JP2011101748A - Sterilizing and deodorizing device using ultraviolet lamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sterilizing and deodorizing device which can maintain an ozone concentration to an allowable value or lower and is free of maintenance. <P>SOLUTION: The sterilizing and deodorizing device includes an ultraviolet lamp 7, an outer pipe 8, a casing 9 and valves 10 and 11 which are arranged at both ends of the outer pipe 8 so as to open and close. The ultraviolet lamp 7 radiates an ultraviolet ray of a first wavelength having at least a deodorizing effect and an ultraviolet ray of a second wavelength having a sterilizing effect. The outer pipe 8 cuts the ultraviolet ray of the first wavelength and transmits the ultraviolet ray of the second wavelength. A control part 17 opens the valves 10 and 11 when the ozone concentration detected by an ozone concentration sensor 16 is a predetermined value or lower to allow supplied air 12 to pass an inside 14 and an outside 13 of the outer pipe 8. When the ozone concentration exceeds the predetermined value, the valves are closed to allow the supplied air 12 to pass only the outside of the outer pipe 8. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a sterilization and deodorization apparatus using a low-pressure ultraviolet lamp.

  The low-pressure ultraviolet lamp for sterilization can be divided into a hot cathode type and a cold cathode type depending on the discharge method, both of which mainly use the 185.0nm and 253.7nm resonant ultraviolet rays emitted from the mercury vapor discharge. There are two types of names, ozone lamps and germicidal lamps, depending on the wavelength range.

  The ozone lamp is an ultraviolet lamp that emits ultraviolet rays of both wavelengths of 185.0nm (ozone rays) that generate ozone with deodorizing and sterilizing effects and 253.7nm (sterilizing rays) that have sterilizing effects but no deodorizing effects. is there. As the sealing material, synthetic quartz having a high transmittance of 200 nm or less is used.

The germicidal lamp is an ultraviolet lamp that cuts ozone rays (185.0 nm) and emits germicidal rays (253.7 nm) mainly. For the sealing material, TiO ₂ or the like is added, and quartz (ozone-less quartz) or ultraviolet transmissive glass (barium silica-based soft glass) that acts to cut ozone rays is used.

  Since ozone having deodorizing and sterilizing effects is widely known to be harmful to the human body at high concentrations, ozone tolerance values are defined by various standards. For example, the Japan Society for Occupational Health Allowable Concentration Committee defines the ozone tolerance value of the working environment in Japan as 0.1 ppm. In addition, according to the home air purifier standard (IEC / J60335-2-65, UL867), the allowable ozone value 24 hours after the start of measurement is set to 0.05 ppm.

  Patent Documents 1 and 2 are devices having two types of ozone lamps and sterilization lamps. When there is a person, only the sterilization lamp is on. When there is no person, only the ozone lamp is on. An operation method in which both are turned on is disclosed.

JP-A-6-142175 Japanese Patent No. 3753602

  1 and 2 show the basic structure of a sterilization / deodorization unit using an ozone lamp or a sterilization lamp.

  As shown in FIG. 1, the sterilization / deodorization unit having the structure in which the ozone lamp 1 is arranged in the housing 2 deodorizes and sterilizes the intake air 4 by ozone generated by ozone rays (185 nm) of the ozone lamp 1. At the same time, the intake air 4 is sterilized by the sterilization line (253.7 nm) emitted by the ozone lamp 1. The exhaust 5 after deodorization and sterilization passes through the ozone decomposition filter 3 using an ozone decomposition catalyst and is exhausted.

  In the apparatus having the configuration shown in FIG. 1, it is essential to install the ozonolysis filter 3 so that the exhaust 5 satisfies the ozone tolerance. For this reason, maintenance of the ozonolysis filter is necessary, and realization of a maintenance-free apparatus is difficult.

In addition, in the deodorizing / sterilizing apparatus provided with the ozone lamp 1 and the sterilizing lamp 6 as shown in FIG.
(1) Strong sterilization and deodorization operation mode Turn on both ozone lamp and sterilization lamp. Deodorize and sterilize with ozone generated from ozone ray (185nm) of ozone lamp, and sterilize with sterilization line (253.7nm) of both ozone lamp and sterilization lamp.
(2) Mode of operation for weak sterilization and deodorization Turn on the ozone lamp and turn off the sterilization lamp. Deodorize and sterilize with ozone generated from the ozone lamp ozone line, and sterilize with the ozone lamp sterilization line.
(3) Weak sterilization mode (no deodorization)
Turn off the ozone lamp and turn on the germicidal lamp. Sterilize with the germicidal line of the germicidal lamp.

  However, if the operation is performed while switching between a plurality of operation modes, each lamp is repeatedly turned on and off, so that there is a problem that the lifetimes of the ozone lamp 1 and the sterilization lamp 6 are shortened.

  In the case of the apparatus shown in FIG. 2 as well, the ozone removal filter 3 needs to make the ozone concentration of the exhaust 5 equal to or lower than the allowable concentration, so that the ozone removal filter needs to be maintained.

  An object of the present invention is to provide a maintenance-free deodorizing and sterilizing apparatus that can maintain an ozone concentration below an allowable value.

  In order to achieve the above object, according to the present invention, the following deodorizing / sterilizing apparatus is provided. That is, an ultraviolet lamp, an outer tube that covers the outside of the ultraviolet lamp with a space, a housing that is disposed with a space outside the outer tube, and an openable and closable valve that is disposed at both ends of the outer tube. It is a device that has. The ultraviolet lamp emits at least a first wavelength ultraviolet ray having a deodorizing effect and a second wavelength ultraviolet ray having a bactericidal effect. The outer tube cuts ultraviolet light having the first wavelength and transmits ultraviolet light having the second wavelength. Thereby, the valve is opened and closed so that the ozone generated by the ultraviolet light of the first wavelength does not leak out, and the ozone concentration can be maintained below the allowable value.

  For example, the housing may be configured to include an intake port and an exhaust port, and a sensor that detects the concentration of ozone exhausted from the exhaust port and a control that controls opening and closing of the valve according to the output of the sensor Part. Thereby, it can be set as the structure which a control part controls automatically a valve according to the detection result of a sensor.

  For example, when the ozone concentration detected by the sensor is equal to or lower than a predetermined value, the control unit opens the valve to allow the intake air from the intake port to pass through the inside and outside of the outer pipe, so that the ozone concentration is preset. When the predetermined value is exceeded, the valve is closed and the intake air from the intake port is allowed to pass only outside the outer pipe.

  The deodorizing and sterilizing apparatus of the present invention has a configuration in which ozone generated by ultraviolet light of the first wavelength does not leak out by opening and closing a valve. Since it becomes possible to maintain the ozone concentration below the allowable value without using an ozone removal filter, a maintenance-free device can be realized.

The block diagram which shows the basic composition of the disinfection and deodorizing apparatus using an ozone lamp. The block diagram which shows the basic composition of the sterilization and deodorizing apparatus using an ozone lamp and a sterilization lamp. The block diagram which shows the whole structure of the sterilization / deodorizing apparatus using the ultraviolet lamp of embodiment.

  A sterilization / deodorization apparatus according to an embodiment of the present invention will be described with reference to FIG.

In FIG. 3, the whole structure of the disinfection and deodorizing apparatus of this embodiment is shown. The housing 9 is provided with an intake port 12a and an exhaust port 15a at positions facing each other, and an ozone lamp 7 that emits an ozone ray having a wavelength of 185.0 nm and a germicidal line having a wavelength of 253.7 nm is disposed therein. A filter tube 8 is disposed outside the ozone lamp 7. The filter tube 8 is made of a material that cuts ultraviolet light having a wavelength of 185.0 nm and transmits light having a longer wavelength. For example, a filter tube 8 made of quartz (ozone-less quartz) or UV-transmitting glass (barium silica-based soft glass), which is added with TiO ₂ and cuts ozone rays, is used.

  An intake side electromagnetic valve 10 is disposed in one opening of the filter tube 8 and is directed to the intake port 12a. The other opening is provided with an exhaust side electromagnetic valve 11 and is directed to the exhaust port 15a. The intake side solenoid valve 10 and the exhaust side solenoid valve 11 are connected to the control unit 17 and are opened and closed by a control signal output from the control unit 17.

  An ozone concentration sensor 16 is disposed in the housing 1 at a position near the exhaust port 15a. A signal indicating the ozone concentration output from the ozone concentration sensor 16 is input to the control unit 17.

  The inner diameter of the filter tube 8 is designed to ensure a space in which a predetermined amount of air flow 14 is generated between the filter tube 8 and the ozone lamp 7. The inner diameter of the housing 9 is designed so as to ensure a space in which a predetermined amount of air flow 13 is generated between the housing 9 and the filter tube 8. The positional relationship between the air inlet 12a and the filter pipe 8 is such that the air flowing into the housing 9 from the air inlet 12a flows into both the inside and the outside of the filter pipe 8 when the air inlet side solenoid valve 10 is open. Designed. Similarly, the positional relationship between the exhaust port 15a and the filter tube 8 is such that the air flow 14 inside the filter tube 8 and the air flow outside the filter tube 8 when the exhaust side solenoid valve 11 is open. Both 13 are designed to reach the exhaust port 15a.

  In addition, a fan (not shown) can be disposed inside or outside the housing 9 so that intake air 12 and exhaust air 15 having a predetermined flow rate can be secured.

The operation of the unit will be described in the sterilization / deodorization of this embodiment having such a configuration.
When the ozone concentration detected by the ozone concentration sensor 16 is equal to or less than a predetermined allowable value, the control unit 17 operates in the sterilization / deodorization mode by opening both the solenoid valves 10 and 11. When the ozone concentration exceeds a predetermined allowable value, the sterilization mode is switched by closing both the solenoid valves 10 and 11. The sterilization / deodorization mode is a mode that performs both sterilization and deodorization, and the sterilization mode is a mode that performs only sterilization and does not perform deodorization.

  Specifically, when the ozone concentration detected by the ozone concentration sensor 16 is equal to or less than a predetermined allowable value, the control unit 17 opens the intake side and exhaust side solenoid valves 10 and 11. As a result, the intake air 12 flowing into the housing 9 from the intake port 12a passes through the open solenoid valve 10 and flows the air flow 14 inside the filter tube 8 and the air flowing outside the filter tube 8. Divided into stream 13.

  The air flow 14 inside the filter tube 8 is sterilized and deodorized by the ozone generated in the filter tube 8 by the 185.0 nm ozone beam from the ozone lamp 7. It is also sterilized by a 254.7 nm sterilization line from the ozone lamp 7.

  On the other hand, since the filter tube 8 cuts ozone rays and transmits only the sterilization wire, the air flow 13 outside the filter tube 8 is sterilized only by the sterilization wire.

  Both the air flows 14 and 13 that have passed through the inside and outside of the filter tube 8 are exhausted from the exhaust port 15a. At this time, the ozone concentration of the exhaust 15 is detected by the ozone concentration sensor 16. The detection result is input to the control unit 17.

  When the ozone concentration of the exhaust 15 exceeds a predetermined allowable value, the control unit 17 closes both the intake side and exhaust side solenoid valves 10 and 11 and switches to the sterilization mode. Thereby, both ends of the filter tube 8 are closed, so that the ozone in the filter tube 8 does not flow out of the filter tube 8. The intake air 12 flowing into the housing 9 from the intake port 12a flows only outside the filter tube 8, and is sterilized only by the 254.7 nm sterilization line radiated from the ozone lamp 7. Thereafter, the air is exhausted from the exhaust port 15a. Therefore, ozone is not exhausted from the exhaust port 15a, and only sterilized air is exhausted, so that the ozone concentration of the exhaust 15 is reduced.

  When the concentration detected by the ozone concentration sensor 16 falls below the allowable value, the control unit 17 opens the intake side and exhaust side electromagnetic valves 10 and 11 and operates again in the sterilization / deodorization mode.

  As described above, the sterilization / deodorization apparatus of the present embodiment can maintain the ozone concentration of the exhaust 15 at a predetermined allowable value or less, and therefore can perform an operation that satisfies a predetermined standard that does not affect the human body. .

  Moreover, since the apparatus of this embodiment can control the ozone concentration without using an ozone removal filter, maintenance of the ozone removal filter is unnecessary, and a maintenance-free sterilization / deodorization apparatus can be provided.

  In addition, two types of operation modes of the sterilization / deodorization mode and the sterilization mode can be handled by using only the ozone lamp without using both the ozone lamp and the sterilization lamp. In addition, since the lamp is not turned on and off when the operation mode is switched, the lamp life is extended.

  The sterilization / deodorization apparatus of this embodiment is suitable as a sterilization / deodorization apparatus built in or installed in an air conditioner (air conditioner), an air purifier, or the like.

1: Ozone lamp, 2: Housing, 3: Ozone culture filter, 4: Intake, 5: Exhaust, 6: Sterilization lamp, 7: Ozone lamp, 8: Filter tube, 9: Housing, 10: Inlet solenoid valve 11: Exhaust side solenoid valve, 12: Intake, 12a: Inlet, 13: Air flow outside the filter tube, 14: Air flow inside the filter tube, 15: Exhaust, 15a: Exhaust port, 16: Ozone concentration sensor

Claims (3)

An ultraviolet lamp, an outer tube that covers the outside of the ultraviolet lamp with a space, a housing that is disposed with a space outside the outer tube, and an openable and closable valve that is disposed at both ends of the outer tube. Have
The ultraviolet lamp emits at least a first wavelength ultraviolet ray having a deodorizing effect and a second wavelength ultraviolet ray having a bactericidal effect,
The deodorizing and sterilizing apparatus, wherein the outer tube cuts off the ultraviolet light having the first wavelength and transmits the ultraviolet light having the second wavelength. The deodorizing / sterilizing apparatus according to claim 1, wherein the housing includes an air inlet and an air outlet.
A deodorizing / sterilizing apparatus, comprising: a sensor that detects a concentration of ozone exhausted from the exhaust port; and a control unit that performs control to open and close the valve according to an output of the sensor.   3. The deodorizing / sterilizing apparatus according to claim 2, wherein when the ozone concentration detected by the sensor is equal to or lower than a predetermined value, the control unit opens the valve to release intake air from the intake port. When the inside and outside of the outer pipe are passed and the ozone concentration exceeds a predetermined value, the valve is closed, and the intake air from the intake port is passed only through the outer side of the outer pipe. Deodorizing and sterilizing equipment.

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