic microorganism feeder 50, and a nano-bubble generator.

2 is a conceptual diagram illustrating a nano-bubble generating device inside a first water quality management tank according to an embodiment of the present invention. In one embodiment of the present invention, the nano-bubble generator is located in the water 100 of the first water quality management tank, the air injection pipe 141 through which the air (a) passes, the water inlet hole (b) Nanobubble discharge unit including a water suction unit 142, including a motor 143 having wings to mix air and water, and nanobubble discharge pipes 144, 145, 146 in which air and water are mixed ( 140). The technical configuration of the nano-bubble generator includes the contents described in Korean Patent No. 10-2007310.

The nano-bubble generator increases the mixing rate of water and air, and increases the amount of dissolved oxygen in the water contained in the first water quality management tank. The amount of dissolved oxygen in the water of the first water quality management tank increased through the nano-bubble generator not only enables the aerobic microorganisms in the water to efficiently decompose the organic matter remaining in the water, but also purifies the water itself. In one embodiment of the present invention, the size of the first water quality management tank may be appropriately adjusted so that the water in the first water quality management tank has a sufficient residence time. The larger the size of the first water quality control tank, the longer the residence time of water, so that organic matter can be sufficiently decomposed. In the state in which the organic matter is sufficiently decomposed, the use of disinfectant can be minimized in the subsequent water quality management work.

In one embodiment of the present invention, the water that has passed through the first water quality management tank 40 is connected to the second water quality management tank 60 through the fourth discharge pipe 122 having a microbial filter (not shown). The microbial filter may be any filter having a narrower mesh than the size of the aerobic microorganism used in the first water quality control tank. In an embodiment of the present invention, the second water quality management tank 60 includes a second water quality detector (not shown) and a disinfectant injector 70 . In one embodiment of the present invention, the disinfectant injector may inject one or more disinfectants selected from the group comprising sodium hypochlorite, acetic acid, chlorine, hydrochloric acid, and an acidity regulator. Although it is desirable to minimize the amount of the disinfectant even if it is harmless to the human body, it is possible to inject a minimum amount in a state in which organic matter is decomposed with a nano-bubble generating device and aerobic microorganisms in the first water quality management tank 40 do. In one embodiment of the present invention, the first water quality detector and the second water quality detector include, but are not limited to, a turbidity detector, a pH detector, and a residual disinfectant detector.

In one embodiment of the present invention, it is desirable to keep the water temperature of the swimming pool constant, so it is necessary to raise the temperature, especially when the outside temperature is relatively cold. Therefore, a temperature control unit (not shown) for controlling the temperature of the water passing through the second water quality management tank 60 may be further included between the second water quality management tank 60 and the second circulation pump 80 . . Since the second water quality management tank and the second circulation pump are connected to the first inlet pipe 113 , the temperature control unit may be configured as a temperature control device surrounding the first inlet pipe 113 . The organic matter that has passed through the second circulation pump 80 is removed, an appropriate disinfectant is put in, passes through the management range of the first and second water quality detectors, and the water adjusted to an appropriate temperature passes through the second inlet pipe 180 . It flows into the water tank through the water inlet 11 located on the side of the water tank.

The swimming pool water quality management system including the nano-bubble generator of the present invention enables nature-friendly swimming pool water quality management that minimizes disinfectant input by adding an organic matter decomposition function of aerobic microorganisms. Such water quality management is based on the detection values of the first water quality detector and the second water quality detector, a control unit for controlling the first circulation pump, the second circulation pump, the nanobubble generator, and the disinfectant injector (not shown) is controlled through.

Although the exemplary embodiments of the present application have been described in detail above, the scope of the present application is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present application as defined in the following claims are also included in the scope of the present application. will belong to

All technical terms used in the present invention, unless otherwise defined, have the meaning as commonly understood by one of ordinary skill in the art of the present invention. The contents of all publications herein incorporated by reference are incorporated herein by reference.

1. fish tank
10. Water
11. Water inlet
15. Water overflow outlet
17. Circulation discharge part
20. First circulation pump
30. Filter
40. 1st water quality management tank
50. Aerobic Microbial Feeder
60. 2nd water quality management tank
70. Disinfectant dispenser
80. Second circulation pump
100. Water in the first water quality management tank
113. First inlet pipe
115. connector
117. 1st discharge pipe
120. Second discharge pipe
121. Third discharge pipe
122. 4th discharge pipe
140. Nano bubble outlet
141. Air inlet pipe
142. Water intake
143. Motor
144, 145, 146. Nanobubble discharge pipe
180. Second inlet pipe
a. air
b. water inlet

Claims (5)

A swimming pool water quality management system including a nanobubble generator:
The swimming pool water quality management system,
A water tank with an open top surface and a side and a bottom surface forming a space for storing water;
an overflow discharge unit located on the side of the water tank, discharging water exceeding a predetermined height from the bottom surface of the water tank, and connected to a second discharge pipe through a connection pipe;
a circulation discharge unit located on the bottom or side surface of the water tank and discharging to circulate the water in the water tank;
a first circulation pump connected to the circulation discharge unit through a first discharge pipe and pumping water from the water tank;
a filter connected through the first circulation pump and the second discharge pipe and filtering foreign substances having a size greater than or equal to a predetermined size;
a first water quality management tank connected through the filter and the third discharge pipe, and including a first water quality detector, an aerobic microorganism feeder, and a nano-bubble generator therein;
a second water quality control tank connected to the first water quality control tank through a fourth discharge pipe having a microbial filter, and including a second water quality detector and a disinfectant injector therein;
a second circulation pump connected to the second water quality management tank through a first inlet pipe and introducing water into the water tank;
a water inlet connected to the second circulation pump and a second inlet pipe and positioned on a side surface of the water tank; and
A control unit for controlling the first circulation pump, the second circulation pump, the nanobubble generator, and the disinfectant injector based on the detection values of the first water quality detector and the second water quality detector,
Swimming pool water quality management system including a nano bubble generator.
The method of claim 1,
Further comprising a temperature control unit between the second water quality management tank and the second circulation pump,
Swimming pool water quality management system including a nano bubble generator.
The method of claim 1,
The nano-bubble generator is located in the water of the first water quality management tank,
Containing a nano-bubble discharge unit comprising an air injection pipe, a water suction unit including a water inlet hole, a motor having wings to mix air and water, and a nano bubble discharge pipe in which air and water are mixed,
Swimming pool water quality management system including a nano bubble generator.
The method of claim 1,
The disinfectant injector injects one or more disinfectants selected from the group comprising sodium hypochlorite, acetic acid, chlorine, hydrochloric acid, and an acidity regulator,
Swimming pool water quality management system including a nano bubble generator.
The method of claim 1,
The first water quality detector and the second water quality detector include a turbidity detector, a pH detector, and a residual disinfectant detector,
Swimming pool water quality management system including a nano bubble generator.

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