KR100542425B1 - Pressure type clean water institution for waterworks - Google Patents

Abstract

The present invention is a pump for forcibly supplying water by a constant pressure; A plurality of antibacterial filters for filtering foreign substances contained in water forcedly supplied by the pump and suppressing bacterial growth; A settling tank through which the water supplied through the antimicrobial filter is precipitated and moved, and is filtered through a plurality of activated carbon meshes filled with the upper filter screen and the lower granular activated carbon; A purified water tank supplied through the settling tank and filtered through a plurality of screen networks made of microfibers while being supplied from a lower portion of the partition wall and moving upwardly; A sterilization tank through which the purified water is supplied from the upper part of the partition wall and sterilized by the micromovement of the silver electrode; The present invention relates to a pressure-type water purifying facility for waterworks having a storage tank located on both sides of the sterilization tank and transported and stored until the purified water is finally discharged and supplied through the sterilization tank.

The present invention not only can provide water more efficiently while passing water through a plurality of filtration and sterilizers under a certain pressure, but also saves money by using less chemicals, and in a smaller area. The effect is to get a better quality constant.

Pump, sedimentation tank, activated carbon, water purification tank, sterilization tank, silver electrode, storage tank

Description

Pressure type clean water institution for waterworks

1 is a perspective view showing a state of a water purification facility according to an embodiment of the present invention;

2 is a plan view showing a state of the water purification facility according to an embodiment of the present invention;

Figure 3 is a side sectional view showing a state of the water purification facility according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

1: water purification facility 10: pump

20: antibacterial filter 30: sedimentation tank

31: filtration screen 32: activated carbon network

33: granular activated carbon 40: water purification tank

41: bulkhead 42: screen net

50: sterilization tank 51: partition wall

52: silver electrode 60: reservoir

The present invention relates to a pressure-type water purifying facility for tap water, and more particularly, it is possible to provide water more efficiently by passing a plurality of filtration and sterilizers under a certain pressure, and also to provide fewer chemicals. The present invention relates to a pressure-type water purification system for waterworks, which can be used to save money and obtain better quality constants in a smaller area.

The purified water of the tap water is often water with good quality groundwater or effluent only by chlorine disinfection. Can't supply Purifying water in this way is called purified water, and the place where the purified water is called a purification plant.

There are two types of water purification methods: slow filtration and rapid filtration, and raw water can achieve the purpose of purification by any of the above methods, but it can increase the hardness and smell of iron, manganese, and others. In order to remove special components such as substances, special treatment methods should be adopted.

The slow filtration method of running water is a method invented in the UK and widely used in Europe. In this method, a sedimentation basin is usually placed and sand filtered at a filtration rate of 3 to 5 m / day. The sedimentation basin is a place where raw water is introduced into a reinforced concrete pond with a depth of about 4 m and settled, and after about 8 hours, the sediment is settled out of sand and relatively coarse clay. The precipitated water enters the slow filter and is filtered through the sand layer (thickness 70-90 cm), which not only completely removes turbidity and bacteria, but also soluble substances such as ammonia, iron and manganese. The longer the filtration duration, the more viscous membranes (filtration membranes) containing countless bacteria and algae are formed on the surface of the sand layer, with reddish brown adhesive substances attached mainly to bacteria up to several cm below the slope. It is. In other words, slow filtration requires purification of mucosa containing filtration membranes and private particles. If the filtration continues, the biofilm becomes thicker, and in 20-30 days, the pores of the sand are closed and the capacity of the filtration decreases. In this case, the surface of the sand layer should be scraped off by 1-2 cm to restore filtration. The filtered water in slow filter paper can remove 99% of bacteria, so chlorine disinfection alone can achieve the purpose of purification. This slow filtration method is not only to obtain a safe and tasty high-quality water, but also easy to manage, there is no need for drugs or power. On the other hand, because of the vast area, manpower, and difficult to automate, it is rarely used in recent years.

In addition, rapid filtration of tap water was developed in the United States and is also known as mechanical filtration. It should also serve as a drug settler, and the filtration speed is 120–150 m / day. The chemicals used are injected with a flocculant such as aluminum sulfate, and then mixed with the chemicals in the blending paper to form hydrates of aluminum, which combines clay particles and bacteria in the water by mutual movement to form a fine precipitate. After this is introduced into the sediment formation site, it is allowed to stay for 20 to 40 minutes to aggregate into a large sediment and to stay for 3 to 4 hours at the sedimentation basin. Float not removed from the drug settler is removed in the next step, sand filter paper. However, unlike slow filtration, bacteria and microorganisms will leak into the filtrate. As a third process for sterilizing these organisms, chlorine disinfection should be performed. Depending on the results of the pretreatment (Pre 處理) somewhat different, but usually in rapid filtration for 1 to 2 days of continuous filtration is blocked and not filtered. At this time, by using the pressure water from above to destroy the film of the deposit accumulated on the surface of the sand layer, at the same time to flush the filter layer by flushing the filter layer to restore the filtration function to clean back. As the flocculant to be used, aluminum sulfate, polyaluminum chloride, iron sulfate, iron chloride, and the like are used, and as auxiliary agents, lime lime, soda ash, caustic soda, sodium alginate, active silicic acid and the like are used. Thus, by appropriate combination of these drugs, the turbidity is lowered in a short time. The chemical precipitater is a concrete tank with a depth of 4 m, which is the same as a normal precipitater, and a sludge collector is often installed to eliminate sediment. In recent years, the sedimentation basin is dried in two or three layers, and an inclined plate is installed and downsized. In addition, there is a high-speed flocculation settled cell incorporating mixed paper and sedimentation basin, which are difficult to manage but are widely used because they require less paper. Recently, automation of rapid filtration operation is prevalent, and an automatic rapid filtration device has been developed as a simple principle. Such rapid filtration has the advantage that even if the turbidity and color is high, purification is possible, paper area is small, and filtration is not mechanically automated, and no manpower is required. On the other hand, since the purification function is dominated by the quality of chemical treatment, the safety is low, requiring skilled personnel for operation and management, the quality of purified water is inferior to that of slow filtration, and effective for removing ammonia, odor, and manganese. There are drawbacks, such as the absence of.

In addition, the special treatment water purification method of water supply is called a special treatment method when it contains a component which cannot be removed by a general method or a substance which hinders water purification operations. In other words, if it contains a large amount of iron and manganese, reddish brown or blackish brown should be removed. To this end, it is common to first give up, oxidize with chlorine, potassium permanganate, ozone, etc., and remove it by filtration using sand or special filtration material. However, you can also use iron or manganese-like bacteria to remove them. In addition, water with high hardness creates deposits inside the boiler and may cause heterogeneity. Therefore, calcium or magnesium may be precipitated or removed by adding lime or soda ash or by using ion exchange resin method. It is very difficult to get rid of the smell of water, but at present there is no reliable way other than adsorbing on activated carbon or decomposing it into ozone. When a large number of plankton such as algae occur, it is difficult to solve the smell or color of water on filter paper. Therefore, copper sulfate or chlorine is usually used to kill or microstrainer is used. In addition, feeding infants with water containing an appropriate amount of fluoride ions is effective in preventing tooth decay. Therefore, fluorine compounds may be added to tap water, which is widely used in the United Kingdom and Canada and is often adopted in Europe.

Thus, the conventional water treatment plant is vast and requires a lot of chemicals, and accordingly, there is a problem that a large amount of budget and time should be constructed on a large site.

The present invention is to solve the above problems, it is possible to provide a constant water more efficiently through a number of filtration and sterilizer water by a constant pressure, as well as to reduce the cost of using less chemicals Its purpose is to provide a pressure water purification system for tap water that can save money and provide better quality constants in a smaller area.

In order to achieve the above object, the present invention provides a pump for forcibly supplying water by a constant pressure;

A plurality of antibacterial filters for filtering foreign substances contained in water forcedly supplied by the pump and suppressing bacterial growth;

A sedimentation tank through which the water supplied by the drop water passes through the antibacterial filter and is filtered through a plurality of activated carbon meshes filled with the upper filter screen and the lower granular activated carbon;

A purified water tank supplied through the settling tank and filtered through a plurality of screen networks made of microfibers while being supplied from a lower portion of the partition wall and moving upwardly;

A sterilization tank through which the purified water is supplied from the upper part of the partition wall and sterilized by the micromovement of the silver electrode;

Located on both sides of the sterilization tank is characterized in that it has a storage tank that is moved and stored until the final purified water is discharged and supplied through the sterilization tank.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a water purification facility according to an embodiment of the present invention, Figure 2 is a plan view showing a water purification facility according to an embodiment of the present invention, Figure 3 is a side cross-sectional view showing a water purification facility according to an embodiment of the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof is omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator.

Therefore, the definition should be made based on the contents throughout the specification.

Water pressure pressure purifying facility (1) of the present invention, the pump 10 forcibly supplying water, the antibacterial filter 20 for killing or inhibiting the growth of bacteria in the water to be supplied, and the foreign substances contained in the filtration A sedimentation tank 30 to filter the water, a water purification tank 40 to filter the filtered water more finely, a sterilization tank 50 to sterilize the finely connected water, and a storage tank 60 to store the sterilized water. It is composed.

The pump 10 is a means for forcibly supplying water at a predetermined pressure, and is installed at the beginning of the water purification facility 1.

The antimicrobial filter 20 is provided with a plurality, to filter foreign matter contained in the water forcibly supplied by the pump 10 and to suppress bacterial growth.

The sedimentation tank 30 is a place where the water supplied through the antimicrobial filter 20 is precipitated and moved to be filtered. At the upper part, a plurality of filter screens 31 are fixed in the vertical direction, and granular activated carbon 33 is disposed at the lower part. A plurality of filled activated carbon net 32 is tightly fixed and fixed in the longitudinal direction.

The purified water tank 40 is filtered through the settling tank 30 is supplied from the bottom of the partition wall 41 is moved up and down is made of microfiber finely purified through a plurality of screen net 42 fixed in the vertical direction .

The sterilization tank 50 is sterilized by the microscopic action of the silver electrode rod 52 through which the purified water purified through the water purification tank 40 is supplied from the upper portion of the partition 51 and flows therein.

The storage tank 60 is located on both sides of the sterilization tank 50 is a place where the final purified water through the sterilization tank 50 to be moved and stored until discharged to a constant supply.

Referring to the use state of the present invention as follows.

First, the water forcibly supplied into the water purification apparatus 1 of the present invention by the pump 10 is to suppress the growth of bacteria while filtering foreign matters first through the plurality of antibacterial filters 20. Water suppressed by bacterial growth is supplied by the fresh water from the top of the square-shaped settling tank (30).

The first filtered water supplied to the lyophil tank 30 as a drop of water, is precipitated and moved to the lower bar, the foreign matter is secondarily filtered through a plurality of filtration screens 31 fixed in the transverse direction at the top, Again, it is associated with the third time via the granular activated carbon 33 placed inside the activated carbon network 32 arranged in the lower portion thereof.

The filtrate filtered in the third way is supplied to the lower end of the water purification tank 40 through the lower part of the partition wall 41 and moved upward through the plurality of screen networks 42 made of microfibers fixed to the center side, and microfiltration in the fourth step. And is purified.

The purified water finely purified in the fourth order through the water purification tank 40 is introduced into the sterilization tank 50 through the upper end of the partition wall 51, and the final water purification is performed by the micro action of the silver electrode rod 52 through which the current flows. do.

Here, oligodynamic action refers to a phenomenon in which ionic action of a soluble substance such as a small amount of heavy metals affects a living organism, which hinders its development or dies. O. Nekel discovered the death of blue water surface Spirogyra in a solution of 77,000 units of water dissolved in 1 unit of copper, which is caused by trace copper ions. Named it. When the metal is soaked in pure water, the ionization tendency of the micromovement is silver> mercury> platinum> gold> cobalt> copper> lead> ferric> zinc. It works in the order of> Gold> Silver> Mercury. The order is different from the electrochemical arrangement. In 1915, K. Spiro observed the development of algae in water dissolved in silver, copper, and lead, and found that the inhibitory factor was due to the colloidal action of metals. Turned out to be true. This silver colloid, G.A. Crow's agent produced antiseptics and preservatives for drinking water, which utilizes a mechanism of action in which silver colloids bind to sulfur in the cytoplasm and inhibit the redox system, causing microorganisms to sterilize.

The water sterilized by the silver electrode rod 52 that is energized in the sterilization tank 50 is moved to the storage tank 60 located adjacent to the sterilization tank 50 and connected to both sides, and then stored as a constant after being stored as a constant. Emissions will be supplied to each home or factory.

As such, the present invention not only can provide water more efficiently by passing the water through a plurality of filtration and sterilizers under a certain pressure, but also can save money by using less chemicals, and It is effective to obtain a better quality constant in area.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (1)

A pump for forcibly supplying water by a constant pressure; A plurality of antibacterial filters for filtering foreign substances contained in water forcedly supplied by the pump and suppressing bacterial growth; A settling tank through which the water supplied through the antimicrobial filter is precipitated and moved, and is filtered through a plurality of activated carbon meshes filled with the upper filter screen and the lower granular activated carbon; A purified water tank supplied through the settling tank and filtered through a plurality of screen networks made of microfibers while being supplied from a lower portion of the partition wall and moving upwardly; A sterilization tank through which the purified water is supplied from the upper part of the partition wall and sterilized by the micromovement of the silver electrode; Pressure water purification facilities for tap water located on both sides of the sterilization tank having a storage tank that is moved and stored until the water is finally purified through the sterilization tank discharged into a constant.

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