JP2023183980A - Ultraviolet irradiation device - Google Patents

Abstract

To provide a sterilization or/and disinfection method which can be simply executed by utilizing a time zone where a used compartment space such as a karaoke room is vacant in order to prevent airborne infection or contact infection to cleaning staff or next users.SOLUTION: Provided is an ultraviolet irradiation device equipped with an ultraviolet lamp and a lamp breakage prevention structure of the present invention, where the ultraviolet lamp is cylindrical, installed approximately perpendicular from a base bottom part, has an outer diameter of 6 to 30 mm, then, the lamp breakage prevention structure has an approximately columnar lattice structure installed in a cylindrical periphery coaxial with the ultraviolet lamp, the thickness of a lattice material in a longitudinal direction is 1 mm or more and the outer diameter of the ultraviolet lamp or less, the distance from the ultraviolet lamp to the lattice material is 10 to 100 mm, and a spacing between a lattice material and a lattice material is 4 to 20 mm.SELECTED DRAWING: Figure 2

Description

Application for application of Article 30, Paragraph 2 of the Patent Act has been filed On June 18, 2021, Oak Seisakusho Co., Ltd. delivered to Koshidaka Holdings Co., Ltd. On June 18, 2021, Koshidaka Co., Ltd. delivered Karaoke Manekineko to Karaoke rooms and stores by Koshidaka Co., Ltd. Installed June 21, 2021, https://pdf. irpocket. com/C2157/xqEb/SBiU/r5i2. pdf, published by Koshidaka Co., Ltd. June 25, 2021, press conference at Karaoke Manekineko Shibuya Main Store by Tohoku University Knowledge Cast Co., Ltd., Koshidaka Holdings Co., Ltd., and Oak Seisakusho Co., Ltd. June 25, 2021, Jomo Shimbun Publication, etc. from October 11th to October 24th, 2021, TV commercial, Niigata TV 21, etc.

The present invention relates to an ultraviolet irradiation device.

In medical settings, sterilization and disinfection are actively carried out using alcohol disinfection or autoclave sterilization to prevent secondary infections caused by viruses and bacteria.
Recently, due to the pandemic of a new viral infection, sterilization or disinfection has become necessary even in karaoke rooms, restaurants, etc. other than in medical settings.

Utility model registration No. 3229067

However, alcohol disinfection is labor intensive and time consuming. For example, in karaoke rooms or restaurants, cleaning staff have had to wipe down microphones, doorknobs, and other parts of the room with alcohol-soaked cloth every time a new user changes to prevent contact infection. Additionally, in order to prevent airborne infections, it took a lot of time and effort to ensure that the ventilation capacity met the ventilation standards set by the Ministry of Labor. Therefore, an object of the present invention is to further reduce the risk of not only contact infection but also airborne infection and to provide a sterilization and/or disinfection method that can be easily implemented.

As a result of intensive research on a sterilization method that can be easily carried out, the present inventor surprisingly discovered that highly efficient ultraviolet irradiation using a small, lightweight, and easy-to-handle ultraviolet irradiation device that has a specific lattice structure to prevent lamp damage. It has been found that the method can effectively sterilize and inactivate viruses not only in karaoke rooms and restaurants but also in various other facilities.
The present invention is based on these findings.
Therefore, the present invention
[1] An ultraviolet irradiation device equipped with an ultraviolet lamp and a lamp damage prevention structure, wherein the ultraviolet lamp has a cylindrical shape, is installed substantially perpendicularly from the base, and has an outer diameter of 6 to 30 mm, and has an outer diameter of 6 to 30 mm. The prevention structure has a substantially cylindrical lattice structure installed around a cylindrical shape coaxial with the ultraviolet lamp, and the thickness of the vertical lattice material is 1 mm or more and less than or equal to the outer diameter of the ultraviolet lamp, An ultraviolet irradiation device, wherein the distance from the ultraviolet lamp to the grid material is 10 to 100 mm, and the interval between the grid materials is 4 to 20 mm;
[2] The lamp damage prevention structure includes an opening structure, and the opening structure has one vertical grid member of the cylindrical grid structure as an opening axis, and the opposite side of the grid member serving as the opening axis is open, and The ultraviolet irradiation device according to [1], which has a rotating structure;
[3] The ultraviolet irradiation device according to [1] or [2], wherein the ultraviolet lamp has electrodes at both ends and is supplied with power from power supply lines at both ends.
[4] The ultraviolet irradiation device according to any one of [1] to [3], comprising a support installed substantially perpendicularly from the base, and supporting the ultraviolet lamp from the support by an upper end support part;
[5] The ultraviolet irradiation device according to any one of [1] to [4], wherein the support is a prism with a rhombic cross section, and [6] the support has a handheld portion on the top and/or side surface. The ultraviolet irradiation device according to any one of [1] to [5],
Regarding.
Although Patent Document 1 describes a mobile germicidal lamp lighting device having a protective cover, it is not simple.

According to the ultraviolet irradiation device of the present invention, it is possible to efficiently sterilize and disinfect in karaoke rooms, restaurants, etc. during times when there are no people, so it can be expected to have the effect of breaking the chain of cluster occurrence. Further, the lamp breakage prevention structure having a specific lattice structure can prevent foreign matter from entering inside the lattice structure and coming into contact with the ultraviolet lamp. According to an embodiment of the ultraviolet irradiation device, maintenance such as replacement of the ultraviolet lamp is easy due to the lamp breakage prevention structure having a specific lattice structure. According to an embodiment of the ultraviolet irradiation device, it is possible to provide a highly durable and highly reliable ultraviolet irradiation device that is small and lightweight.

Left side view (A), front view (B), right side view (C), bottom view (D), rear view (E), and top view (F) of one embodiment of the ultraviolet irradiation device of the present invention It is. FIG. 1 is a perspective view of one embodiment of the ultraviolet irradiation device of the present invention. It is a photograph of one embodiment of the ultraviolet irradiation device of the present invention in a karaoke room when it is turned on (A) and when it is turned off (B). A schematic front view (A) of the ultraviolet irradiation device of the present invention, a front view (B) with the front lattice structure removed, a right side view (C), a top view (D), and a cross-sectional view of the lattice structure (E ). It is a figure showing the state where the opening of the opening structure in the lamp breakage prevention structure of the ultraviolet irradiation device of the present invention is closed. It is a figure showing the state where the opening of the opening structure in the lamp breakage prevention structure of the ultraviolet irradiation device of the present invention is open. It is a figure which showed the aspect in which the opening part of an opening structure is a snap lock.

The ultraviolet irradiation device of the present invention includes an ultraviolet lamp and a lamp breakage prevention structure. The UV lamp has a cylindrical shape, is installed substantially vertically from the base, and has an outer diameter of 6 to 30 mm. The lamp damage prevention structure has a lattice structure installed around the ultraviolet lamp in a substantially cylindrical shape, and the thickness of the vertical lattice material is 1 mm or more and less than or equal to the outer diameter of the ultraviolet lamp, and the ultraviolet ray The distance from the lamp to the grid is 10-100 mm, and the spacing between the grids is 4-20 mm.
The height of the ultraviolet irradiation device is preferably such that it can efficiently irradiate positions that are likely to be touched by people up to the standard value of ultraviolet irradiation amount when placed on a chair or table installed in a karaoke room. That is, the device height is determined assuming that chairs, tables, etc. installed in a karaoke room will be used as a stand for the ultraviolet irradiation device. Although not particularly limited, it is, for example, 1165 mm.
The width and depth of the lamp breakage prevention structure are also not particularly limited, but the width is, for example, 70 mm. Further, the depth is, for example, 70 mm. Further, the depth including the lamp broken cap structure and the support is, for example, 134 mm.
The width and depth of the base of the ultraviolet irradiation device are not particularly limited either, but it is preferable that the ground surface be large enough to easily pass through doors and passages and not easily fall over, and the width is, for example, 315 mm. Further, the depth is, for example, 263 mm.

《Ultraviolet lamp》
The ultraviolet lamp is not particularly limited as long as it has the effect of sterilization or virus inactivation, and examples thereof include an excimer lamp, a mercury lamp, and a fluorescent UV lamp.
An excimer lamp is a lamp filled with a rare gas or a mixed gas of a rare gas and a halogen gas. Examples of the rare gas sealed in the excimer lamp include Xe (172 nm), Kr (146 nm), or Ar (126 nm). Examples of the mixed gas of rare gas and halogen gas sealed in the excimer lamp include XeCl (308 nm) and KrCl (222 nm).
A mercury lamp is a lamp filled with rare gas and mercury, and includes, for example, a low-pressure mercury lamp (185 nm and 245 nm).
A fluorescent UV lamp has a phosphor film formed inside the lamp, and can emit ultraviolet rays of different wavelengths depending on the type of phosphor.

The outer diameter of the ultraviolet lamp is 6 to 30 mm, preferably 20 to 30 mm. Although the length of the ultraviolet lamp is not particularly limited, it is, for example, 1020 mm. With such a numerical range, the length of the ultraviolet lamp occupies a large proportion of the height of the device, and the ultraviolet irradiation device becomes compact.
The number of ultraviolet lamps is not particularly limited, but is, for example, 5 or less, preferably 4 or less, more preferably 3 or less, still more preferably 2 or less, and most preferably Preferably it is one light. The smaller the number of ultraviolet lamps, the lighter the product can be. Furthermore, the ultraviolet rays emitted from the plurality of ultraviolet lamps do not overlap, and ultraviolet rays can be efficiently irradiated.
The ultraviolet lamp is installed substantially perpendicularly from the base and is held by a lamp holder 11 at the base and a lamp holder 10 at the upper end support.

"electrode"
The ultraviolet lamp preferably has electrodes at both ends and is powered by power lines at both ends. The electrodes can be placed in the lamp holders 10 and 11 shown in Figure 4B. Further, the power supply line is wired from the lighting control section 13 of the base section 3, although it is not limited thereto. Furthermore, the lighting control section 13 may include an operation display section 12 (FIG. 4A).

《Lamp damage prevention structure》
The lamp breakage prevention structure has a lattice structure. The lattice structure is disposed around a cylindrical periphery coaxial with the ultraviolet lamp and has a substantially cylindrical shape. The lattice structure is formed by vertical lattice members 4 and horizontal lattice members 5.

The thickness of the grid material in the vertical direction is 1 mm or more and less than the outer diameter of the ultraviolet lamp. The lower limit of the thickness is preferably 2 mm or more. The upper limit of the thickness is preferably 15 mm or less, more preferably 10 mm or less, even more preferably 8 mm or less, still more preferably 6 mm or less, and still more preferably 4 mm or less. The upper limit and the lower limit can be appropriately combined to set a range. Although the shape of the vertical grid material is not particularly limited, it is preferably cylindrical. In this specification, when the grid material is cylindrical, the thickness of the grid material means its outer diameter. In the case of a shape other than a cylinder, it means its maximum diameter.
The thickness of the lattice material is preferably thicker in order to obtain the mechanical strength (rigidity) of the lattice structure. On the other hand, in order to reduce the area shaded by the lattice structure during irradiation with an ultraviolet lamp and increase the effectiveness of sterilization and virus inactivation, the thinner the lattice is, the better. Further, in order to reduce the weight of the ultraviolet irradiation device, it is preferable that the grid material be thinner. When the thickness of the lattice material is within the above range, the mechanical strength of the lattice structure can be obtained, and the effects of sterilization, virus inactivation, and weight reduction can be obtained.
The material of the vertical lattice material is not particularly limited, and may be stainless steel, for example.

The horizontal lattice material is not limited to, but may be an annular lattice material, and may have a structure in which a longitudinal lattice material passes through the annular lattice material, as shown in FIG. 4E, for example. The material of the horizontal lattice material is not particularly limited, and may be stainless steel, for example.

The distance between the ultraviolet lamp and the grid material is 10 to 100 mm. The lower limit of the distance is preferably 20 mm or more, and the upper limit of the distance is preferably 50 mm or less, more preferably 30 mm or less. The upper limit and the lower limit can be appropriately combined to set a range. In order to prevent anything that has entered the inside of the lattice structure from coming into contact with the ultraviolet lamp, it is preferable that the distance between the ultraviolet lamp and the lattice material is large. On the other hand, if the distance between the lattice material and the lattice material described below is the same, the distance between the UV lamp and the lattice material should be short in order to reduce the area shaded by the lattice material and increase the effectiveness of sterilization and virus inactivation. is preferable. Also, in order to reduce the weight of the ultraviolet irradiation device, it is preferable that the distance between the ultraviolet lamp and the grid material be short.
By setting the distance between the ultraviolet lamp and the grid material within the above range, it is possible to protect the ultraviolet lamp and obtain the effects of sterilization, virus inactivation, and weight reduction.

The spacing between the longitudinal grid members is 4 to 20 mm. In order to prevent objects from entering the inside of the lattice structure, it is preferable that the spacing be narrower. However, if the distance between the ultraviolet lamp and the grid material is large, the spacing between the grid materials may be widened. The lower limit is preferably 5 mm or more, more preferably 6 mm or more. The upper limit is preferably 18 mm or less, more preferably 16 mm or less. However, when the distance between the ultraviolet lamp and the grid material is 50 mm or more, the upper limit of the interval may be 40 mm or less, preferably 35 mm or less, and more preferably 30 mm or less.
By being within the above range, it is possible to prevent objects from entering the inside of the lattice structure, increase the aperture ratio, and reduce the weight of the lattice structure. Therefore, in a karaoke room or the like, even a female staff member can easily carry it and frequently irradiate it with ultraviolet rays.

The aperture ratio of the lattice structure is not particularly limited, but is, for example, 40 to 90%. By having the above aperture ratio, it is possible to protect the ultraviolet lamp and obtain the effects of sterilization and virus inactivation.

《Verification of sterilization/inactivation effect》
Using an ultraviolet lamp that emits ultraviolet light with a wavelength of 254 nm, the amount of ultraviolet irradiation that kills or inactivates 99% of E. coli and bacteriophage viruses is 6.5 mJ/cm ² for E. coli and 12 mJ/cm ² for bacteriophage viruses. Based on this, the standard value for the amount of ultraviolet irradiation was set at 12 mJ/cm ² . The above lattice structure has a small area that is shaded, so there is a high possibility that people will touch it in the karaoke room. It can efficiently irradiate UV rays up to the standard value in a short amount of time.

《Opening structure》
In the ultraviolet irradiation device of the present invention, preferably the lamp damage prevention structure has an opening structure.
The aperture structure has a structure in which one vertical lattice member of the cylindrical lattice structure serves as an aperture axis, and the opposite side of the lattice member serving as the aperture axis opens and rotates. One embodiment of the opening structure will be described using FIGS. 5 and 6. FIG. 5 is a diagram showing a state in which the opening of the opening structure is closed. The aperture axis 14 can be one longitudinal lattice member of a cylindrical lattice structure. By opening the openings 15 on approximately opposite sides of one longitudinal grid member, the opening structure of the lamp breakage prevention structure can be provided.
As shown in FIG. 6, the opening 15 preferably opens to about 180 degrees. Since the opening is wide open, it is possible to easily replace the ultraviolet lamp, and maintenance of the ultraviolet irradiation device of the present invention is facilitated.

As shown in FIG. 5, the opening is usually closed by one vertical grid member, and the opening 15 can be formed by removing the grid member. On the other hand, as shown in FIG. 7, the opening 15 can also be formed by installing a snap lock 16 in the opening and unlocking the snap lock.

《Strut》
The ultraviolet irradiation device of the present invention can also have a support. The support can be installed substantially perpendicularly from the base, parallel to the ultraviolet lamp. Further, the ultraviolet lamp can be supported by the upper end support portion extending from the column. As shown in FIGS. 3, 5, and 6, the upper end support part can be combined with the ultraviolet lamp 2 and the lamp holder (upper part) 10 to fix them so as not to bend and deform.
The shape of the pillar is not particularly limited, and examples thereof include a cylinder, a square prism, and a rhombus-shaped prism, with a rhombus-shaped prism being preferred. As shown in FIG. 4E, since the pillar 6 is a prismatic column with a diamond-shaped cross section, even when the pillar is made thicker to increase mechanical strength (rigidity), ultraviolet rays from the ultraviolet lamp are blocked by the pillar. can be kept to a minimum.

《Handheld part》
The support column has a hand-held portion on an upper surface and/or a side surface. As shown in FIG. 1, the upper surface of the column may have an upper hand-held portion 7, and the side surface of the column may have a side-hand-held portion 8. For example, by attaching wheels to the base portion 3, the ultraviolet irradiation device can be easily moved using the top handheld portion 7 or the side handheld portion 8.

《Operation procedures/safety verification》
By installing the ultraviolet irradiation device of the present invention in a karaoke room before cleaning and performing ultraviolet irradiation, it is possible to reduce the risk of infection to the cleaning staff and the next user.

The ultraviolet irradiation device of the present invention is not installed on the floor of the karaoke room, but is lit while placed on a chair or table, thereby efficiently irradiating areas that are likely to be touched by people up to the standard value for the amount of ultraviolet irradiation. can. For example, by placing it on a table installed in the center of a karaoke room and turning it on, the interior of the karaoke room can be efficiently irradiated up to the standard value for the amount of ultraviolet irradiation.

Since the ultraviolet irradiation device of the present invention is lightweight, about 4 kg, even relatively weak cleaning staff can easily carry the device. In addition, even if the device accidentally collides with a chair, table, door, etc., the mechanical strength (rigidity) is increased by the lattice structure and the pillars, and the opening structure prevents contact with the ultraviolet lamp. , can prevent damage to the UV lamp.

By installing the ultraviolet ray irradiation device of the present invention in the karaoke room before cleaning and setting a timer, it is possible to irradiate ultraviolet rays using the time when no one is around after the cleaning staff has left the room. Although it depends on the size of the karaoke room, it can be effectively sterilized and disinfected in about 7 to 15 minutes. The cleaning staff can use this time to clean rooms that have been irradiated with UV rays or perform other tasks. In this way, the cleaning staff can efficiently clean multiple private room spaces.

The ultraviolet irradiation device of the present invention is used not only for karaoke rooms, but also for external sales for space utilization purposes such as restaurants (restaurants, bars, etc.), hotels, nursing care facilities, private rooms, etc., and for sterilization and disinfection in public facilities such as community centers. be able to.

1... Ultraviolet irradiation device;
2...ultraviolet lamp;
3...basal part;
4...Vertical grid material;
5... Horizontal lattice material (annular lattice material);
6... Strut;
7...Top handheld part;
8... Side handheld part;
9... Upper end support part;
10... Lamp holding part (upper part);
11... Lamp holding part (lower part);
12...operation display section;
13...Lighting control section;
14...Aperture axis;
15... opening;
16...Snap lock;

Claims (6)

An ultraviolet irradiation device comprising an ultraviolet lamp and a lamp damage prevention structure,
The ultraviolet lamp has a cylindrical shape, is installed substantially perpendicularly from the base, and has an outer diameter of 6 to 30 mm, and the lamp breakage prevention structure is a substantially circular cylinder installed around the cylindrical shape coaxially with the ultraviolet lamp. It has a columnar lattice structure, and the thickness of the lattice material in the vertical direction is 1 mm or more and less than the outer diameter of the ultraviolet lamp, and the distance between the lattice material and the lattice material from the ultraviolet lamp is 10 to 100 mm. The distance between the ultraviolet irradiation device and the material is 4 to 20 mm. The lamp breakage prevention structure includes an opening structure, and the opening structure rotates with one vertical grid member of the cylindrical grid structure being an opening axis, the opposite side of the grid member serving as the opening axis being open, and the opening structure rotating. The ultraviolet irradiation device according to claim 1. The ultraviolet irradiation device according to claim 1 or 2, wherein the ultraviolet lamp has electrodes at both ends and is supplied with power from power supply lines at both ends. The ultraviolet irradiation device according to claim 1 or 2, comprising a support installed substantially perpendicularly from the base, and supporting the ultraviolet lamp by an upper end support portion from the support. The ultraviolet irradiation device according to claim 1 or 2, wherein the support column is a prismatic column with a rhombic cross section. The ultraviolet irradiation device according to claim 1 or 2, wherein the support column has a handheld portion on an upper surface portion and/or a side portion.