JPH0985238A - Fluid ultraviolet-treatment device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fluid ultraviolet-treatment device which can sense securely the breakage of a protective tube in the case the protective tube is broken during the operation. SOLUTION: In this fluid ultraviolet-treatment device consisting of a fluid treatment tank 10 into which a fluid to be ultraviolet-treated is introduced, a protective tube 20 set in the fluid treatment tank 10 and an ultraviolet lamp 25 disposed in the protective tube 20, a temperature sensing means 30 is installed on a position fixed to the ultraviolet lamp 25. In the device, it is preferable that a lamp base 30 fixed on one end of the ultraviolet lamp 25 is provided and that a temperature-sensing means 35 is mounted on the lamp base 30, and also it is preferable that the temperature sensing means 35 is provided in the state of being brought into contact with or close to the outer surface of a sealed body of the ultraviolet lamp 25.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a sterilization treatment of a fluid,
The present invention relates to a fluid ultraviolet treatment apparatus for subjecting a fluid to ultraviolet irradiation for the purpose of performing other treatments.

[0002]

2. Description of the Related Art Conventionally, in manufacturing water used in the food industry, chemical industry, chemical industry, etc., and bath water used in bathing areas, it is required to sterilize them from the viewpoint of hygiene. Under such circumstances, a fluid sterilizer that sterilizes a fluid such as a liquid using ultraviolet rays is used.

FIG. 3 is an explanatory view showing the outline of the construction of an example of a conventional fluid sterilizer for sterilizing a liquid such as bath water. In this figure, reference numeral 80 denotes a cylindrical fluid treatment tank, and an introduction passage 81 for introducing a fluid to be treated into the fluid treatment tank 80 is formed on an upper side surface of the fluid treatment tank 80. A discharge path 82 for discharging the sterilized fluid is formed on the lower end surface thereof. Reference numeral 83 is a cylindrical protection tube made of quartz glass, and is arranged in the fluid treatment tank 80 so as to extend vertically along the axial direction thereof. The upper end of the protection tube 83 is
The fluid treatment tank 80 is liquid-tightly fitted and fixed in a cylindrical hole of a cylindrical holding member 84 provided so as to liquid-tightly close the opening at the upper end. Reference numeral 85 is a rod-shaped ultraviolet lamp that emits ultraviolet rays having a bactericidal action, and is inserted in the protective tube 83 and arranged so as to extend in the vertical direction. Reference numeral 86 denotes a cap provided so as to close the opening at the upper end of the holding member 84, and the inside of the protective tube 83 is sealed by the cap 86. 87 is a power supply wire for the ultraviolet lamp 85, which is provided so as to penetrate the cap 86.

In the above fluid sterilizer, the fluid to be treated, such as bath water, is introduced through the introduction passage 8 by an appropriate circulation pump.
1 is introduced into the fluid treatment tank 80, further flows downward in the fluid treatment tank 80, and then the discharge passage 82.
Is discharged from the outside. Then, in the fluid treatment tank 80, the bath water is sterilized by the ultraviolet rays emitted from the ultraviolet lamp 85.

Therefore, the protective tube 8 is operated during the operation of the fluid sterilizer.
If 3 is damaged, there is a risk that the fragments of the protective tube 83 will be discharged to the outside from the discharge path 82 together with the bath water, so it is necessary to immediately stop the operation of the fluid sterilization apparatus. Therefore,
In the above fluid sterilization device, in order to detect damage to the protective tube 23, a rod-shaped temperature detecting means 90 made of a thermistor is provided so as to penetrate the cap 86 and extend at the tip into the protective tube 83. Has been. That is, during the operation of the fluid sterilizer, the inside of the protection tube 83 is heated by the ultraviolet lamp 85 and has a considerably high temperature, for example, 60 to
The temperature inside the protective tube 83 is normally detected by the temperature detecting means 90, but when the protective tube 83 is damaged, the temperature lower than the internal temperature of the protective tube 83, for example, 42. When the bath water at ℃ flows into the protection pipe 83 from the damaged portion of the protection pipe 83, and when the inflowing bath water reaches the temperature detection means 90, the temperature detection means 90 detects the temperature of the bath water. As a result, the abnormality due to the breakage of the protective tube 83 is detected, and the operation of the liquid sterilizer is stopped.

However, in the above fluid sterilizer, even if the protective tube 83 is damaged during operation, it may not be reliably detected. In pursuit of this cause, in this fluid sterilizer, the temperature environment for the temperature detecting means 90 changes greatly depending on the posture of the ultraviolet lamp 85 arranged in the protection tube 83.
It has been found that the detection operation of the temperature detecting means 90 may be uncertain because the background conditions of the measurement greatly vary.

[0007]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
It is an object of the present invention to provide a fluid ultraviolet ray treatment device capable of reliably detecting the damage of a protection tube when the protection tube is damaged during operation.

[0008]

SUMMARY OF THE INVENTION A fluid ultraviolet treatment apparatus according to the present invention is a fluid treatment tank into which a fluid to be subjected to ultraviolet treatment is introduced, a protective tube provided in the fluid treatment tank, and a protective tube disposed in the protective tube. In the fluid ultraviolet treatment apparatus, the temperature detecting means is attached to a position fixed with respect to the ultraviolet lamp.

In the above fluid ultraviolet treatment apparatus, it is preferable that a lamp base is fixed to one end of the ultraviolet lamp, and the temperature detecting means is attached to the lamp base.

Further, in the above fluid ultraviolet treatment apparatus, it is preferable that the temperature detecting means is provided in a state of being in contact with or close to the outer surface of the sealing body of the ultraviolet lamp.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a case where an embodiment of the fluid ultraviolet treatment apparatus of the present invention is configured as a fluid sterilizer will be described in detail. FIG. 1 is an explanatory diagram showing an outline of a configuration of an example of a fluid sterilization apparatus according to the present invention, and this fluid sterilization apparatus sterilizes a liquid such as bath water.

In FIG. 1, reference numeral 10 denotes a cylindrical fluid treatment tank having a bottom portion at its lower end, which is made of, for example, a metal material such as stainless steel or aluminum having a high reflectance of ultraviolet rays. An inlet passage 11 for introducing a fluid to be treated is formed on the upper side surface of the fluid treatment tank 10, and an outlet passage 12 for discharging the treated fluid is formed on the lower side surface thereof. ing. 15 is
A lid having a circular cross section with a through hole 16 in the center,
It is provided so as to liquid-tightly close the opening at the upper end of the fluid processing tank 10. Reference numeral 20 is a cylindrical protection tube made of quartz glass, and is arranged in the fluid treatment tank 10 so as to extend in the vertical direction along the axial direction thereof. For example, two O-rings 22 and 23 are fitted around the outer periphery of the upper end portion of the protective tube 20, and the upper end portion of the protective tube 20 is covered with the O-rings 22 and 23. It is held liquid-tight in the through hole 16. Further, the protective tube 20 has an opening 21 at the upper end, so that the inside of the protective tube 20 is open. Reference numeral 25 denotes a rod-shaped ultraviolet lamp that emits ultraviolet rays having a bactericidal action, for example, ultraviolet rays having a peak at a wavelength of 253.7 nm.
It is arranged so that it is inserted inside and extends vertically.

At one end (upper end in the figure) of the ultraviolet lamp 25, for example, a cylindrical lamp base 30 is fixed and provided so as to extend along the axial direction of the ultraviolet lamp 25. A rod-shaped temperature detecting unit 35 made of a thermistor is attached to the unit 30 in a state of being close to the outer surface of the enclosure of the ultraviolet lamp 25. More specifically, as shown in FIG. 2, one end of the ultraviolet lamp 25 is inserted into the cylindrical hole 31 of the lamp base 30, and the inner wall surface of the lamp base 30 and the ultraviolet lamp 25 are inserted. The temperature detecting means 35 has its tip protruding from the lower end of the lamp base 30 and the ultraviolet lamp 2
5 is arranged so as to be positioned on the side of the electrode 26 on one end side of the lamp 5 so as to be close to the outer surface of the sealing body, and in this state, the fixing member 40 causes the ultraviolet lamp 25 and the temperature detecting means 35 to move to the tube of the lamp base 30. It is fixed in the hole 31.

Ultraviolet lamp 25 and temperature detecting means 35
Are connected to the operation control mechanism via the power supply wires 41 and 42 and the wiring 43, respectively.

In the above fluid sterilizer, the fluid to be treated, for example, bath water, is introduced into the passage 1 by an appropriate circulation pump.
1 is introduced into the fluid treatment tank 10, further flows downward in the fluid treatment tank 10, and then the discharge passage 12
Is discharged from the outside. Then, in the fluid treatment tank 10, the bath water is sterilized by the ultraviolet rays emitted from the ultraviolet rays 25. In the above, the inside of the protection tube 20 is
Since it is heated by the heat emitted from the ultraviolet lamp 25, the temperature detecting means 35 detects a considerably high temperature, for example, a temperature of 60 to 70 ° C. And
When the protective tube 20 is damaged during operation of the fluid sterilizer, bath water having a temperature lower than the temperature in the protective tube 20, for example, 42 ° C., flows into the protective tube 20 from the damaged portion of the protective tube 20, Since the inflowing bath water rises in the protection pipe 20 and reaches the temperature detecting means 35, the temperature of the bath water is detected by the temperature detecting means 35, whereby an abnormality due to breakage of the protection pipe 20 is detected. The operation of the liquid sterilizer is stopped.

According to the above fluid sterilizer, since the temperature detecting means 35 is attached to the lamp base 30 fixed to one end of the ultraviolet lamp 25, even if the attitude of the ultraviolet lamp 25 changes, the ultraviolet ray concerned is changed. Since the position of the temperature detecting means 35 with respect to the lamp 25 is fixed, there are few environmental disturbance factors to the temperature detecting means 35, and regardless of the attitude of the ultraviolet lamp 25, the temperature measuring means 35 is always stable in measurement environment. The condition is obtained. Therefore, when the protection tube 20 is damaged during operation, an abnormality due to the damage of the protection tube 20 can be reliably detected, and high reliability of the temperature detecting means 35 can be obtained.

The outer surface of the envelope of the ultraviolet lamp 25 has a considerably high temperature.
Since the temperature detecting means 35 is provided at a position lateral to the electrode 26 in a state in which the temperature detecting means 35 is close to the outer surface of the sealing body, the difference from the temperature of the bath water to be detected becomes large, which allows high detection accuracy. can get.

Further, the protection tube 20 is kept at the same pressure as the external atmospheric pressure because the inside thereof is opened by the opening 21, but the bath water flowing into the protection tube 20 is removed by the circulation pump. Since the pressure is higher than the atmospheric pressure, the temperature detection means 35 can be reliably reached in an extremely short time, and as a result, the damage to the protection tube 20 can be reliably detected in an extremely short time.

The present invention is not limited to the above fluid sterilization apparatus, and various modifications such as the following can be made. The temperature detecting means 35 may be attached to a position fixed to the ultraviolet lamp 25. For example, the temperature detecting means 35 may be attached to the ultraviolet lamp 2 with an inorganic adhesive.
5 can be attached directly to the outer surface of the enclosure. Further, the temperature detecting means 35 may be attached in a state of abutting on the outer surface of the sealing body of the ultraviolet lamp 25.

The fluid to be treated may be introduced from below the fluid treatment tank and discharged from above. Further, the fluid to be treated is not limited to a liquid, and a fluid ultraviolet treatment device for subjecting gas or powder to ultraviolet treatment can be configured.

[0021]

According to the fluid ultraviolet treatment apparatus of the present invention,
Since the temperature detecting means is attached at a position fixed to the ultraviolet lamp, there are few environmental disturbance factors to the temperature detecting means, and the temperature detecting means is always stable with respect to the temperature detecting means regardless of the attitude of the ultraviolet lamp. Measurement environment conditions are obtained. Therefore, if the protective tube is damaged during operation, it is possible to reliably detect an abnormality due to the damage of the protective tube.
High reliability can be obtained for the temperature detecting means.

Further, by providing the temperature detecting means in contact with or close to the outer surface of the sealing body of the ultraviolet lamp, the difference from the temperature of the fluid to be detected becomes large, whereby high detection accuracy can be obtained. To be

[Brief description of drawings]

FIG. 1 is an explanatory sectional view showing an outline of a configuration in an example of an embodiment of a fluid ultraviolet treatment apparatus of the present invention.

FIG. 2 is an explanatory sectional view showing a lamp base of the fluid ultraviolet treatment apparatus shown in FIG.

FIG. 3 is an explanatory diagram showing an outline of a configuration of an example of a conventional fluid ultraviolet treatment apparatus used as a fluid sterilization treatment apparatus.

[Explanation of symbols]

 10 Fluid Treatment Tank 11 Inlet Channel 12 Discharge Channel 20 Protective Tube 21 Opening 22, 23 O-Ring 25 Ultraviolet Lamp 26 Electrode 30 Lamp Base 31 Tube Hole 35 Temperature Detection Means 40 Fixing Member 41, 42 Power Supply Wire 43 Wiring 80 Fluid Treatment Tank 81 Introductory path 82 Discharge path 83 Protective tube 84 Holding member 85 Ultraviolet lamp 86 Cap 87 Power supply wire 90 Temperature detecting means

Claims (3)

[Claims] 1. A fluid ultraviolet treatment apparatus comprising a fluid treatment tank into which a fluid to be treated with ultraviolet rays is introduced, a protective tube provided in the fluid treatment tank, and an ultraviolet lamp arranged in the protective tube. In the fluid ultraviolet treatment apparatus, the temperature detecting means is attached to a position fixed with respect to the ultraviolet lamp. 2. The fluid ultraviolet treatment apparatus according to claim 1, further comprising a lamp base fixed to one end of the ultraviolet lamp, and the temperature detecting means being attached to the lamp base. 3. The fluid ultraviolet treatment apparatus according to claim 1, wherein the temperature detecting means is provided in a state in which the temperature detecting means is in contact with or close to the outer surface of the envelope of the ultraviolet lamp.