KR101721249B1 - Filter Device including UV Disinfection - Google Patents

Abstract

The present invention relates to a monolithic UV filter capable of disinfection at the same time as filtration. In detail, the filtration device and the water treatment device, which are conventionally installed separately, can be easily integrated to reduce initial installation cost and maintenance cost required for cleaning, A UV filter capable of improving the layer stability of the filter media used in the apparatus and improving the quality of the final treated water.

Description

UV filter (including UV filter)

The present invention relates to a monolithic UV filter capable of disinfection at the same time as filtration. In detail, the filtration device and the water treatment device, which are conventionally installed separately, can be easily integrated to reduce initial installation cost and maintenance cost for cleaning, Backable UV filter capable of improving the layer stability of the filter media used in the apparatus and improving the quality of the final treated water.

Recently, concerns about water shortage have increased, and water pollution has been prevented. In order to effectively treat various polluted water, the pollutant discharge allowance standard has been strengthened, biological or physicochemical advanced treatment facilities have been expanded, and final discharge water Various types of filtration devices have been proposed and used for increasing the quality of water.

The most commonly used filtration device is a single treatment tank, in which wastewater is supplied through the raw water line and passes through the sand filled in the treatment tank, so that the floating matter remaining in the raw water is adhered to the sand and removed, The treated water is floated upward and discharged through the discharge line.

In recent years, there has been a further demand for treatment of harmful microorganisms such as E. coli, general bacteria and bacteria in the final effluent in the water treatment facility. Accordingly, electrolytic disinfecting method for treating pathogenic and non-pathogenic bacteria in the conventional filtration apparatus, And various sterilization devices to which ultraviolet rays or ozone sterilization methods are applied are installed and operated in conjunction with each other.

Korean Patent Laid-Open No. 2010-0078398 discloses a water treatment system in which UV light is connected to the rear of a filtration device to sterilize filtered raw water. In Korean Patent Laid-Open No. 2005-0032168, ultraviolet And chlorine to kill the microorganisms.

However, when various water treatment devices such as a filtration device and a sterilizing device are installed and operated in this way, not only the initial installation cost is large, but also maintenance work such as cleaning process becomes difficult.

Korean Unexamined Utility Model Publication No. 2010-0078398 (published on July 8, 2010) Korean Unexamined Patent Publication No. 2005-0032168 (published Apr. 7, 2005)

In order to solve the above-mentioned problems, an object of the present invention is to provide a filtering apparatus and a sterilizing apparatus which can simultaneously perform filtration and sterilization to improve quality of final treated water, And to provide a UV filter that is easy to manage.

According to an aspect of the present invention, there is provided an air conditioner, comprising: an outer housing having a raw water inlet; A sterilizing space B is formed in the inside of the filtering space A and an inner housing 120 formed with a treated water outlet 123 is formed at one side of the outer housing 110. [ A filtering medium 112 for filtering impurities of raw water is filled in the filtering space A and an ultraviolet lamp 122 for sterilizing filtration water from which impurities have been removed is filled in the sterilization space B, The water treatment system according to claim 1,

At this time, a filtering medium loss preventing porous plate 121 communicating the filtration space A and the sterilizing space B is formed in the lower part of the inner housing 120, The inner housing 120 may be configured to be detachable from the outer housing 110. The inner housing 120 may be detachable from the outer housing 110. [

In addition, the raw water introduced from the raw water inlet 111 preferably forms a vortex that rotates along the inner wall of the outer housing 110 while descending.

A guide vane 124 may be formed on the inner wall of the inner housing 120 so as to form a vortex in the filtered water that has passed through the filtering medium loss preventing porous plate 121. The vortexed filtered water may be irradiated with ultraviolet rays It is preferable that the ultraviolet ray lamp 122 is pivotally moved about the central axis to increase the time. At this time, the direction of the vortex formed in the sterilizing space B through the guide vane 124 may be opposite to the direction of the vortex formed in the filtering space A, but is not limited thereto.

In addition, the ultraviolet lamp 122 ultimately needs to be cleaned by the vamping lamp. However, if necessary, an electric lamp cleaning facility may be installed so that contaminants stick to the outer surface of the ultraviolet lamp, Can be prevented.

A bubble generator 125 for discharging air bubbles may be formed in the lower portion of the sterilization space B, and the air bubbles may have various sizes, but may be micro bubbles having a diameter of 10 to 100 μm .

In the meantime, the present invention may further include a pump for introducing washing water into the treated water outlet 123 during backwashing, and the washing water introduced from the treated water outlet 123 may be supplied with the washing water It is preferable to form a vortex that rotates along the inner wall of the inner housing 120 while descending.

In the backwashing of the UV filter, it is possible to apply air washing and water washing together in order to improve the backwashing efficiency. In this case, a blower for injecting air may be additionally included.

The UV filter of the present invention can improve the quality of the final treated water by improving the layer stability of the filter material and increasing the ultraviolet irradiation time as well as enabling the filtering device and the sterilizing device to be integrally formed and disinfect at the same time as the filtration. In addition, it is possible to easily connect to the existing filtration device, which can reduce the initial installation cost, and the cleaning can be performed at a time by backwashing, which is easy to maintain.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view and a cross-sectional view showing a structure of a UV filter and a water treatment flow according to an embodiment of the present invention; FIG.
3 and 4 - longitudinal and transverse cross-sectional views illustrating a UV filter construction and water treatment flow according to another embodiment of the present invention
5 and 6 - longitudinal and transverse cross-sectional views showing the water treatment flow in the UV filter during backwashing

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, which are intended to illustrate the present invention in a manner that allows a person skilled in the art to easily carry out the invention. The present invention is not limited thereto.

Throughout this specification, when an element is referred to as "including" an element, it is understood that it may include other elements as well, without departing from the other elements unless specifically stated otherwise.

Generally, in the filtration apparatus, the wastewater is supplied through the raw water line through the treatment tank, passes through the sand filled in the treatment tank, and the floating matter remaining in the raw water is adhered to the sand and removed. .

In recent years, various disinfection apparatuses for treating harmful microorganisms have been installed and operated in a conventional filtration apparatus in order to treat harmful microorganisms in a water treatment facility. However, when various water treatment apparatuses are installed and operated in connection with such a variety of water treatment apparatuses, there is a problem that not only an initial installation cost is consumed, but also a maintenance work such as a cleaning process becomes difficult.

Accordingly, in the present invention, the filtration device and the sterilizing device are integrally formed so that filtration and sterilization are simultaneously performed in one device, and the cleaning process is performed simultaneously through backwashing. In addition, the present invention is characterized in that the filtration device and the sterilizing device can be integrally formed while fully utilizing the existing filtration device, thereby reducing the initial installation cost.

Specifically, the UV filter of the present invention has a double structure composed of an outer housing 110 having a raw water inlet 111 formed on one side thereof and an internal housing 120 having a treated water outlet 123 formed on one side thereof as shown in FIG. 1 The inner housing 120 is inserted into the outer housing 110 with a gap therebetween to form a filtering space A on the outside and a sterilizing space B on the inside.

At this time, a filter medium 112 for filtering impurities of raw water is filled in the filtration space A, and an ultraviolet lamp 122 is installed in the sterilization space B to sterilize filtration water from which impurities have been removed . As the filter medium 112, various particulate media such as sand, anthracite, and activated carbon may be used.

A filtration material passing through the filtration media 112 is formed in the lower portion of the inner housing 120 so as to communicate with the sterilization space B. And then flows into the sterilization space B from the filtration space A through the anti-perforated plate 121. The filter material loss preventing porous plate 121 is not limited in its kind as long as it can pass only the filtered water that has passed through the filter material 112 without passing through the filter material 112. In one embodiment, A perforated plate having a shape or a mesh shape may be used.

Meanwhile, the inner housing 120 may be fixed to the outer housing 110, but it may be detachable from the outer housing 110. The UV filter of the present invention can be easily constructed by simply inserting the inner housing 120 into the various types of filtration apparatuses that have been used in the past by easily detachably installing the inner housing 120. As a result, Can be minimized.

2, the raw water introduced from the raw water inlet 111 may descend while being rotated along the inner wall of the external housing 110 It may have a cylindrical shape so as to form a vortex.

At this time, the flow direction of the raw water inlet 111 is preferably a tangential direction of a cross section of the outer housing 110 or a tangential direction of a vortex to be formed, rather than a center of the inside of the outer housing 110, to facilitate vortex formation.

When the raw water flows into the filter medium 112 while forming the eddy current as described above, the layer stability of the filter medium is improved and the filtration efficiency is improved.

3, a guide vane 124 for forming a vortex in the filtered water passing through the filtering medium loss prevention porous plate 121 may be separately formed under the sterilization space B, as shown in FIG. The filtered water having the vortex is raised by turning around the central axis of the ultraviolet lamp 122. This not only increases the ultraviolet ray irradiation time for the filtered water but also causes the filtered water passing through the filter medium 112 to flow into the sterilization space B It can be a driving force.

At this time, the direction of the vortex formed in the sterilization space B may coincide with the direction of the vortex formed in the filtration space A of the outer housing 110, but the time required for the filtered water to stay in the sterilization space B is maximized The direction of the vortex formed in the filtration space A may be adjusted by adjusting the installation direction of the guide vanes 124 installed on the inner wall of the inner housing 120.

Further, in order to increase the sterilizing power, a bubble generator 125 for discharging air bubbles may be additionally installed in the lower part of the sterilizing space B. The air bubbles are supplied to the inner housing 120 provided with the ultraviolet lamp 122, so that ultraviolet ray transmittance is increased by ultraviolet scattering due to air bubbles, thereby further improving the sterilizing power.

At this time, the air bubbles may have various sizes, but they are preferably micro bubbles having a diameter of 10 to 100 μm in order to increase the sterilizing power. Unlike nano bubbles that do not change in size over time, the microbubbles float at a high speed, increasing the lifting speed and diameter gradually as they float, increasing the residence time and diffusivity in the treated water of the bubbles .

In addition, microbubbles have an effect of improving water quality by themselves because of high oxygen transfer efficiency in water.

In the meantime, the present invention is characterized in that the filtration device and the sterilizing device are integrally formed, and the cleaning process is performed simultaneously with backwashing as shown in FIGS. The washing water flowing into the inner housing 120 through the treated water outlet 123 is washed first in the sterilization space B and then through the filter material loss preventing plate 121 to the filtration space A The filter medium 112 is washed and finally discharged to the outside through the raw water inlet 111.

At this time, it is preferable that the washing water flowing into the treated water outlet 123 forms a swirling vortex that rotates along the inner wall of the inner housing 120. By forming the vortex in this manner, it is possible to increase the contact time of the ultraviolet lamp by the washing water, thereby enabling stable washing.

In addition, when backwashing, a pump for injecting washing water into the treated water outlet 123 may be additionally connected. If necessary, an electric lamp washing facility may be installed to cause contaminants to adhere to the outer surface of the ultraviolet lamp, It is possible to prevent the efficiency from being lowered.

In order to improve the backwashing efficiency of the UV filter, it is possible to apply the air cleaning and the water cleaning together, in which a blower for injecting air can be additionally connected.

The present invention is not limited to the above-described specific embodiments and descriptions, and various modifications can be made to those skilled in the art without departing from the gist of the present invention claimed in the claims. And such modifications are within the scope of protection of the present invention.

A: Filtration space B: Sterilization space
110: outer housing 111: raw water inlet
112: filter medium 120: inner housing
121: Filter media for preventing material loss 122: Ultraviolet lamp
123: Process water outlet 124: Guide vane
125: bubble generator

Claims (7)

An outer housing 110 having a raw water inlet 111 formed at one side thereof; A sterilizing space B is formed in the inside of the filtration space A and an inner housing 120 formed with a treated water outlet 123 at one side is inserted into the outer housing 110 with a space therebetween, ); And a pump for inputting washing water in backwashing to the treated water outlet 123,
A filter medium 112 for filtering impurities of raw water is filled in the filtration space A and an ultraviolet lamp 122 for sterilizing filtered water in which impurities are removed is installed in the sterilization space B,
A filtering material loss preventing porous plate 121 communicating the filtration space A and the sterilizing space B is formed at a lower portion of the inner housing 120,
The filtering medium loss prevention porous plate 121 is a filter having a shape in which the beads are thermally compressed or in the form of a mesh,
Filtered water having passed through the filter medium 112 flows into the sterilizing space B through the filtering medium loss preventing porous plate 121,
The raw water introduced from the raw water inlet 111 forms a vortex that descends and rotates along the inner wall of the outer housing 110,
A guide vane 124 for forming a vortex is formed in the filtered water passing through the filtering medium loss preventing plate 121 in the lower part of the sterilizing space B and the filtered water having the vortex is formed on the center axis of the ultraviolet lamp 122 As it turns,
And a bubble generator (125) for discharging air bubbles is formed below the sterilizing space (B). delete The method according to claim 1,
Wherein the inner housing (120) is removable from the outer housing (110). delete delete delete The method according to claim 1,
Wherein the air bubble is a micro bubble having a diameter of 10 to 100 占 퐉.

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