RU140769U1 - SYSTEM OF DISINFECTION OF MEDICAL AND BIOLOGICAL HAZARDOUS AND POTENTIALLY HAZARDOUS WASTE USING MICROWAVE RADIATION WITH AUTOMATIC SYSTEM OF WATER SUPPLY TO THE CIRCUIT - Google Patents

Abstract

1. A system for disinfecting medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to a container with disinfectable waste, containing a working chamber equipped with magnetrons and a door; a container with disinfecting waste with a lid is installed inside the working chamber in the lid of the container a fitting has been installed for the removal of steam leaving the container, and a fitting for connecting to an automatic system for supplying water to the container with disinfected waste connected to a stationary water supply system and a disinfection process control system based on a microcontroller electrically connected to the start button to start the disinfection process, characterized in that the automatic system for supplying water to the container contains a pressure reducer hydraulically connected to the stationary one end plumbing, and the other end hydraulically connected in series with the solenoid valve, the solenoid valve connected using a system of pipes and adapters with a fitting for supplying water to the container, a time control system for supplying water to the container, made in the form of an electromagnetic control relay and a time relay electrically interconnected, the time relay being electrically connected to the electromagnetic valve, and the electromagnetic control relay is electrically connected to the feed button water "installed on the front panel of the disinfection process control system, the" water supply "button is electrically connected to the latch installed on the door of the working chamber

Description

The inventive utility model relates to automatic systems for supplying water to a container, intended for use in a microwave installation for the disinfection of medical, biologically hazardous or potentially hazardous waste.

The prior art system for the disinfection of medical, biohazardous or potentially hazardous waste using microwave radiation according to the patent of the Russian Federation for invention No. 2480242, priority date 12/01/2011, in which the disinfection of medical and biological hazardous and potentially hazardous waste is carried out as follows.

Medical or biological hazardous and potentially hazardous wastes are collected at the places of their formation in special plastic bags of red or yellow color, with especially hazardous wastes placed in red packets, and potentially hazardous wastes in yellow packets.

Waste bags are placed in a sealed container, after which the operator manually moistens the waste by adding 0.5-1.0 liters of water to a 16 liter container, close the container with a sealed lid and place it in a microwave waste disinfection unit. Then the operator manually launches the waste disinfection program by pressing the "Start" button on the front panel of the unit.

The volume of water that must be poured into the container during the disinfection process in the indicated RF patent for invention No. 2480242 was determined empirically, the volume of the container itself and did not depend on the type and weight of the waste placed in the container for disinfection.

The amount of water added to the container was chosen so as to ensure stable vaporization in the container for a given disinfection time, so that the water did not boil out of the container before the end of the decontamination process, or the excess water remained in the container after the end of the decontamination process.

However, the disadvantage of this analogue is that the operator manually poured water into the container in which the waste had not yet been disinfected, in accordance with the recommendations issued by the manufacturer of the installation. At the same time, the “human factor” seriously influenced the extremely important process of filling a container with waste water from the point of view of fireproof disinfection of waste, since the operator, even following the manufacturer's instructions, could not add water to the container, which led to complete boiling of water from the container until the disinfection process is completed, which could lead to the ignition of the waste disinfection system being ignited, or the operator could add excess water to the container, which led to excess water after the end of the decontamination process, which will complicate the further process of disposal of already decontaminated waste associated with their subsequent destruction, for example, by pressing.

In addition, an excess amount of free water in the container will lead to a significant increase in the heating time to the required disinfection temperature, which in turn will increase the total time for disinfection of waste and unnecessarily increase the amount of electricity consumed by the waste disinfection unit.

The prior art installation for the disinfection of medical, biohazardous or potentially hazardous waste using microwave radiation according to US patent No. 5,407,641, publication date 04/18/1995 (prototype), in which water is automatically poured into a container with disinfected waste without operator intervention.

In this prototype, the volume of water to be poured into the container is determined by preliminary weighing and determining the mass of waste in the container placed in the chamber for disinfection, before the disinfection process begins, after which, based on the calculated mass of the waste, the control system of the waste disinfection device determines the optimal amount of water to be added into the container and automatically fills the container with water.

However, the amount of water poured into the container to a very large extent also depends on the composition of the disinfected waste (their volume and density). That is, if the waste is light and hygroscopic, then it strongly absorbs the moisture supplied to the container, as a result of which it is not humidified, which can lead to their ignition during disinfection due to insufficient amount of free moisture necessary for the process of vaporization in the container. In the case of heavy and non-hygroscopic wastes, an excess amount of free water will be in the container, which will lead to a significant increase in the time of their heating to the required disinfection temperature, which in turn will increase the total disinfection time. In addition, after the end of the disinfection process, a large amount of water will remain in such a container, which must be removed from the container by an additional operation in order to carry out the further process of disposal of already disinfected waste associated with their subsequent destruction, for example, by pressing.

As a result of the studies, the applicant found that from the point of view of vaporization in the container, it is not the mass of the disinfected waste or its type (hygroscopic or non-hygroscopic) that matters, but the temperature of the disinfection of the waste inside the container, the volume of the container and the set time for the disinfection of the waste. Therefore, there is a need to create an automatic system for supplying water to the container, which would take into account precisely these factors, namely, the set temperature for disinfecting the waste inside the container, the volume of the container and the set time for disinfecting the waste, rather than the mass of the waste or its type.

The objective of the claimed utility model is to create a disinfection system for medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to a container for pre-wetting the waste before disinfection without operator intervention, which allows creating an optimal system from the point of view of vaporization, regardless of the type and the mass of disinfected waste, in which neither insufficient nor excess water will be generated in the container, which Allows to carry out the operation of disinfection of waste with a minimum disinfection time without operator intervention.

The problem is solved in that the applicant created two versions of a disinfection system for medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to the container for pre-wetting the waste before disinfection without the participation of an operator with a time management system for filling the container with water in order to obtain optimal vaporization in the container, regardless of the type and mass of waste, given three constant values: a given Temperature decontamination of waste inside the container, the container volume and a fixed waste disinfection time.

In the first embodiment of the utility model, the time for filling the container with waste water is controlled by two relays: an electromagnetic control relay and a time relay.

In the second embodiment of the utility model, the filling time of the container with waste water is controlled by a microcontroller located on the control board of the waste disinfection unit.

The inventive utility model is illustrated by drawings.

системы обеззараживания медицинских и биологических опасных и потенциально опасных отходов с помощью микроволнового излучения с автоматической системой подачи воды в контейнер с обеззараживаемыми отходами (вариант 1).Figure 1 - General front view in a perspective view in perspective

disinfection systems for medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to a container with disinfected waste (option 1).

Figure 2 - Front view of the disinfection system of medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to the container with disinfected waste with the door of the disinfection chamber open (option 1).

системы обеззараживания медицинских и биологических опасных и потенциально опасных отходов с помощью микроволнового излучения с автоматической системой подачи воды в контейнер с обеззараживаемыми отходами (вариант 2).Figure 3 - General front view in a perspective view from a perspective

disinfection systems for medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to a container with disinfected waste (option 2).

системы обеззараживания медицинских и биологических опасных и потенциально опасных отходов с помощью микроволнового излучения с автоматической системой подачи воды в контейнер с обеззараживаемыми отходами (вариант 1 и вариант 2).Figure 4 - Rear view in perspective

disinfection systems for medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to a container with disinfected waste (option 1 and option 2).

Figure 5 - hydraulic circuit of the water supply from the stationary water supply to the container with disinfected waste (option 1 and option 2).

6 is a hydraulic diagram of the water supply from the stationary water supply to the container with disinfected waste (option 1 and option 2).

7 is a circuit diagram of controlling the time of supplying water to a container using an electromagnetic control relay and a time relay (option 1).

Fig. 8 is a circuit diagram of controlling the time of supplying water to a container using a microcontroller (option 2).

Figure 9 - algorithm of the disinfection system for medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to a container with disinfected waste (option 1).

Figure 10 - algorithm of the disinfection system for medical and biological hazardous and potentially hazardous waste using microwave radiation with an automatic system for supplying water to a container with disinfected waste (option 2).

The first embodiment of a system for disinfecting medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to a container with disinfected waste includes a working chamber 1, which is closed by a door 2, having a latch 3, which is a limit switch. A container 4 with disinfected waste with a lid 5 is permanently placed inside the working chamber 1. A fitting for removing steam 6 from the container 4 formed in the container 4 during the decontamination of waste is installed in the lid 5 of the container 4, a fitting 7 for supplying water to the container 4 for pre-wetting waste before disinfection, as well as a temperature sensor 8 for measuring the temperature of disinfected waste. A flexible silicone hose 9 is attached to the steam outlet 6 to discharge the steam exiting the container 4. A flexible silicone hose 10 is connected to the first nozzle 7 for supplying water to the container 4, the other end of which is connected to an automatic system for supplying water to the container 4. The automatic system for supplying water to the container 4 with disinfected waste in the first embodiment of the utility model includes a pressure reducer 15, one end is hydraulically connected to a stationary water supply 11 through a ball valve 12, a flexible connection 13 and a flow sensor 14, and the other end is hydraulically connected in series with an electromagnetic to upan 17 through the nipple 16. At the output of the electromagnetic valve 17, a system of tubes and adapters is installed, including an adapter 18 to which the first connecting plastic tube 19 is connected. The adapter 18 allows the transition from the threaded connection of the outlet of the electromagnetic valve 17 to the collet connection of the first connecting plastic tube 19 (adapter 18 - "thread - collet"). The first connecting plastic tube 19 through the rear passage angle 20 ("collet-collet") is connected to the second connecting plastic tube 21, which in turn through the transitional corner 22 ("collet-thread") is connected through the second fitting 23 with a flexible silicone hose 10 for supplying water to the container 4. The time for filling the container 4 with waste water is controlled using two relays: an electrically connected electromagnetic control relay 24 and a time relay 25, the time relay 25 being electrically connected with solenoid valve 17.

The working chamber 1 is equipped with two magnetrons 26 and 27, which generate microwave radiation, which is used for disinfection of waste. On the right side of the door 2 is a front panel 28 with a control board 29 based on microcontroller 37.

In the first embodiment of the utility model, on the front control panel 28 are located the “WATER FEED” button 30, the “READY” indicator 31, the “START” button 32 and the “STOP” button 33, pressing which stops the disinfection program in case of emergency emergency disinfection due to an emergency, as well as the “RESULT” indicator 34. The electromagnetic control relay 24 is electrically connected to the “WATER SUPPLY” button 30 installed on the front panel 28 of the process control system arazhivaniya. The “WATER SUPPLY” button 30 is electrically connected to the latch 3 mounted on the door 2 of the working chamber 1. The disinfection process control system is based on the microcontroller 37, electrically connected to the “START” button 32 to start the disinfection process located on the front panel 28 of the board management 29.

When installing a system for disinfecting waste at the facility, an automatic system for supplying water to the container is connected to the stationary water supply 11 by means of a ball valve 12 and flexible inlet 13. The waste disinfection system is designed to operate from a stationary water supply with a pressure of at least 2 atmospheres. Typically, the pressure inside the stationary water supply 11 is about 2-4 atmospheres. In order for the hydraulic pressure inside the system of automatic water supply to the container to be constant, it is necessary to adjust the system using a pressure reducer 15. The pressure in the system is adjusted as follows: a pressure gauge 35 is connected to the pressure reducer 15 using the adjusting screw 36 located in the lower part of the pressure reducer 15, set the working pressure in the automatic water supply system equal to 1.5 atmospheres, controlling the achievement of the working pressure on the manometer 35, to ensure Parts Required supply pressure from the possible impact of water pressure in the stationary plumbing 11 required below 2 atmospheres.

After the task of working pressure, the manometer 35 is disconnected from the water supply system.

After setting the working pressure, the time for supplying water to the container 4 is set for preliminary wetting of hazardous waste by setting the timer of the time relay 25 for a predetermined time for supplying water to the container 4, equal to 15 seconds. The time equal to 15 seconds of water supply to container 4 was chosen empirically, based on the optimal vaporization in the container, regardless of the type and weight of the disinfected waste, at a given temperature of disinfection of waste inside the container 4 equal to 100 ° C, the volume of the container 4 is 16 liters and a fixed time for disinfection of waste equal to 30 minutes.

The automatic system for supplying water to the container 4 in the first embodiment of the utility model is as follows. The algorithm of the first embodiment of the system is shown in Fig.9. Figure 7 shows a circuit diagram of the time control of the water supply to the container 4 using an electromagnetic control relay 24 and a time relay 25.

To carry out the disinfection process of medical or biological hazardous or potentially hazardous waste.

The operator loads the waste into the container 4, closes the lid of the container 5 and installs the container 4 in the working chamber 1, connects the flexible silicone hose 9 to the nozzle 6 for the removal of steam, and the flexible silicone hose 10 to the first nozzle 7 for the supply of water. Then the operator places a temperature sensor 8 inside the container 4 to measure the temperature of the disinfected waste, then closes the door 2 of the working chamber 1, connects the unit to the mains (~ 220 V), and the supply voltage (~ 220 V) is supplied through the X1 connector to the system control the time of water supply to the container 4 using the electromagnetic control relay 24 and the time relay 25. The voltage (-220 V) on the connector X1 is present only when the installation door 2 is closed and the latch 3 of the door 2 is closed. Then the operator presses the button 30 "FEED WATER". When the “WATER SUPPLY” button 30 is pressed, voltage is applied to the contacts A1-A2 of the coil of the electromagnetic control relay 24 (see Fig. 7), relay 24 is activated, contacts A21-A22 and A11-A12 open, and contacts A21-A24 and A11 -A14 Solenoid control relay 24 closes in pairs. In this case, the "self-pickup" of the electromagnetic control relay 24. After the operator releases the button 30 "WATER SUPPLY", the relay coil 24 remains energized due to the closed contacts A21-A24.

At the same time, when the “WATER SUPPLY” button 30 is pressed, voltage (~ 220 V) is supplied to the contacts B1-B2 of the coil of the time relay 25, which leads to the start of the timer located inside the time relay 25, opening of contacts B15-B16 and closing of contacts B15-B18. Closing the contacts B15-B18 of the time relay 25 causes a voltage to be applied to the terminals of the output connector X2, which is connected to the drive coil of the electromagnetic valve 17, the electromagnetic valve opens and water flows from the stationary water supply through the automatic water supply system to the container 4. Closing the contacts B15- B18 time relay 25 at the same time turns on the backlight of the button “WATER FEED” 30, which signals the beginning of the supply of water to the container 4 with waste.

At the end of the specified time for filling the container 4 with water equal to 15 seconds, the contacts B1-B2 return to the initial state, the contacts B15-B18 open, the power supply is removed from the backlight of the 30 “WATER SUPPLY” button 30, the backlight of the 30 “WATER SUPPLY” button 30 goes out, at the same time the voltage is removed from the output connector X2, which closes the solenoid valve 17 and stops the water supply to the container 4, at the same time, the contacts B15-B16 are closed and, since the contacts A11-A14 of the electromagnetic control relay 24 remain closed, then The voltage goes to the “READY” indicator 31, which signals the end of the water filling in the container 4 and the readiness of the system to launch the waste disinfection program. After the operator sees the inclusion of the “READY” indicator 31 of the waste disinfection system for work, the operator presses the “START” button 32 on the control panel 28, which leads to the launch of the waste disinfection program. After the end of the waste disinfection program, the RESULT 34 indicator lights up on the control panel 28, which signals the operator that the waste disinfection process has been completed and that the operator can open door 2 and remove the container 4 with disinfected waste for subsequent disposal. Until the door 2 is opened by the operator after it was closed by him to start the disinfection process, repeated accidental or deliberate pressing by the operator of the button “30 FEEDING WATER” will not start the timer 25 and will not allow the container 4 to be filled twice.

The second embodiment of a system for disinfecting medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to a container with disinfected waste includes a working chamber 1, which is closed by a door 2, having a latch 3, which is an end switch. A container 4 with a lid 5 is permanently placed inside the working chamber 1. A nozzle for removing steam 6 from the container 4 formed in the container 4 during the decontamination of waste is installed in the lid 5 of the container 4, a fitting 7 for supplying water to the container 4 for pre-wetting the waste before disinfection, as well as a temperature sensor 8 for measuring the temperature of disinfected waste. A flexible silicone hose 9 is attached to the steam outlet 6 to discharge the steam exiting the container 4. A flexible silicone hose 10 is connected to the first fitting 7 for supplying water to the container 4, the other end of which is connected to an automatic system for supplying water to the container 4.

The automatic system for supplying water to the container 4 in the second embodiment of the utility model includes a stationary water supply 11, which is connected through a ball valve 12 and a flexible inlet 13 to a flow sensor 14, which in turn is connected to a pressure reducer 15, which is connected via electromagnetic nipple 16 valve 17. At the output of the electromagnetic valve 17, an adapter 18 is installed, to which the first connecting plastic tube 19 is connected. The adapter 18 allows the transition from a threaded connection of the output the holes of the electromagnetic valve 17 to the collet connection of the first connecting plastic tube 19 (adapter 18 - "thread - collet"). The first connecting plastic tube 19 through the rear passage angle 20 ("collet-collet") is connected to the second connecting plastic tube 21, which in turn through the transitional corner 22 ("collet-thread") is connected through the second fitting 23 with a flexible silicone hose 10 for supplying water to the container 4. The working chamber 1 is equipped with two magnetrons 26 and 27, which generate microwave radiation, which is used for disinfection of waste. On the right side of the door 2 there is a front panel 28 with a control board 29 based on the microcontroller 37. The filling time of the container 4 with waste water is controlled by the program of the microcontroller 37 of the control board 29 and the electromagnetic control relay 24. In the second embodiment of the utility model on the front control panels 28 are located: the “START” button 32, the “STOP” button 33, pressing which stops the disinfection program of wastes if it is necessary to urgently stop the disinfection process emergency situation, as well as the RESULT indicator 34. When installing a system for disinfecting waste at the facility, an automatic water supply system for the container is connected to the stationary water supply 11 using a ball valve 12 and a flexible connection 13. The waste disinfection system is designed for work from a stationary water supply system with a pressure of at least 2 atmospheres. Typically, the pressure inside the stationary water supply 11 is about 2-4 atmospheres. In order for the hydraulic pressure inside the system of automatic water supply to the container to be constant, it is necessary to adjust the system using a pressure reducer 15. The pressure in the system is adjusted as follows: a pressure gauge 35 is connected to the pressure reducer 15 using the adjusting screw 36 located in the lower part of the pressure reducer 15, set the working pressure in the automatic water supply system equal to 1.5 atmospheres, controlling the achievement of the working pressure on the manometer 35, to ensure Parts Required supply pressure from the possible impact of water pressure in the stationary plumbing 11 required below 2 atmospheres. After setting the working pressure, the manometer 35 is disconnected from the water supply system.

Setting the time for supplying water to the container 4 for preliminary humidification of hazardous waste is carried out by programming the microcontroller 37 for a given water supply time equal to 15 seconds. The time equal to 15 seconds of water supply to container 4 was chosen empirically, based on the optimal vaporization in the container, regardless of the type and weight of the disinfected waste, at a given temperature of disinfection of waste inside the container 4 equal to 100 ° C, the volume of the container 4 is 16 liters and a fixed time for disinfection of waste equal to 30 minutes. The microcontroller 37 is configured for a predetermined time of water supply to the container, equal to 15 seconds, at the time of setting up the control board 29 before installing the waste disinfection system at the facility.

The automatic system for supplying water to the container 4 in the second embodiment of the utility model is as follows.

The algorithm of the second version of the system is shown in Fig.10. Fig. 8 shows a circuit diagram of a system for controlling the time of supplying water to a container 4 using a microcontroller 37 and an electromagnetic control relay 24. The microcontroller 37 of a system for controlling the waste disinfection process in the second embodiment of the utility model further comprises a system for controlling the time of supplying water to the container. The microcontroller 37 is electrically connected to the electromagnetic control relay 24 and to the flow sensor 14, and the electromagnetic control relay 24 is electrically connected to the electromagnetic valve 17.

To carry out the process of disinfecting medical or biological hazardous or potentially hazardous waste, the operator loads the waste into the container 4, closes the lid of the container 5 and installs the container 4 in the working chamber 1, connects the flexible silicone hose 9 to the nozzle 6 for venting steam, and the flexible silicone hose 10 to the first fitting 7 for supplying water. Then the operator places a temperature sensor 8 inside the container 4 to measure the temperature of the disinfected waste, then closes the door 2 of the working chamber 1, connects the unit to the mains (~ 220 V), and the supply voltage (~ 220 V) is supplied to the board via connector X1 control 29, on which an AC / DC voltage converter (not shown) is installed, which converts AC voltage (~ 220 V) to DC voltage (24 V). The DC voltage (24 V) from the control board 29 is supplied to the contact A21 of the electromagnetic relay 24. Then the operator presses the "START" button 32 on the control panel 28 and starts the waste disinfection unit. At the same time, the first part of the program of the microcontroller 37 of the control board 29, which is responsible for pouring water into the container 4 with disinfected waste, begins. The program provides a control signal to the contacts A1-A2 of the coil of the electromagnetic control relay 24 (see Fig. 8), the relay 24 is activated, the contacts A21-A22 open, and the contacts A21-A24 of the electromagnetic control relay 24 are closed in pairs. In this case, a DC voltage (24 V) is applied to the terminals of the output connector X2, which is connected to the drive coil of the electromagnetic valve 17, the electromagnetic valve opens and water flows from the stationary water supply through the automatic water supply system to container 4. If there is water flowing through the system of automatic water supply to the container 4, the flow sensor 14 sends an enable signal to the microcontroller 37 about the possibility of transition to the execution of the second part of the program - the beginning of disinfection waste by turning on the magnetrons 26, 27. Simultaneously with the beginning of the flow of water through the flow sensor 14, the microcontroller 37 starts the countdown of the specified time of pouring water into the container 4, equal to 15 seconds.

At the end of the specified time of filling the container 4 with water equal to 15 seconds, the microcontroller program 37 removes the control signal from the contacts A1-A2 of the coil of the electromagnetic control relay 24 (see Fig. 8), while the contacts A21-A24 open, the contacts A21-A22 close , which leads to the closure of the electromagnetic valve 17 and the cessation of water supply to the container 4. If there are two two events: receiving an enable signal received from the flow sensor 14 and a signal about the end of the specified time to fill the container 4 with water equal to 15 sec Kundam, the microcontroller 37 proceeds to the second part of the program recorded therein, namely, it immediately starts disinfecting the moistened waste, including magnetrons 26 and 27.

After the end of the decontamination program on the control panel 28, the green RESULT 34 indicator lights up, which signals the operator that the decontamination process has been completed and that the operator can open door 2 and remove the container 4 with disinfected waste for subsequent disposal.

In the absence of an enabling signal received from the flow sensor 14, which means that water from the stationary water supply 11 did not enter the automatic water supply system to the container 4, the microcontroller does not proceed to the second part of the waste disinfection program and a signal appears on the control panel 28 an error in the program in the form, while the “RESULT” indicator 34 lights up in red, while the operator must check the presence of water in the stationary water supply 11.

The inventive disinfection system for medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to a container with disinfected waste allows you to accurately dose the volume of water supplied to the container with disinfected waste, thereby significantly improving the safety of the whole disinfection system.

Claims (2)

1. A system for disinfecting medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to a container with disinfectable waste, containing a working chamber equipped with magnetrons and a door; a container with disinfecting waste with a lid is installed inside the working chamber in the lid of the container a fitting has been installed for the removal of steam leaving the container, and a fitting for connecting to an automatic system for supplying water to the container with disinfected waste connected to a stationary water supply system and a disinfection process control system based on a microcontroller electrically connected to the start button to start the disinfection process, characterized in that the automatic system for supplying water to the container contains a pressure reducer hydraulically connected to the stationary one end plumbing, and the other end hydraulically connected in series with the solenoid valve, the solenoid valve connected using a system of pipes and adapters with a fitting for supplying water to the container, a time control system for supplying water to the container, made in the form of an electromagnetic control relay and a time relay electrically interconnected, the time relay being electrically connected to the electromagnetic valve, and the electromagnetic control relay is electrically connected to the feed button water "installed on the front panel of the disinfection process control system, the" water supply "button is electrically connected to the latch installed on the door of the working chamber measures. 2. A system for disinfecting medical and biological hazardous and potentially hazardous wastes using microwave radiation with an automatic system for supplying water to a container with disinfectable waste, containing a working chamber equipped with magnetrons and a door; a container with disinfecting waste with a lid is installed inside the working chamber in the lid of the container a fitting has been installed for venting steam leaving the container, and a fitting for connecting to an automatic system for supplying water to the container connected to the hospital water supply system, and a disinfection process control system based on a microcontroller electrically connected to the start button to start the disinfection process, characterized in that the automatic system for supplying water to the container with disinfected waste contains a flow sensor, hydraulically connected to a stationary water supply at one end and the other end is hydraulically connected to the pressure reducer, the other end of the pressure reducer is hydraulically connected in series with the electromagnetic a valve, an electromagnetic valve connected by a system of tubes and adapters with a fitting for supplying water to the container, the microcontroller of the control system for the disinfection process further comprises a system for controlling the time of supplying water to the container, while the microcontroller is electrically connected to the electromagnetic control relay and to the flow sensor, and The electromagnetic control relay is electrically connected to the solenoid valve.

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