JP2022030179A - Ultraviolet sterilization device and circulation type air sterilization device - Google Patents

Abstract

To provide an ultraviolet sterilization device capable of sterilizing a rear surface of a table or a chair in short time (several seconds) and sterilizing a small space while being light-weight, and a circulation type air sterilization device using the ultraviolet sterilization device.SOLUTION: An ultraviolet sterilization device 10 comprises: a quartz low pressure mercury lamp 11 formed of quartz glass; a lamp cooling fan 13 for cooling the quartz low pressure mercury lamp 11; and a storage housing 14 housing the quartz low pressure mercury lamp 11 and the lamp cooling fan 13. The quartz low pressure mercury lamp 11 is of a U-shape or a squared U-shape, has an ultraviolet transmittance of 90% or more and an input per 1-cm light emission length of 0.6-1.0 W. One end side of the storage housing 14 has an operation grip 17. In a circulation type air sterilization device 20, the ultraviolet sterilization device 10 is disposed in an upper part thereof, and an air sterilization housing 21 capable of sterilizing internal air is arranged.SELECTED DRAWING: Figure 1

Description

The present invention relates to an ultraviolet sterilizer and a circulating air sterilizer.

For surface sterilization of tables, floors, chairs, tableware, etc. in living spaces, desks, chairs, furniture, etc. in offices, schools, hospitals, etc., spray disinfectant ethanol or sodium hypochlorite, or use cloth, etc. There is a way to wipe it off. However, with these methods, there is a concern that the surface may be damaged by leftovers or plastics that are vulnerable to chemicals.

Therefore, it is conceivable to use a sterilizer using ultraviolet rays. The mainstream of conventional ultraviolet sterilizers is to place an object inside a box-shaped device and sterilize it inside the device, but it is a handy type or portable device that irradiates the object directly with ultraviolet rays. There are commercially available sterilizers of the type that can be used and products that use ultraviolet LEDs.

For example, a portable ultraviolet sterilizer having a palm-sized ultraviolet irradiation unit and a grip portion attached to the ultraviolet irradiation unit has been proposed. In this portable UV sterilizer, hold the grip part with one palm and hold the other palm over the UV irradiation part, and change the grip part so that the other palm is held over the UV irradiation part. Can be easily and quickly sterilized (see Patent Document 1).

Japanese Unexamined Patent Publication No. 2006-175041

However, conventional handy or portable sterilizers and products using UV LEDs have low power consumption (several watts), low illuminance (several tens of μW / cm ² ), and tens of seconds per location. The current situation is that bacteria and wheels do not die unless they are irradiated for a few minutes.

Further, the conventional germicidal lamp has problems such as a short life, high energy consumption, a long time to turn on, and a very long time to turn on again.

Therefore, the present invention has been made to solve such a conventional problem, and is handy for tables, floors, chairs, tableware, etc. in living spaces, desks, chairs, furniture, etc. in offices, schools, hospitals, etc. Alternatively, in a portable surface sterilizer, an ultraviolet sterilizer that can sterilize the back of a table or chair in a short time (several seconds), and is lightweight and can sterilize a narrow space, and circulating air using this ultraviolet sterilizer. The subject is to provide a sterilizer.

The ultraviolet sterilizer according to the present invention includes a low-pressure mercury lamp made of quartz glass, a cooling fan for cooling the low-pressure mercury lamp, and a storage housing for accommodating the low-pressure mercury lamp and the cooling fan. Prepare,
The low-pressure mercury lamp is characterized in that it has an ultraviolet transmittance of 90% or more and an input of 0.6 to 1.0 W per 1 cm of emission length.

Further, the ultraviolet sterilizer is characterized in that a handle is provided at an offset position on one end side of the storage housing, and the low-pressure mercury lamp is U-shaped or U-shaped.

Further, the circulating air sterilizing device according to the present invention includes the above-mentioned ultraviolet sterilizing device and an air sterilizing housing having a storage space for accommodating air to be sterilized by the ultraviolet sterilizing device. And,
The air sterilization housing is provided at one end and has an air intake port for taking in air into the storage space and an exhaust fan for discharging the air taken into the storage space to the outside. It is a feature.

According to the present invention, an ultraviolet sterilizer capable of sterilizing the back of a table or a chair in a short time, and also being lightweight and capable of sterilizing a narrow space, and a circulating air sterilizer using this ultraviolet sterilizer are provided. Can be provided.

It is a schematic diagram which shows the structure of the ultraviolet sterilizer in embodiment of this invention. It is a comparative correspondence table which shows the scanning speed with the conventional appliance / lamp for each index bacterium, and the lower limit speed of the scanning speed with the ultraviolet sterilizer in this embodiment. It is a schematic diagram which shows the structure of the circulation type air sterilizer using the ultraviolet sterilizer in embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a schematic view showing the configuration of an ultraviolet sterilizer according to an embodiment of the present invention. Note that FIG. 1A is a side view showing a schematic configuration of an ultraviolet sterilizer according to the present embodiment, and FIG. 1B is a bottom view showing a schematic configuration of an ultraviolet sterilizer according to the present embodiment. be. Further, FIG. 2 is a comparative correspondence table showing the lower limit of the scanning speed of the conventional instrument / lamp for each index bacterium and the scanning speed of the ultraviolet sterilizer according to the present embodiment.

(Structure of UV sterilizer 10)
As shown in FIG. 1, the ultraviolet sterilizer 10 includes a quartz low-pressure mercury lamp 11, an aluminum plate 12, a lamp cooling fan 13, a storage housing 14, a work handle 17, and a cable 18. I have. Further, the storage housing 14 is provided with a window 15 and a guard 16.

The quartz low-pressure mercury lamp 11 is a lamp using quartz glass that emits ultraviolet rays effective for sterilization. Further, the quartz low-pressure mercury lamp 11 irradiates ultraviolet rays having a main emission wavelength of 254 [nm] with a lamp input of 0.6 to 1.0 [W] per 1 cm of emission length. Further, the quartz low-pressure mercury lamp 11 uses quartz glass having a radiated 254 [nm] ultraviolet ray transmittance of 90% or more. Further, the quartz low-pressure mercury lamp 11 has a U-shaped arc tube. The shape of the arc tube may be U-shaped or the like.

The aluminum plate 12 reflects ultraviolet rays, and efficiently reflects the ultraviolet rays emitted from the quartz low-pressure mercury lamp 11 toward the window 15.
The lamp cooling fan 13 is for cooling the quartz low-pressure mercury lamp 11.

The storage housing 14 houses a quartz low-pressure mercury lamp 11, an aluminum plate 12, and a lamp cooling fan 13. Further, the storage housing 14 has a window 15 and a guard 16 on the lower surface thereof.

The window 15 is provided on the lower surface of the storage housing 14 and transmits the ultraviolet rays radiated from the quartz low-pressure mercury lamp 11 in order to irradiate the ultraviolet rays. Further, the window 15 is capable of sufficiently transmitting ultraviolet rays of 254 [nm] radiated from the quartz low-pressure mercury lamp 11.
The guard 16 is provided on the lower surface of the storage housing 14 below the window 15 to prevent the quartz low-pressure mercury lamp 11 made of glass from being damaged.

The work handle 17 is provided on the upper part of the storage housing 14, and is a handle for the operator to grip the ultraviolet sterilizer 10 at the time of use. Further, the working handle 17 is provided at an offset position on one end side of the ultraviolet sterilizer 10. For example, in the present embodiment, the working handle 17 is attached to one end side where the cable 18 and the lamp cooling fan 13 are provided.
The cable 18 is for connecting to a ballast for lighting a quartz low-pressure mercury lamp 11.

Here, it is well known that bacteria and viruses are killed by 254 [nm] ultraviolet light emitted from a low pressure mercury lamp. It has also been well known for a long time that UV resistance differs depending on the bacteria.
For example, the amount of ultraviolet rays required for 99% inactivation of bacteria and wheels is 5.4 [mJ / cm ² ] for gram-negative Escherichia coli and 21.6 [mJ / cm ² ] for gram-positive Bacillus subtilis. Staphylococcus aureus known to cause food poisoning is known to be 9.3 [mJ / cm ² ] (Shunji Kawabata, Tsuneo Harada, Disinfection of water with a sterilizing lamp, Journal of the Lighting Society, 36 (3), pp89-96,1952).

Therefore, when it is desired to sterilize a table or chair, the operator holds the work handle 17 and targets the ultraviolet irradiation side of the ultraviolet sterilizer 10, that is, the lower surface side where the window 15 is provided (table, chair, etc.). ), Irradiate with ultraviolet rays. Then, the ultraviolet irradiation surface is moved (scanned) while the ultraviolet sterilizing device 10 is moved laterally according to the range to be sterilized. This makes it possible to sterilize the surface of a table, chair, or the like.
However, as mentioned above, bacteria and viruses cannot be killed unless they are sufficiently irradiated with ultraviolet rays. That is, the amount of ultraviolet irradiation per unit area changes depending on the irradiation distance and the irradiation speed.

Here, a comparative example between a commercially available product and the ultraviolet sterilizer 10 of the present embodiment is shown.
With the commercially available sterilization lamp (GL-15) and the dedicated equipment, when the irradiation was performed at an irradiation distance of 50 [mm] and an irradiation speed of 3 [m / min], the result was 9.8 [mJ / cm ² ].
In the ultraviolet sterilizer 10 of the present embodiment, when the irradiation was performed at an irradiation distance of 50 [mm] and an irradiation speed of 3 [m / min], it was 112.8 [mJ / cm ² ].

FIG. 2 shows a comparative correspondence table showing the scanning speed of each index bacterium with a conventional instrument / lamp and the lower limit of the scanning speed of the ultraviolet sterilizer 10 in the present embodiment.
As mentioned above, FIG. 2 shows the instrument scanning lower limit speed [mm / sec] for inactivating bacteria and viruses by 99%.

As shown in FIG. 2, in influenza virus, the amount of ultraviolet rays required for 99% inactivation is 6.6 [mJ / cm ² ]. At this time, in the commercially available product, the lower scanning speed is 74.2 [mm / sec]. That is, the commercially available product cannot sufficiently inactivate influenza virus at a speed exceeding 74.2 "mm" per second.
On the other hand, in the ultraviolet sterilizer 10 of the present embodiment, the lower limit scanning speed is 854.5 [mm / sec]. As described above, the ultraviolet sterilizer 10 of the present embodiment can sufficiently sterilize influenza virus even if it is scanned at a speed 11.5 times faster than that of a commercially available product.

In Escherichia coli, the amount of ultraviolet rays required for 99% inactivation is 5.4 [mJ / cm ² ], and the lower limit scanning speed of commercially available products is 90.7 [mm / sec]. On the other hand, in the ultraviolet sterilizer 10 of the present embodiment, the lower limit scanning speed is 1044.4 [mm / sec], and even Escherichia coli can be scanned at a speed 11.5 times faster than that of a commercially available product.
Similarly, for Bacillus subtilis, Bacillus subtilis (spores), and black mold, the ultraviolet sterilizer 10 of the present embodiment can have a lower limit scanning speed of 11 times or more as compared with a commercially available product. In particular, in the case of black mold, a commercially available product could not be scanned realistically, but in the ultraviolet sterilizer 10 of the present embodiment, the lower limit scanning speed can be realistically scanned 21.4 [ It can be increased to mm / sec].

As described above, in the ultraviolet sterilizer 10 of the present embodiment, the lower limit of scanning speed is significantly increased as compared with the commercially available product, so that tables, floors, chairs, tableware, etc. in living spaces, offices, schools, hospitals, etc. It can sterilize desks, chairs, tableware, etc. in a short time (several seconds).
Further, the ultraviolet sterilizer 10 of the present embodiment has a simple structure, and since the work handle 17 is provided at one end of the storage housing 14, it is lightweight and can sterilize even a narrow space.

Next, a circulation type air sterilizer using the ultraviolet sterilizer 10 will be described.
FIG. 3 is a schematic view showing the configuration of a circulating air sterilizer using the ultraviolet sterilizer 10 according to the embodiment of the present invention. 3A is a side view showing a schematic configuration of the circulating air sterilizer according to the present embodiment, and FIG. 3B is a schematic configuration showing the schematic configuration of the circulating air sterilizer according to the present embodiment. It is a front view which shows.

As shown in FIG. 3, the circulation type air sterilizer 20 has, in addition to the ultraviolet sterilizer 10, an air sterilization housing 21, an air intake port 22, and a circulation fan 23. Further, the air sterilization housing 21 is provided with an air intake port 22.

The ultraviolet sterilizer 10 is the same as the ultraviolet sterilizer 10 of the above embodiment.
The air sterilizing housing 21 is a cylindrical housing, and has a storage space inside for storing the air sterilized by the ultraviolet sterilizing device 10. Further, the ultraviolet sterilizing device 10 is installed on the upper part of the air sterilizing housing 21. Further, the air sterilization housing 21 is capable of taking in the ultraviolet rays radiated by the ultraviolet sterilizing device 10 installed at the upper part. For example, the air sterilization housing 21 is provided with a cavity at the upper part, and can support the end portion of the ultraviolet sterilization device 10. The air sterilization housing 21 may be provided with a glass surface on the upper portion, on which the ultraviolet sterilizer 10 can be placed.

Further, the air sterilization housing 21 is provided with an air intake port 22 at one end thereof, so that air can be taken in from the outside of the air sterilization housing 21.
Further, the air sterilization housing 21 is provided with a circulation fan 23 facing the air intake port 22 so as to exhaust the air inside the air sterilization housing 21. The air sterilization housing 21 is provided with an air discharge port (not shown) at the other end of the circulation fan 23.

Such a circulating air sterilizer 20 is operated indoors. Specifically, when the ultraviolet sterilizer 10 is operated and the circulation fan 23 is operated, indoor air is taken into the inside of the air sterilization housing 21 from the air intake port 22. The air taken into the inside of the air sterilizing housing 21 is sterilized by the ultraviolet sterilizing device 10. Then, the sterilized air is discharged from the air sterilization housing 21 by the circulation fan 23. Therefore, the circulation type air sterilizer 20 can sterilize the air in the room by using the ultraviolet sterilizer 10.

As described above, in the ultraviolet sterilizer 10 of the present embodiment, tables, floors, chairs, tableware, etc. in living spaces, desks, chairs, furniture, etc. in offices, schools, hospitals, etc., especially the backs of tables and chairs, etc. It can be sterilized in a short time (several seconds), and it is lightweight and can sterilize even a narrow space.
Further, the indoor air can be sterilized by the circulation type air sterilizer 20 using the ultraviolet sterilizer 10 of the present embodiment.

In the present embodiment, the quartz low-pressure mercury lamp 11 constitutes the low-pressure mercury lamp of the present application. Further, in the present embodiment, the lamp cooling fan 13 constitutes the cooling fan of the present application. Further, in the present embodiment, the working handle 17 constitutes the handle of the present application.
Further, in the present embodiment, the air intake port 22 constitutes the intake port of the present application. Further, in the present embodiment, the circulation fan 23 constitutes the exhaust fan of the present application.

10 Ultraviolet sterilizer 11 Quartz low-pressure mercury lamp 12 Aluminum plate 13 Lamp cooling fan 14 Storage housing 15 Window 16 Guard 17 Work handle 18 Cable 20 Circulation type air sterilizer 21 Air sterilization housing 22 Air intake 23 Circulation fan

Claims (3)

A low-pressure mercury lamp made of quartz glass and
A cooling fan for cooling the low-pressure mercury lamp and
A storage housing for accommodating the low-pressure mercury lamp and the cooling fan,
Equipped with
The low-pressure mercury lamp has an ultraviolet transmittance of 90% or more and an input of 0.6 to 1.0 W per 1 cm of emission length.
An ultraviolet sterilizer that features that. A handle is provided at an offset position on one end side of the storage housing.
The low pressure mercury lamp is U-shaped or U-shaped.
The ultraviolet sterilizer according to claim 1. The ultraviolet sterilizer according to claim 1 or 2,
An air sterilization housing having a storage space for storing air to be sterilized by the ultraviolet sterilizer,
It is a circulation type air sterilizer equipped with
The air sterilization housing is
An air intake port provided at one end to take air into the storage space,
An exhaust fan that discharges the air taken into the storage space to the outside,
Have,
A circulating air sterilizer characterized by this.

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