KR100423164B1 - Device for sterilization sewage by using ultraviolet rays - Google Patents

Abstract

The present invention relates to a sewage sterilization apparatus using a large-capacity, high-efficiency ultraviolet ray, and a case of a rectangular frame shape capable of flowing through contaminated water; A socket protective case in contact with an upper surface of the case; An operation cylinder fixed to an upper end surface of the socket protective case and having a cylinder rod movable forward and backward vertically; A plurality of connection sockets fixed to a portion partitioned by a partition wall at an upper end of the case and connected to a power supply unit; A sterilizing lamp connected to the connection socket and arranged in the longitudinal direction of the case; A quartz tube inserted into an outer circumferential surface of the sterilizing lamp to protect it; A cylindrical ring-shaped wiper which is divided on the outer circumferential surface of the quartz tube so as to be divided into three lengths and movable along the quartz tube; The outer circumferential surface of the wiper is integrally fixed, and at the center thereof, the cylinder rod is fixed and includes a square plate-shaped operation plate disposed to interlock therewith.

According to the present invention, since the lamp is installed in the longitudinal direction (vertical), it is easy to visually distinguish the abnormality of all lamps mounted on the module to easily replace the lamp or quartz tube having an abnormality by only lifting the upper socket protective case. It is easy to maintain, saves time and money, and provides the effect of improving sterilization ability by maximizing the processing time and contact area according to sterilization by inflow and outflow guide plate.

Description

Sewage sterilizer using large-capacity high-efficiency ultraviolet light {DEVICE FOR STERILIZATION SEWAGE BY USING ULTRAVIOLET RAYS}

The present invention can be easily installed on pipelines of existing sewage, wastewater purification facilities, food, soft drink processed water supply, aquaculture, pharmaceuticals and hospitals without changing the facilities of living sewage, industrial Infectious pathogens are sterilized by E. coli, virus, bacteria, erythrocytes, TIS, cholera, Mycobacterium tuberculosis, Pseudomonas aeruginosa, and tetanus bacteria when they are finally discharged after being treated in a purification facility. The present invention relates to a sewage sterilization apparatus using large-capacity high-efficiency ultraviolet light that can supply clean water without water.

As is well known, water is considered to be an infinite natural resource as one of the most important for humans to live, but due to explosive population growth, industrialization and urbanization, water consumption is rapidly increasing, making it a scarce resource rather than an infinite natural resource. .

In particular, the 21st century is predicted as the 'Water War Era', and in Korea, water shortages are getting worse due to the acceleration of water pollution and waste of tap water.

Therefore, efforts have been made to purify and recycle household sewage, industrial wastewater, and agricultural and livestock wastewater, but even if these wastewaters are purified, E. coli, viruses, bacteria, erythrocytes, Tibes, cholera, tuberculosis, Pseudomonas aeruginosa and tetanus Pathogens such as bacteria survive, and if they enter rivers, lakes, or seep into the ground, they cause secondary groundwater contamination, resulting in urban waterworks, ultrapure water systems, aquaculture, pharmaceuticals, hospitals, electronic parts processes, high pure water treatment, and processing of food and soft drinks. Not only the supply of water, but also a great impact on water pollution, and eventually endanger the human body and mental health in humans going for life.

Recently, many efforts have been made to purify and sterilize contaminants such as sewage, sewage, and wastewater. For example, Patent Application 2000-44797 entitled "Wastewater Treatment System Using Natural Purification Principle", Patent "Sewage Purification Apparatus and Method" in Application 1998-34316, "Ultraviolet Disinfection Equipment for Waterways" in Patent Application 1999-52718, and "Waste Water Purification by Combined Ultrasonic, Ozone, High Frequency, and Ultraviolet Reaction" of Utility Model Registration Application 2000-37165 Apparatus "," Ultraviolet Water Sterilizer "of PCT / US1997 / 13528, and" Ultraviolet and Silver Sterilizer "of Utility Model Registration 97-14867 have been published.

However, in the case of these published technologies, for example, in the case of patent application 1998-34316, the sterilization performance of the sewage purification apparatus is not stable and the facility is very complicated, and the patent applications 2000-44797 and 1999-52718, 2000-37165, PCT In the case of / US1997 / 13528, 97-14867, there was a drawback that the sterilization efficiency decreased rapidly due to the generation of scale on the outer wall of the ultraviolet lamp or the quartz tube, thereby reducing the sterilization efficiency.

In addition, there are physicochemical treatment methods, biological methods, activated sludge methods, plasma methods, ultraviolet methods, ozone methods, chlorine injection methods, etc., but most of these methods require large-scale facilities for the treatment. It is not suitable because it is not remarkable in the case of biological treatment methods. Especially, it is more complicated because the problem of regeneration of toxic substances has to be taken into consideration. It was very inefficient due to complex problems such as loss of sterilization ability.

In addition, in the past, since the lamp was mounted horizontally, it is difficult to visually identify the abnormality of the lamp and the excessive application of foreign substances on the quartz tube. Therefore, various sensor units should be additionally attached and the module of the device should be lifted and checked and replaced by a crane. Since it is difficult to maintain, excessive time and cost were disadvantageous.

In addition, since the lamp is horizontally mounted, the socket part is sealed and installed in the water so that the electrical safety risks exist.

The present invention has been made in view of the above-described problems of the prior art, and has been created to solve this problem, before the final discharge after the existing sewage purification treatment in domestic sewage, industrial wastewater, agricultural and livestock wastewater causing water pollution or Or food, soft drinks, aquaculture, pharmaceuticals. Sterilize and disinfect E. coli, virus, bacteria, E. coli, T. cholera, cholera, Mycobacterium tuberculosis, Pseudomonas aeruginosa, and tetanus bacteria using high-efficiency UV light in the process of electronic components. This makes it easy to visually distinguish any abnormality of all the lamps mounted on the module, so it is easy to replace the lamp or quartz tube with the abnormality by only lifting the socket protection case on the upper part, and it is easy to maintain and save time and cost. It can be, through the induction plate to maximize the sterilization and disinfection range is to provide a sewage sterilization apparatus using a large-capacity high-efficiency ultraviolet light that enables large-capacity treatment.

1 is a schematic cross-sectional view showing the internal structure and operating state of the apparatus according to the present invention;

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view of main parts of the device of the present invention;

Figure 4 is a schematic operating state of the device of the present invention.

Explanation of symbols on the main parts of the drawings

10 case 15 socket protection case

20: working cylinder 30: connecting socket

40: germicidal lamp 50: quartz tube

60: Wiper 70: Operation Plate

80a: water induction plate 80b: water induction plate

92: inlet 94: outlet

100: sludge gate 200: water level control unit

300: UV sensor 400: baffle plate

The above object of the present invention and the case of the rectangular frame shape capable of perfusion of contaminated water; A socket protective case in contact with an upper surface of the case; An operation cylinder fixed to an upper end surface of the socket protective case and having a cylinder rod movable forward and backward vertically; A plurality of connection sockets fixed to a portion partitioned by a partition wall at an upper end of the case and connected to a power supply unit; A sterilizing lamp connected to the connection socket and arranged in the longitudinal direction of the case; A quartz tube inserted into an outer circumferential surface of the sterilizing lamp to protect it; A cylindrical ring-shaped wiper which is divided on the outer circumferential surface of the quartz tube so as to be divided into three lengths and movable along the quartz tube; The outer peripheral surface of the wiper is integrally fixed, the center of the cylinder rod is fixed by providing a sewage sterilization apparatus using a large-capacity high-efficiency ultraviolet light characterized in that it comprises a square plate-shaped operation plate disposed to be interlocked with it. Is achieved.

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

Figure 1 is a schematic cross-sectional view showing the internal structure and operating state of the device according to the invention, Figure 2 is a cross-sectional view taken along the line A-A of Figure 1, Figure 3 is a cross-sectional view of the main part of the device.

1 to 3, a case 10 having a rectangular frame shape having an open side is provided, and a socket protective case 15 is disposed to abut on an upper surface of the case 10, and the socket protective case 15 is provided. On the top surface of the) is provided an installation portion 12 which is a space of a predetermined size.

Here, the socket protective case 15 is easily distinguished by the naked eye whether all the lamps installed in the module with the naked eye only the lamp or quartz tube with the abnormality can be easily replaced by holding only the socket protective case 15 Easy to repair and saves cost and time.

An operating cylinder 20 capable of moving forward and backward toward the vertical downward is fixed to the installation part 12, and a cylinder rod 22 is connected to the front end of the operating cylinder 20.

The operation cylinder 20 is preferably a pneumatic or hydraulic cylinder that is easy to control, and one stroke of the cylinder rod 22 is preferably set to correspond to the separation distance between the wipers 60 to be described later.

A predetermined space is partitioned by the partition wall 14 at the upper end of the case 10, and a plurality of rows of connection sockets 30 are installed on the upper side divided by the partition wall 14.

The connection socket 30 is electrically connected to a power supply (not shown).

A plurality of pairs of sterile lamps 40 are connected to the connection socket 30 and extended downward, and are disposed up to a position adjacent to the bottom surface of the case 10.

The connection socket 30 and the sterilizing lamp 40 is preferably formed integrally with each other.

Here, the germicidal lamp 40 may use any one selected from high-efficiency ultraviolet rays having a wavelength band around 253.7nm to emit germicidal rays or ultraviolet rays simultaneously generating ultraviolet rays and ozone, and a combination thereof, for example, two It may be arranged in pairs to form a group of sterilizing lamps. In addition, only ultraviolet lamps emitting ultraviolet rays having a wavelength band of 253.7 nm may be used, or only ozone lamps may be used, or they may be used in combination. In this case, ozone produced by ozone lamp can be classified into direct reaction of ozone molecules and indirect reaction of OH and O radicals caused by self-decomposition. The direct reaction of ozone causes the organic and ozone molecules to react directly to form primary intermediates, which in turn react slowly with ozone to convert to other oxidation or final products. This direct reaction occurs in an acidic region where ozone does not undergo autolysis. Indirect reactions of ozone react with organics, with ozone decomposing intermediates such as OH and O radicals produced during autolysis as important oxidants. The OH radicals generated by the autolysis of ozone have a higher potential difference than ozone and are evenly reacted with almost all organic materials at high speed. In addition, the absorption of visible light due to the destruction of the double bond in this process also has a decolorizing function of ozone to remove the chromaticity.

The outer circumferential surface of the sterilizing lamp 40 is covered with a quartz tube 50, and a cylindrical annular wiper 60 is wound around the outer circumferential surface of the quartz tube 50.

The wiper 60 is preferably provided by three by dividing the length of the quartz tube 50 into approximately three equal parts.

In addition, the operation plate 70 is connected to the width (length) middle portion of the wiper 60, the operation plate 70 is a plurality of holes perforated by the outer diameter of the wiper 60 in the rectangular plate-shaped member It is preferable that the outer circumferential surface of the wiper 60 is fixedly coupled to the hole.

Here, the operation plate 70 is preferably formed in a square plate shape, but may simply take the shape of a square bar and allow the outer circumferential surface of each wiper 60 to be coupled thereto in a welding-like manner.

The operation plate 70 is divided into three equally divided along the length of the cross-section pipe 50 is disposed in three divided in the longitudinal direction of the quartz tube 50, the center of the cylinder rod ( It is fixed to the outer circumferential surface of 22).

Accordingly, the three operation plates 70 divided and disposed in the up and down direction are simultaneously lifted up and down in accordance with the lifting and lowering operation of the cylinder rod 22, and thus the wiper connected to the outer circumferential surface of the quartz tube 50 described above. 60) while also lifting up and down to wash the outer peripheral surface of the quartz tube (50).

The wiper 60 is preferably made of Teflon material so that its inner circumferential surface is in close contact with the outer circumferential surface of the quartz tube 50.

On the other hand, as shown in Figure 4, on both sides of the outer circumferential surface of the case 10, a pair of entry and exit guide plates 80a, b, which are appropriately divided in the vertical direction of the case 10, are installed symmetrically with each other.

That is, the induction guide plate 80a covers a semicircular shape while covering from the lower end of the opposite side case 10 of the inlet portion 92 into which sewage and wastewater flow into the point of dividing the upper and lower lengths of the case 10 by two-thirds. Excreted

On the other hand, the water induction guide plate 80b is disposed in a semicircular shape while covering the same from the upper end of the case 10 at the position opposite to the induction guide plate 80a to the point of dividing the length 2/3 toward the lower end. It is composed.

That is, the inflow and outflow guide plate (80a, b) is to guide the contaminated water to flow in the 'S' shape.

Therefore, the sewage or wastewater introduced through the water inlet unit 92 is diverted through the water induction guide plate 80a to be directed toward the water induction guide plate 80b, and is redirected toward the water induction guide plate 80b. The wastewater is diverted again through the water outlet 94.

In addition, the supply of contaminated water may be directed from the lower side to the upper side, or may be directed from the upper side to the lower side, but it is particularly preferable to bend in the 'S' shape through the inflow and outflow guide plates 80a and b.

The reason why the inflow and outflow guide plates 80a and b are installed to give the 'S' shape pipe is to improve the sterilization performance by lengthening the contact flow with the sterilization lamp 40 by lengthening the discharge passage of the wastewater and wastewater. .

The present invention made up of such a configuration has the following operational relationship.

As shown in Figure 4, the contaminated water is discharged toward the upper side from the lower side of the purification equipment is bent in the 'S' shape through the inlet and outflow guide plate (80a, b) to the contact time and the contact area with the sterilization lamp 40 Maximize to improve sterilization ability.

When a predetermined time passes while the sterilization treatment is performed in such a manner, the sterilization lamp 40 is attached to the outer surface of the quartz tube 50 such as minerals or scales such as iron, magnesium, calcium carbonate, etc. existing in the contaminated water. If the action of the lowering, the operation cylinder 20 is operated to raise and lower the cylinder rod 22 a number of times.

The operation plate 70 and the wiper 60 are moved along the outer surface of the quartz tube 50 by the lifting and lowering operation of the cylinder rod 22 to completely remove inorganic substances or scales attached to the outer surface thereof. do.

Therefore, the sterilizing power of the sterilizing lamp 40 is returned to its original state and the sterilizing ability is maintained in the initial state.

Such descaling is more preferably done periodically by adding an operation cylinder 20 control means such as a timer.

In addition, the device used in the present invention before the final discharge through the sand filter (SAND FILTER) in a large-scale, large-scale comprehensive sewage treatment plant or waste water treatment plant, and during high-purity treatment according to the process of aquaculture, pharmaceutical, electronic parts, In addition, E. coli, virus, bacteria, E. coli, T. bacilli, cholera, Mycobacterium tuberculosis, Pseudomonas aeruginosa, and tetanus bacteria, which were not sterilized during food and soft drink feed water treatment, were treated using high-efficiency ultraviolet rays (wavelength 253.7 nm) without changing existing facilities. Sterilization by nucleic acid destruction by chemical change by inducing cell membrane permeation and damage of nucleic acid (DNA) and blocking the deterioration of sterilization ability by high efficiency UV lamp by removing scale using working cylinder 20 It is so long.

On the other hand, Figure 5 shows an example of the use of the present invention, by installing the present invention on the outside of the sludge gate 100 installed before the final discharge of sewage treatment can filter the trace amount of sludge first and then control the flow rate Can be configured to

That is, by installing a baffle plate 400 on the top of the sludge gate 100 into which the sewage flows, the first amount of sludge contained in the sewage is filtered and then sterilized through the induction guide plate 80a and the water extraction guide plate 80b. It can be configured to overflow and drain the water level control unit 200 installed on the upper side of the discharge dam (DAM) (omitted to omission) through which the sewage flows.

Here, the water level control unit 200 is preferably installed to enable height adjustment using a hydraulic cylinder or a drive motor and a screw shaft.

In addition, an ultraviolet sensitivity sensor 300 is attached to the inside of the water induction plate 80a to monitor the sewage treatment state from the outside through the ultraviolet sensitivity sensor 300 in addition to the above-described timer and to operate the wiper as necessary. Can be configured.

In particular, the ultraviolet sensitivity sensor 300 and the display unit is electrically connected to enable the operator to monitor the treatment status of the sewage in real time.

In addition, Figure 6 is a schematic diagram showing the flow mechanism of the sewage according to the device of the present invention, as shown in the modularized installation of the device of the present invention on the flow path through the inlet and outlet, as shown in the figure, each module is divided into A separate water level control unit 200 and the UV sensitivity sensor 300 can be installed, and the lowermost side can be configured to quickly cope with the sudden increase of influent by configuring a bypass flow path.

As described above, each module may be installed in parallel so as to be able to quickly cope with a sudden increase in water shortage or sudden inflow, but may be configured in series as necessary.

EMBODIMENT OF THE INVENTION Hereinafter, the Example of the apparatus of this invention is described.

Example 1

Water quality: Sewage treatment plant (pipe type)

Installation place: Drain pipe between sand filter and discharge

Sewage treatment process: Aeration tank (biological treatment) → final settler → sand filter → high efficiency UV sterilization → discharge

Experiment apparatus: 65W / ea, 42 high-efficiency UV lamps per unit, 6 units total

Lamp Length: 1552mm

Lamp Arc Length: 1473mm

Capacity per hour: 2400 ton

Target bacteria: Escherichia coli, general bacteria

Processing result

Bacteria Sewage Treatment Plant Treatment water (average value) (piece / mL) Escherichia coli 7 × 10 ⁴ to 1.7 × 10 ⁵ 75 General bacteria 4 × 10 ⁴ 60

Example 2

Water Quality: Sewage Treatment Plant (OPEN CHANNEL TYPE)

Installation place: Drainage pipe between final settler and discharge

Sewage treatment process: Aeration tank (biological treatment) → Final settlement battery → High efficiency UV sterilization → Discharge

Experiment apparatus: 90W / ea, 24 high-efficiency UV lamps (1 unit), 4 units total

Lamp Length: 1552mm

Lamp Arc Length: 1473mm

Capacity per hour: 1600 ton

Target bacteria: Escherichia coli, general bacteria

Bacteria Sewage Treatment Plant Treated water (pieces / ml) Escherichia coli 2 × 10 ⁴ to 3.5 × 10 ⁴ 50 General bacteria 7.8 × 10 ³ 30

Example 3

Water Quality: Sewage Treatment Plant

Capacity: 10000 ㎥ / day

Processing Result:

Inflow water quality (E. coli) TC 100000 MPN / 100ml Effluent quality (E. coli) TC 1000 MPN / 100ml Inflow SS MAX 20 ppm (<20 mg / ℓ)

As described in detail above, in the present invention, since the ultraviolet lamp is installed in the longitudinal direction, it is easy to visually distinguish the presence or absence of all lamps mounted on the module with the naked eye, and easily lift the lamp lamp or quartz tube with the upper socket protection case. It can be replaced, so maintenance is simple, time and cost can be saved, and immersion capacity is improved by maximizing treatment time and contact area according to sterilization of contaminated water by inflow and outflow guide plate.

In addition, the device of the present invention also provides the advantage of being very safe since the socket portion is placed on water.

Claims (3)

A case 10 having a rectangular frame shape through which contaminated water can flow; A socket protective case 15 disposed in contact with the upper surface of the case 10; An operation cylinder (20) having a cylinder rod (22) fixed to an upper end surface of said socket protective case (15) and movable forward and backward vertically; A plurality of connection sockets 30 fixed to a portion partitioned by the partition 14 which is an upper end side of the case 10 and connected to a power supply unit; A sterilization lamp (40) connected to the connection socket (30) and arranged in the longitudinal direction of the case (10); A quartz tube 50 inserted into an outer circumferential surface of the sterilizing lamp 40 to protect it; Cylindrical ring-shaped wiper 60 is divided into three parts of the length of the quartz tube 50 and covered on its outer circumferential surface so as to be movable along it; An outer circumferential surface of the wiper 60 is integrally fixed, and at the center thereof, a cylinder plate 22 is fixed and includes a square plate-shaped operation plate 70 interlocked therewith. Sewage sterilizer using ultraviolet rays. The method of claim 1, wherein the socket protective case 10 is provided with a semi-circular guide plate (80a, b) in each of the water inlet and the water outlet to receive the contaminated water to the flow of contaminated water 'S' shape Sewage sterilizer using a large-capacity high-efficiency ultraviolet light, characterized in that arranged to bend. According to claim 1, wherein the socket protection case 15, the sterilization lamp 40 and the quartz tube 50 is integrally connected and detachably installed from the case 10 using a large capacity high-efficiency ultraviolet light Sewage Sterilizer.