KR200434663Y1 - Water sterilization apparatus - Google Patents

Abstract

In the water sterilization apparatus according to the present invention, an ultraviolet lamp 3 is installed in a reaction tank 1 through which ozone-mixed water is supplied, and water mixed with ozone supplied into the reaction tank 1 faces downward. Since it moves while turning, the mixing of ozone and water in the reaction tank 1 is promoted, and the decomposition reaction of ozone mixed in the water is activated by the ultraviolet rays irradiated from the ultraviolet lamp 3 to sterilize and generate various radical components. This has the effect of being promoted.

Ozone, Water, Ultraviolet Light, Venturi

Description

Water sterilization apparatus

1 is a cross-sectional view of the water sterilization treatment apparatus according to the present invention.

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

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

1: reactor 2: quartz glass tube

3: UV lamp 4: Ozone concentration sensor

9: Flow control valve 10: Flow switch

11: raw water inlet valve 12: ozone supply pipe

22: Bantryubu

This design is ozone (O ₃ And an apparatus for sterilizing water using ultraviolet rays, in particular, ozone gas generated from an ozone generator is mixed with water in a fine bubble state through a banchuri part, and then introduced into a reaction tank equipped with an ultraviolet lamp to irradiate ultraviolet rays of ozone. The present invention relates to a water sterilization treatment apparatus capable of supplying sterilized water in which excess ozone is dissolved while promoting sterilization and treatment of water by promoting decomposition reaction.

Conventionally, there has been a water sterilization treatment apparatus which sterilizes and disinfects ozone in water using an ozone generator. However, since the decomposition reaction rate of ozone is low, the treatment efficiency is lowered. When only ultraviolet light was used, there was a problem in that it could not supply functional sterilizing water due to insufficient water quality.

The present invention is devised to solve the problems of the prior art as described above, through the banchuri unit mounted on the raw water inlet side of the reaction tank, the ozone gas generated in the ozone generator is mixed with the water in the state of fine bubbles and UV lamp inside The ozone-mixed water is moved from the upper part of the reactor equipped with the gas to the vortex flow downward to increase the retention and reaction time of the treated water in the reaction tank and the ozone by the ultraviolet light irradiated from the ultraviolet lamp. It is an object of the present invention to provide a water sterilization treatment apparatus capable of effectively performing sterilization, purifying treatment and dissolving treatment of ozone by decomposing the activated reaction.

Water sterilization apparatus according to the present invention for realizing the above technical problem, the reaction tank (1) is supplied to the water and ozone is promoted mixing as shown in Figure 1, and installed in the reaction tank and mixed in the water An ultraviolet lamp 3 for activating the decomposition reaction of the ozone thus obtained, a conduit 20 to 23 for supplying water and ozone to the reactor 1, and an ozone generator 18 for generating ozone.

The reaction tank 1 is formed in a cylindrical shape having a long length in the vertical direction, the ultraviolet lamp 3 is installed on the upper side of the reaction tank protrudes in the lower direction, is covered by the quartz glass tube (2).

On the other hand, the pipe line (20 ~ 23) and the first pipe line 20 through which the water is supplied from the water supply source and the second pipe line (21) branched from the first pipe line 20 and the water passes through; In addition, the ozone generated from the ozone generator 18 branched from the first pipe line 20 is supplied through the ozone supply pipe 12 to promote mixing with water supplied from the first pipe line 20. A water inlet pipe line for supplying water mixed with ozone to the upper portion of the reaction tank 1 by combining the third pipe line 22 having the banturie part 22a and the second and third pipe lines 21 and 22 ( 23).

In addition, a discharge pipe 24 is installed in the lower portion of the reaction tank 1 so that the treated water sterilized and purified in the reaction tank 1 is discharged to the outside.

On the other hand, the waste pipe water discharge pipe 25 is branched to the discharge pipe 24, and the sample water for treatment is discharged. The discharge pipe 25 is provided with an ozone concentration sensor 4 for measuring the ozone concentration of the treated water.

On the other hand, the water sterilization apparatus according to the present invention is provided with a control unit 17 for controlling the operation of the ozone generator 18, the flow rate switch 10 is installed in the first pipe line 20 is supplied with the water When the water is supplied to the first pipe line 20, the flow rate switch 10 detects this and issues a water supply signal to the controller 17. When the water supply signal is received, the controller 19 receives the water supply signal. The ozone generator 18 is operated by applying a predetermined current to the furnace, and the solenoid valve 30 installed in the ozone supply pipe 12 is opened to allow ozone to be supplied to the bantu portion 22a.

In addition, the present application is the ozone concentration monitor 15 is installed, the ozone concentration of the treated water detected from the ozone concentration sensor 4 is displayed on the monitor 15, the ozone concentration of the treated water is the control unit 17 ) Is entered.

The controller 17 may adjust the amount of ozone generated by the ozone generator 18 by controlling the magnitude of the current applied to the transformer 19 according to the ozone concentration of the treated water.

On the other hand, the water inlet pipe 23 connected to the reactor 1 is connected in a tangential direction to the circumferential surface located on the upper side of the reactor 1, as shown in Figure 1 and 2, the supply pipe 23 Water mixed with ozone supplied to the reaction tank 1 is moved downward while turning along the inner circumferential surface of the reaction tank 1, and then discharged to the outside through the discharge pipe 24.

Reference numeral 5 denotes a sample water discharge valve, 6 and 8 respectively a check valve, 9 a flow control valve and 11 a raw water inlet valve.

The operation of the present invention configured as described above is as follows.

According to the present invention, when the water inlet valve 11 is opened to supply water from a raw water source, the flow switch 10 detects the flow of water and transmits a signal to the controller 17. ) By applying power to the transformer 19 and the solenoid valve 30, ozone is generated in the ozone generator 18, the solenoid valve 30 is opened, and the water is regulated by the flow regulating valve 9. As a predetermined amount of water flows through the banchu tree 22a, the flow rate increases in the neck of the banchu tree 22a, which causes a negative pressure to the neck of the banchu tree 22a, and thus the banchu tree 22a. The ozone gas generated by the ozone generator 18 is sucked into the bantu portion 22a through the ozone supply pipe 12 by the negative pressure generated by the negative pressure, and the ozone gas sucked into the banchu portion 22a is fine bubbles. It is mixed with the water in the venturi part 22a in the state.

Water mixed with ozone gas flows in a swirling flow from the top to the bottom through the water inlet pipe 23 connected to the upper part of the reaction tank 1 equipped with the ultraviolet lamp 3 therein. The longer the residence time of the water, the longer the contact time and reaction time between ozone and water, and at the same time, the decomposition reaction of ozone mixed in the water is activated by the ultraviolet rays irradiated from the ultraviolet lamp (3). H ₂ O ₂ ) is produced to promote water treatment.

Water sterilized in this way is discharged through the discharge line 24 is used as water.

In addition, the ozone concentration in the treated water can be confirmed by the ozone concentration monitor 15 by passing a portion of the treated water discharged through the sample water discharge valve 5 to flow through the ozone concentration sensor 4.

In the water sterilization apparatus according to the present invention, an ultraviolet lamp (3) is installed in a reaction tank (1) to which ozone-mixed water is supplied, and water mixed with ozone into the reaction tank (1) is turned downward. Since it is moved, the mixing of ozone and water in the reaction tank 1 is promoted, and the decomposition reaction of ozone mixed in the water is activated by the ultraviolet rays irradiated from the ultraviolet lamp 3 to promote sterilization and generation of various radical components. It is effective.

In addition, the present invention is ozone is mixed in the water in a bubble state because the water and ozone pass through the banchuri 22a before the water is supplied to the reaction tank.

In addition, the present invention detects the time when the water is supplied to the reaction tank by the flow switch 10 installed in the water supply pipe to issue the water supply signal to the control unit 17 so that the control unit 17 to operate the ozone generator 18 It automatically generates ozone and produces the effect of being mixed with water.

Claims (8)

A reaction tank in which water and ozone are supplied and mixed, an ultraviolet lamp installed inside the reaction tank for irradiating ultraviolet light to the water mixed with ozone, a pipeline for supplying water and ozone to the reactor, and ozone supplied to the pipeline Water sterilization treatment apparatus comprising an ozone generator to generate. The method according to claim 1, The reactor is formed in a cylindrical shape and the conduit is connected in a tangential direction to the circumferential surface of the reactor in the upper portion of the reactor, the UV lamp is characterized in that the water sterilization treatment apparatus is formed so as to protrude in the lower direction of the reactor. The method according to claim 2, The ultraviolet lamp is located in the center of the reaction vessel, characterized in that covered with a quartz glass tube. The method according to claim 1, The water pipe is a water sterilization treatment apparatus characterized in that the raw water is passed and the banchuri portion is formed to supply ozone generated in the ozone generator to the neck. The method according to claim 1, The conduit includes a first conduit into which raw water flows, a third conduit branched from the first conduit, and a third conduit through which ozone is supplied and mixed with the water through the banchuuri section, and the second conduit; Water sterilization apparatus, characterized in that consisting of the water inlet pipe connected to the third pipe is connected to the reactor. The method according to claim 5, Water disinfection treatment device, characterized in that the flow control valve is installed in the second pipe. The method according to claim 1, The pipeline is provided with a flow rate switch, the ozone generator is provided with a control unit for controlling the operation of the ozone generator, when the flow switch detects the flow of water characterized in that the control unit to operate the ozone generator Water disinfection treatment device. The method according to claim 7, The reactor has a sample water discharge pipe is installed, the ozone concentration sensor for measuring the ozone concentration of the water passing through the sample water discharge pipe is installed, the ozone concentration monitor that displays the ozone concentration measured from the ozone concentration sensor is installed. Water sterilization treatment apparatus characterized in.

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