CN212597858U - Portable on-vehicle medical waste emergency treatment system - Google Patents

Abstract

The utility model belongs to the field of medical garbage treatment devices, and relates to a movable device, in particular to a movable vehicle-mounted medical waste emergency treatment system, which comprises a steam sterilization unit and a crushing and packaging unit, wherein the sterilization unit and the crushing and packaging unit are integrally installed in a vehicle-mounted carriage, the steam sterilization unit comprises a plurality of sterilization pots, each sterilization pot is provided with a feed inlet and a discharge outlet, the feed inlet and the discharge outlet of the sterilization pot can be sealed, and the inner cavity of the sterilization pot forms a sealing structure; the crushing and packaging unit is provided with a lifter, a crusher and a compression and packaging machine in sequence from the process upstream to the process downstream, a storage tank with a sodium hypochlorite solution arranged therein is arranged at the side position of the crusher, and the liquid outlet end of the storage tank is communicated with the inside of the crusher.

Description

Portable on-vehicle medical waste emergency treatment system

Technical Field

The utility model belongs to medical refuse treatment device field relates to portable device, especially a portable on-vehicle medical waste emergency treatment system.

Background

Medical waste belongs to the first hazardous waste (HW01) in the national hazardous waste list, and if the medical waste is not properly treated, secondary infection can be caused, so that the disease continues to spread.

For large and medium cities, the medical waste disposal industry is relatively mature at present. However, for some small medical institutions, such as community hospitals, urban outpatients, rural clinics, etc., due to wide distribution range or remote places, the collection, transportation and disposal links are difficult to be incorporated into the urban medical waste centralized disposal system. In addition, when a serious epidemic situation outbreak or a sudden natural disaster occurs, the generation amount of medical waste is increased suddenly and even exceeds the maximum bearing capacity of the medical waste centralized disposal system, and finally the problem that the medical waste cannot be disposed in time is caused. The movable vehicle-mounted medical waste disposal device can provide sufficient guarantee for a medical waste disposal system with flexibility, convenience and reasonable operation cost.

At present, the treatment of medical waste is generally carried out by adopting two processes of high-temperature steam sterilization and packaging and crushing. The process can adopt the following routes: the method comprises three process forms of firstly crushing and then carrying out steam treatment, firstly carrying out steam treatment and then crushing, and simultaneously carrying out steam treatment and crushing, wherein the three process forms are as follows:

(1) crushing after steam treatment

This is the most widely used treatment technique in north america and other countries, as represented by the united states. Medical waste is pushed into a sterilization room by a container, a bin door of the sterilization room is closed, high-temperature steam is introduced to sterilize the medical waste, the bin door is opened after the steam treatment is finished, and then the material is crushed, destroyed, compressed and packaged. The process form has the advantages that: the medical waste after the high-temperature steam treatment meets the high-degree sanitary standard, and the operation risk of a subsequent crushing section can be reduced, such as: the crushing process can not generate dust with bacteria, workers do not have the problem of infection and pathogenicity caused by pathogenic bacteria remained in the crushing equipment during the maintenance of the crushing equipment, and the crushing equipment does not need extra chemical disinfection measures usually. The process is mature in form and wide in application.

(2) Crushing and then steam treatment

The medical waste is firstly crushed into smaller particle size by a crusher and then enters steam treatment equipment for disinfection treatment. The advantages are that: on one hand, after the package of the medical waste is damaged, the medical waste is directly exposed to high-temperature steam, on the other hand, the contact area of the broken medical waste and the high-temperature steam is larger, and therefore the sterilization effect is easily ensured. However, according to the investigation results of the national institute of health and research on the medical waste treatment plant in Washington State, the instant pressure generated by the crushing of a large amount of hematogen pathogens during the crushing process is released into the atmosphere. Because a large amount of gas containing pathogenic bacteria is generated in the whole crushing process and needs to pass through a filter and a pipeline conveying system, the leakage of hematogen pathogenic bacteria is easy to generate, the diffusion and the propagation of the pathogenic bacteria are generated, the maintenance is very inconvenient, and the crusher is not easy to clean and sterilize after being polluted. The use of this form of process is generally not recommended.

(3) The steam treatment and the crushing are carried out simultaneously

The method is a treatment technology represented by Canada, medical waste is crushed by a mechanical stirring device in the process of steam treatment in a sterilization room, and stirring is carried out to destroy the package of the medical waste so that the medical waste is directly exposed in a steam atmosphere, and stirring and turning over the medical waste can ensure that the medical waste is heated more uniformly, so that the steam treatment effect is improved. A fine crushing device is also needed after the steam treatment. However, in actual operation, the fabrics in the medical wastes such as gauze and bandage often twine the mechanical stirring device, which causes the equipment not to operate normally, and in addition, the sterilization pot is not easy to clean and is inconvenient for maintenance.

According to the comparison, the mobile vehicle-mounted medical waste emergency treatment system adopts a process route of firstly performing steam sterilization and then crushing and packaging. However, the existing mobile vehicle-mounted medical waste emergency treatment devices still have some defects: the feed inlet and the discharge outlet of the steam sterilization pot are not separated; the lack of an exhaust gas collection and treatment system, the risk of pathogenic bacteria being airborne around; a corresponding wastewater treatment system is lacking. Based on the basis of the prior art and perfecting the defects thereof, a novel mobile vehicle-mounted medical waste emergency treatment system is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a rational in infrastructure, feed inlet discharge gate separation prevents cross contamination promptly and makes things convenient for the feeding ejection of compact again, can effectively collect the processing to the waste gas that produces in medical waste feeding process and the processing procedure to can carry out the portable on-vehicle medical waste emergency treatment system of effective collection to the waste water that produces in the steam treatment process.

The utility model adopts the technical proposal that:

the utility model provides a portable on-vehicle medical waste emergency treatment system which characterized in that: the steam sterilization unit comprises a vacuum pump, a boiler system and an exhaust device, wherein the air suction end of the vacuum pump, the exhaust end of the boiler system and the air inlet end of the exhaust device are communicated with the cavity inside the sterilization pot; broken packing unit installs lifting machine, breaker and baling press in order by technology upper reaches to technology low reaches, and the side position that is located the breaker installs a storage tank that embeds there is sodium hypochlorite solution, the play liquid end of storage tank switches on with the breaker inside, can spray sodium hypochlorite solution in the hopper of breaker.

Further, the vehicle-mounted compartment is of a cubic box-type structure and comprises a top plate, a bottom plate and two pairs of side plates, wherein any one pair of opposite side plates can be opened in a back-to-back mode, and the two inner side plates are located on the same side of a feeding hole and a discharging hole of the sterilization pot respectively.

Furthermore, each side plate capable of being opened back to back comprises an upper turnover door and a lower turnover door, wherein the upper turnover door is hinged with the top plate, the lower turnover door is hinged with the bottom plate, and the end parts of the upper turnover door and the lower turnover door on the same side can be fixed.

Furthermore, each side plate capable of being opened back to back is positioned outside the box-type structure and is provided with an external rail along the horizontal direction, a feeding vehicle is arranged in the external rail on one side of the feeding hole in a sliding mode, and a transfer vehicle is arranged in the external rail on one side of the discharging hole.

Furthermore, a steam-water separator is installed at the exhaust end of the vacuum pump, and a condensation pipe is installed at the drainage end of the steam-water separator.

Furthermore, a movable waste water barrel is arranged at a water outlet of the water discharging end of the steam-water separator, and waste water generated in the sterilizing pot is discharged into the waste water barrel.

Furthermore, a soft water treatment device is installed at the water inlet end of the boiler system, and a steam boiler is installed at the rear end of the soft water treatment device.

Further, exhaust apparatus is by cooler, tail gas filter core, active carbon filter core and the draught fan of inlet end to exhaust end installation in order.

Furthermore, a gas-collecting hood is hung above the feed inlet of each sterilizing pot, and the exhaust end of the gas-collecting hood is communicated with an exhaust device.

The utility model has the advantages that:

1. the utility model discloses in, including sterilization unit and broken packing unit, wherein, the sterilization unit uses the sterilization pot as the main part, divides the feed inlet and the discharge gate of medical waste material both sides setting, can effectively reduce the probability that takes place cross contamination. The boiler system is used for generating and introducing high-temperature saturated steam, the exhaust device is used for guiding out residual steam and tail gas in the cavity after sterilization, the vacuum pump is used for pumping air in the sterilization pot to negative pressure during sterilization, and the vacuum pump has the functions of dehumidifying and drying after sterilization, so that waste water and waste gas in the sterilization pot can be effectively guided out. The lifting machine of broken packing unit is used for promoting the material that the sterilization pot derived to the breaker in, and the broken in-process of breaker sprays through the built-in sodium hypochlorite solution of storage tank, and the sodium hypochlorite solution can effectively carry out secondary sterilization as good disinfectant, and the probability of containing pathogenic substance in the piece after guaranteeing to break is extremely low, packs through the baling press at last and handles the follow-up transportation of being convenient for.

2. The utility model discloses in, adopt the boxed structure of cube as sterilization unit and broken packing unit carrier, the curb plate of two subtend settings sets up respectively at feed inlet and discharge gate position, carries out the feeding respectively and the ejection of compact, and the door that turns up cooperatees with the door that turns down and can realize opening and the locking, compares in the side structure of opening the door, and it is convenient for operate to open the radius.

3. The utility model discloses in, the use of external orbital design cooperation feed carriage and transfer car, feeding, the ejection of compact and the transportation that can make things convenient for the sterilization pot also play the effect of direction, avoid because the difference of operating personnel manual operation leads to the unrestrained of feeding or the ejection of compact. When in use, the novel multifunctional combined box-type structure is only temporarily built, and can be detachably placed in the box-type structure or transported by other devices after use.

4. The utility model discloses in, catch water is used for handling respectively tail gas and waste water in the sterilization pot, and leading-in movable waste water bucket is collected and centralized processing after the waste water through the condensation, and waste gas then loops through cooler, tail gas filter core and active carbon filter core and collects step by step.

5. The utility model discloses in, the steam boiler system is used for forming steam by the leading-in tap water of outside water source, and outside leading-in water source is at first removed the magnesium through soft water processing apparatus and is removed the water source as steam boiler after calcium etc. handle.

6. The utility model discloses in, the effect of gas collecting channel is used for collecting the gas of sterilization pot feed inlet position, avoids being mingled with the air that has pathogenic substance to cause the pollution to sterilization pot contact site.

Drawings

Fig. 1 is a top view of the structure of the present invention;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a side view of the structure of the present invention;

figure 4 is a pipeline connection diagram of the sterilization pot part of the utility model.

Drawing notes: 1. a steam-water separator a; 2. a vacuum pump a; 3. a sterilizing pot a; 4. b, sterilizing the pan; 5. a vacuum pump b; 6. a steam-water separator b; 7. an air compressor; 8. an electric control cabinet; 9. a steam boiler; 10. a soft water treatment device; 11. a boiler system; 12. a crushing and packaging unit; 13. a diesel generator; 14. storage tanks (sodium hypochlorite); 15. a cooler; 16. a tail gas filter element; 17. an activated carbon filter element; 18. an induced draft fan; 19. a turnover barrel; 20. a mobile hoist; 21. a feeding box; 22. an upturning door; 23. a gas-collecting hood; 24. a transfer trolley; 25. a waste water tank; 26. a downward-turning door; 27. a feeding vehicle; 28. an external track; 29. a noncondensable gas pipeline; 30. a vacuum pumping pipeline; 31. a waste water line; 32. a steam line; 33. a tail gas pipeline; 34. sodium hypochlorite solution pipeline.

Detailed Description

The present invention is further illustrated by the following examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.

The utility model provides a portable on-vehicle medical waste emergency treatment system, the innovation of the utility model lies in, including steam sterilization unit and broken packing unit 12, this sterilization unit and the integrated installation of broken packing unit are in on-vehicle carriage, steam sterilization unit includes sterilization pot a3 and sterilization pot b4, and every sterilization pot all is provided with feed inlet and discharge gate, the feed inlet and the discharge gate of sterilization pot can be sealed, and its inside cavity forms seal structure, steam sterilization unit still includes vacuum pump, boiler system and exhaust apparatus, and wherein, the induction terminals of vacuum pump a2 and vacuum pump b5 switch on with sterilization pot a3 and sterilization pot b4 respectively, and the induction terminals of boiler system exhaust end and exhaust apparatus all communicate with the inside cavity of sterilization pot; broken packing unit installs lifting machine, breaker and baling press in order by technology upper reaches to technology low reaches, and the side position that is located the breaker installs a storage tank 14 that embeds there is sodium hypochlorite solution, the play liquid end of storage tank switches on with the breaker inside, can spray sodium hypochlorite solution in the hopper of breaker.

In this embodiment, in order to control the start and stop of the vacuum pumps a and b, an electric control cabinet 8 is arranged beside the vacuum pumps a and b, and the electric control cabinet is communicated with the control ends of the vacuum pumps a and b.

In this embodiment, it is preferable that the sterilization unit and the crushing and packaging unit are respectively arranged in two vehicle-mounted compartments, are respectively hoisted and transported during transportation, and are combined and used on the spot during use.

In this embodiment, the external power supply may be a vehicle-mounted power supply system, and the system includes a diesel generator 13, an oil tank, and a control cabinet. The generator and the oil tank are arranged in the container of the crushing and packaging unit. The control cabinet of the crushing and packaging unit and the crushing and packaging unit are integrated equipment. The control cabinet of the steam sterilization unit is arranged in the container of the steam sterilization unit, and the power line of the control cabinet is connected with the boiler system (containing the softened water device), the sterilization pot and the exhaust device. The control system combines PLC touch screen control and microcomputer operation, and is provided with a temperature and pressure detection device and an alarm device.

The system control software adopts a programmable control scheme to carry out automatic control, including testing the air removal effect and the equipment sealing performance; displaying the running state of the sterilization pot in real time, wherein the running state comprises the stage, the sterilization temperature, the sterilization time, the sterilization pressure and the drying time; in the operation process, the temperature and the pressure in the sterilization pot are tracked and fed back in real time, and after the treatment process is finished, the parameters of the whole treatment process are stored in a computer system and are stored for two years as backup records; besides automatic control, a manual operation mode is also set; the automatic control system has a fault self-detection function, can realize alarming and emergency stop under abnormal conditions of overtemperature, overpressure, power failure, water and gas cut-off, misoperation and the like, and can realize the interlocking function of the sterilization pot when the operation is not finished.

The scheme is provided with a generator system for the medical waste disposal vehicle, and can ensure the power supply requirement of the whole system under any condition. In addition, the two containers are respectively provided with a lighting system so as to be convenient for night operation.

In this embodiment, the on-vehicle carriage is the box structure of a cube, including roof, bottom plate and two pairs of curb plates, and wherein arbitrary a pair of relative curb plate can be opened dorsad, and this two curb plates to it is located the feed inlet and the discharge gate homonymy of sterilization pot respectively.

In this embodiment, each of the side panels includes an upper flap door 22 and a lower flap door 26, wherein the upper flap door is hinged to the top panel, the lower flap door is hinged to the bottom panel, and the ends of the upper flap door and the lower flap door on the same side can be fixed.

In this embodiment, each side plate capable of being opened back to back is provided with an external rail 28 outside the box-type structure along the horizontal direction, a feeding vehicle 27 is slidably mounted in the external rail on the side of the feeding port, an open feeding box 21 is arranged in the feeding vehicle, and a transfer vehicle 24 is mounted in the external rail on the side of the discharging port.

In this embodiment, in order to reduce the chance of contact between the operator and the medical waste, it is preferable that a traveling hoist 20 in which a transfer bucket 19 is mounted be installed at the front end position of the outer straight rail on the side of the inlet port. The turnover barrel is used for containing medical wastes and is lifted to the feeding trolley above the track under the action of the movable hoister.

In this embodiment, a steam-water separator a1 is installed at the exhaust end of the vacuum pump a, a steam-water separator b6 is installed at the exhaust end of the vacuum pump b, and a condenser pipe is installed at the drainage end of the steam-water separator.

In this embodiment, a plurality of pneumatic control valves of air compressor machine and sterilizer switch on respectively, provide the power supply for pneumatic control valve.

In this embodiment, a movable waste water bucket 25 is installed at the water outlet of the steam-water separator.

In this embodiment, the water inlet end of the boiler system 11 is provided with a soft water treatment device 10, and the front end of the soft water treatment device is provided with a steam boiler 9.

In this embodiment, the boiler system is an oil-fired boiler system, and is matched with an automatic water softening device, and a nearby water source is connected to the water softening device, and enters the boiler after being softened, and generates saturated steam of 0.6MPa and 165 ℃. The generated steam is conveyed to the sterilizing pot through a steam pipeline. The system is provided with 1 oil-fired boiler with rated gas production of 200kg/h, the boiler operation system is fully automatically controlled, the steam pressure is stable, the fluctuation quantity is not more than 10%, and the system is provided with a safety valve, a pressure controller and other overpressure protection to prevent explosion accidents caused by overlarge pressure of the boiler; meanwhile, the boiler has the limit low water level protection, the boiler can automatically stop working under the condition that water supply is stopped, and the phenomenon that the electric heating element is damaged or even burnt out due to dry burning of the boiler is avoided.

In this embodiment, the exhaust apparatus includes cooler 15, tail gas filter core 16, active carbon filter core 17 and draught fan 18 installed in order from the inlet end to the exhaust end.

In this embodiment, a gas-collecting hood 23 is suspended above the feed inlet of each sterilizing pot, and the exhaust end of the gas-collecting hood is communicated with an exhaust device.

In this embodiment, the sterilizer is connected to the exhaust unit via a noncondensable gas line 29. The interior of the exhaust system is connected via an exhaust line 33. The sterilization pot is communicated with a vacuum pump through a vacuum pumping pipeline 30. The drainage end of the steam-water separator is communicated with the waste water barrel through a waste water pipeline 31, and in addition, if waste water is remained after the sterilization process of the sterilization pot, the generated waste water is also communicated with the waste water barrel. The sterilization pot and the boiler system are communicated through a steam pipeline 32.

In this embodiment, a certain amount of non-condensable gas is discharged during the operation of the sterilization pot, and the non-condensable gas may contain pollutants such as microorganisms, Volatile Organic Compounds (VOCs), heavy metals, and the like, and therefore, the non-condensable gas must be treated and then discharged. Filtering the non-condensable gas by a tail gas filter (adopting a 0.2 mu m tail gas filter, resisting temperature not lower than 140 ℃, arranging an air inlet and outlet valve, a pressure instrument and a drain valve on the filter, ensuring that the filtering efficiency is over 99.999 percent) and performing activated carbon adsorption (the adsorption removal rate is not lower than 90 percent) to achieve the standard and discharge. The emission standard meets the relevant requirements of 'comprehensive emission standard of atmospheric pollutants' and 'malodorous emission standard'.

In this embodiment, the storage tank is connected to the crushing and packaging unit through a sodium hypochlorite solution pipeline, wherein a liquid outlet of the sodium hypochlorite solution pipeline is located at a feeding position of the crusher.

The utility model discloses a working process is:

the utility model discloses during the use, operating personnel transports steam sterilization unit and broken packing unit to the position of needs respectively to open two boxed structure's the door that turns over on with turn over down the door respectively, the preparation can be accomplished in the debugging circular telegram.

Before medical waste transports, operating personnel need to build external track respectively in feed inlet and discharge gate position to at the portable lifting machine of external track front end installation in feed inlet position, later can transport medical waste. The medical waste is transported into the turnover barrel, the medical waste is conducted into the feeding vehicle under the action of the movable elevator, the feeding vehicle enters the feeding port of the sterilizing pot along the external track, and the heating and sterilizing treatment can be carried out after the feeding port is closed.

The process of temperature rise sterilization is as follows:

feeding: after the medical waste sterilization pot is fastened by a door, the medical waste sterilization pot is opened for operation;

second, pulsating vacuum: the air in the sterilization pot is pumped to negative pressure by using a vacuum pump, the air exhaust rate in the sterilization chamber is ensured to be more than 98.5 percent, and the air is mixed and contacted with steam, so that germs possibly mixed in the air in the sterilization pot can be killed;

thirdly, heating and sterilizing: introducing saturated steam to make the temperature in the sterilizer exceed 134 deg.C, and automatically timing for 45 min;

discharging steam: after sterilization is finished, the automatic exhaust valve is opened, indoor steam is guided into the condenser to be cooled, and then the indoor steam is collected in the waste water barrel and is discharged to a sewage pipeline;

after the pressure in the sterilization pot is reduced, activating and vacuumizing a vacuum pump again, completely pumping out water vapor in the sterilization chamber, and discharging the water vapor into a wastewater treatment system after condensation;

drying: after the sterilization operation is finished, the vacuum pump is opened to suck the cavity of the sterilization pot, so that the effect of drying the sterilization pot is achieved;

and seventhly, discharging: after the whole sterilization working process is finished, the door is opened, and the transfer trolley is pulled out.

In the process, the degree of vacuum pumping in the sterilization chamber is 0.08MPa, and the times of the cycle process of vacuum pumping and steam filling are 3 times. Finally, the air discharge rate in the sterilizing chamber is 98.5%. After the vacuumizing is finished, the reduction value of the vacuum degree of the sterilizing chamber is not more than 1.3kPa (10mmHg) within 10 min. Meanwhile, before the first sterilization or after installation and maintenance every day, B-D test is carried out under the condition that the sterilizer is unloaded so as to test the vacuumizing and steam penetration performance of the high-temperature steam equipment. The specific parameters of the B-D test are as follows: the vacuum-pumping and steam-charging are circulated for 3 times, the sterilization temperature is 134 ℃, the sterilization pressure is 210kPa, and the sterilization time is 4 min. The test paper of the German BROWNE company is adopted, and the B-D test is unqualified, which indicates that the sterilizer has a fault or is not operated properly and needs to be treated in time.

The system is provided with 2 steam sterilizing pots with the size of 1m3, and the actual feeding volume is 0.6m 3. The total daily treatment capacity of 2 sterilizing pots is about 3 tons.

Then the materials are transferred to a crushing and packaging unit, lifted to the top of the equipment by a material lifter, and turned and blanked to a hopper of a crusher; a disinfection spraying system is arranged in the hopper, the disinfectant is sodium hypochlorite, and a sodium hypochlorite medicament is sprayed in the hopper to carry out secondary sterilization, so that the medical waste is further ensured to be thorough without residual germs; the materials are crushed into strips in a crusher, then fall to a packer, are compressed into blocks, and are packed and transported outside. The equipment is full-sealing device, does not produce waste gas, in compression process, can extrude a small amount of waste water, and the waste water discharge port is located the equipment bottom, places the collecting vessel outside the car, and the connecting tube causes waste water to the bucket in, regularly discharges the sewer pipe after collecting.

Claims (9)

1. The utility model provides a portable on-vehicle medical waste emergency treatment system which characterized in that: the steam sterilization unit comprises a vacuum pump, a boiler system and an exhaust device, wherein the air suction end of the vacuum pump, the exhaust end of the boiler system and the air inlet end of the exhaust device are communicated with the cavity inside the sterilization pot; broken packing unit installs lifting machine, breaker and baling press in order by technology upper reaches to technology low reaches, and the side position that is located the breaker installs a storage tank that embeds there is sodium hypochlorite solution, the play liquid end of storage tank switches on with the breaker inside, can spray sodium hypochlorite solution in the hopper of breaker.

2. The mobile vehicle medical waste emergency treatment system of claim 1, wherein: the vehicle-mounted compartment is of a cubic box-type structure and comprises a top plate, a bottom plate and two pairs of side plates, wherein any one pair of opposite side plates can be opened in a back-to-back mode, and the two inner side plates are located on the same side of a feeding hole and a discharging hole of the sterilization pot respectively.

3. The mobile vehicle medical waste emergency treatment system of claim 2, wherein: each side plate capable of being opened back to back comprises an upper turnover door and a lower turnover door, wherein the upper turnover door is hinged with a top plate, the lower turnover door is hinged with a bottom plate, and the end parts of the upper turnover door and the lower turnover door on the same side can be fixed.

4. The mobile vehicle medical waste emergency treatment system of claim 3, wherein: each side plate capable of being opened back to back is positioned outside the box-type structure and is provided with an external rail along the horizontal direction, the external rail positioned on one side of the feeding hole is internally provided with a feeding vehicle in a sliding manner, and the external rail positioned on one side of the discharging hole is internally provided with a transfer vehicle.

5. The mobile vehicle medical waste emergency treatment system of claim 1, wherein: and a steam-water separator is arranged at the exhaust end of the vacuum pump, and a condensation pipe is arranged at the drainage end of the steam-water separator.

6. The mobile vehicle medical waste emergency treatment system of claim 5, wherein: a movable waste water barrel is arranged at a water outlet of the water discharging end of the steam-water separator, and waste water generated in the sterilizing pot is discharged into the waste water barrel.

7. The mobile vehicle medical waste emergency treatment system of claim 1, wherein: the water inlet end of the boiler system is provided with a soft water treatment device, and the rear end of the soft water treatment device is provided with a steam boiler.

8. The mobile vehicle medical waste emergency treatment system of claim 1, wherein: exhaust apparatus is including cooler, tail gas filter core, active carbon filter core and the draught fan of installing in order by inlet end to exhaust end.

9. The mobile vehicle medical waste emergency treatment system of claim 1, wherein: and a gas-collecting hood is hung above the feed inlet of each sterilizing pot, and the exhaust end of the gas-collecting hood is communicated with an exhaust device.

Images