RU182362U1 - UV irradiator - Google Patents

Abstract

The utility model relates to medical equipment, namely to ultraviolet bactericidal irradiators intended for intracavitary and intravascular irradiation. The ultraviolet irradiator includes a housing with an installed ultraviolet radiation source and a power and control unit consisting of a power supply for the ultraviolet radiation source and a power supply operation control board. The housing is made with a hole for the directed action of ultraviolet radiation. The ultraviolet radiation source has a tubular shape or is a light emitting or laser diode. The spectrum of the radiation source lies mainly in the range of 205-315 nm. The irradiator additionally includes options for an optical system for collecting ultraviolet radiation, in the focus of which is the input end of the optical fiber. The design of the utility model allows maximum collection of radiation from an ultraviolet source into a flexible fiber optic fiber, from which it enters the irradiated object. 5 of FIG.

Description

The technical solution relates to medical equipment, namely to ultraviolet bactericidal irradiators intended for intracavitary and intravascular irradiation.

In surgery, there is the problem of bactericidal treatment of the cavities of the body and its vessels. For this purpose, the introduction of antiseptics, antibiotics, drainage, repeated sanitizing operations, etc. into the corresponding cavities is used. These methods of treating cavities and vessels are often invasive and fraught with complications and side effects, such as allergic reactions to the injected drug solutions.

The use of bactericidal ultraviolet irradiators is an optimal solution, since it is known that external and intracavitary moderate exposure to ultraviolet radiation with a wavelength of 180-400 nm is practically safe (What is ultraviolet physiotherapy, the prospectus of devices of the A. Popov Gorky Communication Equipment Plant OJSC ", P. 5-6, found from the Internetnet https://brief-med.ru/image/data/user_manual/fizio/chto_takoe_ultrafioletovaja_fizioterapija.pdf 03/20/2017).

The use of currently known ultraviolet irradiators to reduce microbial contamination during intracavitary and intravascular irradiation does not lead to the desired result. The inefficiency of the use of ultraviolet irradiators is explained either by the inability to deliver bactericidal radiation to the irradiated object, or by the insignificance of the share of bactericidal radiation in the emission spectrum of the ultraviolet source.

Known ultraviolet irradiator "Isolda", designed for irradiation of blood (Isolda. Apparatus for ultraviolet irradiation of blood. Catalog of the scientific and production company "VIDA", 2012, 5 S.).

Ultraviolet irradiation of blood by the Izold irradiator is carried out outside the patient's body when it is passed through a cuvette, while the blood is irradiated twice when the patient is taken and returned to the vein. The collection and return of blood is carried out by force using a roller pump.

In the Izold irradiator, a DRB-8 lamp with a power of 8 watts was used. This is a low pressure bactericidal gas discharge tube mercury lamp. The emission spectrum of the DRB-8 lamp is linear. Most of the radiation energy falls on the spectral line with a wavelength of 253.7 nm.

The design of the Izold irradiator makes it impossible to use it for intracavitary and intravascular irradiation.

Known fiber quartz irradiator OVK-03 (OVK-3-7 and OVK-3-7L models) developed by Kvartspribor-M (Description of the device found from the Internet http://medprom.ru/medprom/mmp_0001162 03/23/2017). The irradiator is designed for intravascular irradiation of blood in the range of wavelengths from 290 to 700 nm with radiation energy at the output of the fiber up to 100 mW.

The OVK-3-7 model irradiator is two-channel, which allows two patients to simultaneously carry out the procedure with an independent choice of the irradiation mode on each channel.

The OVK-3-7L model irradiator is three-channel, which, in addition to irradiating blood through two channels, as in the OVK-3-7 model, additionally irradiates blood with laser radiation with a wavelength of 650 nm on the third channel.

HVAC irradiators are equipped with reusable or disposable fibers.

The use of HVAC irradiators to reduce microbial contamination, that is, with bactericidal purposes, is not advisable, since ultraviolet radiation in the wavelength range from 205 to 315 nm with the highest bactericidal efficacy in the range of 265 nm has a bactericidal effect (Use of ultraviolet bactericidal radiation to disinfect indoor air: Guidelines R 3.5.1904 - 04. - Moscow: Federal Center for State Sanitary and Epidemiological Supervision of the Ministry of Health of Russia, 2005. - 46 p).

An ultraviolet irradiator was used as an analogue (patent for utility model No. 154461 of 08/27/2015). The irradiator includes a housing with an installed ultraviolet radiation source and a power and control unit, consisting of a power supply of the ultraviolet radiation source and a power supply control board, while the housing is made with a hole for the directed action of ultraviolet radiation.

The ultraviolet irradiator can be used as a bactericidal irradiator for disinfecting indoor air, as well as for external and intracavitary irradiation for therapeutic and prophylactic purposes.

The hole in the case for the directed action of ultraviolet radiation during bactericidal irradiation of the room is open, and with external or intracavitary irradiation of the patient's body is closed by a shutter with a tube fixed to it with a wide end, which is a conical tube.

In this way, the mucous membranes of the nose, oral cavity, and external auditory canal can be irradiated. Irradiation of mucous membranes, for example, of the gastrointestinal, genitourinary system, or intravascular irradiation in this way is impossible, since the design of the irradiator does not provide for the collection of ultraviolet source radiation in a flexible fiber so that this radiation can be delivered to the irradiated object using the necessary medical devices.

Thus, there is a need for a utility model devoid of the above disadvantages.

The purpose of the utility model is to create a bactericidal ultraviolet irradiator for intracavitary and intravascular irradiation, in which radiation from an ultraviolet source is maximally collected in a flexible fiber optic fiber and fed through it to the irradiated object.

To achieve this goal, an ultraviolet irradiator is proposed, which includes a housing with an ultraviolet radiation source installed in it and a power and control unit consisting of an ultraviolet radiation source power supply and a power supply operation control board, while the housing is made with a hole for the directed action of ultraviolet radiation characterized in that the ultraviolet radiation source has a tubular shape, the spectrum of the radiation source lies mainly in the range e is 205-315 nm, and the irradiator additionally includes two collecting cylindrical lenses located in series after the radiation source, in addition, the first collecting cylindrical lens is parallel to the radiation source, the second collecting cylindrical lens is perpendicular to the first, on the focal line of the first collecting cylindrical lens the width of the second collecting cylindrical lens is at least 20% of the length of the first collecting cylindrical lens, in the focus of the second collecting cylindrical of the input lens of the optical fiber, the first collecting cylindrical lens and the second collecting cylindrical lens are equipped with an adjustment mechanism.

The ultraviolet irradiator described above may further comprise a cylindrical reflector.

The radiation source may be a low pressure bactericidal gas-discharge tube mercury lamp with a linear emission spectrum, most of the radiation energy of which falls on a spectral line with a wavelength of 253.7 nm.

The hole in the housing for the directed action of ultraviolet radiation can be equipped with an optical connector.

The scheme of the proposed ultraviolet irradiator is presented in figure 1.

The irradiator is assembled in the housing 1. An ultraviolet source is used as the radiation source 3. The power supply and control unit 2 provides electric power to the ultraviolet radiation source 3. The operation of the power and control unit is controlled by the control board, which is part of the power and control unit.

The ultraviolet radiation source 3 has a tubular shape. The spectrum of the radiation source 3 lies mainly in the range of 205-315 nm.

The irradiator further includes a cylindrical reflector 4, arranged sequentially after the radiation source 3, the first collecting cylindrical lens 5 and the second collecting cylindrical lens 7, optical fiber 9, optical connector 10. installed in the hole 11, which is made in the housing 1 for the directed action of ultraviolet radiation .

The reflector 4 is placed in front of the radiation source 3 and parallel to it. The first collecting cylindrical lens 5 is parallel to the radiation source 3, on the focal line of the first collecting cylindrical lens 5 there is a second collecting cylindrical lens 7 perpendicular to the first. The width of the second collecting cylindrical lens 7 is at least 20% of the length of the first collecting cylindrical lens 5.

The focus of the second collecting cylindrical lens 5 is the input end of the optical fiber 9, which leads the radiation of the radiation source 3 to the optical connector 10. Through an external optical fiber 12 connected to the optical connector 10, ultraviolet radiation is supplied to the irradiated object.

The first collecting cylindrical lens 5 and the second collecting cylindrical lens 7 are equipped with adjustment mechanisms 6 and 8, respectively. The arrows indicate the direction of propagation of radiation 13 from the radiation source 3.

Ultraviolet irradiator operates as follows.

1. The power cord of the irradiator is connected to the power supply network.

2. Supply voltage to the irradiator.

3. Set the selected mode of operation of the irradiator.

4. Connect the external fiber.

5. The light guide is drawn using the necessary medical devices to the irradiated object.

6. Irradiate the selected object in the set mode.

7. At the end of the irradiation, the optical fiber is removed and the irradiator is turned off.

The proposed irradiator makes it possible to use ultraviolet bactericidal radiation for intracavitary and intravascular exposures, which avoids or reduces the undesirable effects of antiseptics and antibiotics and thereby improve the quality of medical care.

Claims (3)

1. The ultraviolet irradiator, comprising a housing with an installed ultraviolet radiation source and a power supply and control unit consisting of a power supply of an ultraviolet radiation source and a power supply operation control board, wherein the housing is made with a hole for the directed action of ultraviolet radiation, characterized in that the ultraviolet radiation source has a tubular shape, the spectrum of the radiation source lies mainly in the range 205-315 nm, and the irradiator further includes two collecting cylindrical lenses arranged in series after the radiation source, in addition, the first collecting cylindrical lens is parallel to the radiation source, the second collecting cylindrical lens is perpendicular to the first on the focal line of the first collecting cylindrical lens, and the width of the second collecting cylindrical lens is at least 20% from the length of the first collecting cylindrical lens, the input end of the optical fibers is in the focus of the second collecting cylindrical lens nnogo fiber configured to summing radiation to an optical connector, installed in an opening formed in the housing, wherein to said external optical fiber connector coupled waveguide, and the first collecting cylindrical lens and second cylindrical collecting lens is provided with the alignment mechanism. 2. The ultraviolet irradiator according to claim 1, characterized in that the irradiator further includes a cylindrical reflector located on the optical axis of the irradiator in front of the ultraviolet radiation source. 3. The ultraviolet irradiator according to claim 1, characterized in that the radiation source is a low-pressure bactericidal gas-discharge tube mercury lamp with a linear emission spectrum, most of the radiation energy of which falls on a spectral line with a wavelength of 253.7 nm.

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