KR200396891Y1 - Overheat protection apparatus of a ultraviolet rays sterilizer - Google Patents

Abstract

The present invention relates to a UV sterilizer overheat prevention device, the UV sterilizer overheat prevention device according to the present invention is provided with an inlet side to enter the water supplied from the water source and an outlet side to drain the sterilized water to the water use, the inside An ultraviolet sterilizer for irradiating ultraviolet rays toward water, a temperature sensor installed in the ultraviolet sterilizer, or a temperature sensor detecting a temperature, or a flow sensor connected in series on a pipe between the water source and the water use site, and connected to the temperature sensor A control unit, a circulation pump branched from each pipe connected to the water outlet side and the water inlet side of the ultraviolet sterilizer to form a separate circulation path, and a circulation pump and a heat exchanger installed in the middle of the pipe forming the separate circulation path, The circulation pump is a cooling unit which starts or stops operation under the control of the controller. Characterized in that it also.

Description

UV Sterilizer Overheat Protection Device {Overheat protection apparatus of a ultraviolet rays sterilizer}

The present invention relates to a UV sterilizer overheat prevention device, and more particularly, to prevent overheating of the UV lamp mounted on the UV sterilizer to maintain and improve the life and performance of the sterilizer, and ultimately to optimize the sterilization performance of the UV sterilizer. It relates to a device for maintaining.

UV sterilizers are classified into low pressure low power, low pressure high power, and medium pressure sterilizer according to the gas pressure inside the UV lamp (hereinafter referred to as lamp). To maintain proper lamp output, the surface temperature of the lamp must be maintained at a certain level. The optimum surface temperature for each type of lamp is 40 ℃, 130 ~ 200 ℃ and 600 ~ 900 ℃ (EPA 815-D-03-007), and the lamp output drops in the section outside the proper temperature range, which affects sterilization efficiency.

Because UV sterilizers are continuously supplied with power due to their characteristics, when the water does not flow, the UV lamp heat cannot be transferred to the water due to the heat of the UV lamp, causing the lamp surface temperature to rise and shortening the lamp life. In order to prevent this phenomenon, there is a need for a method of artificially supplying water to cool to an appropriate temperature or suppressing excessive heat generation of an ultraviolet lamp.

Conventional methods for controlling the point / light off of an ultraviolet lamp include a method of turning off an ultraviolet lamp by means of a water extraction valve and turning on the lamp when water is supplied, as described in Utility Model Registration No. 266427. The process of activating the mercury and gas in the lamp and supplying a low voltage in maintaining the lamp's lighting. The frequent point / lighting of the UV lamp causes the lamp's life to be extremely shortened due to the initial high voltage supply. Cause results.

In addition, as described in Utility Model Registration No. 25297, UV lamps are automatically turned on / off according to the use of tap water, which prevents power loss and extends the life of UV lamps. Shorten.

In addition, as described in Korean Utility Model Registration No. 6995, a variable output ballast (Dimming Ballast) that operates an ultraviolet lamp by an electric signal converted according to the flow rate may be adopted, but this is merely limited to the control of the lamp output according to the flow rate.

The present invention is devised to solve the problems of the prior art, the present invention is to prevent the shortening of the ultraviolet lamp life and the reduction of the sterilization efficiency due to the overheating of the ultraviolet sterilizer, while avoiding frequent spots / lights of the ultraviolet lamp It is an object of the present invention to provide an overheat prevention device of an ultraviolet sterilizer, which is designed to prevent an extremely short life.

Ultraviolet sterilizer overheat prevention device according to the present invention for achieving the above object is provided with an inlet side to enter the water supplied from the water source and the outlet side to drain the sterilized water to the water use, the internal water An ultraviolet sterilizer for irradiating ultraviolet rays toward the ultraviolet rays, a temperature sensor installed at the ultraviolet sterilizer for detecting a change in temperature, a controller connected to the temperature sensor, and branched from a pipe connected to the water outlet side and the water inlet side of the ultraviolet sterilizer; And a circulation pump and a heat exchanger installed in the middle of the pipe forming the circulation path and the pipe forming the separate circulation path, wherein the circulation pump includes a cooling unit which starts or stops operation under the control of the controller. .

In addition, the ultraviolet sterilizer overheat prevention device may be provided with a flow rate sensor connected in series on the pipe between the water source and the water use place is replaced with or installed with a temperature sensor.

In addition, it is preferable to further include a solenoid valve installed in the ultraviolet sterilizer and the opening and closing is controlled by the control unit to discharge the superheated water in the ultraviolet sterilizer.

In addition, when normal ultraviolet irradiation by the ultraviolet sterilizer is unnecessary, it is preferable that a stabilizer for supplying a minimum current and / or frequency to the ultraviolet sterilizer to induce the ultraviolet sterilizer to enter a standby state is connected to the ultraviolet sterilizer. .

In addition, when the ultraviolet sterilizer in the standby state returns to the normal operating state, it is preferable to normalize the output of the ultraviolet sterilizer while delaying the water supply by the delay program of the controller.

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

1 is a view showing the configuration of the overheat prevention apparatus of the ultraviolet sterilizer according to the present invention.

The ultraviolet sterilizer 11 is composed of an ultraviolet sterilizer housing 11a made of stainless steel, and an ultraviolet lamp 11b surrounded by a quartz tube 11c and a quartz tube 11c installed in the ultraviolet sterilizer housing 11a. Water entering the water intake side 12 of the ultraviolet sterilizer 11 is not in contact with the ultraviolet lamp 11b but only in contact with the quartz tube 11c. That is, the ultraviolet lamp 11b is protected by the quartz tube 11c, and the light (ultraviolet rays) radiate | emitted from the ultraviolet lamp 11b reaches water through the quartz tube 11c.

Raw water is stored in the reservoir (1) and the water in the reservoir (1) by the operation of the water supply pump (2) connected to the reservoir (1) exits the reservoir (1) and flows through the pipe (3). Water flowing through the pipes 3 and 4 passes through the first bypass valve 7 and enters the ultraviolet sterilizer 11 through the inlet side 12 of the ultraviolet sterilizer. Usually the first bypass valve 7 and the third bypass valve 9 are open and the second bypass valve 8 is closed so that water cannot pass through the second bypass valve 8, When there is a special situation such as removing and repairing or replacing the UV sterilizer 11, the first bypass valve 7 and the third bypass valve 9 are closed and the second bypass valve 8 is opened to open the water. Pass through without passing through the UV sterilizer (11).

Water passing through the first bypass valve 7 and entering the inlet side 12 of the ultraviolet sterilizer 11 is sterilized while passing through the interior of the ultraviolet sterilizer 11 and is discharged to the outlet side 13 of the ultraviolet sterilizer 11. Come out. The water exiting from the water outlet side 13 of the ultraviolet sterilizer 11 passes through the third bypass valve 9 and flows through the flow sensor 10 provided in series with the pipe 6 to the water usage place.

The water use place is a place where ultraviolet sterilization water is required, and is used for the purpose of sterilizing water and personal drinking water, industrial process water sterilization, ultrapure water sterilization, beverage and food water sterilization, swimming pool water sterilization, etc. Examples include drinking water plant dilution, air conditioning humidification water, water purifiers, apartment central water purification systems, alcohol (dial) alcohol dilution water, tofu plant product cooling water, aquatic product processing plant wash water, fish farms, sewage treatment plant effluent.

On the other hand, the temperature sensor 16 attached to the upper portion of the ultraviolet sterilizer 11 measures the temperature inside the ultraviolet sterilizer 11 to detect whether or not overheating. The temperature sensor 16 is connected with the temperature controller 17. The flow sensor 10 and the temperature sensor 16 may be used together, but when the flow of water stops, the heat of the ultraviolet sterilizer 11 cannot be transferred to the water, so that the surface temperature of the ultraviolet lamp 11b is increased. Since the temperature change is closely related, only one of the flow sensor 10 and the temperature sensor 16 may be used.

In addition, an ultraviolet sensor 14 for measuring the intensity of ultraviolet light is attached to the upper part of the ultraviolet sterilizer 11, and the ultraviolet monitor 15 is connected thereto. Since the process of turning on the ultraviolet lamp 11b is a process of preheating mercury and gas in the ultraviolet lamp 11b for several seconds to several minutes, and the process of installing the ultraviolet sterilizer is necessary to supply sterilized water and to block the unsterilized water. In order to monitor whether the UV sterilizer 11 plays a perfect role, it is important to mount the UV sensor 14 to adjust the UV sterilized water to be used after the UV intensity reaches a certain level.

The temperature sensor 16, the flow sensor 10, and the ultraviolet sensor 14 are all connected to the control unit 31 to send a signal detected by each sensor to the control unit 31.

On the other hand, a separate circulation so that water flows in the middle of the piping 5 connected to the water outlet side 13 of the ultraviolet sterilizer 11 and the piping 4 connected to the inlet side 12 of the ultraviolet sterilizer 11. A pipe 21 forming a path is formed, and a non-contact heat exchanger 22 and a circulation pump 23 are installed in the middle of the pipe 21. The circulation pump 23 is connected to the control unit 31 so that the operation is started or stopped according to the instruction of the control unit 31. The water heated in the ultraviolet sterilizer 11 is cooled while contacting the cooling water while passing through the heat exchanger 22. The circulation pump 23 is also preferably located after the heat exchanger 22 because it is affected by the service life and performance by the hot water.

In addition, the solenoid valve 18 which is opened and closed by the control of the control part 31 according to the input value of the temperature sensor 16 or the flow sensor 10 is provided in the upper part of the ultraviolet sterilizer 11. The solenoid valve 18 is configured to operate only when the temperature of the ultraviolet sterilizer 11 exceeds a predetermined value to discharge the superheated water.

The cooler, including solenoid valve 18 and heat exchanger 22, may both be equipped or may optionally be installed.

The action of the superheat cooling device of the ultraviolet sterilizer 11 configured as described above is as follows.

In the state where normal sterilization of the water occurs by the UV sterilizer 11, the water is stored in the reservoir 1, the water supply pump 2, the first bypass valve 7, and the water inlet side 12 of the UV sterilizer 11. )-> Inside the UV sterilizer 11-> water exit side 13 of the UV sterilizer 11-> third bypass valve (9)-> flow sensor 10-> flows through the path of water use.

However, when the flow of water stops, the flow sensor 10 or the temperature sensor 16 detects this and the controller 31 controls the water to flow in another circulation path as follows. That is, in this state, the circulating pump 22 is operated in a state in which the valve is closed so that water is not supplied to the ultraviolet sterilizer 11 from the storage tank 1 or water is not discharged from the ultraviolet sterilizer 11 to the water use destination. (11) Inside-> Outflow Side (13) of UV Sterilizer (11)-> Heat Exchanger (22)-> Circulation Pump (23)-> Intake Side (12) of UV Sterilizer (11)-> UV Sterilizer ( The path inside 11) allows water to continue to circulate. This is because when the ultraviolet rays are continuously irradiated while the flow of water is stopped, the ultraviolet sterilizer 11 is overheated and the life is shortened, so that the water continues to flow, but is cooled by passing through the heat exchanger 22 so that the temperature does not rise above a certain value. It is to.

On the other hand, even if water is supplied to the ultraviolet sterilizer 11, when the temperature of the ultraviolet sterilizer 11 is overheated, the solenoid valve 18 is opened without circulating water as described above to discharge the water. This is done by sending a signal to the control unit 31 when the overheating of the water is detected by the temperature sensor 16 and the control unit 31 to open the solenoid valve 18. The superheated water is quickly discharged and cold water is supplied from the water reservoir 1 to prevent the ultraviolet sterilizer housing 11a from being heated. Water discharged by the solenoid valve 18 is discharged to the bottom or discharged to the discharge space provided separately.

As a last method of preventing overheating of the ultraviolet sterilizer 11, the control unit 31 controls the output of the lamp 11b of the ultraviolet sterilizer 11, and the flow rate stop signal is controlled by the flow sensor 10. When sent to 31, the control unit 31 supplies the minimum current and / or frequency to the ultraviolet lamp 11b instead of turning off the ultraviolet lamp 11b so that the ultraviolet lamp 11b enters the standby state. . However, if there is no flow of water for a long time over a certain time, the ultraviolet lamp 11b is turned off. When the ultraviolet lamp 11b is in the standby state or the extinguished state, and its output is normalized, the delay time until the output of the lamp increases by a certain level is transmitted to the MMI (Man-Machine Interface) to supply the water to be sterilized. A delay program is used to delay the time it takes place because normal sterilization cannot occur if water is supplied without output being normalized. The configuration of the control unit 31 for the operation as described above is easy technical details for those skilled in the art will not be described in detail here.

As described above, according to the ultraviolet sterilizer overheat prevention device according to the present invention, when the ultraviolet sterilizer does not flow water, the lamp of the sterilizer does not turn off, but instead switches to a preheated state or circulates while cooling a small amount of water repeatedly, The overheating of the sterilizer is prevented in the same way as the discharge through the valve to prevent the accumulation of overheated water, thereby preventing the extreme life of the ultraviolet sterilizer due to frequent turning off and lighting of the lamp.

As described above, the present invention has been described only with respect to specific examples, but it is apparent to those skilled in the art that various modifications and changes can be made within the technical spirit of the present invention based on the specific examples above. And modifications belong to the appended claims.

1 is a block diagram showing an ultraviolet sterilizer overheating prevention device according to the present invention.

※ Explanation of symbols for main parts of drawing

1: reservoir 2: water supply pump

3, 4, 5, 6, 21: piping 7, 8, 9: bypass valve

10: flow sensor 11: ultraviolet sterilizer

11a: UV Sterilizer Housing 11b: UV Lamp

11c: quartz tube 14: ultraviolet sensor

16: temperature sensor 18: solenoid valve

22: heat exchanger 23: circulation pump

31: control unit

Claims (5)

An ultraviolet sterilizer having an inflow side through which water supplied from a water source enters and a drainage side through which sterilized water is discharged to a water use site, and irradiating ultraviolet rays toward the water therein; A temperature sensor installed at the ultraviolet sterilizer for sensing a temperature; A control unit connected to the temperature sensor; And a heat exchanger and a circulation pump installed in the middle of the pipe forming a separate circulation path by branching from each pipe connected to the water outlet side and the water inlet side of the ultraviolet sterilizer and forming the separate circulation path. Cooling unit for starting or stopping the operation by the control of the control unit; UV sterilizer overheating prevention device comprising a. An ultraviolet sterilizer having an inflow side through which water supplied from a water source enters and a drainage side through which sterilized water is discharged to a water use site, and irradiating ultraviolet rays toward the water therein; A flow sensor connected in series on a pipe between the water source and the water usage place; A control unit connected to the flow sensor; And a heat exchanger and a circulation pump installed in the middle of the pipe forming a separate circulation path branched from each pipe connected to the water outlet side and the water inlet side of the ultraviolet sterilizer and forming the separate circulation path. Cooling unit for starting or stopping the operation by the control of the control unit; UV sterilizer overheating prevention device comprising a. The method according to claim 1 or 2, And a solenoid valve installed in the ultraviolet sterilizer, the solenoid valve being controlled to be opened and closed by the controller so as to discharge the superheated water in the ultraviolet sterilizer. The method according to claim 1 or 2, The control unit is configured to supply the minimum current and / or frequency to the ultraviolet lamp of the ultraviolet sterilizer when the normal ultraviolet irradiation by the ultraviolet sterilizer is configured so that the ultraviolet sterilizer enters the standby state Overheat protection device. The method of claim 4, wherein When the ultraviolet sterilizer in the standby state returns to the normal operating state, the ultraviolet sterilizer overheat prevention device characterized in that to normalize the output of the ultraviolet lamp of the ultraviolet sterilizer while delaying the water supply by the delay program of the controller. .