RU2650068C1 - Solid medical wastes thermal disinfection system - Google Patents

Abstract

FIELD: medicine; processing and recycling of waste.

SUBSTANCE: invention relates to the field of medical wastes disinfection and their disposal. Solid medical waste thermal disinfection system contains a sterilization chamber with sealed loading and unloading caps and with rotating horizontal incisors fixed in the lower part of the chamber on a vertical shaft connected to the rotor of the electric motor and connected to the electric control panel. Chamber is equipped with fixed horizontal incisors, installed along the circumference on its wall, with a heating element, in addition, in the lower part of the chamber temperature sensors are installed. Venting system for the evacuation of the vapors is fed to the sterilization chamber, which is through a cyclone filter connected to the heat exchangers with a closed cooling circuit consisting of a pump and a radiator with a cooling fan. At that, the radiator is connected to the expansion tank, and the heat exchangers are connected to a group of filters with a fan to divert the cooled purified air into the atmosphere and a sealed container for collecting condensate, connected to a pump for supplying condensate to the sterilization chamber.

EFFECT: technical results are an increase in the efficiency of the steam-air mixture intake and cleaning from the working area of the sterilization chamber, increase in ecological compatibility and the safety of the waste disinfection process, as well as the safety of personnel during the equipment maintenance.

3 cl, 1 dwg

Description

The invention relates to the field of disinfection of medical waste and its disposal.

The utility model “Medical waste disposal system” is known according to the patent of the Russian Federation No. 100403 with the publication date 12/20/2010, including an electric control panel, temperature sensor, heating elements, a grinding chamber with knives mounted on a rotor in the lower part of the chamber on a vertical motor shaft.

A useful model is known "Apparatus for thermal disinfection and destruction of medical waste" according to the patent of the Russian Federation No. 152576 with the publication date 06/10/2015, which has a sealed heat treatment chamber, equipped with a sealed cover, electric heating elements are placed between the walls of the heat chamber. The upper part of the housing forms a chamber for collecting gases and is connected to it by a pipe for the exit of gases into the filtration system.

The disadvantage of the above technical solutions is environmental pollution due to the lack of filters for cleaning.

The closest technical solution to the claimed invention is the utility model “Medical waste utilizer” according to the patent of the Russian Federation No. 83415 with the publication date 10.06.2009, containing an electric control panel, a filter unit for cleaning the exhaust vapor, water supply valves, temperature sensor, heating elements and sterilization a grinding chamber with a controlled airtight lid and with rotating horizontal cutters fixed in the lower part of the chamber on a vertical shaft connected to the rotor of the electric motor and Turning to the electrical control panel. The sterilization chamber is equipped with fixed incisors mounted circumferentially on its wall and rotating incisors mounted on the shaft. Heating elements are installed in the sterilization chamber, temperature sensors are installed on the inner and outer sides of the wall of the sterilization chamber. In one housing with a sterilization chamber, columns for cooling the vapors with countercurrent water are installed; the vapor outlet from these columns is connected to the filter unit. The electric control panel is equipped with a programmable controller connected to an electric motor, fans, heating elements, temperature control devices and valves. The sterilization chamber is cylindrical with water spray injectors. The utilizer may be equipped with injection of hypochlorous acid salt into the sterilization chamber.

The disadvantage of the technical solution is the low environmental friendliness of the utilizer due to the discharge of a large amount of clean water, which cools the steam from the working tank, together with untreated waste water into the sewage system.

The technical task of the claimed invention is to increase the efficiency of the thermal disinfection system for solid medical waste and expand the functionality of the use of such a system without connecting to a sewage system.

Technical results include increasing the efficiency of collecting and cleaning the steam-air mixture from the working area of the sterilization chamber, increasing the environmental friendliness and safety of the waste disinfection process, as well as the safety of personnel during equipment maintenance.

Technical results are ensured due to the fact that the thermal disinfection system for solid medical waste contains a sterilization chamber with hermetic loading and unloading covers and with rotating horizontal cutters fixed in the lower part of the chamber on a vertical shaft connected to the rotor of the electric motor and connected to an electric control panel. The camera is equipped with fixed horizontal incisors mounted around a circle on its wall, a heating element. Two temperature sensors are also installed in the lower part of the chamber to measure the temperature of the sterilization chamber wall and the temperature of the treated waste. A vapor exhaust ventilation system is connected to the sterilization chamber, which is connected through a cyclone filter to heat exchangers with a closed cooling circuit, consisting of a pump and a radiator with a cooling fan. The radiator is connected to an expansion tank to compensate for the pressure difference when heating and cooling the liquid. The heat exchangers are connected to a group of filters with a fan for discharging cooled air into the atmosphere and a sealed condensate collection tank connected to a pump for supplying condensate to the sterilization chamber.

The pressurized cover of the sterilization chamber loading manhole and the sterilization chamber unloading manhole cover can be equipped with electric drives to increase the safety of personnel from contact with the processed material during emergency power off from the installation.

The sealed cover of the sterilization chamber loading hatch and the sterilization chamber unloading hatch cover may have electromagnetic locks to ensure a tight and tight fit of the manhole covers and to prevent ajar under shock loads.

The sterilization chamber may include an input for supplying a disinfectant solution during emergency discharge of waste. The thermal disinfection system for solid medical waste may contain a control system that provides the ability to work in manual or automatic modes.

In FIG. 1 is a structural diagram of a thermal disinfection system for solid medical waste.

The thermal disinfection system for solid medical waste consists of a sterilization chamber 1 with a sealed cover 2. In the lower part of the chamber 1 there are rotating horizontal cutters 4 mounted on the axis 5 of the engine 6. At least two fixed knives 7. are installed at the bottom of the chamber perimeter. At the bottom of the chamber 1, heating element 8 is placed. In the upper part of chamber 1 there is an input 10 for water injection. The chamber 1 may contain an input 9 for supplying a disinfectant solution during emergency unloading of solid medical waste. Two temperature sensors are also installed in the lower part of chamber 1 for measuring the wall temperature of the sterilization chamber and the temperature of the treated waste. A vapor exhaust ventilation system 13 is connected to the sterilization chamber 1, which is connected through a cyclone filter 11 to heat exchangers 12 with a closed cooling circuit consisting of a pump 19 and a radiator 18 with a cooling fan 17. The rough cyclone filter 11 is made with an airtight garbage collection container and dust of a large fraction of disinfected waste, which has a quick-detachable connection. Also, the sealed container has a siphon to drain the accumulated condensate into a sealed container to accumulate condensate and prevent air leakage from this tank. The radiator 18 is connected to the expansion tank 16 to compensate for the pressure difference when heating and cooling the liquid. Heat exchangers 12 are connected to a group of filters 13 with a fan for discharging cooled air into the atmosphere and a sealed condensate collection tank 14 connected to a pump 15 for supplying condensate to the sterilization chamber 1.

In addition, the thermal disinfection system for solid medical waste may contain a control system that provides the ability to work in manual or automatic modes, as well as receiving information from temperature sensors. Reception and display of information about the status of all systems and nodes is displayed on the touch-graphic panel. All major temperature and time parameters can be printed on a printer.

The system operates as follows.

Medical waste intended for thermal disinfection is loaded into the sterilization chamber 1 with the lid 2 open and a working ventilation system for removing the air-vapor mixture 3, 11, 12, 13, then the lid-umbrella 2 closes. In the chamber 1, a vacuum is formed due to the operation of the fan of the filter group 13. Due to the fixed knives 7 and rotating cutters 4, the waste is crushed and heated due to friction of the utilized mass. The temperature sensor in the lower part of the working chamber monitors the temperature of the processed material. Additional heating of the waste is carried out by the heating element 8 to accelerate the heating process and reduce the processing cycle time. At a temperature above 80 ° C in chamber 1, a strong evaporation of moisture from the waste begins and its transition into steam, which enters the ventilation system for venting vapors 3, 11, 12, 13. After grinding and heating to a predetermined temperature, water is introduced into chamber 1 through an inlet 14, 15, 10 for cooling the material. Vapors generated in the working chamber are discharged by the ventilation system 3, 11, 12, 13.

From the ventilation system for the removal of vapors 3, 11, 12, 13, the air-vapor mixture enters the cyclone filter, where mechanical impurities and dust are deposited in the cyclone filter 11 for rough cleaning, and the condensate flows through a siphon to a sealed condensate collection tank 14. The bulk of the vapor enters to the heat exchanger 12, where the steam condenses, and the condensate enters a sealed container to collect condensate 14. The cooled liquid enters the heat exchangers 12, where it is heated and supplied to the cooling radiator 18, heat removal from the radiator etsya due to blowing a cooling fan. The radiator 18 is connected to an expansion tank 16, which contains a membrane, to compensate for the thermal expansion of the coolant. For cooling, coolants (antifreeze, antifreeze, plain water) are supplied to the heat exchangers 12 of the vapor cooling system. After purification from the steam, the air enters the filter group with a fan, which is designed to create a vacuum in the vapor extraction system from the sterilization chamber, as well as to purify the air using carbon and absolute filters. The cooled air passes through a group of filters 13 and the purified air after a group of filters 13 is discharged into the atmosphere. During cooling, condensate is produced in a volume of 2, 3 L in one cycle. The condensate from the heat exchangers 12 flows by gravity into a sealed container 14 containing water level sensors in a sealed container, and is pumped through a pump 15 to a channel for supplying water to the working chamber. In addition to condensate, water is supplied to the container 14 to replenish the required volume of liquid for reuse in the sterilization chamber 1 when cooling the processed waste at the end of the working cycle (reaching 150 ° C). Thus, the condensate returns to the cooling of the processed waste and eliminates the discharge of liquid waste into the sewage system.

The electric control panel is equipped with a programmable controller connected to an electric motor, fans, heating elements, temperature control devices, valves, and a cooling system.

The cover of the loading hatch of the sterilization chamber and the cover of the discharge hatch of the sterilization chamber can be equipped with electric drives to increase the safety of personnel from contact with the processed material during emergency power off from the installation.

The cover of the loading hatch of the sterilization chamber and the cover of the unloading of the sterilization chamber may have electromagnetic locks to ensure a tight and tight fit of the hatch covers and to prevent ajar under shock loads.

The implementation of the thermal disinfection system for solid medical waste, expressed by the combination of characteristics of an independent claim, provides the claimed technical results, such as increasing the efficiency of collection and cleaning of the steam-air mixture from the working area of the sterilization chamber, increasing the environmental friendliness and safety of the waste disinfection process. In addition, the features of the dependent claims also affect the improvement of personnel safety when servicing equipment.

Claims (3)

1. The thermal disinfection system for solid medical waste containing a sterilization chamber with sealed covers for loading and unloading and with rotating horizontal cutters mounted in the lower part of the chamber on a vertical shaft connected to the rotor of the electric motor and connected to an electric control panel, while the camera is equipped with fixed horizontal cutters mounted on a circle on its wall, a heating element, in addition, temperature sensors are installed in the lower part of the chamber, from characterized in that a vapor exhaust ventilation system is connected to the sterilization chamber, which is connected through a cyclone filter to heat exchangers with a closed cooling circuit, consisting of a pump and a radiator with a cooling fan, while the radiator is connected to an expansion tank, and the heat exchangers are connected to a group of filters with a fan for the removal of cooled and purified air into the atmosphere and a sealed condensate collection tank connected to a pump for supplying condensate to the sterilization chamber. 2. The thermal disinfection system for solid medical waste according to claim 1, characterized in that the sealed covers for loading and unloading the sterilization chamber are equipped with electric drives. 3. The thermal disinfection system for solid medical waste according to claim 1, characterized in that the sealed covers of the loading and unloading of the sterilization chamber are equipped with electromagnetic locks.

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