RU2242995C1 - Installation for sterilizing medical and laboratory instruments - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has ozonizing unit and sterilizing chamber having housing, cover, shelves for placing articles under treatment, taps for supplying and discharging ozone-and-air mixture and filter provided with catalyst. Sterilizing chamber additionally has tubes, the upper one having openings for supplying ozone-and-air mixture to and the lower one for discharging it from the chamber and removable carcass mounted inside and having guiding members for arranging shelves manufactured as trays having beside the holes for ozone-and-air mixture to pass through to the articles under sterilization also slits like jalousie. The cover is rotatable about vertical axis and has observation window.

EFFECT: high quality of treatment; larger amount of ozone penetrating into all parts of the chamber; increased instrument area under treatment; simplified operation.

2 cl, 8 dwg

Description

The present invention relates to medical equipment and can be used for surface sterilization of surgical and laboratory instruments, as well as medical and laboratory products.

Known multi-purpose ozone sterilizer (avenue of the production association "Orion-Si"), which includes the ozonizer "Orion" OP 1-M and a sterilization chamber.

The principle of the chamber’s operation is that the ozone-air mixture produced by the ozonizer with a predetermined concentration of ozone is fed through a hose into the chamber, in which bacteria, viruses and fungi are quickly and efficiently destroyed by atomic oxygen, which has a strong oxidizing ability.

The design of this camera is, according to the authors, the closest to the claimed design and can serve as a prototype.

The known chamber is a rectangular box and contains a housing, a lid, flat removable shelves for laying sterilized objects, a filter with a catalyst, a pair of taps for supplying an ozone-air mixture and removing it from the chamber and hoses.

Since the ozone-air mixture entering the chamber through the upper tap from the ozonizer is heavier than air, the lateral arrangement of the upper tap does not allow the mixture to be evenly and quickly distributed throughout the chamber, in particular, to deliver it immediately to all sterilized objects and their parts, which leads to to unequal sterilization of objects and lengthening the time of the sterilization process.

In addition, to provide access to the ozone-air mixture to all parts of the sterilized items on the shelves made numerous holes. At the same time, individual sections of the sterilized objects are in contact with the shelves with flat contacts, which makes it difficult for ozone to access them. This also leads to uneven sterilization of these areas.

The internal parts of the housing and the cover are designed so that they do not have hard-to-reach spots for periodic sanitary treatment. However, the material used for the manufacture of chambers (organic glass) fades over time (microcracks appear on it), which further leads to a deterioration in the conditions for sanitary treatment. In addition, the material used is not durable.

Thus, the main disadvantage of this design is the low efficiency of both the sterilization process itself and the operation of the chamber as a whole. In addition, the fragility of the material of which the camera is made, and the insufficient strength of its entire structure limit its use in specially adapted stationary rooms and do not allow it to be used in harsh conditions during emergency situations, in field hospitals and in unsuitable vehicles. All these factors significantly limit the scope of the sterilizer.

In addition to all of the above, the design of the sterilization chamber is very inconvenient to maintain.

This is explained by the following:

hermetic sealing of the chamber during the sterilization process is ensured by the design of the case and cover, for which the cover around the entire perimeter is equipped with a flat rubber seal, a number of loops (up to 4 pcs.) and screw clamps (up to 8 pcs.). This is due to the inadmissibility of leakage of the ozone-air mixture from the chamber during the sterilization process, since excessive concentration of ozone in the atmosphere adversely affects the health of staff.

In addition, such a design of the lid is inconvenient to maintain, since it requires a lot of time to open and close it.

Flat shelves for stacking items are also inconvenient to maintain, as objects can slip and fall when tilted. Cork cranes made of organic glass are glued to the side opposite walls of the housing. The top valve, connected through a hose to the ozonizer, is designed to supply the ozone-air mixture into the chamber during the sterilization process, and the bottom valve, connected by a hose to the filter (on the avenue shown), is designed to discharge the ozone-air mixture from the housing at the end of the sterilization process in atmosphere.

A filter with a catalyst decomposes ozone into ordinary oxygen that has already been neutralized.

All the main elements of the chamber (case, lid, shelves, taps) are made of organic glass that can withstand the oxidizing and aggressive effects of ozone, however, the use of sheet organic glass in the manufacture of the case requires special technology and safety measures when gluing them, and also dictates the shape of the case in the form of a box of rectangular shape, and the shape of the lid and shelves in the form of flat plates.

The main task set by the authors of the invention is to increase the efficiency of the tool processing process by providing the most complete access of the ozone-air mixture to all parts of the chamber and increasing the processed area of the tools. Along the way, the task to be solved is to expand the scope of use of the camera and increase the convenience in its maintenance.

The tasks are achieved due to the fact that the chamber is additionally equipped with tubes, the upper one, with holes for supplying the ozone-air mixture into the chamber, and the lower one, for removing the latter from the chamber. In addition, the design of the camera is equipped with a removable frame placed inside the housing and equipped with guides for shelves, which are made in the form of baking sheets and in addition to rows of round holes have slots made in the form of blinds. The camera body is made in the shape of a cylinder and equipped with handles for transportation. The housing cover has a viewing window and is mounted on the housing with the possibility of rotation about a vertical axis.

In addition, the main elements of the case, cover, frame and shelves are made of stainless steel sheet.

The invention is illustrated by drawings, where:

figure 1 shows a sterilization chamber, side view;

figure 2 is a view of figure 1;

figure 3 is a view of B in figure 1;

figure 4 - section bb in figure 2;

figure 5 is a section GG in figure 4;

figure 6 is a section DD in figure 5;

in Fig.7 is a section EE in Fig.2;

in Fig.8 shows a section II in Fig.7.

The sterilization chamber consists of the following main elements: body 1, cover 2, removable shelves 3 and 4 for laying the items to be processed, crane 5 for supplying the ozone-air mixture, valve 6 for its removal, filter 7 with catalyst, hoses 8, 9 and 10 In addition, the camera further comprises an upper 11 and lower 12 tubes located inside the housing, and an easily removable frame 13, also placed inside the housing.

The housing 1 has the form of a horizontal cylinder with stiffeners and is mounted on legs with adjustable supports 14. On the rear side, the housing has a blind wall 15, and on the front, its entire inner diameter has an opening with a rounded shoulder 16 and brackets 17 for fastening hinges and a lock covers 2. On the sides of the housing 1, rotary handles 18 are strengthened, and inside it are mounted brackets 19 and 20 for installing and fixing the tubes 11 and 12, as well as curved straps 21 for fixing inside the housing 1 of the frame 13.

The cover 2 is made in the form of a round rim and is equipped with a viewing window 22 closed by a transparent glass (organic) disk 23 and an elastic shaped seal 24 made of ozone-resistant rubber. The cover 2 is mounted on the housing 1 with the possibility of rotation relative to the vertical axis 25.

As a clamping device, a high-speed lock 26 is used, and for ease of maintenance, the cover 2 is equipped with a handle 27.

The removable shelves 3 and 4, differing from each other in width, are made in the form of volumetric baking sheets and have not only rows of holes 28, but also slots 29, which are made in the form of blinds. The shelves have bent 30 handrails for convenient grip by hand.

This design of shelves 3 and 4 contributes to the unhindered access of the ozone-air mixture to all parts of the sterilized objects that have point contact with the tops of the blinds.

The upper valve 5, connected to the housing 1 through the fitting 31 and to the ozonizer 32 through the hose 8, is designed to start the ozone-air mixture into the sterilization chamber. The lower valve 6, similarly connected to the housing 1, is designed to discharge the mixture from the chamber at the end of the sterilization process.

The filter 7 is mounted on the wall 15 of the housing 1 and is filled with a special catalyst. It is designed to decompose the spent ozone-air mixture emerging through the valve 6 and hose 9 into ordinary harmless air and to discharge it through the hose 10 further into the atmosphere.

The frame 13 is an easy quick-detachable frame having a number of guides 33. The position of the frame 13 inside the housing 1 is fixed with a screw clamp 34. The design of the frame 13 is such that it can easily be periodically sanitized. The inner surface of the housing 1 with the removed frame 13 also allows you to quickly and efficiently carry out sanitization.

The upper tube 11 is located above the inside of the housing 1 directly above the shelves 3 and 4 and, due to the presence of small diameter holes 35 therein, located along its entire working length, is intended for uniform distribution of the ozone-air mixture immediately over the entire working space of the chamber.

The lower tube 12, located under the shelves 3 and 4 in the lowest part of the housing 1, is designed for an orderly discharge of the ozone-air mixture at the end of the sterilization process through the hole 36.

Thus, the introduction of the tubes 11 and 12 into the chamber structure, the making of holes 28 and slots in the form of shutters 29 in the shelves-baking sheets 3 and 4 make it possible to intensify the sterilization process and evenly distribute the ozone-air mixture inside the chamber. Due to this, the efficiency of the sterilization process is increased, and its duration, on the contrary, is reduced.

The implementation of the chamber and its individual components from polished stainless steel, as well as the absence of unnecessary elements inside the case, allow quick and high-quality periodic sanitization. In addition, the implementation of the chamber in the form of a horizontal cylinder with great rigidity, allows to increase the strength of the structure, to ensure its tightness and, due to this, to expand its scope, including for emergency situations in the field.

The sterilization chamber is as follows.

Open the lid 2 and along the guides 33 of the frame 13 are inserted inside the housing 1 shelves 3 and 4, pre-loaded with a surgical instrument or other objects. The cover 2 is closed and fixed with a lock 26, providing a tight contact of the seal 24 to the shoulder 16 of the housing 1. The upper 5 and lower 6 taps are set to the “open” position. After the ozonizer 32 is included in the network, the ozone-air mixture through the hose 8, the valve 5 and the upper tube 11 with holes 35 enters the chamber, immediately and evenly distributed throughout the chamber, displacing air from it. After a certain time, the valve 6 is moved to the “closed” position. Due to the presence of holes 28 and slots 29 on the shelves 3 and 4, sterilized objects in contact with the shelves by point contacts are exposed to the comprehensive influence of the ozone-air mixture. The process of sterilization is taking place - the destruction of microbial flora on processed objects. The sterilization process, depending on the selected mode (a given parameter of ozone concentration in mg / m ³ ), lasts 15-30 minutes. At the end of the sterilization process, the ozonizer 32 is disconnected from the mains, the upper valve 5 is set to the “closed” position, after which the flexible hose 8 is disconnected from the ozonizer 32.

With closed valves 5 and 6, sterility in the chamber is maintained for 8 hours.

At the end of the process, the lower valve 6 is moved to the “open” position. The heavy ozone-air mixture, settling to the bottom of the chamber, gradually through the hole in the lower tube 12, the hose 9 and the filter 7 with the catalyst leaves the chamber into the atmosphere, decomposing into ordinary harmless oxygen (air). After that, the lid 2 is opened and the shelves 3 and 4 are removed with the processed tools (objects).

After a certain time, as necessary, the process is repeated. This is preceded by disinfection (sanitization) of shelves 3 and 4 and a rarer disinfection of the inside of the housing 1 and the frame 13.

Claims (2)

1. Installation for sterilization of medical and laboratory instruments, containing an ozonizer and a sterilization chamber, consisting of a housing, a lid, shelves for stacking processed items, taps for supplying an ozone-air mixture and its removal, and a filter with a catalyst, characterized in that the chamber design is additionally equipped tubes, top, with holes, for supplying the ozone-air mixture into the chamber, and bottom, for its removal, as well as a removable frame placed inside the case and equipped with guides for shelves, which are made in the form of trays and apart rows of circular openings are slots formed in the form of shutters, wherein the camera body is cylindrical and provided with handles for transportation, and the housing cover has a viewing window and is fastened to the housing rotatably about a vertical axis. 2. Installation for sterilization of medical and laboratory instruments according to claim 1, characterized in that the main elements of the chamber, in particular the case, cover, shelves and removable frame, are made of polished stainless steel sheet.

Images