MD1828Z - UVC sterilization device - Google Patents

Abstract

The invention relates to the disinfection and destruction of pathogenic agents often present on objects with uneven surfaces (e.g. laboratory instruments, dental instruments and equipment, surgical instruments, measuring instruments) under the influence of ultraviolet radiation. The UVC sterilization device according to the invention comprises a housing (15) with a door (2) with a handle (3), mounted on legs (1). Inside the housing (15) there are two compartments, sterilization B (4) and electrical A (8). In the sterilization compartment B (4), the bottom wall, side walls, and the inner part of the door (2) are covered with a reflective material, on top of which quartz rods (16) of different diameters, 3 mm and 5 mm, are placed in a certain order, and in the lower part of the sterilization compartment B (4) a support made of stainless steel (17) for sterilization items is placed. Electrical compartment A (8) contains a switch (9), a set of electrical ballasts (13), a connector (6) connected via an electrical wire (11) to a source of ultraviolet radiation (5), connected via a control module (7) to an information display (10). In electrical compartment A (8) there are ventilation openings (12), and a protective reflective screen (14) is placed above the source of ultraviolet radiation (5).

Description

The invention relates to the decontamination and annihilation of pathogens, frequently present on objects with irregular surfaces (e.g. laboratory instruments, dental instruments and equipment, surgical instruments, measuring devices), under the action of ultraviolet radiation.

A device is known for disinfecting objects with irregular surfaces under the action of UVC radiation, used with wavelengths of approximately 254 nm, which comprises a box-shaped body, at least one cold cathode lamp, mounted inside the box-shaped body and designed to expose the object to be disinfected to ultraviolet radiation, one or more detection devices designed to detect environmental conditions, a control system designed to determine the activation time required for the lamp to reach a nominal ultraviolet radiation power. The control system is also designed to control the power supply to the lamp [1].

The disadvantages of the known device are that pathogens on some objects with irregular surfaces are not fully penetrated by UVC radiation, and for complete inactivation of these pathogens a long time of exposure to radiation is necessary, which leads to increased energy consumption, at the same time there is a sudden increase in temperature in the body from the high-power sterilization lamps, which can cause possible damage to these objects undergoing treatment.

A portable sterilizer is also known, which can be considered as the closest solution, which contains a two-compartment housing for electrical parts and for the actual sterilization process. The electrical parts compartment contains operative and functional components of the unit, such as a printer, ballasts, lamp holders, sockets, microswitches, motor blowers, ballasts, a cooling fan, power supply, wiring and circuit fuses. The interior surfaces of the sterilization compartment are preferably made of stainless steel with a highly polished mirror finish, to reflect and scatter the UVC radiation inside the sterilization compartment. In another embodiment, the interior surface is coated with highly reflective white paint. The sterilization compartment is a generally rectangular cavity having a ceiling, a floor disposed opposite the ceiling, and four side walls, defining a spatial volume sufficient for the irradiation of an object by direct contact with UVC radiation. This space intended for decontamination is preferably rectangular, is formed of plastic, metal, stainless steel, or other material that is opaque to UVC radiation and that leads to the reflection or scattering of UVC radiation within the compartment [2].

The disadvantage of the known device is that pathogens are not fully penetrated by ultraviolet radiation in irregular areas of objects subject to decontamination, due to the lack of direct UVC radiation, which means that pathogens found in these areas not penetrated or partially penetrated by radiation are not completely inactivated, and for complete inactivation in this sense, a much longer exposure time of objects to UVC radiation will be required.

The technical problem solved by the invention consists in expanding the range of disinfection devices and significantly reducing the exposure time under the action of UVC radiation of various objects with irregular surfaces by increasing the efficiency of the sterilization rate, as a result of increasing the dispersion of the radiation.

The technical problem is solved with the help of the UVC sterilizer device, which contains a body with a door with a handle, installed on legs, inside the body two compartments are made, sterilization B and electrical A. In the sterilization compartment B, the lower wall, side walls, and the inner part of the door are covered with a reflective material, above which quartz rods of different diameters, 3 mm and 5 mm, are placed in a set manner, and in the lower part of the sterilization compartment B a stainless steel support for the sterilization objects is placed. The electrical compartment A contains a switch, a set of electrical ballasts, a connector, connected by an electric wire to an ultraviolet radiation source, connected by a control module to an information screen. Ventilation holes are made in the electrical compartment A, and a reflective protective screen is placed above the ultraviolet radiation source.

The advantages of the invention consist of the following.

Quartz transmits ultraviolet radiation very well, so it was proposed to use quartz rods with different diameters, 3 mm and 5 mm, to create a medium with a high efficiency of radiation diffraction. Quartz has a good light transmission, especially in the ultraviolet spectral region of approximately 254 nm, where the transmission is over 95%. This makes it possible for the UVC radiation from the ultraviolet radiation source to suddenly change direction once it passes through these quartz rods, and then part of the radiation to continue towards the object to be sterilized, and another part to be reflected towards another rod, and then towards the body. Once the light ray reaches the inside of the rod, which transversely has a circular shape, it can behave like a gallery wave for a very short period of time, which then exits the rod at another angle, completely different from the incident angle. Due to the existence of two diameters of quartz rods, the light coming out of the rod with the large/small diameter can penetrate into the rod with the small/large diameter or can be reflected, thus changing its trajectory. Therefore, two sources of radiation will act on the object subjected to irradiation, the direct one and the diffuse one resulting from the phenomena of reflection and refraction or the gallery wave effect, and due to these effects it will be possible to inactivate pathogens on surfaces where direct radiation does not reach, and the exposure time in this regard will be much shorter. These changes in the trajectory of direct radiation in contact with the quartz rods cause the radiation to cover the entire surface of the objects subjected to irradiation, regardless of the irregularity of their surfaces. This minimizes the duration of the pathogen decontamination process, thus increasing the efficiency of the device. The exposure of pathogens in the tube under the influence of UVC radiation is more effective compared to other inventions, because the quartz rods play a very good role in dispersing ultraviolet radiation, and as a result, the surfaces of irregular objects are fully penetrated by radiation, where pathogens on these surfaces are effectively inactivated. The inner coating of the sterilization compartment B is made of thin reflective material of the order of several tens of microns, which acts as a reflector and does not allow ultraviolet radiation to exit the body.

The technical result of the invention consists in increasing the radiation dose in the shaded areas of objects with irregular surfaces where direct radiation does not reach, and as a result of the physical effects obtained such as the reflection/refraction of UVC radiation, due to the quartz rods placed inside the sterilization compartment B, the dispersion of these radiations takes place to the entire surface of the objects with irregular shapes, as a result of which the pathogens are subjected to these high doses of radiation and efficiently inactivated. At the same time, around these quartz rods a so-called evanescence zone appears which is a very effective area for decontamination of pathogens that are found at the contact between the object and the rod.

The invention is explained by the drawings in Fig. 1-3, which represent:

- Fig. 1, UVC sterilizer device, general view;

- Fig. 2, the stainless steel support of the device;

- Fig. 3, device, schematic view.

The UVC sterilizer device (fig. 1-3) contains the body 15 with the door 2 with the handle 3, installed on the legs 1. Inside the body 15, two compartments are made, the sterilization B 4 and the electrical A 8. In the sterilization compartment B 4, the lower wall, the side walls, and the inner part of the door 2 are covered with a reflective material, above which the quartz rods 16 with different diameters, 3 mm and 5 mm, are placed in a set manner, and at the bottom of the sterilization compartment B 4 the stainless steel support 17 for the objects to be sterilized is placed. The electrical compartment A 8 contains the switch 9, the set of electrical ballasts 13, the connector 6, connected by the electrical wire 11 to the ultraviolet radiation source 5, connected by the control module 7 to the information screen 10. In the electrical compartment A 8, ventilation holes 12 are made, and above the ultraviolet radiation source 5, the reflective protective screen 14 is placed.

The device can be used with 253.7 nm tube bactericidal lamps with a wire connection to the electronic ballast. For example, as models of bactericidal lamps, F18T8 GERMICIDAL bactericidal lamps with a diameter of up to 1 inch and a length of 24 inches from any authorized manufacturer of UVC lamps that will be suitable in size and power can be used.

The PANLIGHT F18T8 GERMICIDAL 18 Watt radiation source is arranged to ensure maximum penetration of ultraviolet light through the tubular body and to ensure maximum exposure of the fluid to the emitted UVC radiation.

Optionally, a control element can be installed in the device that can be purchased from www.alibaba.com, for example: ORNO ORWE512 single-phase electric meter 100 A 230 V IP51 or 12 IN 1 Din Rail AC Monitor 110V 220V 100A Voltage Current Power Factor Electric Energy Frequency Meter VOLT AMP.

The electronic ballast is an inverter that has the role of transforming the alternating current coming from the network into direct current for starting and operating the tubular bactericidal lamp, generally of high frequency.

In the claimed device, an electronic model HL 385 18 W of the manufacturer HOROZ is taken as an example of an electronic ballast (Electronic ballast HL 385 18 W. Electromotor service. Online, URL: https://electromotor.md/produs/balast-electronic-hl-385-18-w/).

The UVC sterilizer device works in the following way.

Using door 2, objects with irregular contaminated surfaces are introduced into sterilization compartment B 4, being placed on the stainless steel support 17. Quartz rods 16 with different diameters, 3 mm and 5 mm, are arranged in a set manner, starting with the 5 mm rod, continuing with the 3 mm rod, at a distance of 1 mm from each other, and so on, covering all the inner surfaces of sterilization compartment B, including the inside of door 2, the only exception being the upper part of sterilization compartment B, due to the fact that the ultraviolet radiation source 5 is located on that side. Using switch 9, the ultraviolet radiation source 5 is put into operation by means of the set of electrical ballasts 13. The control module 7 provides information both about the sterilization time of the device and about the state of the ultraviolet radiation source 5 (functionality, working time). The fact that the body 15 is covered with reflective material on the inside does not allow UVC radiation to escape from the UVC sterilizer device.

Therefore, a bactericidal device is proposed, simple in construction, and which allows the disinfection of the surfaces of various irregular objects much more efficiently compared to other devices, and due to the appearance of a microwave oven, it is very convenient to use.

1. JPH 01232964 A 1989.09.18

2. BR 102021007678 A2 2022.11.01

Claims (1)

UVC sterilizer device, which contains a body (15) with a door (2) with a handle (3), installed on legs (1), inside the body (15) two compartments are made, sterilization B (4) and electrical A (8); in the sterilization compartment B (4), the lower wall, the side walls, and the inner part of the door (2) are covered with a reflective material, above which quartz rods (16) with different diameters, 3 mm and 5 mm, are placed in a set manner, and in the lower part of the sterilization compartment B (4) a stainless steel support (17) for the objects to be sterilized is placed; the electrical compartment A (8) contains a switch (9), a set of electrical ballasts (13), a connector (6), connected by an electrical wire (11) to an ultraviolet radiation source (5), connected by a control module (7) to an information screen (10); At the same time, ventilation holes (12) are made in the electrical compartment A (8), and a reflective protective screen (14) is placed above the ultraviolet radiation source (5).