KR200386833Y1 - Vertical-type disinfection installation equipped with gathering means for water - Google Patents

Abstract

The present invention relates to a disinfection apparatus for sewage and sewage using ultraviolet rays, and relates to an ultraviolet disinfection apparatus installed in a disinfection tank in which disinfection is performed, which is the last step of the water purification process. More particularly, the present invention relates to a vertical ultraviolet disinfection apparatus having a water collection pump for collecting the discharged treated water, which does not require a separate collection tank.

The present invention is a disinfection tank having a front inlet, a rear discharge port, and an upper cover; and a housing installed inside the disinfection tank, the housing having an inlet and an outlet communicating with the discharge port of the disinfection tank, one arranged inside the housing. Or two or more ultraviolet lamps, an ultraviolet disinfecting part including a quartz tube surrounding an ultraviolet lamp outer circumferential surface for protection of the ultraviolet lamps; and an outlet port adjacent to the disinfecting cover and having a suction port communicating with an outlet of the ultraviolet sterilizing part housing; A water collecting means including a pipe having a pipe, and a pump arranged in the pipe to pump the treated water for water quality inspection; And a control unit for controlling the ultraviolet lamp and the pump.

Description

VERTICAL-TYPE DISINFECTION INSTALLATION EQUIPPED WITH GATHERING MEANS FOR WATER}

The present invention relates to a disinfection apparatus for sewage and sewage using ultraviolet rays, and relates to an ultraviolet disinfection apparatus installed in a disinfection tank in which disinfection is performed, which is the last step of the water purification process. More particularly, the present invention relates to a vertical ultraviolet disinfection apparatus having a water collection pump for collecting the discharged treated water, which does not require a separate collection tank.

Water is one of the indispensable resources for human life. Only a short time ago water was considered an infinite natural resource, but now prophecies are emerging that the war of water will come. This is due to the explosive increase in water consumption and the pollution of water due to industrialization and urbanization.

At this point, the importance of water plays a pivotal role in securing water sources and protecting the environment.

In general, the sewage is not possible to completely remove the pollutants even after the secondary treatment process, and even after biological secondary treatment, the effectiveness of water quality improvement in the discharge water is not significant, resulting in contamination of the discharge water. Therefore, in addition to organic matter not removed in the secondary treatment, it is generally discharged after the third treatment process to remove nutrients such as nitrogen and phosphorus, and harmful bacteria. The present invention also relates to the third process of disinfection.

As a method of disinfecting water, disinfection with chlorine and disinfection using ozone or ultraviolet rays are performed. In the case of chlorine disinfection, it is not only adversely affecting the ecosystem of the river, but also gradually decreases its use as it is found that carcinogens called trihalomethane (THM) are formed by combining with organic matter. In the case of disinfection using ultraviolet rays, ultraviolet rays are modified by changing the characteristics of the genetic factors of various bacteria to prevent their reproduction, and in particular, by disinfecting nucleic acids through the cell membranes of various bacteria, the disinfection is performed. It is used to disinfect water in various fields such as water purifiers as well as facilities.

Prior art regarding disinfection apparatus using ultraviolet rays, registered utility model 20-0269952 (notice date 2002.03.27) 'sewage sterilizer using large-capacity high-efficiency ultraviolet rays', registered utility model 20-0354961 (notice date 2004.07.01) Pipeline UV disinfection facilities, registered utility model 20-0363076 (Notice date 2004.09.14), such as 'sewage treatment system using ultraviolet rays' have been disclosed.

The above-described prior art is characterized in that it is easy to repair and replace the ultraviolet lamp (20-0269952), and the manhole is installed on the discharge pipe of the water treatment facility to be ultraviolet sterilized under natural load. 0354961), and a transparent tube and a reflecting plate are provided to keep the emission of ultraviolet rays constant (20-0363076).

In disinfection just before water is discharged into a river, the quality of the discharged water should be examined. To this end, in order to collect the discharged water, the conventional method is to separate the water tank into civil structures and to collect water contained in the water tank to inspect the water quality. The above-mentioned prior art will also inevitably have to make a collection tank because no separate means for collecting the discharged water is mentioned. If a separate collection tank is made, the manufacturing cost is additionally increased, space for the collection tank is required, and foreign substances may be introduced into the collection tank, thereby preventing accurate water quality inspection of the discharged water.

The present invention was devised to solve the above problems, and it is not necessary to make a separate collection tank by installing a pump for collecting the treated water inside the disinfection tank, thereby reducing the installation and maintenance costs, and the collected water is discharged. The purpose of the present invention is to enable accurate water quality inspection as water just before becoming.

In addition, by installing a disinfection tank so that the treated water flows in and discharges in the natural flow state, a separate pump is not required to introduce the treated water, thereby reducing power costs and preventing the maintenance cost of the pump from being spent. to be.

In addition, the present invention intends to increase the disinfection effect by installing a washing means movable along the quartz tube to remove the scale adhering to the outer wall of the quartz tube, and to polish the inner surface of the stainless steel housing to reflect the ultraviolet rays. Another purpose.

The above object of the present invention is a disinfection tank having a front inlet, a rear discharge port, and an upper cover; and a housing installed inside the disinfection tank and having an inlet through which the treated water enters and an outlet in communication with the discharge port of the disinfection tank. One or more ultraviolet lamps arranged, an ultraviolet disinfecting part including a quartz tube surrounding the outer surface of the ultraviolet lamp for protection of the ultraviolet lamp; and an inlet port which is in communication with the housing and is inclined at the outlet of the ultraviolet disinfecting part housing. A water collecting means including a pipe having a discharge port adjacent to the cover, and a pump arranged in the pipe to pump the treated water for water quality inspection; And a control unit for controlling the UV lamp and the pump.

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

1 is a schematic cross-sectional view according to an embodiment of the present invention.

Referring to Figure 1, the present invention is a disinfection tank 10 and the ultraviolet disinfection unit 20 and the water collecting means 30 and vertically installed in the interior of the disinfection tank 10 and the control unit 40 and the washing means 50 and It can be seen that the air generating unit 60.

The disinfection tank 10 is a place where the treated water is introduced and stored and discharged when the water level is above a certain height. To this end, the inlet 11 and the outlet 12 are provided on the side wall of the disinfection tank 10. The disinfection tank 10 is installed on the discharge pipe of the water purification treatment facility to receive the treated water in a natural flow state and sterilize and disinfect it to separate and separate the treated water into the disinfection tank 10 and discharge it to the stream. It is desirable in that it does not require a pump and therefore does not require a separate power and maintenance cost. The upper part of the disinfection tank 10 has a cover 13, it is preferable to block the inflow of foreign substances and the like from the outside.

The ultraviolet disinfection unit 20 can be installed flat or vertically in the interior of the disinfection tank 10, but if the depth of the disinfection tank 10 is sufficient to install vertically the treated water is in contact with the ultraviolet disinfection unit 20 longer It is preferable because the sterilization effect is large.

The collecting means 30 may be the most essential feature of the present invention. That is, in the prior art, the treated water flowing out of the discharge port 12 of the disinfection tank 10 was introduced into the adjacent collection tank and collected, and the water quality inspection was carried out with this. When the water quality inspection is carried out in this way, because the sewage tank must be made separately as a civil structure, the installation cost is additionally inexpensive, and the treated water accumulated in the sewage tank is discharged from the outlet 12 by foreign substances introduced from the outside. It is likely to be contaminated again, so it is often impossible to conduct an accurate water quality test. Collecting means 30 of the present invention that solves this problem is installed inlet 32 in the vicinity of the outlet of the ultraviolet disinfection unit 20, that is, the water level before the treated water is discharged and the discharge port 33 is the disinfection tank 10 It was installed on the side wall adjacent to the cover 13 of the to facilitate the harvesting. Of course, the pipe 31 including the inlet 32 and the outlet 33 is provided with a pump 31 for pumping the treated water.

The control unit 40 may be installed on the side wall of the disinfecting tank 10 closest to the cover 13, and may be safe from rain, dust, and accident, but the level of the treated water may be increased. Installed on the outside. The control unit 40 is connected to the pump 31 and the ultraviolet lamp 22 of the ultraviolet disinfection unit to control their operation.

The air generator 60 is located below the inlet of the ultraviolet sterilization unit to generate oxygen. The oxygen supplied through the reaction reacts with the electrons to generate O ₂ ^2- radicals, thereby generating more OH radicals, thereby further activating disinfection of the treated water by ultraviolet rays.

Figure 2 is a schematic plan view of the disinfection device of the present invention from above and Figure 3 is a partially enlarged view of the ultraviolet disinfection unit 20. 4 is an exploded perspective view of the cleaning means.

1 to 3, the ultraviolet disinfection unit 20 includes a housing 21 having an inlet and an outlet formed therein, an ultraviolet lamp 22, a quartz tube 23, a quartz tube 23, a holder 24, It is understood that the cover 25 is constituted. In addition, it can be seen that the washing means 50 is disposed inside the ultraviolet disinfection unit 20.

The housing 21 serves as a movement passage of the treated water. The material is made of stainless steel having excellent corrosion resistance, and the inside thereof is polished and polished so that the ultraviolet rays are reflected, so that the disinfection effect can be further enhanced.

The ultraviolet lamp 22 emits ultraviolet rays to disinfect the treated water. The number of installation of the ultraviolet lamp 22 is determined appropriately in consideration of the capacity of the disinfection tank 10, the amount of treated water discharged, and the like. The ultraviolet rays emitted by the ultraviolet lamp 22 generally use wavelengths around 254 nm, but may be ultraviolet rays that simultaneously generate ultraviolet rays and ozone. The ultraviolet lamp 22 is preferably located from the inlet to the outlet of the housing 21 because the manufacturing cost is reduced, unnecessary power consumption is reduced and disinfection effect is equivalent.

 The quartz tube 23 surrounds the outer circumferential surface of the ultraviolet lamp 22 to protect the ultraviolet lamp 22. In addition, it is fixed to the quartz tube holder 24 provided in the inlet and the cover 25 and is stably arranged in the interior of the housing 21.

The cover 25 not only fixes the quartz tube 23 through the quartz tube holder 24 but also serves to fix the cable connected to the ultraviolet lamp 22 through the connector although not shown in the drawing. In addition, it is preferable to install the inspection window 26 at the center of the cover 25 so that the inside can be viewed, since it is easy to inspect whether the ultraviolet lamp 22 or the quartz tube 23 is normal.

The cleaning means 50 is to prevent the discharge effect of the ultraviolet light is reduced by the pinch on the surface of the quartz tube 23 by the inorganic or water moss, such as iron or calcium contained in the treated water, Figure 4 Referring to the cleaning means 50 it can be seen that configured as follows.

O-ring 51 in close contact with the outer circumferential surface of the quartz tube 23 of the ultraviolet disinfection unit 20 and made of a soft synthetic resin or rubber material; A fixed ring 52 having an annular groove in which the O-ring 51 is accommodated; The substrate 54 and the insertion hole 54a having an inner diameter larger than the outer diameter of the quartz tube 23 and having an inner diameter smaller than the outer diameter of the fixing ring 52, and the insertion hole 54a of the substrate 54. A flange 53 bent along the edge of the disc 53 and the disc 53 and the hollow 53a is formed and coupled to the substrate 54 to form a receiving space (53d) for the fixing ring 52 And a cap 53 formed of a 53c, wherein the inner diameter and the depth of the receiving space 53d of the cap 53 are greater than the outer diameter and the height of the fixing ring 52, respectively; And a connection member 55 connected to the fixing ring accommodation member and having a handle 55a exposed to the upper portion of the housing 21 of the ultraviolet disinfection unit 20.

Since the O-ring 51 is durable and closely wrapped around the outer circumferential surface of the quartz tube 23, it is effective to remove the scale, so that the O-ring 51 is made of a strong Viton material resistant to ultraviolet rays and is worn by reciprocating motion. It is preferable to be in close contact with the quartz tube 23 even when it is.

The fixing ring 52 is preferably made of Teflon material. Teflon is made of fluorine resin, which has a small coefficient of friction and does not adhere to foreign substances. The fixing ring 52 accommodates the O-ring 51 in the annular groove and reciprocates along the quartz tube 23 while keeping the O-ring 51 horizontal (ie, a portion of the O-ring is raised and the opposite portion is lowered). Allow it to move).

The insertion hole 54a and the hollow 53a formed in the substrate 54 and the disc 53b have an inner diameter that is slightly larger than the outer diameter of the quartz tube 23, and the accommodation space 53d is The fixing ring 52 is wrapped around the margin. Such a structure allows the fixed ring receiving member to move fluidly in a direction perpendicular to the quartz tube 23, so that the up and down reciprocating motion is smooth even with respect to the bending of the quartz tube 23 (such as bending by manufacturing or scale). To do it.

As shown in FIG. 4, the fixing ring accommodation member may be configured by a pair of two separated at predetermined intervals. The number of retaining ring receiving members should be selected appropriately considering the efficiency of descaling and the installation cost.

As described above, the vertical ultraviolet disinfection device having a water collecting means according to the present invention,

First, accurate water quality inspection can be done by collecting the treated water just before discharged by using the pump installed in the UV disinfection unit for water quality inspection, and there is no need to make a separate collection tank as a civil structure And maintenance costs are not required, which can reduce costs.

Second, disinfection tank is installed on the discharge pipe of the water purification treatment facility, and the treated water flows into the disinfection tank under natural flow, disinfects and disinfects and is discharged.Therefore, there is no need for power means such as pumps. There is a saving effect.

Third, the cleaning brush that moves along the outer circumferential surface of the quartz tube removes the scale attached to the quartz tube to prevent the emitted ultraviolet rays from weakening, and the inner surface of the housing of the ultraviolet disinfection unit is polished and polished to reflect the ultraviolet rays to disinfect the treated water. Effective in maximizing disinfection.

In the above description of the present invention with reference to the accompanying drawings has been described mainly with respect to the vertical UV disinfection device having a specific shape and structure, the present invention is capable of various modifications and changes by those skilled in the art, such modifications and changes are the present invention It should be interpreted as falling within the protection scope of.

1 is a schematic cross-sectional view of a vertical ultraviolet disinfection device according to an embodiment of the present invention.

Figure 2 is a schematic plan view from above of a vertical ultraviolet disinfection device according to an embodiment of the present invention.

3 is a partially enlarged view of an ultraviolet disinfection unit.

4 is an exploded perspective view of the cleaning means.

<Description of the symbols for the main parts of the drawings>

DESCRIPTION OF SYMBOLS 10 Sterilization tank 11 Inlet port 12 Outlet port 13 Cover

20: ultraviolet disinfection unit 21: housing 22: ultraviolet lamp 23: quartz tube

                    24: quartz tube holder 25: cover 26: inspection window

30: collecting means 31: pump 32: inlet 33: outlet

40: control unit

50: washing means 51: O-ring 52: fixing ring 53: cap

                   54 substrate 55 connecting member

Claims (3)

A disinfection tank having a front inlet, a rear outlet, and a top cover; A housing installed inside the disinfection tank and having an inlet through which treatment water enters and an outlet communicating with the outlet of the disinfection tank; One or more ultraviolet lamps arranged inside the housing, An ultraviolet disinfecting unit including a quartz tube surrounding the outer surface of the ultraviolet ray lamp to protect the ultraviolet ray lamp; A pipe having an inlet port in communication with the housing, which is biased at an outlet of the ultraviolet sterilization unit housing, and having an outlet port adjacent to the disinfectant cover; and Water collecting means including a pump arranged in the pipe to pump the treated water for water quality inspection; And a control unit for controlling the ultraviolet lamp and the pump. The method of claim 1, The housing of the ultraviolet disinfection unit is made of stainless material, the vertical ultraviolet disinfection device having a water collecting means, characterized in that the inner surface of the inner surface is polished and polished so as to reflect the ultraviolet rays emitted from the ultraviolet lamp. The method according to claim 1 or 2, O-ring in close contact with the outer peripheral surface of the quartz tube of the ultraviolet disinfection unit made of a soft synthetic resin or rubber material; A fixed ring having an annular groove in which the O-ring is accommodated; A substrate having an insertion hole having an inner diameter larger than an outer diameter of the quartz tube and smaller than an outer diameter of the fixing ring; Includes a cap made of a disc formed in the hollow corresponding to the insertion hole of the substrate and the flange is bent along the disc border and coupled to the substrate to form a receiving space for the fixing ring, Retaining ring receiving member inner diameter and depth of the cap is formed larger than the outer diameter and height of the fixing ring, respectively; And a connecting means connected to the fixing ring receiving member and having a handle exposed to an upper portion of the housing of the ultraviolet disinfection unit.