RU2334526C1 - Device for disinfection and sterilisation of objects - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: device for disinfection and sterilisation of objects contains chamber (1) with sources of electromagnetic radiation (6, 7) of UV wave range and trays (8) for processed objects, as well as reflecting mirror sphere elements (9) assembled inside chamber. Mirror sphere elements (9) are located in transparent capsules of cylinder form (10). Capsules (10) are vacuumed and nave their ends fixed on inner walls of chamber. Nodes of capsule fixation are made in the form of elastic elements of lyre-shaped form located on inner walls of chamber and interacting with metal plugs, which hermetise end-faces of capsules (10).

EFFECT: increase in efficiency of object procession and simplification of device servicing.

5 cl, 4 dwg

Description

The invention relates to the field of disinfection of objects and can be used for processing medical facilities, as well as in other areas of the national economy, where the use of sterile tools or equipment is necessary.

A device for sterilizing objects is known, comprising a chamber with mechanisms for supplying an aerosol of hydrogen peroxide in hot air to the surface of objects to be treated, see a.c. USSR No. 743565, IPC A61L 1/00.

The disadvantage of this device is its reduced functionality associated with the inability to process objects with reduced heat resistance.

A device for sterilizing objects is known, comprising a camera with UV radiation sources located therein, see US Pat. US No. 4366125, NKN 422-295.

The disadvantage of this device is the increased cycle time of processing objects.

A device for disinfection and sterilization of objects is known, comprising a chamber with trays for processed objects and sources of electromagnetic radiation in the form of flash lamps, see US Pat. RU No. 2234944, IPC A61L 2/10, application No. 2003109474 dated 04/07/2003.

The disadvantage of this device is the reduced efficiency of processing objects.

The closest technical solution to the proposed one is a device for disinfection and sterilization of objects, containing a chamber with sources of electromagnetic radiation and trays for processed objects, as well as mounted inside the chamber, reflecting mirror ball elements (see US Pat. RU No. 2286176, IPC A61L 2/08 , 10.27.2006, issued by application No. 2005109065.

The disadvantage of the above technical solution is its reduced performance characteristics associated with the increased complexity of its maintenance and insufficiently high processing efficiency of objects. Since the reflecting mirror spherical elements are in direct contact with a chemically aggressive medium - hydrogen peroxide, during operation of the device, the surface of the latter is quickly covered with an oxide film, which sharply reduces the reflection coefficient of the surface of the mirror elements (and, consequently, the processing efficiency of objects) and requires additional routine maintenance related to periodic cleaning and polishing of the surface of ball elements to restore their reflective properties in, which complicates the process of servicing the product.

The technical result from the use of the proposed technical solution is to increase the efficiency of processing facilities and simplify the process of servicing the product.

In accordance with the proposed technical solution, the specified technical result is achieved in that the device for disinfection and sterilization of objects, including a camera with UV radiation sources and trays for processed objects, as well as reflecting mirror ball elements mounted inside the camera, additionally contains cylindrical capsules molds made of optically transparent material, while the capsules are evacuated, filled with reflective mirror ball elements mi and fixed by the ends on the inner walls of the chamber.

In addition, the inner diameter of the cylindrical capsules is made according to the outer diameter of the reflecting mirror elements.

In addition, the device is equipped with liners of polymeric material placed between the extreme reflecting mirror spherical elements of each of the capsules of a cylindrical shape and the bottom sections of the latter.

In addition, the attachment points of the ends of the cylindrical capsules are made in the form of elastic lyre-shaped elements provided on the inner walls of the chamber.

In addition, the ends of the cylindrical capsules are sealed with metal plugs interacting with the elastic elements of the lyre-shaped.

Figure 1 presents the proposed device is a longitudinal section in a vertical plane; figure 2 is the same, a longitudinal section in a horizontal plane; figure 3 is a longitudinal section of capsules of cylindrical shape, filled with spherical elements; figure 4 is a section aa in figure 3 (section on the elastic elements of the lyre-shaped).

The proposed device for disinfection and sterilization of objects contains a chamber 1, two opposite walls 2 and 3 of which are made in the form of gutters with internal mirror surfaces 4 and 5 and have a parabola in cross section. Along the focal axes of the parabolas in chamber 1, flashlights 6 and 7 are installed with electromagnetic radiation from the UV wave range. Transparent trays are provided for placing the objects to be processed in the chamber 1. In order to increase the processing efficiency of the objects, the device is equipped with reflecting mirror spherical elements 9 located in cylindrical capsules 10 made of optically transparent material, for example, silica glass. The ends of the capsules 10 are sealed with metal plugs 11 (to avoid chipping during installation), while the internal cavity of the capsules 10 is evacuated (which excludes the contact of the reflecting surface of the ball elements with the environment and prevents their coating with an oxide film). To exclude the free movement of the ball elements 9 inside the capsules 10, the inner diameter of the latter is made according to the outer diameter of the elements 9, and liners 12 of polymer material are provided between the extreme elements 9 and the bottom sections of the capsules 10. Capsules 10 are attached at their ends (in the region of plugs 11) to opposite walls 13 and 14 of chamber 1 by means of lyre-shaped elastic elements 15 welded to walls 13 and 14 through brackets 16 and 17 (see FIGS. 3 and 4).

The work of the proposed device is as follows.

Processed objects are placed in chamber 1 on trays 8 (not conventionally shown in graphic materials). Then, one or several pulses of electromagnetic radiation from the UV wave range are applied from lamps 6 and 7, which acts on the objects being processed and carries out their bactericidal treatment. In this case, in the chamber 1 due to the parabolic walls 2 and 3, counter-directed flows of UV radiation are formed, part of which is converted into diverging beams with the help of mirror ball elements 9, which carry out an additional bactericidal effect on the treated objects. It should be noted that in order to achieve a more effective bactericidal effect on objects simultaneously with the formation of UV radiation pulses, a hydrogen peroxide aerosol can be supplied to chamber 1 (not shown conventionally in graphic materials).

From the above it follows that the proposed technical solution has advantages over the known one, namely, due to the isolation of the mirror elements from the environment, the coating of their surface with an oxide film is completely eliminated, which reduces their reflective properties and requires additional routine maintenance to periodically polish the surface of the ball elements.

Therefore, the proposed device when used gives a technical result, which consists in increasing the efficiency of processing objects and simplifying its maintenance.

Based on the application materials, a prototype is currently being made, tests of which have confirmed the achievement of the indicated technical result.

Claims (5)

1. A device for disinfection and sterilization of objects, containing a camera with sources of electromagnetic radiation of the UV wave range and trays for processed objects, as well as reflective mirror ball elements mounted inside the camera, characterized in that it additionally contains cylindrical capsules made of optically transparent material, while the capsules are evacuated, filled with reflective mirror ball elements and fixed with ends on the inner walls of the chamber. 2. The device according to claim 1, characterized in that the inner diameter of the cylindrical capsules is made according to the outer diameter of the reflecting mirror ball elements. 3. The device according to claim 1, characterized in that it is equipped with liners of polymeric material placed between the extreme reflecting mirror spherical elements of each of the capsules of a cylindrical shape and the bottom sections of the latter. 4. The device according to claim 1, characterized in that the attachment points of the ends of the cylindrical capsules are made in the form of lyre-shaped elastic elements provided on the inner walls of the chamber. 5. The device according to claim 1 or 4, characterized in that the ends of the cylindrical capsules are sealed with metal plugs interacting with the elastic elements of the lyre-shaped.

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