KR100306118B1 - Center clean water system - Google Patents

Abstract

The present invention provides a microfiltration filter for removing impurities and a hard water softening device for replacing hard water with soft water on the rear side of the microfiltration filter. A pretreatment device connected to a brine supply line, a salt tank dissolving salt by connecting an external air compressor with a blower device, and formed between a raw water inlet pipe and a pretreatment tank; A water supply line for supplying living water to a high water tank of a building by connecting a living water supply pipe to a living water supply pump installed at one side of a pretreatment tank for introducing soft water by connecting to a hard water softening device; Activated carbon filtration device for adsorption and removal of organic matter is connected to drinking water supply pump formed on one side of raw water reservoir, and ozone generator is separately connected to the inlet line of clean treated water on the rear side of activated carbon filtration device to generate self-heating and Install a far-infrared ceramic device that changes weakly alkaline and make active water by using vortex, connects to the far-infrared ceramic device, stores the treated water in the treatment tank, and installs a circulation pump between the treatment tank and the recycling far-infrared ceramic device. A post-treatment device connected to the treatment tank to install a pressure pump for supplying drinking water to each household; And a control panel configured to remotely control the respective devices.

Description

Center clean water system

The present invention relates to a device for treating raw water supplied to a large building such as an apartment or an office, and more particularly, in pretreatment through a pre-treatment device and a post-treatment device developed when supplying raw water to a large building such as an apartment. The present invention relates to a central water purification system that allows treated water to be used as domestic water and post-treated water to be directly used as drinking water.

In general, in a large building such as an apartment or an office, raw water is stored in a raw water tank installed in the lower part of the building, a pump line is connected to the raw water tank, and then transferred to a high water tank. It is a general structure to transfer to individual places of households or offices and use them as drinking water.

1 is a view showing a general water supply system, a general water supply system draws the raw water into the raw water storage tank 10 by the raw water inlet pipe 8 for supplying water and the raw water supply pipe connected to one side of the raw water storage tank 10 Through (12) is sent to the high water tank (16) formed on the roof of the apartment 14 to be used as living water in each household. The living water drawn into the elevated water tank 16 is supplied to each household through the household supply pipe 18 installed to supply the household water to each household from the rooftop.

In the water supply system having the above-described structure, people who use the water in each home or office of the apartment individually use living water in each office or each household or install water purification equipment to purify the raw water into drinking water, In order to use this process, the water purifier is installed at each point, which makes it difficult to manage and causes excessive costs in using the water purifier.

The present invention has been made to solve the above problems, an object of the present invention is to provide a facility that can directly use the water as drinking water by reliably purifying raw water introduced into a large building of an apartment or office. In addition, it is to provide a central water purification system that can minimize the expenses invested in each home or office after the large building is completed.

In order to achieve the above object, the present invention provides a microfiltration filter for removing impurities through a micro-cartridge filter, and installs a hard water softening device for replacing hard water with soft water on the rear side of the microfiltration filter. A pretreatment apparatus connected to a salt water supply line of a salt tank to a line introduced into the line, a salt tank dissolving salt by connecting an external air compressor with a blower, and formed between a raw water inlet pipe and a pretreatment tank; A water supply line for supplying living water to a high water tank of a building by connecting a living water supply pipe to a living water supply pump installed at one side of a pretreatment tank for introducing soft water by connecting to a hard water softening device; Activated carbon filtration device for adsorption and removal of organic matter is connected to drinking water supply pump formed on one side of raw water reservoir, and ozone generator is separately connected to the inlet line of clean treated water on the rear side of activated carbon filtration device to generate self-heating and Install a far-infrared ceramic device that changes weakly alkaline and make active water by using vortex, connects to the far-infrared ceramic device, stores the treated water in the treatment tank, and installs a circulation pump between the treatment tank and the recycling far-infrared ceramic device. A post-treatment device connected to the treatment tank to install a pressure pump for supplying drinking water to each household; And a control panel configured to remotely control the respective devices.

1 shows a general water supply system.

2A is a conceptual diagram showing a state in which a post-treatment apparatus of the present invention is installed, FIG. 2B is a conceptual diagram showing a state in which a pre-treatment apparatus and a post-treatment apparatus of the present invention are installed, and FIG. 2C is a diagram showing a water purification system of the present invention. 2d is a view showing another water purification system of the present invention, Figure 2e is a view showing another water purification system of the present invention.

3A is a conceptual diagram of the water purification system of the present invention, and FIG. 3B is a flowchart of the water purification system of the present invention.

<Explanation of symbols for main parts of the drawings>

30: raw water inlet pipe 32: raw water reservoir (or pre-treatment tank)

34: living water supply pipe 36: elevated water tank

38: generation supply pipe 40: aftertreatment device

42: drinking water supply pipe 44: pretreatment device

48: bypass piping 52: micro cartridge filter

54: precision filtration device 56: water softener

60: salt tank 62: blower

64: air compressor 66: differential pressure gauge

58, 68, 70: feed pump 72: activated carbon filtration device

74: far infrared ceramic apparatus 76: recirculation far infrared ceramic apparatus

78: ozone generator 80: circulation pump

82: drain line 84: treatment tank

88: pressurized pump 90,92: overflow pipe (or overflow pipe)

96: control panel

Hereinafter, with reference to the accompanying drawings illustrating a configuration and operation according to a preferred embodiment of the present invention.

2A is a conceptual diagram showing a state in which a post-treatment apparatus of the present invention is installed, and FIG. 2B is a conceptual diagram showing a state in which a pretreatment apparatus and a post-treatment apparatus of the present invention are installed, and FIG. 2C is a view showing a water purification system of the present invention. 2D is a diagram showing another water purification system of the present invention, and FIG. 2E is a diagram showing another water purification system of the present invention.

As can be seen in Figure 2a, the after-treatment device 40 constituting the water purification system is installed in the rear side of the raw water reservoir 32 to each generation through the drinking water supply pipe 42 to be used for drinking water for the pure water treatment (The water purification system of the present invention is described in FIG. 2C.) The raw water storage tank 32 is connected to a raw water inlet pipe 30 on one side to draw raw water into the raw water storage tank 32. Raw water reservoir 32 is provided with a living water supply pipe 34 on the other side is connected to the high water tank 36 formed on the roof of the apartment. That is, the raw water reservoir 32 is connected to the living water supply pipe 34 for supplying living water and the drinking water supply pipe 42 for supplying drinking water.

In addition, the high water tank 36 stores the living water by the living water supply pipe 34, and supplies the living water through the household supply pipe 38 to each supply generation in the high water tank 36.

As can be seen in Figure 2b, the pretreatment device 44 for treating raw water with soft water connects the raw water inlet pipe 30 with the pretreatment tank 32, the pretreatment tank 32 is formed in the same configuration as in Figure 2a do.

As can be seen in Figure 2c, in large buildings, such as apartments or offices, in order to draw the raw water into the pretreatment tank 32, the raw water inlet pipe 30 is installed in front of the pretreatment tank 32, the raw water inlet pipe 30 ), A pretreatment device 44 formed as a unit is installed to convert the raw water into soft water and supply the changed soft water to the pretreatment water tank 32.

The unit of the pretreatment device 44 is largely installed in the middle of the raw water inlet pipe 30 and uses the micro cartridge filter 52 which is a filtration filter to remove impurities such as suspended matter and debris, 54. It is installed on the rear side of the precision filtration device 54 is softened soft water to a single water to replace the water softening device 56 to replace the removal of the waste when bathing excellent, connected to the line to the water softening device 56 Is composed of a salt tank 60 and an air compressor 64 installed on one side of the salt tank 60.

The precision filtration device 54 combined with the raw water inlet pipe 30 is used when the bypass pipe 48 is installed at the top to replace or repair the micro cartridge filter 52, and the precision filtration device 54 is used. The bypass pipe 48 is connected to the exiting line. The microfiltration filter 54 is a micro-cartridge filter 52 installed inside the microfiltration unit 54 to protect the ion exchange resin in which the fine impurities, green debris, etc. introduced into the raw water in the hard water softening device (56). Remove the fine foreign matter such as sediment in the bath in the tub, and the differential pressure gauge 66 is installed at the inlet and outlet of the microfiltration unit 54, it is possible to read whether or not to replace the micro cartridge filter 52 Make it easy to know when.

The hard water softening device 56 and the salt tank 60 installed at the rear side of the precision filtration device 54 are subjected to soft water treatment through the hard water softening device 56 and formed on the rear side of the hard water softening device 56. By the salt tank 60, the soft water of the hard water softening device 56 is regenerated as brine (NaCl) contained in the salt tank 60. That is, the salt water treatment process is formed inside the salt tank 60 in the inlet line of the hard water softening device 56 to dissolve the salt in the blower device 62, and then draw the dissolved salt water line to remove the hard water softening device ( 56) is connected to the inlet line formed in the inlet portion. An air compressor 64 is connected to the salt tank 60. The air compressor 64 is connected to a blower device 62 installed at the bottom of the salt tank 60. The existing salt can be dissolved to make it brine. The raw water treated by the hard water softening device 56 is stored in the pretreatment tank 32.

The pretreatment tank 32 is connected to the line for supplying living water and drinking water to each generation and office, the line for supplying the living water is connected to the pre-treatment tank 32 to the living water supply pump 68 After supplying the living water to the high water tank (36) installed on the roof of the apartment to supply the living water stored in the high water tank 36 to each household, the line for supplying drinking water is a drinking water supply pump Connect the 70 to the pretreatment tank 32, install the aftertreatment device 40 formed as a unit at the rear of the drinking water supply pump 70, store it in the treatment tank 84, and then use the pressure pump 88. Use upstream supply of drinking water to each household. That is, the pre-treatment water tank 32 is connected to the domestic water supply pump 68 and the drinking water supply pump 70, and the domestic water supply pipe 34 is installed at the rear of the domestic water supply pump 68 and the high water tank 36. It is connected to the drinking water supply pump 70, the drinking water supply pipe 42 is installed in the structure is connected to the treatment water tank 84 through the after-treatment device 40 formed as a unit.

The unit of the post-treatment device 40 is largely a drinking water supply pump 70, an activated carbon filtration device 72, a far infrared ceramic device 74, 76, an ozone generator 78, a circulation pump 80, and a treatment unit. It consists of the water tank 84 and the pressure pump 88.

The drinking water supply pump 70 is a structure in which two pumps are installed, and in some cases, both pumps are driven and one pump is driven, and the other pump may be auxiliaryly installed to be used in case of failure or repair. .

The activated carbon filtration device 72 is a device that adsorbs taste, odor, chromaticity, organic substances, chlorine, benzene and fines contained in water. The activated carbon filtration device 72 is configured to adsorb and remove the organic material introduced into the pipe to periodically discharge impurities through backwashing, and at the same time to change the position of the activated carbon.

On the rear side of the activated carbon filtration device 72, far infrared ceramic devices 74 and 76 are installed. In the far infrared ceramic device 74, clean water passing through the activated carbon filtration device 72 is introduced into the far infrared ceramic device 74. At the same time, an appropriate amount of ozone is introduced from the ozone generator 78 through the inlet line of the far infrared ceramic device 74. The ozone generator 78 oxidizes and sterilizes the fine heavy metals, algae, moss, general bacteria, trihalomethanes, etc. generated due to the introduction of various viruses and chlorine in the water, and the water is obtained in the far infrared fluidized bed. Radioparticulate parent and ozone are severely flowed (or vortexed). The far-infrared ceramic devices 74 and 76 have a strong fluctuation of the granular matrix formed therein and water, and the far-infrared radial granules generate internal self-heating (far-infrared radiation), and the pH changes to about alkaline (7 or more). Will be. Drain lines 82 are provided at the lower portions of the far infrared ceramic devices 74 and 76 and the ozone generator 78, and overflow pipes 90 and 92 of the far infrared ceramic devices 74 and 76 are disposed at the drain lines. It is a structure that is connected and discharged. That is, the far infrared ceramic device 74, the ozone generator 78 and the recycling far infrared ceramic device 76 are sequentially installed.

In addition, a circulation pump 80 is installed at one side of the recirculating far infrared ceramic device 76, and the circulation pump 80 is circulated when the drinking water supply pump 70 installed at the rear side of the pretreatment water tank 32 is stopped. The pump 80 is configured to recycle the treated water of the treated water tank 84 to the recycling far-infrared ceramic device 76 to prevent congestion in the treated water tank 84 and to continuously supply the activated treated water.

Each of the far-infrared ceramic devices 74, 76 is provided with a treatment tank 84 in the rear side to store the treated water treated with drinking water, the pressurized pump 88 is connected to the treated water tank 84 It is formed in a structure that supplies upwards to be used as a beverage faucet for each household.

In addition, the pretreatment device 44 and the post-treatment device 40 can be arbitrarily adjusted by connecting a control panel 96. The control panel 96 has a general structure and detailed description thereof will be omitted.

As shown in FIG. 2D, a post-treatment device in which a unit different from FIG. 2A is newly formed is shown. The post-treatment device flows in raw water and performs post-treatment on the introduced raw water. It shows a water supply facility that supplies upwards to each household by using a pressure pump for use as drinking water, which is drinking water.

Raw water is introduced into and stored in the raw water reservoir 32 through the raw water inlet pipe 30, and the introduced raw water is introduced into the raw water through the activated carbon filtration device 72 through the feed pump 58, residues, The organic material is adsorbed and removed for clean treatment.

The activated carbon filtration device 72 is provided with a hard water softener (56) connecting the salt tank (60) and the air compressor (64) to the rear side. The hard water softener (56) has a precision filtration device (54) at the rear side. In order to finally remove the generation of impurities such as ion exchange resin and activated carbon debris present in the treated water replaced by soft water.

A far infrared ceramic device 74 is connected to the rear side of the precision filtration device 54, and an ozone generator 78 is connected to a line for introducing filtered water to the far infrared ceramic device 74 to perform ozone treatment. At the same time, a recycling far-infrared ceramic device 76 is installed adjacent to the ozone generator 78. The recycling far-infrared ceramic device 76 is formed in a structure capable of continuously circulating the treated water of the treatment tank 84 by installing a circulation pump 80 on one side. That is, the far-infrared ceramic apparatus 74 and the recycled far-infrared ceramic apparatus 76 which form the ozonated treated water by connecting the ozone generator 78 to the inflow line flow into the treated water tank 84. When the drinking water supply pump 70 is stopped at the high water level of the treatment tank 84, the control panel 96 is automatically interlocked to operate the circulation pump 80 to continuously recycle the treated water of the treatment tank 84. It is formed in a circulation structure for supplying to 76.

The treatment tank 84 is installed with a pressure pump 88 to supply drinking water to each generation in an upward supply manner.

Drinking water supply pump 70 constituting the after-treatment device 40, activated carbon filtration device 72, hard water softening device 56, salt tank 60, air compressor 64, precision filtration device 54, Far-infrared ceramic devices 74, 76, ozone generator 78 and the circulation pump 80 is a structure that is automatically adjusted in the control panel 96. In particular, the post-treatment device 40 is installed in the rear of the raw water reservoir 32, the entire unit is formed in a structure that can be supplied to the apartment of about 300 households or less, the post-treatment device 40 has a capacity It can be said that it is natural that large-scale raw water can be processed when the structure is formed by increasing the size.

As can be seen in Figure 2e, the raw water storage tank 32 for storing the raw water to form a raw water inlet pipe 30 in front of the raw water is stored in the raw water storage tank 32, and the stored water is separated into living water and drinking water It is structured so that it can be supplied to each household.

Looking at the method of supplying the living water in detail, the raw water reservoir 32 is installed in the high water tank installed on the roof layer of a large building such as an apartment or an office through the living water supply pipe (34) by installing a living water supply pump (68) After the water is introduced into the water, the water stored in the high water tank 36 is supplied downward to each household or office.

In addition, looking at the method of supplying the drinking water in detail, the raw water reservoir 32 is formed in a way to form a post-treatment device 40 and by the post-treatment device 40 to supply the drinking water to each generation, The raw water reservoir 32 is provided with a drinking water supply pump 70 and the drinking water supply pump 70 is equipped with an activated carbon filtration device 72 at the rear side to adsorb and remove various organic substances. The hard water softening device 56 is installed at the rear side of the activated carbon filtration device 72 to change the clean water into soft water, and the salt water softening device 56 connects and installs the salt tank 60 and the air compressor 64. Structure. A precision filtration device 54 is installed on the rear side of the hard water softening device 56 to finally filter the ion exchange resin and activated carbon debris, and an ozone generator 78 is provided on the rear side of the precision filtration device 54. Install the far infrared ceramic device 74 connected to the inlet line. A recycling far infrared ceramic device 76 is installed adjacent to the place where the ozone generator 78 is installed, and the recycling far infrared ceramic device 76 is connected to a treatment tank 84 to supply water and circulate to circulate the pump ( 80) install. The treatment water tank 84 is provided with a pressure pump 88 on one side and is formed in a structure for supplying drinking water upward to each generation by the pressure pump 88.

3A shows a pretreatment apparatus in a conceptual diagram of a water purification system of the present invention, and FIG. 3B shows a post-treatment apparatus in a flowchart of the water purification system of the present invention.

As can be seen in Figure 3a, the pretreatment device 44 is a device that is installed to purify a large amount of raw water, when raw water is introduced, the raw water is processed through the precision filtration device 54 and the hard water softening device 56 After the flow is made to the structure to store the treated water in the storage tank tank raw water reservoir 32, in particular, the soft water softening device 56 is made of the salt tank 60 and the air compressor 64 is connected.

The pretreatment device 44 can purify suspended solids, impurities, etc. and soften hard water to prevent corrosion of all parts used, and when used in each household or office, waste products during washing and face-washing Water is provided that can be easily removed.

As can be seen in Figure 3b, after storing the rough raw water in the raw water reservoir 32, the drinking water supply pump 70 is installed in the line connected to the drinking water supply pump 70, activated carbon filtration device 72, hard water softening device ( 56), the precision filtration device 54, the ozone generator 78, and the far-infrared ceramic device 74 are sequentially installed so that the raw water passing through the pretreatment device 44 can be used as drinking water and the treated water Is stored in the treatment tank (84). The treatment tank 84 is installed by connecting the circulation pump 80 and the circulation pump 80 is connected to the recirculation far infrared ceramic device 76 is installed, the drinking water supply pump 70 is circulated when stopped The pump 80 operates to pass the treated water of the treated water tank 84 to the recycle far-infrared ceramic device 76 to circulate back to the treated water tank 84. The treatment water tank 84 storing the treatment water is provided with a pressure pump 88 so that the drinking water can be supplied to each household or office by the operation of the pressure pump 88 so that users can use the drinking water freely. .

Referring to the effects of the present invention by the above-described configuration and operation in detail as follows.

The water purification system of the present invention can reduce the late investment cost, which is used when the initial installation cost is low and the building is completed, because the raw water introduced into the large building of the apartment or office can be reliably treated by all users. The purified water can be used as drinking water as drinking water and the protection of plumbing equipment can be completely protected, which can reduce the investment cost of users.

In addition, when the household water is used in each household using the pretreatment apparatus of the present invention, water used for softening hard water is used, so that the removal efficiency of the waste products is high when washing or bathing, and in particular, the installation is simple and the maintenance is convenient. You can get it.

In addition, the central water purification system of the present invention can completely supply the rust or contaminated water, and supply separate and exclusively for drinking water and living water, active water due to far-infrared radiation after a five-stage system (weak alkaline) ) Can be processed separately from the water inlet and supplied directly to each household's drinking water faucet, satisfying the desire of the times for users to be completely free from the hassle of carrying bottled water in the pot. Therefore, since the water treated in the purification system is mineral-rich active water, it is possible to maintain freshness even when washing fish, vegetables, etc., and obtain an effect that can contribute to national health.

In addition, the water quality test results for the water purification system of the present invention are attached as follows (Gyeonggi-do, Institute of Health and Environment, North Korea: Document No.-Hwanbuk 65460-30).

The water quality test results,

Date of collection: December 24, 1998

2. Location: 121, Tanhyeon-dong, Goyang-si (Daelim Industrial Co., Ltd. Tanhyeon Apartment)

3. Title: Drinking water test report

4. Effective Date: January 6, 1999

It was conducted by the Northern Institute of Health and Environment Research Institute of Gyeonggi-do, and it was judged as 'conforming to the standard'.

Claims (4)

Household water supply pipe (38) connected to the raw water inlet pipe (30) and the raw water inlet pipe (30) through the domestic water supply pump (68) and the household water supply pipe (36) and the household supply pipe (38) connected to the high water tank (36). In a water supply system having, Pretreatment device 44 located between the raw water inlet pipe 30 and the pretreatment water tank 32 and the post-treatment device 40 and the pretreatment device 44 located between the pretreatment water tank 44 and the drinking water supply pipe 42. It consists of a control panel 96 for remote control of the processing device 40, the pretreatment device 44 is connected to the raw water inlet pipe 30 to remove impurities through the micro cartridge filter 52 ) Is connected to the rear side of the precision filtration device 54 and is connected to the water softening device 56 and the line leading to the water softening device 56 to replace the hard water with soft water and send it to the pretreatment tank 32. It is provided with a salt tank 60 for dissolving salt by a blower device 62 connected to the air compressor 64, the after-treatment device 40 is connected to the pre-treatment tank 32 through a drinking water supply pump 70 Activated carbon filtration device 72 for adsorbing and removing organic substances and the activated carbon filtration device ( 72) is connected to the rear side of the far-infrared ceramic apparatus and the line which enters the far-infrared ceramic apparatus 74 which is converted into weak alkaline by using self-heating of granular parent and vortex of water to make active water and send it to the treatment tank 84 A recycling far-infrared ceramic device 76 and a treatment tank 84 connected to the ozone generator 78 and the treatment tank 84 to be connected through a circulation pump 80 and reprocessed and sent to the treatment tank 84. And a pressurized pump (80) connected to the drinking water supply pipe (42) to send the treated water. According to claim 1, wherein the control panel (96) is to stop the drinking water supply pump (70) in the full water of the treatment tank and operate the circulation pump to supply the treated water of the treatment tank 84 to the recycling far-infrared ceramic apparatus Central water purification system that prevents congestion and circulates activated water continuously. The central water purification system according to claim 1, wherein said pretreatment device (44) is unitized and can be remotely controlled from a control panel (96). Household water supply pipe (38) connected to the raw water inlet pipe (30) and the raw water inlet pipe (30) through the domestic water supply pump (68) and the household water supply pipe (36) and the household supply pipe (38) connected to the high water tank (36). In a water supply system having, Activated carbon filtration device 72 connected to the pre-treatment tank 32 through a drinking water supply pump, a hard water softening device 56 connected to the activated carbon filtration device 72, and a precision filtration device 54 connected to the hard water softening device 56. ) And the far-infrared ceramic apparatus 74 and the treatment tank 84 which are connected to the precision filtration device 54 and send the treatment water to the treatment tank 84 through the circulation pump 80 and reprocess the treatment water. A central water purification system comprising a recirculating far-infrared ceramic device (76) sent to the treatment tank (84) and a pressurized pump (80) connected to the treatment tank (84) to send the treatment water to the drinking water supply pipe (42).