EA037337B1 - Apparatus for thermal disinfection and destruction of medical waste - Google Patents

Abstract

The invention relates to the field of medical technology, more particularly to units for recycling infected medical waste. An apparatus 2 for the thermal disinfection and destruction of medical waste (hereinafter referred to as the apparatus), a control unit 3, and a filtration system unit 4 are mounted on a common installation platform 1. The apparatus comprises a heat chamber 5 having a cover 6, an internal housing 7 and an external housing 8 made in the form of cups mounted one inside the other with gaps 9 and 10 therebetween. The apparatus also contains an air distributor 13 made in the form of an axial perforated tube. A perforated tube 15 is mounted co-axially with the air distributor 13 which serves as a shroud. The apparatus is provided with flexible electrical heating elements 11, 12, 14, on the outer surface of the internal housing, under the bottom thereof, and on the air distributor, respectively. The top part of the housing forms a chamber 16 for collecting gases which form during waste processing. The apparatus has a closed system of air circulation which is equipped with ventilation pumps 20 having delivery tubes 21 which feed air into the air distributor 13. The ventilation pumps 20 are arranged under the bottom of the external housing. Air intakes 22 of intake tubes 23 are arranged in a gap between the bottoms of the housings. In the top part of the cylindrical walls of the internal housing there are openings 24 which allow air to enter from the internal volume of the thermal chamber into the gap between the cylindrical walls of the external housing and the internal housing. The apparatus has improved energy characteristics. The technical result achieved is providing uniform distribution of the temperature through the internal volume of the thermal chamber while simultaneously reducing heat losses.

Description

Technology area

The invention relates to the field of medical technology, namely to installations for the disposal of medical infectious waste of class Y1 with hazardous properties of class H6.2 in accordance with the Basel Agreement on the Control of the Transboundary Movement of Hazardous Wastes of 2001. The claimed device can be used in medical institutions, epidemiological laboratories, research and medical institutions and other organizations in which medical waste is generated. Its purpose is disinfection and processing of potentially infectious waste, such as sharp and stabbing objects that come into contact with the blood of a sick person (used disposable instruments - systems for transfusion of solutions, syringes, scalpels, probes, catheters, incubation tubes, etc.), glass, plastic, waste dressings, sanitary napkins, nursing clothes, diapers, etc.

In the context of this application, the term destruction means the transformation of the structure of the treated waste, leading to a change in their appearance to the extent that precludes the possibility of their reuse.

Prior art

Numerous devices are known that allow disinfection of medical waste with simultaneous destruction of processed products and materials.

Known Device for thermal sterilization of infected waste [patent RU No. 61560, publ. 03/10/2007], containing a sealed thermally insulated processing chamber, inside which there are grinding means, made in the form of rotating knives, and a heating source - heating elements located in the lower part of the processing chamber and providing a temperature inside the chamber of 250 ° C. The device also includes a system for creating an atmosphere that does not support the oxidation of processed products, and, accordingly, is designed to suppress the ignition processes of waste inside the chamber. The system of knives crushes the waste to a pulverized state, and in the process of grinding and mixing, the processed waste is heated throughout its depth, thereby ensuring the sterilization of infected waste. The main disadvantage of this design is its complexity, the presence of knives that are quickly worn out in the process of intensive use, the baking of polymer waste to the chamber walls, and the need to use additional means to prevent the ignition of the dusty mass formed during processing.

Known Integrated installation for the disposal of solid medical waste [patent RU No. 108819, publ. 10.03.2007]. The installation includes a device for the disinfection and sterilization of waste, made in the form of a container containing a working chamber in which sterilization of waste with saturated steam under vacuum conditions is carried out, and also has a device for destructuring waste, made in the form of a pressing machine, at the output of which waste get in the form of briquettes. The disadvantage of the design is its complexity and energy consumption, as well as the need to reload the processed waste from one technological unit to another.

In the above analogs and other known devices [RU patents No. 83415, 96507, 100403, 140164], the destruction of waste is carried out mechanically.

Known Device for the disposal of waste of medical origin [patent RU 2430798, publ. 10.10.2011], in which the destruction of solid medical waste is carried out by the method of temperature exposure. The device contains a processing chamber made in the form of a cylindrical melting vessel with a lid mounted on a base plate with a hole in the center. The container has a spherical lower part with an outlet sprue going out through an opening in the mounting plate, and means for thermal effect on waste in the form of heating elements placed between the outer side surface of the container and the casing. The heating elements are insulated from the casing with thermal insulation material made of asbestos sheets and thermal insulation material made of mineral wool. Heating elements are located in three groups in height. The outlet sprue has an additional heating element in the upper part, and a gate located under the base plate in the lower part. The device for transporting recycled waste is made in the form of a trolley with molds installed on it for pouring molten mass. The prototype does not require preliminary grinding of recyclable materials. However, for its successful operation, preliminary sorting of medical waste is required, because the device is intended for the processing of materials, the melting point of which does not exceed 200 ° C. The presence of objects made of glass, polyamides, polyester and other materials among the waste, the melting temperature of which is higher than 200 ° C, can lead to blockage of the sprue and the exit of the device from an operational state, and pushing the melt is a dangerous process. Polymer waste is baked to the walls of the chamber, and after each cycle, the walls must be cleaned. Another disadvantage of the device is the need for repeated reloading of the chamber during the processing cycle, that is, opening the chamber lid and lowering an additional batch into the volume containing the melt, which carries the risk of burns to the personnel serving the device, as well as the release of hot vapors into the room. Absence of a system for removal and filtration of gases released during melting

- 1 037337 waste, is also a disadvantage of the device according to the prototype, because makes the process environmentally unsafe. In addition, the recycling process is very energy intensive, because full cycle is 5-6

h

It should also be noted a common disadvantage inherent in the analogs described above: when the chamber is densely loaded with medical waste, there is a sharp decrease in the amount of disinfectant that can penetrate to the loading center, which leads to a significant decrease in the efficiency of the disinfection process.

An apparatus for thermal disinfection and destruction of medical waste was selected as a prototype [patent RU 152576, publ. 06/10/2015], which has a sealed thermal processing chamber, equipped with a sealed cover. Flexible electric heating elements are placed between the outer and inner side coaxial walls of the heat chamber housing, distributed along the height of the wall and forming a cylindrical spiral distributed along the height of the wall of the housing of the heat chamber. The processing chamber is equipped with a closed-loop air circulation system. The inlet pipes of the air circulation system are connected to the bottom of the heat chamber housing and connected to the air distributor, which is made in the form of an axial perforated tube. The suction branch pipes of the air circulation system are connected to the upper part of the heat chamber housing, and are connected through external air ducts with ventilation pumps. The upper part of the body forms a chamber for collecting gases, and a branch pipe for exhausting gases into the filtration system, equipped with a solenoid valve, is connected to it. The main disadvantage of the prototype is the uneven temperature distribution over the internal volume of the heat chamber. This leads to the fact that when providing thermal disinfection and destruction of the processed medical waste, the waste located near the side walls of the heat chamber, waste located in the axial zone may not undergo destruction, due to the fact that the temperature is lower here. On the other hand, an increase in the temperature in the heat chamber, leading to a sufficient degree of heating of the waste located in the axial zone, leads to melting and sintering of waste located in the near-wall region, with the formation of massive hard-to-remove lumps and drips along the inner surface of the inner wall of the body and leaks on the bottom ...

Disclosure of invention

The basis of the invention is the task of creating an apparatus for thermal disinfection and destruction of medical waste with improved energy characteristics. The achieved technical result is to ensure a uniform temperature distribution over the internal volume of the heat chamber while reducing heat losses.

The technical result is achieved by changing the design.

The device for thermal disinfection and destruction of medical waste has a sealed heat chamber equipped with a hermetically sealed lid. The heat chamber has an outer and an inner body, made in the form of cups, installed one in the other with an annular gap between the lateral cylindrical walls and with a gap between the bottoms. Electric heating elements are fixed on the outer side surface of the inner case. The device also contains an air distributor made in the form of an axial perforated tube, and has a closed air circulation system equipped with ventilation pumps with delivery pipes that supply air to the air distributor. In this case, the upper part of the housing forms a chamber for collecting gases, and a branch pipe for the outlet of gases into the filtration system is connected to it. The apparatus differs from the prototype in that it is additionally equipped with electric heating elements fixed to the air distributor and electric heating elements fixed under the bottom of the inner case. The device is also additionally equipped with a perforated tube that coaxially encloses the air distributor. The ventilation pumps are located under the bottom of the outer casing. The air intakes of the suction pipes are located in the gap between the bottoms of the bodies. In the upper part of the cylindrical walls of the inner case, holes are made to ensure the flow of air from the inner volume of the heat chamber into the gap between the cylindrical walls of the outer and inner cases.

Embodiments of the invention

In order to better demonstrate the features of the invention, a preferred embodiment is described below by way of example without any limitation.

An example of implementation is illustrated by the figures of the drawings, which show: FIG. 1 is a general view of an apparatus for thermal disinfection and destruction of medical waste, FIG. 2 is a longitudinal axial section of a heat chamber, FIG. 3 is a cross-section of a heat chamber.

Apparatus 2 for thermal disinfection and destruction of medical waste (hereinafter referred to as apparatus), control unit 3 and filtration system unit 4 are mounted on the common platform 1 of the installation.

The device has a heat chamber 5, equipped with a hermetically sealed cover 6. The heat chamber has an outer casing 7 and an inner casing 8, made in the form of glasses installed one in the other. There is an annular gap between the side cylindrical walls of the housings 9. Between the bottom of the housings there is also a gap 10. On the outer side surface of the inner housing, flexible electric heating elements 11 are fixed, for example, in the form of ribbons wound in a spiral. Electric heating elements 11 can have any other suitable shape for this purpose. Flexible electric heating elements 12 are also fixed under the bottom of the inner body, for example, in the form of a flat spiral. The device also contains an air distributor 13, made in the form of an axial perforated tube, on which flexible electric heating elements are fixed 14. A perforated tube 15 is installed coaxially to the air distributor 13, which serves as a protective casing that covers the electric heating elements 14 and does not allow their contact with the processed waste placed in the internal the volume of the heat chamber. The upper part of the casing forms a chamber 16 for collecting gases generated during waste processing, and a pipe 17 for the outlet of gases to the filtration system 4, equipped with an electromagnetic valve 18, is connected to it. On the inner surface of the outer casing, a layer of thermal insulation 19 is placed.

The device has a closed air circulation system, equipped with ventilation pumps 20 with injection nozzles 21 supplying air to the air distributor 13. Ventilation pumps 20 are located under the bottom of the outer casing. Air intakes 22 of the suction pipes 23 are located in the gap between the bottoms of the bodies. In the upper part of the cylindrical walls of the inner case, holes 24 are made, providing air flow from the inner volume of the heat chamber into the gap between the cylindrical walls of the outer and inner cases.

The device works as follows.

Medical waste of the class of epidemiologically hazardous waste and the class of extremely epidemiologically hazardous waste, pre-collected in disposable packaging (bags, containers), is placed in heat-resistant bags, which are closed with ties, loaded into a heat chamber 5. In some cases, special loading baskets or transverse lattice holders, and heat-resistant bags can contain a filler capable of adsorbing liquid medical waste and converting them into a gel-like state. After the tight closing of the cover 6 from the control unit 3 panel, the installation is switched on, that is, the flexible electric heating elements 11, 12, 14 are switched on, and the internal volume of the heat chamber with the waste is heated. The air circulation system is turned on, and the pumps 20 supply air through the delivery nozzles 21 inside the air distributor 13. The air heats up, rises upward, passes through the perforation of the air distributor 13 and the perforation of the tube 15, spreads along the height and volume of the heat chamber 5. In the upper part of the heat chamber 5, heated air comes out through the holes 24 into the annular gap 9 between the side walls of the outer and inner housings, then into the gap 10 between the bottoms and through the air intakes 22 of the suction nozzles 23 it enters the ventilation pumps 20, from where it is again fed into the air distributor 13. This allows you to quickly and evenly heat the bags with waste throughout the volume of the heat chamber 5 to a temperature of 200 ° C, which is reflected on the display of the control unit 3. The waste is kept at this temperature for 30 minutes, the mode is controlled and maintained by the control system, which ensures the reliability of the disinfection process. Then the process of cooling and filtration of gases formed as a result of thermal action takes place. At the command from the control unit, the electric heating elements are turned off, the ventilation pumps 20 continue to work, the solenoid valve 18 opens, the gases accumulated in the heat chamber are pumped out by the pump into the block 4 of the filtration system, where they pass a two-stage cleaning system, during which even the smell of exhaust gases is removed. Upon completion of the removal and cleaning of waste gases, manual unloading of heat-resistant bags with medical waste is carried out.

In the course of heat treatment, medical waste is disinfected. Studies have shown that the efficiency of disinfection, characterized by the total microbial number, after the treatment cycle does not exceed 10. In addition, in the process of thermal exposure, there is a physical modification and a very significant decrease in volume (by about 20%) and transformation of the form of the processed waste. Some of the materials are melted, converting the processed waste into a shapeless sintered mass, which excludes their reuse and allows them to be taken to solid waste landfills.

The duration of the waste disposal cycle, taking into account the time of loading and unloading, does not exceed 1.2 hours. With the maximum loading of the working chamber - 60 kg, the developed industrial unit is capable of processing 400 kg of medical waste with an 8-hour working day.

Thus, the claimed apparatus efficiently disinfects medical waste and does not require preliminary grinding of the processed materials. The presence of a closed heated air circulation system, which has an air distributor equipped with electric heating elements located along the axis of the chamber, as well as electric heating elements on the bottom of the chamber and between the walls of the case, allows you to quickly and evenly heat the internal volume of the heat chamber, and, accordingly, the bags with waste throughout the volume heat chambers. In this case, destruction is not accompanied by the melting of waste, and the perforated tube 15 does not interfere with the heat transfer of the electric heating elements 14, but protects them from unwanted contacts with the processed waste

- 3 037337 ladies, keeping their working capacity. This ensures efficient heating of the inner volume of the chamber from the axial zone. Air circulation in a closed heat-insulated volume minimizes heat losses. The plant has low energy consumption and high productivity. Utilization is carried out without preliminary sorting of medical waste according to the criterion of the melting point of the material, and thus it is universal. The installation is convenient in operation and maintenance, compact, easily transportable, because located on a mobile platform.

The results of laboratory studies to assess the effectiveness of the sterilizer using test microorganisms Mycobacterium tuberculosis, Candida albicans, Bacillus cereus, Klebslella pneumonlae, Pseudomonas aeraginosa, hepatitis C virus indicate the destruction of 100,000% of test cultures of microorganisms in all modes. The developed apparatus with a working chamber volume of 420 liters consumes 5.7 kW / h, which is 1/3 of the power consumption of the prototype apparatus (17 kW / h).

Claims (1)

CLAIM An apparatus for thermal disinfection and destruction of medical waste, which includes a heat chamber equipped with a hermetically sealed lid, a heat chamber has an outer and an inner body made in the form of cups installed one in the other with an annular gap between the lateral cylindrical walls and with a gap between the bottoms, on On the outer side surface of the inner case, electric heating elements are fixed, also having an air distributor made in the form of an axial perforated tube, and having a closed air circulation system, equipped with ventilation pumps with delivery pipes that supply air to the air distributor, while the upper part of the body forms a chamber for collecting gases and connected to it is a branch pipe for the outlet of gases into the filtration system, characterized in that it is additionally equipped with electric heating elements fixed on the air distributor, and electric heating elements fixed under the bottom of the internal housing, is additionally equipped with a perforated tube coaxially enclosing the air distributor, while the ventilation pumps are located under the bottom of the outer housing, the air intakes of the suction nozzles are located in the gap between the bottoms of the housings, holes are made in the upper part of the cylindrical walls of the inner housing to ensure the flow of air from the inner volume of the heat chamber into the gap between the cylindrical walls of the outer and inner housings.